James Cook University Course and Subject Handbook - 2005

FACULTY OF SCIENCE, ENGINEERING AND INFORMATION TECHNOLOGY

FACULTY OF SCIENCE, ENGINEERING AND INFORMATION TECHNOLOGY — POSTGRADUATE AWARD REQUIREMENTS

GENERAL

1.1 The graduate degrees shall be:

Master of Applied Science MAppSc
Master of Astronomy MAstron
Master of Astronomy Education MAstronEd
Master of Computational Engineering MCompEng
Master of Engineering ME
Master of Engineering Management
Course disestablished		 MEngMgmt
Master of Engineering Science MEngSc
Master of Information Technology MInfTech
Master of Information Technology-Master of Business Administration MInfTech-MBA
Master of Science MSc
National Geoscience Masters (by coursework) in Economic Geology NatGeoScMEcGeol

1.2 There shall be awards of:

Postgraduate Diploma of Computational Engineering PGDipCompEng
Graduate Diploma of Astronomy GDipAstron
Graduate Diploma of Biotechnology GDipBiotech
Graduate Diploma of Information Technology GDipInfTech
Graduate Diploma of Science GDipSc
Postgraduate Certificate of Computational Engineering PGCertCompEng
Graduate Certificate of Astronomy GCertAstron
Graduate Certificate of Biotechnology GCertBiotech
Graduate Certificate of Engineering GCertE
Graduate Certificate of Information Technology GCertInfTech
Graduate Certificate of Science GCertSc

1.3 Higher Doctorate awards associated with this Faculty are:

Doctor of Astronomy DAstron
Doctor of Engineering DEng
Doctor of Science DSc
(Award requirements are shown on page pages 451-452 and 456-457.)

MASTER OF APPLIED SCIENCE

1. ENROLMENT IN THE DEGREE

The degree of Master of Applied Science may be undertaken in the schools and institutes listed in Schedule A below.

2. A person may be approved to enrol for the degree if that person has qualified in this or another recognised institution of higher education for a Bachelor degree or its equivalent provided that the faculty, on the recommendation of the appropriate Head of School, is satisfied that the candidate has sufficient qualifications and/or experience for admission to candidature.

3.1 REQUIREMENTS FOR THE DEGREE

A student for the degree shall pursue studies to obtain normally a minimum of 36 units.

3.2 The 36 units from 3.1 above, shall be obtained in accordance with the requirements set out in the selected major of study or as decided by the relevant Head(s) of Schools.

3.3 A student must complete at least 18 units in the discipline in which he/she is taking out the degree or as specified by the relevant Head(s) of Schools.

4. PERIOD OF CANDIDATURE

A student shall complete the requirements for the degree normally in three semesters and not more than two calendar years in the case of a full-time student and normally in six semesters and not more than four calendar years for a part-time student. The minimum period of candidature will be one calendar year.

5. CREDIT FOR OTHER STUDIES

Credit may be granted for:

6. EXEMPTION FOR OTHER STUDIES

Exemption may be granted for a maximum of 9 units for relevant subjects completed at the undergraduate level provided that additional postgraduate subjects approved by the Head of the appropriate School are completed to bring to 36 the total units completed for the degree.

7.1 EVALUATION BY RESEARCH OPTION

If the research option is taken then the submission of the original and two copies of the dissertation or report on an approved research topic is to be submitted for examination.

7.2 The Heads of the Schools in which the student is registered shall nominate the names of two examiners. These may both be internal or one or both may be external.

7.3 The dissertation or report normally is to have a minimum value of 12 units and a maximum value of 15 units.

7.4 The faculty, on considering the reports of the examiners, may recommend the award of the degree, refuse the degree or require the student to submit to further examination.

7.5 On completion of all requirements to the satisfaction of the faculty and on the recommendation of the school, the faculty will recommend the award of the degree.

7.6 A copy of the dissertation or report shall be kept in the school and/or in the Library.

8. AWARD

A student who has complied with all the requirements, together with all other relevant statutes and requirements shall be recommended for the award of Master of Applied Science.

9. ENTRY TO A MASTER OF SCIENCE

A student who has completed the requirements of the Master of Applied Science including the attainment of at least a credit grade in the project option may apply to the Head of the appropriate School/Institute for approval to enrol in a Master of Science.

SCHEDULE A SCHOOLS

MASTER OF ASTRONOMY

1. A Master of Astronomy may be undertaken in the Centre for Astronomy in the School of Mathematical and Physical Sciences.

2. A person may enrol for the Master of Astronomy if that person:

3. PERIOD OF THE CANDIDATURE

A student shall normally complete the requirements for the degree in three semesters of full-time equivalent study. The maximum duration shall be three years full-time equivalent (six semesters).

4. EVALUATION

A candidate shall normally complete the subjects AS5011 and AS5012 together with other subjects from the schedule to bring the total number of units to 36. Any variation to this must be approved by the Head of the School of Mathematical and Physical Sciences.

5. Appeal procedures are as per the University appeals procedures.

6. A student who has complied with the provisions of these requirements and all other Statutes and Requirements of the University shall be recommended by the faculty for the award of the Master of Astronomy.

7. CREDIT FOR PREVIOUS STUDIES

A student who has completed the requirements for the Graduate Certificate of Astronomy and/or the Graduate Diploma of Astronomy may be given full advanced standing for the units in the Graduate Certificate and/or Graduate Diploma towards the Master of Astronomy provided the Graduate Certificate and/or Graduate Diploma of Astronomy awards are surrendered.

8. A student who, at this or another institution of higher education, has passed a subject which is deemed by the faculty, on the advice of the Head of the School of Mathematical and Physical Sciences, to be equivalent to a subject set out in the specified program shown under Postgraduate Courses may be granted credit for that subject by the faculty, up to a maximum of 18 units.

Schedule

AS5011:06 Modern Astrophysics
AS5012:06 Astronomy Instrumentation
AS5021:06 The Solar System
AS5022:06 Galactic Astronomy and Cosmology
AS5031:06 Special Astronomy Topic A
AS5032:03 Special Astronomy Topic B
AS5033:03 Special Astronomy Topic C
AS5041:06 Astronomy Literature Review
AS5042:06 Pilot Research Project

MASTER OF ASTRONOMY EDUCATION

1. A Master of Astronomy Education may be undertaken in the Centre for Astronomy in the School of Mathematical and Physical Sciences.

2. A person may enrol for the Master of Astronomy Education if that person:

3. PERIOD OF THE CANDIDATURE

A student shall normally complete the requirements for the degree in three semesters of full-time equivalent study. The maximum duration shall be three years full-time equivalent (six semesters).

4. EVALUATION

A candidate shall normally complete 36 units of subjects from the schedule. Any variation to this must be approved by the Head of the School of Mathematical and Physical Sciences.

5. The candidate must complete the four compulsory Group A subjects (24 units) from the Schedule. At least two of these subjects must be completed before the student commences subjects in Group B and /or Group C.

6. The candidate must complete 12 units of subjects chosen from Group B and/or Group C.

7. Appeal procedures are as per the University appeals procedures for the Masters degrees.

8. A student who has complied with the provisions of these requirements and all other Statutes and Requirements of the University shall be recommended by the faculty for the award of Master of Astronomy Education.

9. CREDIT FOR PREVIOUS STUDIES

A student who has completed the requirements for the Graduate Certificate of Astronomy and/or the Graduate Diploma of Astronomy at this University may be given full advanced standing for the units in the Graduate Certificate and/or Graduate Diploma towards the Master of Astronomy Education provided the Graduate Certificate and/or Graduate Diploma of Astronomy awards are surrendered.

8. A student who, at this or another institution of higher education, has passed a subject which is deemed by the faculty, on the advice of the Head of the School of Mathematical and Physical Sciences, to be equivalent to a subject set out in the specified program may be granted credit for that subject by the faculty in accordance with the University’s Framework for Postgraduate Courses.

Schedule - Group A (Compulsory Subjects) Semester 1 and 2

AS5011:06 Modern Astrophysics
AS5012:06 Astronomy Instrumentation
AS5021:06 The Solar System
AS5022:06 Galactic Astronomy and Cosmology

Schedule - Group B (Elective Subjects) Semester 1

ED5091:04 Individual Subject
ED5190:04 Introduction to Educational Research
ED5820:04 Learning Technology in Schools
ED5881:04 Shaping Curriculum - Construction, Implementation and Review

Schedule - Group C (Elective Subjects) Semester 2

ED5091:04 Individual Subject
ED5291:04 Action Research for Educational Development
ED5812:04 Teaching and Learning with the WWW

MASTER OF COMPUTATIONAL ENGINEERING

Note: For domestic students only, the Master of Computational Engineering can be packaged with a Graduate Certificate of Information Technology. The Graduate Certificate of Information Technology adds value and complements the Master of Computational Engineering by enabling students to broaden their skills in Information Technology related areas including programming and internetworking.

The package is available by enrolling in the two awards concurrently. The Master of Computational Engineering in combination with the Graduate Certificate of Information Technology requires two years of study. Combinations of the Master of Computational Engineering with others programs are possible. All concurrent degree enrolments require Executive Dean approval. Please contact the School of Engineering for more information.

1. The degree of Master of Computational Engineering shall consist of 36 units of study.

2. ENTRY REQUIREMENTS

A person may enrol for the degree of Master of Computational Engineering if that person:

3.1 COURSE OF STUDY

Unless granted credit for previous study, a student shall follow the course of study prescribed for the specified program under Postgraduate Courses, to obtain 36 units including:

3.2 Each student shall follow a course of advanced study and investigation including self-study, attending lectures and tutorial classes as prescribed for each subject.

4.1 CREDIT FOR PREVIOUS STUDY

A student who has completed the requirements for the Postgraduate Certificate of Computational Engineering or the Postgraduate Diploma of Computational Engineering may be given full advanced standing for the units in the Postgraduate Certificate or Postgraduate Diploma towards the Master of Computational Engineering provided the Postgraduate Certificate or Postgraduate Diploma of Computational Engineering is surrendered.

4.2 A student who, at another institution of higher education, has passed a postgraduate subject which is deemed by the School of Engineering to be equivalent to a subject set out in the specified program shown under Postgraduate Courses, may be granted credit for that subject, up to a maximum of 12 units.

5. DURATION

Each student shall complete the requirements for the degree, either full-time in normally not less than one year nor more than two years, or part-time in normally not less than two years nor more than four years.

6.1 ASSESSMENT

Assessment may include any or all of the following: assignments, a research project, report and oral presentation, quizzes, tests and examinations.

6.2 A student who has complied with the provisions of these Requirements and all other relevant Statutes and Requirements of the University shall be recommended by the faculty for the award of Master of Computational Engineering.

MASTER OF ENGINEERING

1. The degree of Master of Engineering is a professional award for postgraduate study which can be obtained by assessment of work undertaken in professional practice.

2. ENTRY REQUIREMENTS

To qualify for admission to candidature an applicant shall have satisfied the conditions specified in the Degree of Master of Engineering Science Requirement 2 above or shall have completed the requirements for:

3. PROFESSIONAL PRACTICE DEGREE

This degree program shall comprise 24 units of design/development project work.

4. Each student shall submit evidence satisfactory to the Head of School that proficiency has been acquired in that branch of Engineering in which the material is being presented for examination.

5. COURSE OF STUDY

Each student for the degree shall carry out in industry a research, design or development project in accordance with a plan approved by the Head of School.

6. DURATION

Each student shall enrol annually for a period of not less than two years nor more than five years.

7.1 ASSESSMENT

Each student shall submit:

7.2 No student may submit for examination, work in respect of which the student has already qualified for a degree in any university or, without the permission of the faculty, work which has previously been submitted for any such degree.

7.3 The original and two copies of the material required under Requirement 7.1 shall be submitted to the Registrar.

7.4 The Head of School shall advise the Registrar in writing of the names of not less than two examiners, at least one of whom shall be external to the University. The student’s supervisor shall not be an examiner.

8. A student who has fulfilled the conditions prescribed in Requirement 7 and has satisfied the examiners shall be eligible for the award of the degree of Master of Engineering.

MASTER OF ENGINEERING MANAGEMENT

Note: The Master of Engineering Management has been disestablished. No new enrolments will be accepted. Students currently enrolled may continue their studies in the award.

1. The degree of Master of Engineering Management program shall comprise 36 units of study including 30 units of coursework and six units of project work.

2. ENTRY REQUIREMENTS

To qualify for admission to candidature, an applicant shall have satisfied the conditions specified in Master of Engineering Science Requirement 2 or Master of Engineering Requirement 2.

3.1 COURSE OF STUDY

Each student for the degree shall follow a course of advanced study and investigation, attend lectures and tutorial classes and carry out other work in accordance with a plan approved by the Head of School of Engineering.

3.2 Each student shall carry out an engineering management project or investigation as required by the student’s supervisor(s).

4. DURATION

Each student shall complete the requirements for the degree, either full-time in normally not less than one year nor more than two years, or part-time in normally not less than two years nor more than four years.

5.1 ASSESSMENT

Each student shall submit reports and pass examinations as prescribed from time to time by the Head of School.

5.2 Each student shall submit a report on the engineering management project or investigation as set out in Requirement 3.2.

5.3 The original and two copies of the report shall be submitted to the Head of School who will nominate an examiner who shall not be the student’s supervisor.

6. A student who has fulfilled the conditions prescribed in Requirement 5 and has satisfied the examiner shall be eligible for the award of the degree of Master of Engineering Management.

MASTER OF ENGINEERING SCIENCE

1. ENTRY REQUIREMENTS

To qualify for admission to candidature an applicant shall have completed the requirements for:

2.1 COURSE OF STUDY

The Master of Engineering Science is predominantly a research degree. The candidate will conduct a research project that is approved by the BPSC.

2.2 The degree may include coursework up to the value of 9 units that is either specified by the Head of the School of Engineering or desired by the candidate in order to broaden or strengthen the student’s knowledge of his/her research area.

3. DURATION

Each student shall complete the requirements for the degree, either full-time in normally not less than one year nor more than two years, or part-time in normally not less than two years nor more than four years.

4. SUPERVISION

A candidate enrolled for the Master of Engineering Science shall be assigned a Principal Supervisor and a Co-supervisor or Associate Supervisor who shall be members of the staff of the University and on the Register of Supervisors of the University.

5. CONFIRMATION OF CANDIDATURE

The candidate shall apply to have their candidature confirmed, normally within the first four months of enrolment for a full-time candidate; or normally within the first eight months of enrolment for a part-time candidate.

6. FINAL YEAR (EXIT) SEMINAR PRESENTATION

A candidate shall at a seminar present an overview and synthesis of major findings of the thesis in a public forum during the final year of candidature.

7.1 ASSESSMENT

A candidate shall submit a thesis embodying the results of the research.

7.2 The original and two copies of the thesis shall be submitted to the Graduate Research School.

7.3 The Head of the School of Engineering shall advise the Graduate Research School in writing of the names of not less than two examiners, at least one of whom shall be external to the University. The student’s supervisor shall not be an examiner.

7.4 The degree may be conferred only when a final unbound copy, and normally a PDF file, of the thesis have been deposited in the Library or a written guarantee has been provided by the appropriate Head of School that the said School holds all the material necessary for the preparation of these copies.

8.1 APPEAL

A candidate affected by a decision of the Board of Postgraduate Studies Committee pursuant to the Masters by Research requirements may appeal against the decision. Such appeal shall be instituted by a notice in writing setting out the grounds thereof and shall be submitted to the University Registrar within 28 days of the notification to the candidate of the decision appealed from.

8.2 The Appeal shall be determined by an Appeal Panel which is independent of the Board of Postgraduate Studies and established by the University Registrar.

8.3 The Appeal Panel shall consist of the Chair, Academic Board (or nominee) (Chair) and four members appointed by the Chair. Two members of the Appeal Panel shall be postgraduate students chosen in consultation with the President of the Postgraduate Student Association.

8.4 The Appeal Panel shall meet within 28 days of the University Registrar receiving the notice in writing from the candidate as outlined in Requirement 8.1 above.

8.5 The Appeal Panel shall consider only:

8.6 The candidate shall have the right to be heard in person or to make submissions in writing; and to be represented by the Student Association Academic Support Services Coordinator, the Student Association Welfare Coordinator, or another member of the University community not acting in a legal capacity, provided that any candidate to be so represented must notify the University Registrar at least 48 hours prior to the time set for the appeal.

8.7 The Appeal Panel shall have the power to allow or dismiss an appeal against the decision; or vary the decision of the Board of Postgraduate Studies Committee.

8.8 The Chair of the Appeal Panel shall notify the University Registrar forthwith of its decision and reasons and the University Registrar shall notify in writing the student within 14 days of the Appeal Panel’s decision. The Chair of the Appeal Panel shall also advise the Board of Postgraduate Studies Committee of the outcome and any recommendations made by the Appeal Panel.

8.9 The Appeal Panel’s decision shall be final.

MASTER OF INFORMATION TECHNOLOGY

1. REQUIREMENTS FOR CANDIDATURE

A person may enrol for the Master of Information Technology if that person:

2. PROGRAM OF STUDY

Unless granted credit for previous study, a student shall follow the course of study prescribed under Postgraduate Courses, to obtain 36 units in one of the fields of study specified in Schedule A below.

3. To complete a subject a student shall satisfy the written, practical and other examination requirements designated by the relevant Head of School and approved by the faculty.

4. Except with the approval of the Executive Dean, a student may not enrol for any subject until credit has been obtained for any prerequisite subject or subjects as listed in the Master Schedule of Subjects.

5. CREDIT FOR PREVIOUS STUDY

Students transferring from the Graduate Certificate of Information Technology or the Graduate Diploma of Information Technology may be awarded credit for subjects studied under the Graduate Certificate or Graduate Diploma, provided that award is surrendered.

6. Credit of up to 12 units may be granted for relevant previous study that has not been credited to an undergraduate award.

A – Fields of Study SCHEDULE

A – Fields of Study E-Business

A – Fields of Study Industry Research and Development

A – Fields of Study Multimedia

A – Fields of Study Networking

A – Fields of Study Science Informatics

MASTER OF INFORMATION TECHNOLOGY (EXTENDED)

Note: The Master of Information Technology (Extended) is designed for students whose background is not in IT. The course includes a bridge of four subjects specified by the Head of School of Information Technology to extend the background IT knowledge of the particular student.

1. REQUIREMENTS FOR CANDIDATURE

A person may enrol for the Master of Information Technology (Extended) if that person:

2. PROGRAM OF STUDY

Unless granted credit for previous study, a student shall follow the course of study prescribed under Postgraduate Courses, to obtain 48 units in one of the fields of study specified in Schedule A below.

3. To complete a subject a student shall satisfy the written, practical and other examination requirements designated by the relevant Head of School and approved by the faculty.

4. Except with the approval of the Executive Dean, a student may not enrol for any subject until credit has been obtained for any prerequisite subject or subjects as listed in the Master Schedule of Subjects.

5. CREDIT FOR PREVIOUS STUDY

Students transferring from the Graduate Certificate of Information Technology or the Graduate Diploma of Information Technology may be awarded credit for subjects studied under the Graduate Certificate or Graduate Diploma, provided that award is surrendered.

6. Credit of up to 12 units may be granted for relevant previous study that has been taken at the same level as the subjects for which credit is to be granted.

A – Fields of Study SCHEDULE

A – Fields of Study E-Business

A – Fields of Study Industry Research and Development

A – Fields of Study Multimedia

A – Fields of Study Networking

A – Fields of Study Science Informatics

MASTER OF INFORMATION TECHNOLOGY BY RESEARCH

1.1 ENTRY CRITERIA

Admission is normally granted on the basis of a Bachelors degree in a relevant discipline with Honours Class I or II or a Graduate Diploma of Research Methods (graduates with a three year Bachelors degree) or Graduate Certificate of Research Methods (graduates with a four year Bachelors degree). It is desirable that a grade point average of at least credit level be obtained in the research component of a research methods course.

1.2 Other qualifications will be considered for entry, subject to approval of the Head of the School of Information Technology, certifying that they are at least equivalent to the standard entry criteria. This normally includes the following:

2. SUPERVISION

A candidate enrolled for the Master of Information Technology by Research shall be assigned a Principal Supervisor and a Co-supervisor or Associate Supervisor who shall be members of the staff of the University and on the Register of Supervisors of the University.

3. CONFIRMATION OF CANDIDATURE

A candidate shall apply to have his/her candidature confirmed, normally within the first four months of enrolment for a full-time candidate; or normally within the first eight months of enrolment for a part-time candidate.

4. FINAL YEAR (EXIT) SEMINAR PRESENTATION

A candidate shall at a seminar present an overview and synthesis of major findings of the thesis in a public forum during the final year of candidature.

5.1 ASSESSMENT

A candidate shall submit a thesis embodying the results of the research within a minimum of 12 months and a maximum of 18 months of confirmation of candidature.

5.2 The original and two copies of the thesis shall be submitted to the Graduate Research School.

5.3 The Head of the School of Information Technology shall advise the Graduate Research School in writing of the names of not less than two examiners, at least one of whom shall be external to the University. The student’s supervisor shall not be an examiner.

5.4 The degree may be conferred only when a final unbound copy, and normally a PDF file, of the thesis have been deposited in the Library or a written guarantee has been provided by the appropriate Head of School that the School holds all the material necessary for the preparation of these copies, and will submit to the Library in due course.

6.1 APPEAL

A candidate affected by a decision of the Board of Postgraduate Studies Committee pursuant to the Masters by Research requirements may appeal against the decision. Such appeal shall be instituted by a notice in writing setting out the grounds thereof and shall be submitted to the University Registrar within 28 days of the notification to the candidate of the decision appealed from.

6.2 The Appeal shall be determined by an Appeal Panel which is independent of the Board of Postgraduate Studies and established by the University Registrar.

6.3 The Appeal Panel shall consist of the Chair, Academic Board (or nominee) (Chair) and four members appointed by the Chair. Two members of the Appeal Panel shall be postgraduate students chosen in consultation with the President of the Postgraduate Student Association.

6.4 The Appeal Panel shall meet within 28 days of the University Registrar receiving the notice in writing from the candidate as outlined in Requirement 6.1 above.

6.5 The Appeal Panel shall consider only:

6.6 The candidate shall have the right to be heard in person or to make submissions in writing; and to be represented by the Student Association Academic Support Services Coordinator, the Student Association Welfare Coordinator, or another member of the University community not acting in a legal capacity, provided that any candidate to be so represented must notify the University Registrar at least 48 hours prior to the time set for the appeal.

6.7 The Appeal Panel shall have the power to allow or dismiss an appeal against the decision; or vary the decision of the Board of Postgraduate Studies Committee.

6.8 The Chair of the Appeal Panel shall notify the University Registrar forthwith of its decision and reasons and the University Registrar shall notify in writing the student within 14 days of the Appeal Panel’s decision. The Chair of the Appeal Panel shall also advise the Board of Postgraduate Studies Committee of the outcome and any recommendations made by the Appeal Panel.

6.9 The Appeal Panel’s decision shall be final.

MASTER OF INFORMATION TECHNOLOGY – MASTER OF BUSINESS ADMINISTRATION

1. The joint degree shall be administered jointly by the Executive Dean of the Faculty of Science, Engineering and Information Technology and the Executive Dean of the Faculty of Law, Business and the Creative Arts.

2. REQUIREMENTS FOR CANDIDATURE

A person may enrol for the Master of Information Technology-Master of Business Administration if that person:

3. PROGRAM OF STUDY

Unless granted credit for previous study, a student shall follow the course of study prescribed under Postgraduate Courses, to obtain 48 units.

4. To complete a subject a student shall satisfy the written, practical and other examination requirements designated by the relevant Heads of Schools and approved by the relevant faculties.

5. Except with the approval of the relevant Executive Dean, a student may not enrol for any subject until credit has been obtained for any prerequisite subject or subjects as listed in the Master Schedule of Subjects.

6. CREDIT FOR PREVIOUS STUDY

Students transferring from the Graduate Certificate or Graduate Diploma or Master of Information Technology or Business Administration may be awarded credit for subjects studied under the relevant award, provided that award is surrendered.

7. Credit of up to 12 units may be granted for relevant previous study that has not been credited to an undergraduate award.

8. A candidate who wishes to withdraw from the joint degree and convert their candidature to either the Master of Information Technology or Master of Business Administration, must complete the requirements of the degree in which they subsequently enrol.

MASTER OF INFORMATION TECHNOLOGY (EXTENDED)– MASTER OF BUSINESS ADMINISTRATION

1. The joint degree shall be administered jointly by the Executive Dean of the Faculty of Science, Engineering and Information Technology and the Executive Dean of the Faculty of Law, Business and the Creative Arts.

2. REQUIREMENTS FOR CANDIDATURE

A person may enrol for the Master of Information Technology (Extended)-Master of Business Administration if that person:

3. PROGRAM OF STUDY

Unless granted credit for previous study, a student shall follow the course of study prescribed under Postgraduate Courses, to obtain 60 units.

4. To complete a subject a student shall satisfy the written, practical and other examination requirements designated by the relevant Heads of Schools and approved by the relevant faculties.

5. Except with the approval of the relevant Executive Dean, a student may not enrol for any subject until credit has been obtained for any prerequisite subject or subjects as listed in the Master Schedule of Subjects.

6. CREDIT FOR PREVIOUS STUDY

Students transferring from the Graduate Certificate or Graduate Diploma of Information Technology or Business Administration, or the Master of Information Technology (Extended) or the Master of Business Administration may be awarded credit for subjects studied under the relevant award, provided that the award is surrendered.

7. Credit of up to 12 units may be granted for relevant previous study that has been taken at the same level as the subjects for which credit is to be granted.

8. A candidate who wishes to withdraw from the joint degree and convert their candidature to either the Master of Information Technology (Extended) or Master of Business Administration, must complete the requirements of the degree in which they subsequently enrol.

MASTER OF SCIENCE

1. ENROLMENT IN THE DEGREE

The degree of Master of Science may be undertaken in the schools and centres in the Faculty of Science, Engineering and Information Technology or the Faculty of Medicine, Health and Molecular Sciences listed in Schedule A below. The degree shall be awarded in recognition of research or alternatively for adequate progress in formal coursework combined with research.

2. A person may enrol for the degree of Master of Science if that person has:

3. A student shall be designated as a full-time student or as a part-time student by the faculty upon recommendation of the Head of School in which the student is to be registered.

4.1 SUPERVISION OF CANDIDATES

Before permitting a person to enrol for the degree, the faculty shall be satisfied that adequate facilities are available for the studies proposed.

4.2 A student when enrolled, shall be registered in the appropriate school and assigned to a supervisor who shall be a member of the academic staff. One or more associate supervisors may be appointed on account of their special knowledge of the student’s approved program of study or in order to ensure effective supervision of the candidate during any periods spent external to the University.

4.3 Unless specialist supervision in the particular field of study can be provided by the University, study in an environment external to the University will not be acceptable as a basis for registration for the degree.

4.4 Part-time students must attend the University as required by their supervisors and approved by the faculty. Applications for enrolment will be considered only if the faculty is satisfied that the attendance requirements can be met.

4.5 Periodically the supervisor may be requested by the Head of School to report on the student’s work. If, in the opinion of the Head of School, the student’s progress is unsatisfactory the Head may advise the faculty, which may terminate the candidature or take such other action as it deems necessary.

4.6 A student may be required by the Head of School to attend specified courses of study.

5.1 DURATION AND PROGRESS

The student shall undertake a course of study leading to the submission of a thesis for examination. The thesis may not be submitted by a student earlier than one calendar year nor later than two (for a full-time student) or four (for a part-time student) calendar years after enrolment, except that in special circumstances the faculty may grant an extension of the relevant period.

5.2 A minor portion of the thesis may cover work undertaken before enrolment provided that this work has not been used in gaining another academic qualification.

5.3 Published contributions may be submitted to support or to form part of the thesis.

5.4 Students should present a progress seminar to members of the relevant school within six months of enrolment. The Head of School will report to the Executive Dean. All students shall present a progress report at the completion of each 12 months of candidature unless the thesis is ready for submission within eight weeks of this period.

5.5 Students may at the discretion of the Executive Dean on the advice of the appropriate school be granted an extension or suspension. The period for an extension will normally be up to 6 months for a full-time candidate and 12 months for a part-time candidate. Suspension of candidature will not normally exceed 12 months.

6.1 EXAMINATION

On completion of the thesis an original and two copies of the thesis
The form of presentation of dissertation or thesis is available at the University Library., together with any separate published material, shall be submitted to the Registrar of the University.

6.2 The faculty, on the advice of the Head of School in which the student is registered, shall appoint two examiners of whom at least one shall be external to the University.

6.3 The faculty, on the recommendation of the examiners, may require the student to undertake a written or an oral examination or both.

6.4 The faculty, on considering the reports of the examiners, may recommend the award of the degree, refuse the degree, appoint another examiner or require the student to resubmit the thesis either re-written or including further research material. A student who fails to satisfy the examiners after resubmission of the thesis, shall not again be eligible for candidature for a Master’s degree in the same discipline.

6.5 Grade awarded to overall degree to be pass or fail only.

6.6 All corrections if requested are to be made:

6.7 Award of the degree to be conferred when the following condition has been met: an acid free copy plus supporting documentation of the thesis has been deposited in the Library or a written guarantee has been provided by the school concerned that the said school holds all the material necessary for preparation of said copy.

SCHEDULE A SCHOOLS

NATIONAL GEOSCIENCE MASTERS (BY COURSEWORK) IN ECONOMIC GEOLOGY

1. The joint degree shall be administered by the Executive Dean of the Faculty of Science, Engineering and Information Technology.

2. PROGRAM OF STUDY

A student shall follow a course of study as follows:

3. PERIOD OF CANDIDATURE

A student shall normally complete the degree in two or more years of study.

4. A student shall follow a course of study prescribed in Postgraduate Courses.

POSTGRADUATE DIPLOMA OF COMPUTATIONAL ENGINEERING

1. The degree of Postgraduate Diploma of Computational Engineering shall consist of 24 units of coursework.

2. ENTRY REQUIREMENTS

A person may enrol for the degree of Postgraduate Diploma of Computational Engineering if that person:

3.1 COURSE OF STUDY

Unless granted credit for previous study, a student shall follow the course of study prescribed for the specified program under Postgraduate Courses, to obtain 24 units of coursework.

3.2 Each student shall follow a course of advanced study and investigation including self-study, attending lectures and tutorial classes as prescribed for each subject.

4.1 CREDIT FOR PREVIOUS STUDY

A student who has completed the requirements for the Postgraduate Certificate of Computational Engineering may be given full advanced standing for the units in the Postgraduate Certificate towards the Postgraduate Diploma of Computational Engineering provided the Postgraduate Certificate of Computational Engineering is surrendered.

4.2 A student who, at another institution of higher education, has passed a postgraduate subject which is deemed by the School of Engineering to be equivalent to a subject set out in the specified program shown under Postgraduate Courses, may be granted credit for that subject, up to a maximum of six units.

5. DURATION

The normal duration for the degree is one year full-time or two years part-time.

6.1 ASSESSMENT

Assessment may include any or all of the following: assignments, a research project, report and oral presentation, quizzes, tests and examinations.

6.2 A student who has complied with the provisions of these Requirements and all other relevant Statutes and Requirements of the University shall be recommended by the faculty for the award of Postgraduate Diploma of Computational Engineering.

GRADUATE DIPLOMA OF ASTRONOMY

1. A Graduate Diploma of Astronomy may be undertaken in the Centre for Astronomy in the School of Mathematical and Physical Sciences.

2. A person may enrol for the Graduate Diploma of Astronomy if that person:

3. PERIOD OF THE CANDIDATURE

A student shall normally complete the requirements for the Graduate Diploma in two semesters of full-time equivalent study. The maximum duration shall be two years full-time equivalent (four semesters).

4. EVALUATION

A candidate shall normally complete 24 units made up of subjects provided in the Schedule. Any variation to this must be approved by the Director of the Centre for Astronomy.

5. Appeal procedures are as per the University appeals procedures.

6. A student who has complied with the provisions of these requirements and all other Statutes and Requirements of the University shall be recommended by the faculty for the award of the Graduate Diploma of Astronomy.

7. CREDIT FOR PREVIOUS STUDIES

A student who has completed the requirements for the Graduate Certificate of Astronomy may be given full advanced standing for the units in the Graduate Certificate towards the Graduate Diploma of Astronomy provided the Graduate Certificate of Astronomy award is surrendered.

8. A student who, at this or another institution of higher education, has passed a subject which is deemed by the faculty, on the advice of the Director of the Centre for Astronomy, to be equivalent to a subject set out in the specified program shown under Postgraduate Courses may be granted credit for that subject by the faculty, up to a maximum of 12 units.

Schedule

AS5011:06 Modern Astrophysics
AS5012:06 Astronomy Instrumentation
AS5021:06 The Solar System
AS5022:06 Galactic Astronomy and Cosmology

GRADUATE DIPLOMA OF BIOTECHNOLOGY

1. A person may enrol for the Graduate Diploma of Biotechnology if that person:

2. A student shall pursue studies to obtain a minimum of 24 units. The normal period of candidature shall be one year of full-time study or two years of part-time study.

3. The student will follow a course of study approved by the relevant Head of School and the Executive Dean of the faculty. The program may include subjects from another discipline.

4. Assessment procedures may include any or all of the following: assignments and papers, a research project and report and examinations.

5. Except with the approval of the faculty, there shall be no re-examination.

6. A student who has complied with the provisions of these Requirements and all other relevant Statutes and Requirements of the University shall be recommended by the faculty for the award of the Graduate Diploma of Biotechnology.

7. Appeal procedures are as per normal University procedures for Masters requirements.

GRADUATE DIPLOMA OF INFORMATION TECHNOLOGY

1. REQUIREMENTS FOR CANDIDATURE

A person may enrol for the Graduate Diploma of Information Technology if that person:

2. PROGRAM OF STUDY

Unless granted credit for previous study, a student shall follow the course of study prescribed under Postgraduate Courses, to obtain 24 units in one of the fields of study specified in Schedule A below.

3. To complete a subject a student shall satisfy the written, practical and other examination requirements designated by the relevant Head of School and approved by the faculty.

4. Except with the approval of the Executive Dean, a student may not enrol for any subject until credit has been obtained for any prerequisite subject or subjects as listed in the Master Schedule of Subjects.

5. CREDIT FOR PREVIOUS STUDY

Students transferring from the Graduate Certificate of Information Technology may be awarded credit for subjects studied under the Graduate Certificate provided that award is surrendered.

6. Credit of up to six units may be granted for relevant previous study that has not been credited to an undergraduate award.

A – Fields of Study SCHEDULE

A – Fields of Study

GRADUATE DIPLOMA OF SCIENCE

The Graduate Diploma of Science may be undertaken in the schools, centres and institutes listed in Schedule A below.

1. A person may enrol for the Graduate Diploma of Science course if that person:

2. A student shall pursue studies to obtain a minimum of 24 units. The normal period of candidature shall be one year of full-time study or two years of part-time study.

3. A student shall select one of the disciplines offered in the schools, centres and institutes listed in Schedule A, or an approved combination of those disciplines and follow the course of study prescribed.

4. Assessment procedures may include any or all of the following: assignments and papers, a research project and report and examinations.

5. Except with the approval of the faculty, there shall be no re-examination.

6. A student who has qualified for the Graduate Diploma of Science in one discipline may enrol in a further discipline in a subsequent year.

7. A student who has complied with the provisions of these Requirements and all other relevant Statutes and Requirements of the University shall be recommended by the faculty for the award of the Graduate Diploma of Science.

8. Appeal procedures are as per normal University procedures for Master’s Requirements.

A Schedule A Schools

A

A

POSTGRADUATE CERTIFICATE OF COMPUTATIONAL ENGINEERING

1. The degree of Postgraduate Certificate of Computational Engineering shall consist of 12 units of coursework.

2. ENTRY REQUIREMENTS

A person may enrol for the degree of Postgraduate Certificate of Computational Engineering if that person:

3.1 COURSE OF STUDY

Unless granted credit for previous study, a student shall follow the course of study prescribed for the specified program under Postgraduate Courses, to obtain 12 units of coursework.

3.2 Each student shall follow a course of advanced study and investigation including self-study, attending lectures and tutorial classes as prescribed for each subject.

4. CREDIT FOR PREVIOUS STUDY

A student who, at another institution of higher education, has passed a postgraduate subject which is deemed by the School of Engineering to be equivalent to a subject set out in the specified program shown under Postgraduate Courses, may be granted credit for that subject, up to a maximum of three units.

5. DURATION

The normal duration for the degree is one semester full-time or two semesters part-time.

6.1 ASSESSMENT

Assessment may include any or all of the following: assignments, a research project, report and oral presentation, quizzes, tests and examinations.

6.2 A student who has complied with the provisions of these Requirements and all other relevant Statutes and Requirements of the University shall be recommended by the faculty for the award of Postgraduate Certificate of Computational Engineering.

GRADUATE CERTIFICATE OF ASTRONOMY

1. A Graduate Certificate of Astronomy may be undertaken in the Centre for Astronomy in the School of Mathematical and Physical Sciences.

2. A person may enrol for the Graduate Certificate of Astronomy if that person:

3. PERIOD OF THE CANDIDATURE

A student shall normally complete the requirements for the Graduate Certificate in one semester of full-time equivalent study. The maximum duration shall be one year full-time equivalent (two semesters).

4. EVALUATION

A candidate shall normally complete 12 units made up of the subjects provided in the Schedule. Any variation to this must be approved by the Director of the Centre for Astronomy.

5. Appeal procedures are as per the University appeals procedures.

6. A student who has complied with the provisions of these requirements and all other Statutes and Requirements of the University shall be recommended by the faculty for the award of the Graduate Certificate of Astronomy.

7. CREDIT FOR PREVIOUS STUDIES

A student who, at this or another institution of higher education, has passed a subject which is deemed by the faculty on the advice of the Director of the Centre for Astronomy, to be equivalent to a subject set out in the specified program shown under Postgraduate Courses, may be granted credit for that subject by the faculty, up to a maximum of 6 units.

Schedule

AS5011:06 Modern Astrophysics
AS5012:06 Astronomy Instrumentation

GRADUATE CERTIFICATE OF BIOTECHNOLOGY

1. A person may enrol for the Graduate Certificate of Biotechnology if that person:

2. A student shall pursue studies to obtain a minimum of 12 units. The minimum period of candidature shall be one semester of full-time study or two semesters of part-time study.

3. The student will follow a course of study approved by the relevant Head of School and the Executive Dean of the faculty. The program may include subjects from another discipline.

4. Assessment procedures may include any or all of the following: assignments and papers, a research project and report and examinations.

5. A student who has complied with the provisions of these requirements and all other relevant Statutes and Requirements of the University shall be recommended by the faculty for the award of the Graduate Certificate of Biotechnology.

6. Appeal procedures are as per normal University procedures for Masters requirements.

GRADUATE CERTIFICATE OF ENGINEERING

Candidates should have the equivalent of a level 1 science/engineering mathematics background.

To qualify for the award a student must normally have completed subjects of a minimum total value of six units in accordance with these requirements. The normal time for completion of the subjects is one or two semesters.

For all Majors containing subjects from levels higher than level 1 of the Bachelor of Engineering degree, approval of the Head of School must be obtained.

GRADUATE CERTIFICATE OF INFORMATION TECHNOLOGY

1. REQUIREMENTS FOR CANDIDATURE

A person may enrol for the Graduate Certificate of Information Technology if that person:

2. PROGRAM OF STUDY

Unless granted credit for previous study, a student shall follow the course of study prescribed under Postgraduate Courses, to obtain 12 units in one of the fields of study specified in Schedule A below.

3. To complete a subject a candidate shall satisfy the written, practical and other examination requirements designated by the relevant Head of School and approved by the faculty.

4. Except with the approval of the Executive Dean, a candidate may not enrol for any subject until credit has been obtained for any prerequisite subject or subjects as listed in the Master Schedule of Subjects.

5. CREDIT FOR PREVIOUS STUDY

Credit of up to three units may be granted for relevant previous study that has not be credited to an undergraduate award.

A – Fields of Study SCHEDULE

A – Fields of Study

GRADUATE CERTIFICATE OF SCIENCE

The Graduate Certificate of Science may be undertaken in the schools, centres and institutes listed in Schedule A below.

1. A person may enrol for the Graduate Certificate of Science course if that person:

2. A student shall pursue studies to obtain a minimum of 12 units. The minimum period of candidature shall be one semester of full-time study or two semesters of part-time study.

3. A student shall select one of the disciplines offered in the schools, centres and institutes listed in Schedule A. The student will follow a course of study approved by the Head of the School, Centre or Institute. The program may include subjects from another discipline.

4. Assessment procedures may include any or all of the following: assignments and papers, a research project and report and examinations.

5. A student who has qualified for the Graduate Certificate of Science in one discipline may enrol in a further discipline in a subsequent year.

6. A student who has complied with the provisions of these requirements and all other relevant Statutes and Requirements of the University shall be recommended by the faculty for the award of the Graduate Certificate of Science.

7. Appeal procedures are as per normal university procedures for Masters requirements.

SCHEDULE A SCHOOLS

POSTGRADUATE COURSES

Students are advised that all subjects are offered on condition that staff and resources are available.

CONTENTS

Aquaculture
Aquaculture and Fisheries Science
Archaeology
Astronomy
Biotechnology
Botany
Chemical Engineering
Civil and Environmental Engineering
Computational Engineering
Computer Science
Conservation Biology
Earth Sciences
Economic Geology
Electrical and Computer Systems Engineering
Engineering
Engineering Management
Entomology
Environmental Chemistry
Environmental Geoscience
Environmental Science
Exploration and Mining Geology
Geographic Information Systems and Spatial Analysis
Geography (Human)
Geography (Physical)
Geology
Information ‘Technology
Marine Biology
Mathematics
Mechanical Engineering
Natural Resource Management
Physical Oceanography and Meteorology
Physics
Protected Area Management
Statistics
Tropical Agriculture
Tropical Ecology
Tropical Marine Ecology and Fisheries Biology
Tropical Plant Sciences
Tropical Urban and Regional Planning
Wildlife Biology and Management
Zoology and Tropical Ecology

AQUACULTURE

The Graduate Diploma of Science and the Master of Applied Science in Aquaculture provide training in the concepts and methods of aquaculture, emphasising tropical aquaculture generally, as well as the development and practice of the industry in Australia.

To complete a major in Aquaculture, students should select 24 units for the GDipSc and 36 units for the MAppSc from the list below (see Aquaculture and Fisheries Science):

MSc and PhD

Students can study for the degrees of MSc and PhD under the supervision of one or more of the academic or research staff of Aquaculture.

AQUACULTURE AND FISHERIES SCIENCE

Coordinated by the School of Marine Biology and Aquaculture, the Master of Applied Science (Coursework) and Master of Science (Research and Coursework) in Aquaculture and Fisheries Science provide training in the concepts and methods of aquaculture and training in fisheries science and management. The emphasis is on tropical aquaculture and fisheries, especially in northern Australia, Asia and the Pacific islands. Apart from this tropical focus, the special feature of these courses is training in the two methods of harvesting aquatic resources. There are few centres where both aquaculture and fisheries science are taught at a postgraduate level.

Prospective students should consult with the Course Coordinators. Within the broad framework of the Award Requirements, each student’s program, including weighting of coursework and research, can be tailored to the individual candidate’s background and requirements.

MASTER OF APPLIED SCIENCE

CORE
AQ5002:03 Aquaculture: Feeds and Nutrition
AQ5003:03 Aquaculture: Propagation
AQ5004:03 Aquaculture: Genetics and Stock Improvement
AQ5005:03 Aquaculture: Management of Culture Systems
AQ5006:03 Aquaculture: Principles and Practices
AQ5007:03 Aquatic Animal Ecophysiology
AQ5008:03 Aquaculture: Systems Design
AQ5009:03 Aquaculture of Tropical Species
AQ5011:09 Aquaculture: Production and Evaluation Report
AQ5012:06 Aquaculture: Hatchery Techniques
MB5003:03 Fisheries Science
MB5310:03 Fisheries Biology, Assessment and Management
TV5240:03 Aquatic Pathobiology
ZL5003:03 Quantitative Methods in Biology
Compulsory except where a student has passed a subject which is deemed to be equivalent.

ELECTIVES

Consult Course Coordinator for elective information.

ARCHAEOLOGY

Postgraduate study towards the award of Master of Science may be undertaken within the School of Anthropology, Archaeology and Sociology.

ASTRONOMY

The JCU Centre for Astronomy offers full-time and part-time research degrees and other coursework programs. The Graduate Certificate of Astronomy, Graduate Diploma of Astronomy, Master of Astronomy and Doctor of Astronomy are delivered totally over the Internet. Details can be found on the Centre’s website at www.jcu.edu.au/astronomy. In addition, students graduating with Bachelor of Science (Honours) at a suitably high level from JCU or another University may apply to carry out research for the on-campus degrees of Master of Science or Doctor of Philosophy.

DOCTOR OF ASTRONOMY

The Doctor of Astronomy (delivered via the Internet) consists of coursework study and a research thesis. Admission to the course requires an Australian honours degree or equivalent in physical science or a related discipline (see the Centre for Astronomy website). The course is normally three and a half years of full-time study or seven years of part-time study.

MASTER OF ASTRONOMY

The Master of Astronomy (delivered via the Internet) consists of coursework study and research. Admission to the course requires a degree or equivalent in physical science or a related discipline (see the Centre for Astronomy website). The course is one and a half academic years of full-time study or three years of part-time study.

GRADUATE DIPLOMA OF ASTRONOMY

The Graduate Diploma of Astronomy (delivered via the Internet) consists of coursework study only. Admission to the course requires a degree or equivalent in physical science or a related discipline (see the Centre for Astronomy website). The course is one academic year of full-time study or two years of part-time study.

GRADUATE CERTIFICATE OF ASTRONOMY

The Graduate Certificate of Astronomy (delivered via the Internet) consists of coursework study only. Admission to the course requires a degree or equivalent in physical science or a related discipline (see the Centre for Astronomy website). The course is a half year of full-time study or one year of part-time study.

MASTER OF APPLIED SCIENCE AND PHD

The Centre for Astronomy offers a research Master degree and PhD for on-campus students. Research areas include:

Astrophysics

Astronomy education

Quantitative astronomy history

MASTER OF ASTRONOMY EDUCATION

The Master of Astronomy Education will be delivered via the Internet and will be available to a world-wide student base. It will be of particular interest to graduate teachers but will not itself lead to a teaching qualification.

Students will develop content knowledge in a range of astronomy subjects, construct and evaluate teaching units in astronomy suitable for their teaching levels in schools and will use astronomy resources on the web for teaching-unit development.

BIOTECHNOLOGY

Advances in genetic engineering, cell culture, molecular biology and agriculture have rapidly generated new applications for biological products and an increasing variety of job opportunities in the field. The Graduate Diploma and Graduate Certificate of Biotechnology provide theoretical scientific knowledge and an understanding of the issues required for modern biotechnology.

BOTANY

(See Tropical Plant Sciences)

CHEMICAL ENGINEERING

(See Engineering)

CIVIL AND ENVIRONMENTAL ENGINEERING

(See Engineering)

COMPUTATIONAL ENGINEERING

MASTER OF COMPUTATIONAL ENGINEERING

Requirements for the award may be completed by choosing subjects from the schedule below in one of the three following ways:

SCHEDULE

COMPULSORY SUBJECTS
EG5501:03 Numerical Methods
EG5502:03 Solid Mechanics
EG5503:03 Fluid Mechanics
EG5504:03 Finite Element Methods
ELECTIVE SUBJECTS
Elective subjects are offered on condition that there are a sufficient number of enrolments.
EG5500:06 Computational Engineering Project (6 unit)
EG5511:03 Computational Plasticity
EG5512:03 Non Linear Continuum Mechanics
EG5521:03 Computational Fluid Dynamics
EG5531:03 FEM in Soil and Rock Mechanics
EG5532:03 Porous Media Mechanics
EG5541:03 Discrete Element Modelling
EG5551:03 Transient and Dynamic Analysis
EG5552:03 Plates and Shells
EG5600:12 Computational Engineering Project (12 unit)

POSTGRADUATE DIPLOMA OF COMPUTATIONAL ENGINEERING

This 24-unit award may be completed in a 12 month period by undertaking the three compulsory coursework subjects and choosing five of the elective coursework subjects from the schedule below.

SCHEDULE

COMPULSORY SUBJECTS
EG5501:03 Numerical Methods
EG5502:03 Solid Mechanics
EG5504:03 Finite Element Methods
ELECTIVE SUBJECTS
Elective subjects are offered on condition that there are a sufficient number of enrolments.
EG5503:03 Fluid Mechanics
EG5511:03 Computational Plasticity
EG5512:03 Non Linear Continuum Mechanics
EG5521:03 Computational Fluid Dynamics
EG5531:03 FEM in Soil and Rock Mechanics
EG5532:03 Porous Media Mechanics
EG5541:03 Discrete Element Modelling
EG5551:03 Transient and Dynamic Analysis
EG5552:03 Plates and Shells

POSTGRADUATE CERTIFICATE OF COMPUTATIONAL ENGINEERING

This 12-unit award may be completed in a 12 month period by undertaking the two compulsory coursework subjects and choosing two of the elective coursework subjects from the schedule below.

SCHEDULE

COMPULSORY SUBJECTS
EG5501:03 Numerical Methods
EG5502:03 Solid Mechanics
ELECTIVE SUBJECTS
Elective subjects are offered on condition that there are a sufficient number of enrolments.
EG5503:03 Fluid Mechanics
EG5504:03 Finite Element Methods
EG5511:03 Computational Plasticity
EG5521:03 Computational Fluid Dynamics
EG5551:03 Transient and Dynamic Analysis

COMPUTER SCIENCE

(See also Information Technology)

MASTER OF APPLIED SCIENCE (COMPUTER SCIENCE) BY COURSEWORK

The Master of Applied Science in Computer Science course provides high quality professional training at an advanced level for people who have a background in Computer Science and also for those who have training in another discipline but have significant professional experience in computing. Admission to the course requires knowledge equivalent to the completion of the subject CP2001. The course can be undertaken full-time (12 - 24 months) or part-time (24 - 48 months).

The course provides both breadth and depth in topic coverage. Students choose a variety of subjects to suit their specific requirements, including a minor project. (Candidates wishing to undertake a major research project should consider the Masters by Research course.) Subjects from disciplines other than Computer Science, offered by this or other Universities, may be included in the course if approved.

Upon successful completion of the Master of Applied Science in Computer Science as specified, including at least a Credit grade for the project, the course provides an option for students to transfer to a Master of Science by research and then perhaps to a PhD.

CONSERVATION BIOLOGY

Coordinated by the School of Tropical Biology, the Graduate Diploma of Science and Master of Applied Science in Conservation Biology aims to educate students in the background, principles and practices of conservation biology, with a particular emphasis on tropical systems.

The wide range of electives allows students to build a course specialising in protected area management, conservation in terrestrial systems or conservation in marine systems.

Prospective students should consult with the Course Coordinator. Within the broad framework of the Award Requirements, each student’s program, including weighting of coursework and research, can be tailored to the individual candidate’s background and requirements.

CORE
MB5004:03 Marine Conservation Biology
ZL5204:03 Conservation Biology

ELECTIVES

Consult Course Coordinator for elective information.

EARTH SCIENCES

Within the School of Earth Sciences students can pursue a broad range of postgraduate studies, leading to the awards of Graduate Diploma of Science, Master of Applied Science (by coursework), Master of Science (by research) or Doctor of Philosophy.

RESEARCH DEGREE PROGRAMS

Students who satisfy the appropriate admission requirements may seek admission to the research degrees of Master of Science (by thesis only) or Doctor of Philosophy. Refer to the Index for the Award Requirements for these degrees.

Thesis topics will be considered in any branch of Earth Sciences suitably related to staff research interests. See section on “Research Activities” for details of current research areas.

MASTER OF APPLIED SCIENCE (BY COURSEWORK) IN ORE DEPOSIT GEOLOGY AND EVALUATION

This degree program is primarily designed for graduates with two to 15 years professional experience, although candidates with other backgrounds may be accepted for enrolment. It covers a range of topics designed to provide education and training in the latest methods for successful exploration, mining and management in the minerals industry. Any student who satisfies admission requirements for the degree of Master of Applied Science as outlined in the Award Requirements may seek admission to this program.

The program involves collaboration within a national Minerals Geoscience Masters between JCU, the University of Tasmania, the University of Western Australia, the Victorian Institute of Earth Planetary Science and the Cooperative Research Centre for Landscape Evolution and Mineral Exploration, coordinated by the Minerals Tertiary Education Council. It consists of 48 units of study. Each subject offered is worth six units. The research dissertation can be taken as six units, or as a longer dissertation by combining two six-unit modules. The research dissertation is optional and sufficient credits can be gained from the block mode coursework subjects. In addition, credit gained from other formal study programs or written work of dissertation equivalence, for which approval must be given by the program coordinator and Head of the School of Earth Sciences and the Faculty Academic Adviser, may be counted towards the degree. All students will complete most subject requirements during the block mode offerings. In interim periods, students are expected to devote time to assignments and other research relevant to the course, including work on their research dissertation as appropriate. With permission of the Faculty Academic Adviser and the Earth Sciences Masters Coordinator, up to 24 units of credit may be assigned on the basis of specific courses offered by other universities, involved in this national collaborative program. Courses offered by other educational providers and substantial documents that are complementary to this program may be counted for credit. The student must present evidence to demonstrate that such courses or documents are directly relevant to the MAppSc (Ore Deposit Geology and Evaluation) and have not previously been used to gain credit in another degree.

Students seeking admission to the program on a full-time basis must enrol for at least 18 units per year.

The degree of MAppSc will be awarded to candidates who achieve a satisfactory standard in written examinations, seminar presentations, practical exercises and other specific assessment tasks. Dissertation components must have sufficient content and presentation quality to satisfy the examiners. The dissertation may be of six units, or 12 units if the student wishes to expand upon their original six units. 12 unit dissertations will be evaluated by an external examiner.

A minimum of four subjects (24 units) from the following:
EA5021:06 Advances in Ore Genesis
EA5023:06 Resource Estimation and Production Geology
EA5024:06 Business and Financial Management
EA5026:06 Special Studies
EA5027:06 Advanced Field Training
EA5028:06 Advanced Techniques in Mining and Exploration Geology
EA5125:06 Research Dissertation Part A
EA5225:06 Research Dissertation Part B
Plus
Up to four subjects from the following programs offered within the national Minerals Geoscience Masters. Consult the Minerals Tertiary Education Council website for information on subject descriptions and timetables.
University of Tasmania
Ore Deposit Models and Exploration Strategies
Volcanology and Mineralisation in Volcanic Terrains
Brownfield Exploration
Ore Deposit Geochemistry, Hydrology and Geochemistry
Ore Deposits of South America
University of Western Australia
Structure and Field Geology
Computer Aided Exploration Techniques
Ore Deposit Conceptual Models
Ore Deposit Field Excursion
University of Canberra (incorporating LEME)
Regolith Geology and Mineral Exploration
Victorian Institute of Earth and Planetary Sciences (Monash University and Melbourne University)
Geophysical Field Camp and Software Workshop

NATIONAL GEOSCIENCE MASTERS (BY COURSEWORK) IN ECONOMIC GEOLOGY

Six subjects selected from the following:
EA5021:06 Advances in Ore Genesis
EA5023:06 Resource Estimation and Production Geology
EA5024:06 Business and Financial Management
EA5027:06 Advanced Field Training
EA5028:06 Advanced Techniques in Mining and Exploration Geology
EA5125:06 Research Dissertation Part A
EA5225:06 Research Dissertation Part B
Plus
two subjects from the following external programs run by partners in the National Geoscience Training Network. Consult the Masters Coordinator or the National Geoscience Masters website for further information on subject descriptions, subject exclusions, travel arrangements and costs.
University of Tasmania
KEA841 Ore Deposit Modes and Exploration Strategies
KEA843 Volcanology and Mineralisation in Volcanic Terrains
KEA844 Exploration Geophysics, Remote Sensing and GIS
KEA845 Geochemistry, Hydrology and Timing of Hydrothermal Systems
KEA846 Ore Deposits of South America
University of Western Australia
502 Geological Computing and Ore Reserve Calculations
504 Applied Structural Geology and Field Mapping
506 Exploration Techniques
508 Ore Deposit Models
517 Management in the Exploration and Mining Industry
519 Ore Deposit Field Trip to South Africa
University of Canberra (incorporating LEME)
Regolith Geology and Mineral Exploration
Victorian Institute of Earth and Planetary Sciences (Monash, Melbourne, LaTrobe)
Geodynamics and Geophysics of Mineralised Terrains

INTER-SCHOOL POSTGRADUATE DEGREE PROGRAMS

Students may elect to enrol in relevant Earth Science subjects to satisfy the requirements of several inter-school postgraduate degree programs offered in the Science Faculty. These include Master of Applied Science (Coursework) degree programs in Environmental Chemistry and Tropical Environmental Management and Graduate Diploma programs in Environmental Chemistry, Geographical and Land Information Systems and Tropical Environmental Management. Details may be found under the above headings.

GRADUATE DIPLOMA OF SCIENCE

The Diploma is available in the following options:

The following guidelines apply to students selecting one of the available Graduate Diploma disciplines in Geology.

A student who has attained the standard of BSc or equivalent with a major in Earth Sciences or Geology or another approved science discipline may be admitted.

The Graduate Diploma is available as a one year full-time or two year part-time course of study.

Entry is permitted either at the start of the University teaching year (end-February, intake A), or in mid-year at the start of Semester 2 (July, intake B).

Completion of the Graduate Diploma of Science in Earth Sciences or Geology requires undertaking 24 units of approved subjects in those disciplines. External students attending the diploma course in Economic Geology will be required to complete EA3400:03 (Ore Genesis), EA3510:03 (Geological Mapping) and EA3511:03 (Advanced Geological Mapping).

The Graduate Diploma attained with a grade of Credit or above is accepted as equivalent to a Masters Qualifying Course and will entitle the holder to proceed to a MSc research degree.

The full-time Graduate Diploma course comprises 24 units of study in an approved combination of topics. It is possible to attend level 3 undergraduate subjects in Earth Sciences to cover aspects of the discipline not previously studied at this level. With the permission of the Head of School, appropriate undergraduate subjects in another relevant discipline may also be included. A maximum of 6 undergraduate units outside earth sciences is permitted.

The part-time Graduate Diploma with specialisation in Exploration and Mining Geology may be completed over a minimum of 18 months. This option comprises completion of a minimum of three of the six unit courses offered in the Master of Applied Science (by coursework) in Exploration and Mining Geology, without dissertation, but including also either a fourth six unit subject from that course, or three level 3 courses as specified above.

ECONOMIC GEOLOGY

(See Earth Sciences)

ELECTRICAL AND COMPUTER SYSTEMS ENGINEERING

(See Engineering)

ENGINEERING

The School of Engineering offers postgraduate studies leading to the degrees of Master of Engineering Science, Master of Engineering and Graduate Certificate of Engineering.

MASTER OF ENGINEERING

The degree is a professional award that can be obtained by assessment of work undertaken in professional practice. This professional practice degree comprises design/development project work.

MASTER OF ENGINEERING SCIENCE

The degree may be taken in one of the following disciplines of the School of Engineering: Chemical, Civil, Computer Systems, Electrical and Electronic, Environmental or Mechanical Engineering. The degree comprises a research thesis. Current research interests can be obtained on the School of Engineering web page at http://www.eng.jcu.edu.au.

GRADUATE CERTIFICATE OF ENGINEERING

This program offers professionals, with appropriate background training, the opportunity to upgrade their qualifications in a specific area of interest.

A candidate must complete six units of study from one of the following majors:

Introduction to Engineering Mechanics; Introduction to Computational Mechanics; Environmental Engineering A; Environmental Engineering B; Introduction to Thermofluid Mechanics; Electronic Design Engineering; Computer Networks Engineering; Digital Systems Engineering; Radio Frequency Electronics Engineering; Radio Frequency Communications Systems Engineering.

ENGINEERING MANAGEMENT

MASTER OF ENGINEERING MANAGEMENT

This award has been disestablished. No new enrolments will be accepted. Students currently enrolled may continue their studies.

ENTOMOLOGY

The Graduate Diploma of Science and the degrees of Master of Applied Science and Master of Science in Entomology emphasise tropical systems generally and encompass both pure (eg insect biodiversity) and applied (eg control of insect pests) aspects of entomology in Australia.

Prospective students should consult with the Course Coordinator. Within the broad framework of the Award Rules, each student’s program, including weighting of coursework and research, can be tailored to the individual candidate’s background and requirements.

CORE
ZL5003:03 Biometrics
ZL5501:03 Tropical Entomology (intensive unit)

ELECTIVES

Consult Course Coordinator for elective information.

ENVIRONMENTAL CHEMISTRY

Environmental Chemistry courses may be undertaken in the Master of Science (by research) and Doctor of Philosophy.

ENVIRONMENTAL GEOSCIENCE

(See Earth Sciences)

ENVIRONMENTAL SCIENCE

(See also Geography, Natural Resource Management, Protected Area Management)

James Cook University’s School of Tropical Environment Studies and Geography (TESAG) has an established reputation for its teaching and research in tropical environments and natural resource management. Postgraduate environmental science students at JCU enjoy access to outstanding and diverse natural locations, including rainforest, woodland, savanna, arid zone, stream, wetland, coral reef, mangrove, seagrass, soft bottom benthic and open water pelagic environments.

Studying environmental science at JCU brings together aspects of the physical, biological and social environments, specifically to find creative and dynamic solutions to existing and evolving problems. Academic staff are actively involved in topical and high profile areas of research and policy that bring national attention to JCU.

Students may complete postgraduate programs by coursework, which lead to the awards of Graduate Certificate of Science, Graduate Diploma of Science and Master of Applied Science in the areas of Protected Area Management, Natural Resource Management, Tropical Urban and Regional Planning or Geographic Information Systems and Spatial Analysis . These coursework offerings have a strong focus on fieldwork and problem solving, and take advantage of close links with government departments, management agencies and non-government and consulting organisations, to utilise specific regional expertise and provide excellent work placement opportunities.

Qualifying students interested in undertaking research in tropical north Queensland, may enrol in a Doctor of Philosophy or a Master of Science in Environmental Science. Research students take advantage of field stations on Orpheus Island, Horn Island or Moreton Island, in rainforest (“Kirrama” and “Paluma”), or savanna (“Fletcherview”) habitats and at the Australian Canopy Crane Research Facility at Cape Tribulation. The University’s strong involvement with the Cooperative Research Centres for the Great Barrier Reef World Heritage Area, Tropical Rainforest Ecology and Management and Sustainable Development of Tropical Savannas also provide significant strengths in the areas of applied and strategic research.

Both coursework and research students can take advantage of expertise across schools within James Cook University, either to undertake elective subjects within a relevant area of interest or for associate supervision of research projects by experts in related fields. Further details of opportunities for coursework or research degrees in environmental science can be obtained through the School of Tropical Environment Studies and Geography.

EXPLORATION AND MINING GEOLOGY

(See Earth Sciences)

GEOGRAPHIC INFORMATION SYSTEMS AND SPATIAL ANALYSIS

The School of Tropical Environment Studies and Geography has the best equipped geographical information systems laboratories in northern Australia and a cartographic centre which contains an extensive archive of land and natural resource information for tropical Australia.

Links with the Australian Institute of Marine Science, the CSIRO Davies and Atherton Laboratories, Cooperative Research Centres and the Great Barrier Reef Marine Park Authority ensure that students have access to a wide range of research topics and supporting spatial data sets.

The Graduate Diploma of Science in Geographical and Land Information Systems is a twelve month course offered by the School of Tropical Environment Studies and Geography. It aims to give participants a sound theoretical and practical education in the principles of geographic information analysis and the techniques of information system development using ecological, environmental and socioeconomic themes.

Students must complete six coursework subjects and a minor project.

Students are encouraged to undertake projects with a strong practical emphasis which address significant issues in information systems development; primarily the development of natural resource or socio-economic databases which can be applied to spatial analysis. Most projects involve direct liaison with government agencies.

The degree of Master of Applied Science in Geographical Information Systems, by coursework is designed to give students a sound theoretical knowledge of spatial data, its analysis and management, combined with technical skills and project experience of direct relevance to industry. The student will be required to undertake a significant project with an applied research and development flavour, normally in collaboration or consultation with an industry group.

The degree emphasises the design, organisation and analysis of spatial databases, and the integration of spatial data to address commercial, social, resource management, scientific and other needs.

The degree of Master of Science in Geographical Information Systems, by research aims to promote and develop research in the theory and practice of spatial analysis by reviewing:

The degree is of general relevance to the social, environmental and earth sciences and is complementary to the Master of Science and Master of Applied Science program in Tropical Environment Management.

Prospective students for each program should consult with the relevant Course Coordinator to organise their enrolment.

GEOGRAPHY (HUMAN)

(See also Tropical Urban and Regional Planning)

Human geography at James Cook University is offered in the School of Tropical Environment Studies and Geography (TESAG). The program takes a broad approach to human activities in urban and rural settings and human interaction with natural and built environments. Staff and students consider how human societies function and how this influences the nature of places, including the use of resources, environmental impacts and linkages between regions.

Students of TESAG take advantage of the interdisciplinary nature of the School, which brings together physical, biological and social aspects of the environment and provides opportunity for creative and dynamic research into environmental issues and problems, particularly in relation to social aspects.

Postgraduate coursework is available through the Tropical Urban and Regional Planning program. Students interested in research degrees may qualify for entry into either a Doctor of Philosophy or Master of Science program in Human Geography. Examples of current and recent research projects in this area include projects on transport and energy efficiency, investigation of village tourist projects in the South Pacific, modelling planning for outback towns and the location and economics of private sector nature conservation. The diverse environments and settlements of northern Australia provide some exciting opportunities for interesting projects in the human geography area.

Further details of opportunities for research degrees in human geography can be obtained through the School of Tropical Environment Studies and Geography.

GEOGRAPHY (PHYSICAL)

(See also Environmental Science, GIS and Spatial Analysis)

Physical geography deals with the materials and processes (physical, biological and chemical) that shape and influence landscapes and environments. The physical geography program at James Cook University, offered through the School of Tropical Environment Studies and Geography (TESAG) takes a broad approach. It considers how environments and landscapes function and how they may change over time (including how they may change as a result of the ongoing effects of human activities). The interdisciplinary nature of the School also provides perspectives from a physical, biological and social background, facilitating creative and dynamic solutions to existing and evolving problems.

TESAG’s programs in physical geography have particular strengths in geomorphology, biogeography and climatology, with special emphasis being given to the tropical perspective. Postgraduate geography students at JCU enjoy access to outstanding and diverse natural locations, including rainforest, woodland, savanna, arid zone, stream, wetland, coral reef, mangrove, seagrass, soft bottom benthic and open water pelagic environments.

Students interested in undertaking research in tropical north Queensland, may qualify for entry into a Doctor of Philosophy or a Master of Science program in physical geography. Research students take advantage of field stations on Orpheus Island, Horn Island or Moreton Island, in rainforest (“Kirrama” and “Paluma”) or savanna (“Fletcherview”) habitats and at the Australian Canopy Crane Research Facility at Cape Tribulation. The University’s strong involvement with the Cooperative Research Centres for the Great Barrier Reef World Heritage Area, Tropical Rainforest Ecology and Management, Sustainable Sugar Production and Sustainable Development of Tropical Savannas also provide significant strengths in the areas of applied and strategic research.

Further details of opportunities for research degrees in physical geography can be obtained through the School of Tropical Environment Studies and Geography.

GEOLOGY

(See Earth Sciences)

INFORMATION TECHNOLOGY

Postgraduate studies in Information Technology are available at Graduate Certificate, Graduate Diploma and Masters levels in five distinct fields of study:

In addition, a joint Master of Information Technology-Master of Business Administration program is available in the E-Business field only.

The E-Business specialisation is designed to provide a mix of business and marketing skills, multimedia production and support skills and computer networking skills. It provides a path for business, commerce and other non-computer science/information technology graduates, as well as for CS/IT graduates, seeking to move into the IT/E-Business industry.

The Multimedia specialisation is designed to provide computer skills for multimedia content production, IT infrastructure and support. It provides a path for non-computer science/information technology graduates, as well as for CS/IT graduates, seeking to move into the multimedia industry.

The Networking specialisation is designed to provide the ‘convergent IP technology’ skills of computing, networking and software that underpin the operation of the on-line IP-based business world. It will provide an upgrade path for computer science/information technology graduates, seeking to move into the networking industry, as network designers, network administrators, system integrators, WWW designers and masters and intranet supervisors.

The Industry Research and Development specialisation is designed for information technology/computer science graduates seeking careers within the product research and development sectors of the Information and Communications Technology industry. This specialisation provides a coursework introduction to research concepts and skills, builds IT systems and software development skills and provides advanced knowledge in specialist areas.

The Science Informatics specialisation is either for science graduates or information technology/computer science graduates seeking to work as IT systems support specialists and IT applications managers in specific science based industries. Biotechnology, geology, geography, biology, marine and environmental industries all require such IT specialist support.

MASTER OF INFORMATION TECHNOLOGY IN NETWORKING, E-BUSINESS OR MULTIMEDIA BY COURSEWORK

The Master of Information Technology is a suite of coursework programs, that address the known worldwide demand for graduates who are skilled in electronic technologies – computing, networking, multimedia and software technologies. They provide a practical career track into the exciting IT industry for graduates with three or four year degrees in all disciplines, as well as those who have an information technology/computer science degree. These programs suit those who have an interest in online technologies and an aptitude for computing and who may be seeking to redirect their careers into IT. These are professional, applied postgraduate programs and include preparation for Cisco (CCNA) and Microsoft (MCSE) industry certification examinations.

The Master of Information Technology programs offer February and July entry, with full-time or part-time enrolment allowed. Five specialisations are available. For further information regarding academic entry requirements, campus availability and specialisations refer to www.it.jcu.edu.au

A candidate must complete 36 units for Master or 24 units for Graduate Diploma or 12 units for Graduate Certificate, from one of the following fields of study. The prescribed Course of Study for each field is a program of study which is:

A candidate must complete 36 units for Masters or 24 units for Graduate Diploma or 12 units for Graduate Certificate, from one of the following fields of study. The prescribed Course of Study for each field of study is shown below and must be:

Course of Study

E-BUSINESS

Students select Information Technology subjects from:
CP5046:03 ICT Project 1: Analysis and Design
CP5047:03 ICT Project 2: Implementation and Commissioning
CP5220:03 On-line Multimedia Design
CP5230:03 Internetworking 1
or
CP5231:03 Internetworking Principles
CP5240:03 Internetworking 2
or
CP5241:03 Advanced Internetworking
CP5250:03 Network Administration 1
CP5280:03 Interactive Multimedia Principles
CP5290:03 Unix-Linux Systems
CP5310:03 E-Business Technologies
CP5377:03 Portable Programming
CP5504:03 Object Oriented Programming with Java
CP5520:03 Advanced Databases and Applications
CP electives or directed subjects approved by the Head of School of Information Technology.
Plus
Graduate Certificate of Information Technology students select one LB core subject
Graduate Diploma of Information Technology students select two LB core subjects
Master of Information Technology students select three or four LB core subjects
Master of Information Technology (Extended) students select three or four LB core subjects
Master of Information Technology-Master of Business Administration students select seven LB core subjects and up to two elective LB subjects
LB core subjects
LB5001:03 Accounting and Financial Management
LB5002:03 Data Management and Information Technology
LB5003:03 Business, Government and the Global Economy
LB5004:03 Business and the Law
LB5202:03 Technology and Innovation
LB5204:03 Globalisation, Governance and the State
LB5205:03 Work, Identity and the Self
LB elective subjects
LB5201:03 Internationalisation and Business
LB5203:03 Sustainable Enterprise
LB5206:03 Competing on the Edge
LB5207:03 Risk and Value Creation
LB5208:03 Virtual Organisations
LB electives or directed subjects approved by the Executive Dean of the Faculty of Law, Business and the Creative Arts.
Master of Information Technology (Extended) students take subjects as per the Master of Information Technology plus four directed subjects approved by the Head of School of Information Technology from:
CP1010:03 Introduction to Multimedia
CP1030:03 Introduction to Information Technology
CP1200:03 Computer Science 1
CP1300:03 Computer Science 2
CP1500:03 Introduction to Database Principles
CP2001:03 Data Structures and Algorithms
CP2402:03 Operating Systems and Architectures
CP3050:03 Algorithms and Complexity
CP3070:03 Computer and Data Communications
CP3110:03 Fundamentals of Software Engineering
CP3120:03 Object Oriented Software Engineering
Other subjects as approved by the Head of School of Information Technology.
Master of Information Technology (Extended)-Master of Business Administration students take subjects as per the Master of Information Technology-Master of Business Administration plus four directed subjects approved by the Head of School of Information Technology from the same list (shown above).

INDUSTRY RESEARCH AND DEVELOPMENT

Graduate Certificate, Graduate Diploma and Master of Information Technology students select subjects from:
CP5030:03 Special Topics 1
CP5046:03 ICT Project 1: Analysis and Design
CP5047:03 ICT Project 2: Implementation and Commissioning
CP5080:03 Literature Review and Research Proposal
CP5090:03 Scientific Research Methods
CP5110:03 Topics in the Theory of Computer Science
CP5170:03 Topics in Systems and Networks
CP5290:03 Unix-Linux Systems
CP5377:03 Portable Programming
CP5610:03 Fundamentals of Software Engineering
CP5620:03 Object Oriented Software Engineering
LB5202:03 Technology and Innovation
LB5203:03 Sustainable Enterprise
LB5204:03 Globalisation, Governance and the State
LB5207:03 Risk and Value Creation
Other electives or directed subjects approved by the Head of School of Information Technology.
Master of Information Technology (Extended) take subjects as per Master of Information Technology plus four directed subjects approved by the Head of the School of Information Technology from:
CP2001:03 Data Structures and Algorithms
CP2402:03 Operating Systems and Architectures
CP3020:03 Advanced Database Management
CP3050:03 Algorithms and Complexity
CP3070:03 Principles of Data Communications
Other subjects as approved by the Head of School of Information Technology.

MULTIMEDIA

Graduate Certificate, Graduate Diploma and Master of Information Technology students select subjects from:
CP5046:03 ICT Project 1: Analysis and Design
CP5047:03 ICT Project 2: Implementation and Commissioning
CP5220:03 On-line Multimedia Design
CP5230:03 Internetworking 1
or
CP5231:03 Internetworking Principles
CP5240:03 Internetworking 2
or
CP5241:03 Advanced Internetworking
CP5250:03 Network Administration 1
CP5290:03 Unix-Linux Systems
CP5310:03 E-Business Technologies
CP5377:03 Portable Programming
CP5420:03 Graphics and Animation Technologies
CP5504:03 Object Oriented Programming with Java
CP5560:03 Computer Graphics Principles
CP electives or directed subjects approved by the Head of School of Information Technology.
Master of Information Technology (Extended) take subjects as per the Master of Information Technology plus four directed subjects approved by the Head of School of Information Technology from:
CP1010:03 Introduction to Multimedia
CP1030:03 Introduction to Information Technology
CP1200:03 Computer Science 1
CP1300:03 Computer Science 2
CP1500:03 Introduction to Database Principles
CP2001:03 Data Structures and Algorithms
CP2402:03 Operating Systems and Architectures
CP3050:03 Algorithms and Complexity
CP3070:03 Computer and Data Communications
CP3110:03 Fundamentals of Software Engineering
CP3120:03 Object Oriented Software Engineering
Other subjects as approved by the Head of School of Information Technology.

NETWORKING

Graduate Certificate, Graduate Diploma and Master of Information Technology students select subjects from:
CP5046:03 ICT Project 1: Analysis and Design
CP5047:03 ICT Project 2: Implementation and Commissioning
CP5110:03 Topics in the Theory of Computer Science
CP5170:03 Topics in Systems and Networks
CP5230:03 Internetworking 1
or
CP5231:03 Internetworking Principles
CP5240:03 Internetworking 2
or
CP5241:03 Advanced Internetworking
CP5250:03 Network Administration 1
CP5260:03 Network Administration 2
CP5290:03 Unix-Linux Systems
CP5310:03 E-Business Technologies
CP5377:03 Portable Programming
CP5504:03 Object Oriented Programming with Java
CP5610:03 Fundamentals of Software Engineering
CP5620:03 Object Oriented Software Engineering
CP electives or directed subjects approved by the Head of School of Information Technology.
Master of Information Technology (Extended) take subjects as per the Master of Information Technology plus four directed subjects approved by the Head of School of Information Technology from:
CP2001:03 Data Structures and Algorithms
CP2004:03 Object Oriented Programming with Java
CP2402:03 Operating Systems and Architectures
CP3020:03 Advanced Database Management
CP3050:03 Algorithms and Complexity
Other subjects as approved by the Head of School of Information Technology.

SCIENCE INFORMATICS

Graduate Certificate of Information Technology students select three subjects from the following:
Graduate Diploma of Information Technology students select six subjects from the following:
Master of Information Technology students select eight subjects from the following:
CP5046:03 ICT Project 1: Analysis and Design
CP5047:03 ICT Project 2: Implementation and Commissioning
CP5220:03 On-line Multimedia Design
CP5230:03 Internetworking 1
or
CP5231:03 Internetworking Principles
CP5290:03 Unix-Linux Systems
CP5310:03 E-Business Technologies
CP5377:03 Portable Programming
CP5504:03 Object Oriented Programming with Java
CP5520:03 Advanced Databases and Applications
Plus up to four subjects approved by the appropriate Head of School of science discipline
Electives or directed subjects approved by the Head of School of Information Technology.
Master of Information Technology (Extended) students take subjects as per the Master of Information Technology plus four directed subjects approved by the Head of School of Information Technology or the appropriate Head of School of science discipline from the following:
CP1010:03 Introduction to Multimedia
CP1030:03 Introduction to Information Technology
CP1200:03 Computer Science 1
CP1300:03 Computer Science 2
CP1500:03 Introduction to Database Principles
CP2001:03 Data Structures and Algorithms
CP2060:03 Computer Graphics Principles
CP2402:03 Operating Systems and Architectures
CP3050:03 Algorithms and Complexity
CP3070:03 Computer and Data Communications
CP3110:03 Fundamentals of Software Engineering
CP3120:03 Object Oriented Software Engineering
Other subjects as approved by the Head of School of Information Technology or appropriate Head of School of science discipline.

MASTER OF INFORMATION TECHNOLOGY – MASTER OF BUSINESS ADMINISTRATION

There is a growing demand for graduates skilled in a range of multimedia, computing, networking and software technologies. In addition there is a worldwide demand for graduates with critical business skills for managing in the twenty-first century. This joint degree at JCU provides such skills.

Students should complete subjects to 48 units as follows:

21 units of LB core subjects plus up to 6 units of LB electives to be included:
LB core subjects
LB5001:03 Accounting and Financial Management
LB5002:03 Data Management and Information Technology
LB5003:03 Economics for Managers
LB5004:03 Business and the Law
LB5202:03 Marketing and Innovation
LB5204:03 Globalisation, Governance and the State
LB5205:03 Human Resources and Workplace Development
LB elective subjects
LB5201:03 International Business
LB5203:03 Sustainable Enterprise
LB5206:03 Competitive Strategy
LB5207:03 Entrepreneurship and RiskManagement
LB5208:03 Managing Contemporary Organisations
LB elective or directed subjects approved by the Executive Dean of the Faculty of Law, Business and the Creative Arts
Plus Program approved by the Head of the School of Information Technology taking subjects to 21, 24 or 27 units from:
CP5046:03 ICT Project 1: Analysis and Design
CP5047:03 ICT Project 2: Implementation and Commissioning
CP5220:03 On-line Multimedia Design
CP5230:03 Internetworking 1
or
CP5231:03 Internetworking Principles
CP5240:03 Internetworking 2
or
CP5241:03 Advanced Internetworking
CP5250:03 Network Administration 1
CP5290:03 Unix – Linux Systems
CP5310:03 E-business Technologies
CP5377:03 Portable Programming
CP5504:03 Object Oriented Programming with JAVA
CP5520:03 Advanced Databases and Applications
CP elective or directed subjects approved by the Head of School of Information Technology.

MASTER OF INFORMATION TECHNOLOGY (EXTENDED)– MASTER OF BUSINESS ADMINISTRATION

There is a growing demand for graduates skilled in a range of multimedia, computing, networking and software technologies. In addition, there is a worldwide demand for graduates with critical business skills for managing in the twenty-first century. This joint degree at JCU provides such skills, for students who have limited IT backgrounds.

Students should complete subjects to 60 units as follows:

21 units of LB core subjects plus up to 6 units of LB electives to be included:
LB core subjects
LB5001:03 Accounting and Financial Management
LB5002:03 Data Management and Information Technology
LB5003:03 Economics for Managers
LB5004:03 Business and the Law
LB5202:03 Marketing and Innovation
LB5204:03 Globalisation, Governance and the State
LB5205:03 Human Resources and Workplace Development
LB elective subjects
LB5201:03 International Business
LB5203:03 Sustainable Enterprise
LB5206:03 Competitive Strategy
LB5207:03 Entrepreneurship and RiskManagement
LB5208:03 Managing Contemporary Organisations
LB elective or directed subjects approved by the Executive Dean of the Faculty of Law, Business and the Creative Arts
Plus program approved by the Head of the School of Information Technology taking subjects to 21, 24 or 27 units from:
CP5046:03 ICT Project 1: Analysis and Design
CP5047:03 ICT Project 2: Implementation and Commissioning
CP5220:03 On-line Multimedia Design
CP5230:03 Internetworking 1
or
CP5231:03 Internetworking Principles
CP5240:03 Internetworking 2
or
CP5241:03 Advanced Internetworking
CP5250:03 Network Administration 1
CP5290:03 Unix – Linux Systems
CP5310:03 E-business Technologies
CP5377:03 Portable Programming
CP5504:03 Object Oriented Programming with JAVA
CP5520:03 Advanced Databases and Applications
CP elective or directed subjects approved by the Head of School of Information Technology.
Plus extension of 12 units of directed subjects approved by the Head of the School of Information Technology from:
CP1010:03 Introduction to Multimedia
CP1030:03 Introduction to Information Technology
CP1200:03 Computer Science 1
CP1300:03 Computer Science 2
CP1500:03 Introduction to Database Principles
CP2001:03 Data Structures and Algorithms
CP2402:03 Operating Systems and Architectures
CP3050:03 Algorithms and Complexity
CP3070:03 Computer and Data Communications
CP3110:03 Fundamentals of Software Engineering
CP3120:03 Object Oriented Software Engineering
Other subjects as approved by the Head of School of Information Technology.

GRADUATE DIPLOMA OF SCIENCE

The Graduate Diploma of Science in computer science enables graduates to undertake further studies in the background, principles and practices of computer science.

Students are required to successfully complete 24 units of coursework subjects comprising six core subjects and two electives.

CORE SUBJECTS
CP1500:03 Introduction to Database Principles
CP2001:03 Data Structures and Algorithms
CP2002:03 Operating Systems
CP2004:03 Object Oriented Programming
CP3110:03 Fundamentals of Software Engineering
CP3120:03 Object Oriented Software Engineering
ELECTIVES
Select two from the following subjects:
CP3003:03 Internet Technology
CP3020:03 Advanced Database Management
CP3050:03 Algorithms and Complexity
CP3070:03 Principles of Data Communications

Subjects successfully completed for this award may be credited towards a Master of Applied Science in computer science.

MARINE BIOLOGY

JCU enjoys national and international recognition for its teaching and research in tropical marine biology. The School of Marine Biology and Aquaculture offers both research and coursework postgraduate programs dedicated to the study of tropical shallow water marine systems, with an emphasis on whole-organism biology, the ecology and biogeography of tropical marine organisms and the evolutionary mechanisms that underlie their diversity.

Coursework postgraduate programs consist of semester-long introductory subjects and more advanced block mode subjects in a variety of areas including quantitative marine ecology, fisheries science and marine conservation. Other subjects focus on the life histories, biogeography and evolution of tropical marine animals. Postgraduate coursework emphasises quantitative and analytical approaches through specialist subjects in sampling design and modelling.

Research postgraduate programs benefit from the unparalleled opportunities provided by JCU’s proximity to the Great Barrier Reef, which facilitates investigations of ecological and evolutionary questions for reef fish, corals and other marine animals. Current activities within the School (many of which are ARC funded) provide a diversity of research opportunities for postgraduate students

MASTER OF SCIENCE AND DOCTOR OF PHILOSOPHY

Students can study for the degrees of Master of Science and Doctor of Philosophy under the supervision of one or more members of the academic or research staff in Marine Biology. Associate supervision by staff members of other University schools and by staff members of the Australian Institute of Marine Science may be arranged. Students seeking enrolment in the Master of Science may be required to undertake a Graduate Diploma of Research Methods or Graduate Certificate of Research Methods within the Tropical Marine Ecology and Fisheries Biology program.

MASTER OF APPLIED SCIENCE, GRADUATE DIPLOMA OF SCIENCE AND GRADUATE CERTIFICATE OF SCIENCE

Students seeking qualifications in the Master of Applied Science, the Graduate Diploma of Science or the Graduate Certificate of Science in the discipline of Marine Biology may complete all of their study in coursework mode.

MATHEMATICS

The discipline of Mathematics and Statistics is contained in the School of Mathematical and Physical Sciences.

A variety of postgraduate courses are available for students wishing to pursue a higher degree in Mathematics and Statistics. These include:

MASTER OF SCIENCE AND DOCTOR OF PHILOSOPHY

The Master of Science and the Doctor of Philosophy degrees consist of directed study and a research project. They both provide research training in modern mathematics and statistics.

Admission to the course requires an honours degree or equivalent in mathematics or a closely related discipline. A minimum of one academic year of full-time study for a Master’s degree and three years for a doctorate are required to complete the course. Programs of study are subject to the approval of the Head of School.

MASTER OF APPLIED SCIENCE

The Master of Applied Science in Mathematics and Statistics provides specialist training in the principles of modern mathematics and statistics, together with a project in an area of current research.

Admission to the course requires a degree or equivalent in an appropriate discipline (usually in the mathematical, biological, chemical, environmental or health sciences). The minimum mathematical prerequisite is at least two semesters at mathematics at university level. Normally, 18 months of full-time study, or three years of part-time study will be required to complete the course. Programs of study are subject to the approval of the Head of School.

The course comprises 36 units of coursework which will normally be chosen in Mathematics at graduate and upper undergraduate level. Typically, the project will count for a total of 12-15 units. The course may also include up to 6 units in a related discipline.

GRADUATE DIPLOMA OF SCIENCE

The Graduate Diploma of Science in Mathematics and Statistics provides specialist training in the principles of modern mathematics and statistics.

Admission to the course requires a degree or equivalent in an appropriate discipline (usually in the mathematical, biological, chemical, environmental or health sciences). The minimum mathematical prerequisite is at least two semesters of mathematics at university level. Normally, one year of full-time study, or two years of part-time study will be required to complete the course. Programs of study are subject to the approval of the Head of School.

The course comprises 24 units of coursework which will normally be chosen in Mathematics at graduate and upper undergraduate level. The course may also include up to 6 units in a related discipline.

Subject to the approval of the Head of the School, students enrolled in the course may be permitted to transfer to the Master of Applied Science degree on completion of one semester of the course with good grades.

MECHANICAL ENGINEERING

(See Engineering)

NATURAL RESOURCE MANAGEMENT

(See also Environmental Science)

Coordinated by the School of Tropical Environment Studies and Geography (TESAG), the graduate Certificate of Science, the Graduate Diploma of Science and Master of Applied Science programs in Natural Resource Management aim to educate students in the background, principles and practices of natural resource management applied to tropical systems. The wide range of electives allows students to specialise in the management of marine or terrestrial environments.

Within the broad framework of the Award Requirements, each student’s program, including weighting of coursework and research, can be tailored to the individual candidate’s background and requirements.

Research degrees in natural resource management may be undertaken through a Doctor of Philosophy or a Master of Science program in environmental studies.

Further details of opportunities for coursework degrees can be obtained by contacting the Course Coordinator in TESAG and all students should consult the Course Coordinator when arranging their subject enrolment.

PHYSICAL OCEANOGRAPHY AND METEOROLOGY

The study of Physical Oceanography and Meteorology is contained in the School of Mathematical and Physical Sciences.

A variety of postgraduate courses are available for students wishing to pursue a higher degree in Physical Oceanography and Meteorology. These include:

Doctor of Philosophy.

Master of Applied Science

Master of Science

Graduate Diploma of Science

MASTER OF SCIENCE AND DOCTOR OF PHILOSOPHY

The Master of Science and the Doctor of Philosophy degrees consist of direct study and a research project. They both provide research training in Applied Physics, in Physical Oceanography and/or Meteorology.

Admission to the course requires an honours degree or equivalent in Physics or a closely related discipline. A minimum of one academic year of full-time study for a masters degree and three years for a doctorate are required to complete the course. Programs of study are subject to the approval of the Head of School.

MASTER OF APPLIED SCIENCE

This program, taken by coursework and minor project, provides training in the background, principles and practices of applied physics, specialising in oceanography and meteorology.

Admission to the course requires a degree in an appropriate discipline (normally in physical sciences, mathematics or engineering). A minimum of one academic year of full-time study is required to complete the course.

The program comprises:

GRADUATE DIPLOMA OF SCIENCE

The Graduate Diploma of Science in Physical Oceanography and Meteorology by coursework and minor project provides specialist training in the background, principles and practices of applied physics, specialising in Environmental Physics.

Physics has research activities in coastal oceanography, micro- and meso-scale meteorology, air-sea interactions and radar remote sensing and it is likely that project work would be offered in these areas.

Students are urged to discuss their study program with the Head of Physics at an early stage. Within the broad framework of the Award Requirements, each studentís program, including weighting of coursework and research, can be tailored to the individual candidateís background and requirements.

The program comprises 24 units (where 3 units is equivalent to one semester subject).

CORE
PH5001:09 Project
PH5008:03 Physical Oceanography
PH5011:03 Geophysical Fluid Dynamics (not required by students who have completed PH3006)
PH5012:03 Meteorology
ELECTIVES
Consult Course Coordinator for elective information.

PHYSICS

Physics offers full-time or part-time research to qualify for the degree of Master of Applied Science, Master of Science or Doctor of Philosophy. Students graduating with BSc honours at a suitably high level from other universities may normally carry out research work in Physics to qualify for the degree of MSc or PhD. Students graduating from other universities without honours would normally be considered for entry to a Graduate Diploma of Science in Applied Physics.

MASTER OF SCIENCE AND DOCTOR OF PHILOSOPHY

The Master of Science and the Doctor of Philosophy degrees consist of direct study and a research project. They both provide research training in Physics and Applied Physics. Admission to the course requires a degree or equivalent in Physics or a closely related discipline. A minimum of one academic year of full-time study for a Masters degree and three years for a doctorate are required to complete the course. Programs of study are subject to the approval of the Head of the School.

MASTER OF APPLIED SCIENCE

This program, taken by coursework and minor project, provides specialist training in the background, principles and practices of physics.

Admission to the course required a degree in an appropriate discipline (normally in physical sciences, mathematics or engineering). A minimum of one academic year of full-time study is required to complete the course.

The program is similar to the Master of Applied Science in Physical Oceanography and Meteorology.

GRADUATE DIPLOMA OF SCIENCE

This program, taken by coursework and minor project, provides specialist training in the background, principles and practices of applied physics.

Admission to the course requires a degree in an appropriate discipline (normally in physical sciences, mathematics or engineering). A minimum of one academic year of full-time study is required to complete the course. Please refer to the award requirements in this handbook.

The program comprises:

Students enrolled in the course may be permitted to transfer to the Master of Science (Physics) degree course on the completion, with good grades, of at least three graduate coursework subjects.

PROTECTED AREA MANAGEMENT

(See also Environmental Science)

Coordinated by the School of Tropical Environment Studies and Geography (TESAG), the Graduate Certificate of Science, the Graduate Diploma of Science and Master of Applied Science in Protected Area Management provide specialist training in the background, principles and practice of protected area management with particular emphasis on tropical environments. The wide range of electives allows students to specialise in the management of marine or terrestrial environments.

Within the broad framework of the Award Requirements, each student’s program, including weighting of coursework and research, can be tailored to the individual candidate’s background and requirements.

Research degrees in protected area management may be undertaken as a Doctor of Philosophy or a Master of Science program in environmental studies.

Further details of opportunities for coursework degrees can be obtained by contacting the Course Coordinator in TESAG and all students should consult the Course Coordinator when arranging their subject enrolment.

STATISTICS

(See Mathematics)

TROPICAL AGRICULTURE

Coordinated by the School of Tropical Biology, postgraduate courses lead to the qualifications of Graduate Diploma of Science (by coursework), Master of Applied Science (by coursework with a research option), Master of Science (by research), or Doctor of Philosophy (by research). Specific coursework programs are built principally around elective subjects offered by the Schools of Veterinary and Biomedical Sciences and Tropical Biology.

There is a unique opportunity for postgraduate study in three Cooperative Research Centres which are funded by industry and the Australian Government to foster collaboration between universities, research agencies and industry. These particular Cooperative Research Centres focus on sustainable sugar production and on the ecology and management of tropical savannas and tropical rainforests.

Close linkages have also been developed with various State and Federal research agencies focused on improving primary production and enhancing the conservation values of lands in tropical northern Australia including the Commonwealth Scientific and Industrial Research Organisation (CSIRO), various Queensland State Departments (Primary Industries, Natural Resources, Environment), the Queensland Bureau of Sugar Experiment Stations (BSES), and the Australian Institute of Marine Science (AIMS). Some students carry out research within the agencies, are jointly supervised by external scientists and gain special insights into the day-to-day operations of the best scientific research institutes in northern Australia.

CORE
BT5101:03 Tropical Soils
BT5102:03 Tropical Crops (offered in even-numbered years)
BT5103:03 Tropical Pastures
BT5105:03 Tropical Agricultural Field Studies
BT5106:03 Contemporary Issues in Agriculture
RESEARCH
BT5054:24 Independent Project and Thesis
BT5301:03 Literature Review
BT5302:03 Literature Review and Proposal
ELECTIVES
Consult Course Coordinator for elective information.

TROPICAL ECOLOGY

Coordinated by the School of Tropical Biology, the Graduate Diploma of Science and the degrees of Master of Applied Science and Master of Science in Tropical Ecology are offered through an inter-school program which aims to educate students in the background, principles and practices of ecology, especially as applied to tropical systems.

The wide range of electives allows students to build a course specialising in aquaculture or the ecology of rainforest, savanna, tropical freshwater systems, tropical wildlife, or tropical insects.

Prospective students should consult with the Course Coordinator. Within the broad framework of the Award Requirements, each student’s program, including weighting of coursework and research, can be tailored to the individual candidate’s background and requirements.

CORE
BZ5440:03 Ecology and Conservation
ZL5003:03 Biometrics
Compulsory for students taking the Graduate Diploma, MSc or MAppSc in Tropical Ecology unless they have passed subjects deemed equivalent.
ELECTIVES
Consult Course Coordinator for elective information

TROPICAL MARINE ECOLOGY AND FISHERIES BIOLOGY

JCU enjoys national and international recognition for its teaching and research in tropical marine biology. The School of Marine Biology and Aquaculture offers both research and coursework postgraduate programs dedicated to the study of tropical shallow water marine systems, with an emphasis on whole-organism biology, the ecology and biogeography of tropical marine organisms and the evolutionary mechanisms that underlie their diversity.

Coursework postgraduate programs consist of semester-long introductory subjects and more advanced block subjects in a variety of areas including quantitative marine ecology, fisheries science and marine conservation. Other subjects focus on the life histories, biogeography and evolution of tropical marine animals. Postgraduate coursework emphasises quantitative and analytical approaches through specialist subjects in sampling design and modelling.

Research postgraduate programs benefit from the unparalleled opportunities provided by JCU’s proximity to the Great Barrier Reef which facilitates investigations of ecological and evolutionary questions for reef fish, corals and other marine animals. Current activities within the School (many of which are ARC funded) provide a diversity of research opportunities for postgraduate students.

Coordinated by the School of Marine Biology and Aquaculture, the Graduate Certificate of Science, Graduate Diploma of Science and Master of Applied Science in Tropical Marine Ecology and Fisheries Biology are flexible programs which aim to provide training in the principles and techniques of marine ecology and fisheries biology in tropical environments.

The wide range of electives allows students to build a program specialising in the ecology of coral reefs, mangroves, coastal or estuarine habitats, or in the biology and evolution of tropical marine animals.

Prospective students should consult with the Course Coordinator regarding enrolment and subject selection. Within the broad framework of the Award Requirements, each student’s program, including weighting of coursework and research, can be tailored to the individual candidate’s background and requirements. A minimum enrolment of 10 students is required for each coursework subject.

CORE
MB5003:03 Fisheries Science*
MB5300:03 Sampling and Experimental Design** (intensive unit)
MB5310:03 Tropical Fisheries Biology and Management* (intensive unit)
ZL5003:03 Biometrics***
*Compulsory for students taking the GDipSc, MAppSc or MSc and specialising in Fisheries Biology.
**Compulsory for all students taking the GDipSc, MAppSc or MSc in Tropical Marine Ecology and Fisheries Biology.
***Compulsory for students taking the GDipSc, MAppSc or MSc unless they have passed subjects which are deemed equivalent.
ELECTIVES
Consult Course Coordinator for elective information.

TROPICAL PLANT SCIENCES

Coordinated by the School of Tropical Biology, postgraduate programs include the awards of Graduate Diploma of Science, Master of Applied Science (Coursework), Master of Science (by research) or Doctor of Philosophy (by research). (See also Tropical Agriculture.)

Discipline areas in which research degrees can be undertaken are plant systematics and population biology, plant ecology, plant physiology and metabolism, cytology, genetics and plant breeding, marine and freshwater plant biology, tropical soils and the theoretical and applied aspects of tropical crops, pastures and horticulture.

Postgraduate training opportunities are enhanced by linkages with several Co-operative Research Centres (CRCs) and numerous organisations in the region with research interests in tropical plants, plant communities and crops such as CSIRO, Bureau of Sugar Experimental Stations, Departments of the Environment, Natural Resources and Primary Industries and the Australian Institute of Marine Science.

MASTER OF APPLIED SCIENCE (BOTANY) MASTER OF APPLIED SCIENCE (TROPICAL AGRICULTURE)

The Master of Applied Science (Botany) provides training in applied aspects of the plant sciences. The Master of Applied Science (Tropical Agriculture) is a similar program but with special emphasis on those aspects of the plant sciences relevant to tropical agriculture. Each program requires a minimum of one year full-time study. Specialist majors of study may be selected, in consultation with the Course Coordinator.

TROPICAL URBAN AND REGIONAL PLANNING

(See also Human Geography)

Professionally trained environmental and urban planners are increasingly coming to the fore in the process of ecologically sustainable development. The initial skills needed to assess whether development is acceptable and which elements of project design are appropriate can best be gained through a course of tertiary study. This program provides a career qualification that is widely recognised by employers.

The program, administered by the School of Tropical Environment Studies and Geography (TESAG), may be taken towards the Graduate Certificate of Science, the Graduate Diploma of Science or Master of Applied Science as a coursework degree. The aim of the program is to provide a broadly-based postgraduate education for planners in urban, shire and regional settings, as well as to provide scope for allied professionals to widen their accreditation in the field of planning.

Research degrees in tropical urban and regional planning may be undertaken as a Doctor of Philosophy or a Master of Science program in Human Geography.

Further details of opportunities and programs in tropical urban and regional planning can be obtained by contacting TESAG and all students should consult the Course Coordinator when arranging their subject enrolment.

WILDLIFE BIOLOGY AND MANAGEMENT

Coordinated by the School of Tropical Biology, the Graduate Diploma of Science, the Master of Applied Science and the Master of Science in Wildlife Biology and Management emphasise tropical systems generally and also the development and practice of wildlife biology and management in Australia.

Prospective students should consult with the Course Coordinator. Within the broad framework of the Award Rules, each student’s program, including weighting of coursework and research, can be tailored to the individual candidate’s background and requirements.

CORE
BZ5440:03 Ecology and Conservation
ZL5003:03 Biometrics
ZL5203:03 The Australian Vertebrate Fauna
ZL5205:03 Wildlife Ecology and Management
ELECTIVES
Consult Course Coordinator for elective information.

ZOOLOGY AND TROPICAL ECOLOGY

Students can study for the research degrees of MSc and PhD under supervision in the School of Tropical Biology.

MASTER OF APPLIED SCIENCE AND GRADUATE DIPLOMA OF SCIENCE

The School offers a number of postgraduate majors, generally within the area of whole animal biology. Themes include:

All strands take advantage of the tropical environment of the University. Strands can be tailored to meet individual needs, by consultation with the relevant strand coordinator and/or the Head of School (see details under separate headings).

RESEARCH ACTIVITIES


AUSTRALIAN CENTRE FOR TROPICAL FRESHWATER RESEARCH


Experimental studies on the ecology of rainforest streams;
Population ecology of stream animals;
Hydrobiology of Lake Dalrymple, a highly turbid reservoir;
Effects of agricultural practices on stream biotas and water quality;
Instream flow needs of the biota in regulated tropical rivers;
Fish biology and ecotoxicology;
Livestock grazing and health of savanna rivers;
Discharge of rivers to Great Barrier Reef lagoon;
Mine site monitoring;
Wetland inventory and assessment;
Water quality monitoring;
Contaminants in agricultural run-off;
Riparian zone ecology and processes;
Riparian and instream baseflow requirements on fractured basalts.

SCHOOL OF EARTH SCIENCES

Economic Geology

Studies of metalliferous ore deposits including gold, base metals, iron ore, uranium and rare metals, tin and tungsten. Factors in the formation of giant ore deposits. Role of fluids, metamorphism and deformation in the generation of ore deposits. Structural control of ore systems. Evaluation and exploitation of coalseam gas resources.


Structural and Metamorphic Geology

Structural studies at all scales of mountain belts and their development: both ancient and modern orogens are investigated using new microstructural tools that allow past directions of bulk shortening and their changes with time to be correlated with the progressive metamorphic development. Structural and metamorphic studies that investigate processes and mechanisms of deformation and metamorphism in a fully integrated manner using a combined microstructural and chemical approach. Investigations into the structural timing and controls on the origin and development of large-scale ore deposits in particular sites with the specific aim of being able to predict the location of ore bodies with no surface geophysical or geochemical expression in mineralised terrains. Metamorphic reactions during deformational and thermal events and the inter-relationships between them.


Marine and Sedimentary Geology

Sedimentary response of the north Queensland continental shelf to the post-glacial rise in sea-level. Sediment production and distribution and the influence of terrestrial runoff on sedimentation and water chemistry in the Great Barrier Reef province. Sedimentation from the Great Barrier Reef shelf edge into the Queensland trough. Sequence stratigraphy, sedimentology and palaeontology of Neogene strata and the role of sea-level change in determining sedimentary architecture. Deep ocean sedimentary and geochemical evidence of palaeoenvironmental change. Fluvial and coastal processes. Origin and extraction of gas hydrates.


Regional Geology and Tectonics

Evaluation of Proterozoic and Palaeozoic terranes and palaeoenvironmental assessment of the Cretaceous System in northern Australia. Tectonostratigraphic assessment of assemblages in the northern Tasman Orogenic Zone. Stratigraphy and palaeontology of Queensland Palaeozoic sequences. Study of the morphology and petrogenesis of very young flood basalt flows in north Queensland. Characterisation of the processes during granite cyrstallisation, pegmatite emplacement and magmatic fluid evolution.


Environmental Geology and Minesite Rehabilitation (Cairns)

Studies on the hydrology, sedimentology and soil science of mine sites. Hydrology of final pit voids. Environmental radioactivity, geochemistry and biogeochemistry of uranium mines. Smelter emissions at historic base metal mine sites and weathering of slag heaps. Stream sediment and water pollution due to mining and acid sulphate soil formation. Soil pollution as a result of anthropogenic activities and natural processes. Noble metal chemistry of sewage sludge and extraction of metals from biosolids.


SCHOOL OF ENGINEERING

Sugar Processing

Control of vacuum pans;
Modelling of crystallisers;
Novel sugar extraction processes;
By products from molasses, bagasse and filter mud;
Sugar dryer modelling;
Process modelling for waste minimisation.

Mineral Processing

Electro-refining and electrowinning of copper;
Fluid dynamics and slimes transport in electro refining cells;
Metal extraction kinetics (Nickel/Cobalt separation).

Fire and Safety

Catalytic combustion involving heat transfer;
Modelling of heat transfer across fire retardant coatings.

Rheology and Surface Forces

Rheology of complex fluids;
Surface chemistry and rheology of colloidal dispersions;
Surface forces arising from adsorbed additives in colloidal dispersions;
Hamaker constant determination via a novel yield stress-zeta potential technique
Flocculation and dewatering;
Pipeline transportation.
Acid mine drainage;
Application of Tikhonov regularisation to viscometry, reaction kinetics, spectophotometry.

Ocean and Coastal Engineering

Numerical modelling of ocean and coastal phenomena;

Simulation of tropical cyclone storm surge;
Numerical modelling of Great Barrier Reef circulation;
Wave prediction in coral reef areas;
Determination of the frequency of coastal flooding;
Numerical modelling of dredge plume movement;
Great Barrier Reef – Engineering guidelines: design, construction and operation.

Geomechanics

Resistance of short piers to combined uplift and lateral loading;
Bearing capacity and settlement of shallow foundations in granular soils;
Strengths and compressibility of clays;
Reliability-based geotechnical designs;
Artificial neural networks, application in geomechanics;
Characteristics of soft clays of coastal North Queensland;
Mine tailings and stability;
Computational geomechanics.

Hydraulic and Fluid Mechanics

Differentially heated rectangular cavities;
Reservoir side-arm mechanics;
Vertical thermal/viscous boundary layers;
Stratified intrusions;
Side-arm circulation due to incident radiation.

Structural Engineering

Bending, buckling and dynamic behaviour of fibre-reinforced composite plates;
Strength of concrete-filled steel tubular beams and columns;
Rehabilitation and retrofitting of timber, steel and concrete structural members by advanced composite jacketing;
Non-destructive characterisation of flaws in composite structures;

Wind Engineering

A strong interest in the engineering aspects of tropical cyclones has been developed within the school. A major aspect of this work is the design of buildings, particularly housing, to resist strong winds. It involves wind tunnel measurements, structural testing and analytical studies and is undertaken in collaboration with the James Cook Cyclone Testing Station, a special research and development unit located within the School. Specific areas of research include:

Wind tunnel measurement of wind forces on structures and wind velocity fields;

Analysis of damage risk from tropical cyclones and windstorms;

Development of criteria for design against wind loads;

Structural behaviour of housing construction under wind loads (including full-scale house testing);

Classification of wind borne debris;

Fatigue of building components under wind loadings;

Computer modelling of structural behaviour of houses.

Systems Engineering and Transportation

Development of operational models of single bulk export commodity ports;

Transportation systems analysis including safety, congestion, energy and environmental considerations;

Hospital theatre management and information systems;

Patient flow modelling and waiting line management;

Operations management in the agriculture sector;

Sustainable transportation and sustainable cities;

True cost of road travel;

Highway safety and ‘vision zero’.

Environmental Engineering

Environmental impacts of civil engineering projects;
Water quality modelling of reservoir;
Water quality modelling in distribution systems;
Aerator testing facility for aquaculture and waste treatment industries;
Aquaculture effluent treatment with floating medium filters;
Eco-sustainability and energy audits for all types of industries;
Stormwater treatment for urban developers and agriculture;
Wetlands for stormwater management;
CFD modelling of aerator driven flows in aquaculture ponds;
Improved river bank stabilisation practices in the wet tropics;
Membrane bioreactors for waste water reuse.

RF Electronics

High power linear amplifier for mobile radio;
Analogue to Digital Conversion Techniques and Systems.

Satellite Communications/Remote Sensing

DSP-based satellite beacon receivers and radiometers and their data logging systems;

A low-cost receiving system for weather satellites (JCUMetSat);

Satellite signal attenuation due to rain, including research on effects of elevation angle on satellite receivers in areas of heavy rain, analysis of radar-derived rainfall patterns and determination of rain-rate patterns.

Control Systems

Robotic systems, including autonomous robotic vehicles and instrumentation;
Process control systems.

Digital Systems

Embedded microprocessor systems for industrial and research applications;
Digital Communication Systems including COFDM.

Communications

Data communication systems;
Spread-Spectrum Techniques;
Microwave over-ocean propagation;
Development of a range of communications instruments, including a Spread-Spectrum Network Analyser, a FM Exciter using DSP techniques and Microwave radiometers.

Instrumentation

Non-contact distance measurements using radar;
Data Acquisition Systems for industrial and research applications, including satellite transmission analysis, environment monitoring and control, power system transient recording, remote data loggers and embedded monitoring systems;
Industrial application of microwaves, including systems to monitor height and materials in hazardous environments, furnace temperature measurements using microwave radiometers and control systems for harvesting machinery;
Environmental (temperature, humidity etc) monitoring and data logging;
Over ocean radio propagation measurements and modelling.

Power Systems/Applications

Distributed generation;
Power system analysis techniques.

Microwave Superconductivity and Dielectric Measurements

Measurements of surface resistance of superconducting materials at microwave frequencies;
Measurements of microwave properties of superconducting and dielectric materials for communication systems;
Applications of high Tc devices in wireless communication;
Power handling capabilities of high Tc films;
Superconducting microwave passive circuits;
Superconducting filters for mobile radio base stations.

Engineering Education

Student learning;
Appropriate pedagogies for engineering;
Flexible learning and teaching through resource-based and Internet-supported methodologies.

Application of computational porous media mechanics to the crushing of fibro-porous media;
Experimental determination of the fundamental properties of sugar cane and bagasse;
CFD Modelling of pan boiling;
Acoustic imaging of bubble formation;
CFD modelling of splash mechanics in molten liquid;
Particle image velocimetry;
Fracture mechanics;
Calibration of elasto-plastic constitutive models;
Finite element modelling of hyper-elastic materials;
Finite element analysis of non-linear material and geometric problems;
Simultaneous heat and mass transfer;
Experimental methods in natural convection heat transfer;
Thermal radiation heat transfer;
The mechanics and thermodynamics of rotational-moulding;
Applied discrete element modelling (dragline bucket filling, ore-pass mechanics and bulk material handling systems);
Characterisation of blasted rock and soil as a continuum and at a discrete level;
Development of finite element procedures for large strain modelling and contact;
Finite element modelling of ground control in underground mining environments;
Vibration control;
Fundamental research into image tensor analysis for constitutive model validation;
Tribology and wear;
Characterisation of particle shape/morphology. The study of wear particles for machine condition monitoring;
Application of artificial intelligence techniques to wear and condition monitoring;
Integration of wear particle analysis with vibration condition monitoring;
Development of flexible delivery teaching tools for computational engineering.

Microstucture design of composite materials;
Design of bio-materials;
The development of novel materials through multi-scale modelling and design;
Computational modelling of micro and nano indentation of coated materials;
Development of biodegradable materials using nanocomposites;
Computational shape and topology design.

SCHOOL OF INFORMATION TECHNOLOGY

Bioinformatics:

This is the creation of new knowledge by computer analysis of biological data and is a key element in modern biotechnology. Within our Bioinformatics Applications Research Centre, we research and develop novel software methods for processing biodata sets, working in conjunction with a range of bioscientists. The aim is the creation of novel software methods and products in bioinformatics.


Scientific Visualisation and Data Mining:

This is the creation of 3D images and immersive environments that enable people to extract new information from complex data sets in an interactive environment. The enhanced understanding obtained through visualisation can lead to advances in medicine, biotechnology and ecology.


Computing Science Theory:

This is the study and development of new approaches to computation, new algorithms, and formulation of new connections among many mathematical and scientific disciplines such as graph theory, statistical physics and molecular biology, and combinatorial optimisation.


Grid Computing:

This is the is the study of applications, architectures and performance for evolving data and computing grids, linked by broadband communications.


Networking

This is the study of advanced routing methods and protocols in ISP networks and the Internet. The aim is increased efficiency and improved quality of service in current and next generation networks. Ad Hoc IP Networking is one such field, studying the protocols and performance for mobile computer networks in which the connections are established on a temporary basis.


Mobile and Broadband Communications:

This is the study of protocols and performance of mobile networks, with an emphasis on IP networking and broadband.


Intelligent Data Analysis :

This is the study of statistical computing and data mining of complex data sets, with a focus on bioscience data sets.


Cryptography and Security:

This is the study of algorithms, protocols and systems which ensure reliable and secure storage and transmission of information.


Signal Processing:

This is the study of signal processing with application to imaging and printing systems and remote data logging.


SCHOOL OF MARINE BIOLOGY AND AQUACULTURE

Pearl research;
Biofouling research;
Sponge research;
Aquaculture genetics;
Tropical crustaceans;
Larval biology and culture;
Larval nutrition;
Fish reproduction;
Larval fish culture.

Tropical Fisheries Biology

Fisheries science with an emphasis on studies of growth, reproduction and recruitment in tropical fishes of commercial importance;
The methods of ageing tropical fishes has a high research priority;
Reproductive biology of sex-changing fishes.

Coral Biology and Coral Reef Ecology

Reproductive biology, growth patterns and demography of scleractinian and soft corals;
Evolutionary biology and biogeography of corals;
Special emphases on modelling of population processes in corals and the consequences of mass spawning;
Responses of corals to environmental disturbances.

Population and Community Modelling

Exploring the dynamics of coral reef systems at multiple spatial and temporal scales;
Community assembly rules and biogeography;
Recruitment, dispersal connectivity and meta-population models.

Sampling and Monitoring Programs and Marine Conservation Biology

The influence of human and natural disturbance on coastal and coral reef ecosystems;
The design of sampling, experimental and long-term monitoring programs in shallow marine environments.

Tropical Ichthyology

Taxonomy, phylogeny and population biology of coral reef fishes;
Behavioural ecology of reef fishes;
The biology of herbivorous fishes;
Larval biology of fishes;
Functional biology of tropical fishes.

Invertebrate Biology

Biodiversity of invertebrates in tropical habitats;
Crustacean biology with an emphasis on functional anatomy and neurophysiology;
Phylogenetic studies on Crustacea;
Planktonic and pelagic invertebrates;
Taxonomy of marine invertebrates, especially molluscs.

Mangrove, Coastal and Estuarine Biology

Shallow water benthic organisms, especially those of soft bottoms. Tropical intertidal organisms. Mangrove and estuarine fishes and their life histories.


SCHOOL OF MATHEMATICAL AND PHYSICAL SCIENCES

Modelling dispersion of marine larvae using hydrodynamic and biological models;
Tidal and storm surge modelling;
Groundwater flow and flow over topography;
Tensor analysis.

Artificial Intelligence for biodiscovery;
Enhancing decision making capability for the Australian Sugar Industry;
Statistics in forest technology;
Data mining for chemoinformatics, bioinformatics, remote sensing and climatology;
Applied statistics.

Theoretical Atomic Physics (Ultracold collision of trapped atoms);
Elementary Particle Theory (Hardronic decays of B mesons, QCD factorisation calculation including light cone corrections);
Astroparticle Physics (Dark matter and dark energy);
Gaseous Electronics (Low temperature plasma discharge modelling, swarm physics, electron transport and scattering in atomic and molecular gases);
Biomechanics.

Environmental Physics;
Physical Oceanography;
Meteorology;
Electronic and Optical Instrumentation development;
Hydrodynamics and Hydrology;
Geophysics.

Astrophysics;
Astronomy education;
Quantitative astronomy history.

SCHOOL OF TROPICAL BIOLOGY

Plant physiology and metabolism

Sodium metabolism in C4 and CAM plants;
Carbon fixation in CAM plants.

Plant ecology and ecophysiology

Revegetation of mining leases;
Fire ecology;
Ecosystem dynamics of humid tropical rainforests;
Ecosystem dynamics of tropical savannas;
Plant and ecosystem responses to high CO2 concentrations;
Regenerative properties of rainforest trees;
Plant-soil relationships in Australian rainforests;
Effects of irrigation discharge on wetlands;
Molecular ecology and phylogeny;
Nutrition and growth of rainforest trees in plantations and natural forests.

Plant systematics and population biology

Pollination and reproductive studies of native plant species;
Reproductive biology of selected sedges and other monocotyledons;
Inter and intra-specific relations in Australian Vigna spp;
Evolutionary studies of Australian plant groups.

Tropical crops and pastures

Role of silicon in sugarcane nutrition;
Soil processes in tropical savannas;
Soils and land use in the humid tropics.
Competitive and allelopathic effects in grass-legume pastures;
Sustainable land use in tropical savannas;
Land use and land degradation;
Role of natural products as soil amendments;
Establishment of tropical pastures;
Mulches in tropical crop production;
Soil microbes and tea production;
Drainage systems in sugarcane lands;
Ripeners for sugarcane;
Ecology of woody weeds;
Agroecology of tropical legumes with special reference to the Desmanthus gene pool;
Crop, soil and water management options for sustainable sugarcane production;
Role of companion crops in alleviating adverse effects of sugarcane monoculture;
Pasture plants for Australian and Indonesian savannas;
Impact of grazing on native pastures;
Tropical agroforestry;
Agroecology of cocoa in Brazil;
Agroecology of cane sugar in Far North Queensland;
Domestication of Indigenous fruits and nuts in southern Africa and Pacific Islands;
Domestication of Australian bush tucker.

Marine and freshwater plant biology

Water quality in a highly turbid tropical reservoir;
Bioluminescence and plankton physiology;
Seagrass biology.
Cytology, genetics and plant breeding
Breeding systems, genetic diversity and cytogenetics of tropical grasses and legumes;
Population genetics of native plant species.

Plant pathology

Sugarcane ratoon stunting disease.

Animal behaviour

Agonistic behavior, predatory behaviour and mating systems;
Social organisation (Hymenoptera, Isoptera, Reptiles and Mammals);
The organisation of complex systems.

Animal ecology

The structure and distribution of rainforest and savanna faunal communities;
Autecological studies on tropical marsupials and rodents;
Ecology of tropical bird communities;
Ecology of reptiles and amphibians;
Molecular ecology.

Ecophysiology

Ecophysiology of vertebrates especially reptiles.

Entomology

Insect/plant interactions;
Seasonality in tropical insects.

Freshwater Biology

Ecology of tropical streams and wetlands;
Biology of tropical frogs and fish;
Ecological interactions of introduced species with native freshwater communities;
Taxonomy of tropical freshwater insects;
Population dynamics and dispersal of cane toads;
Ecology of mosquito and snail vectors of disease;
Development of biological monitoring for aquatic ecosystems.

Parasitology

Evolutionary relationships among parasites;
Ecology of parasites in local amphibians;
Parasite systematics and genetics.

Tropical biodiversity

Determinants of biodiversity in tropical rainforest communities (freshwater fauna, terrestrial invertebrates and vertebrates);
Taxonomy and systematics of rainforest species.

Wildlife Conservation and Management

Effects of vegetation structure and fragmentation on small mammal communities;
Classification of tropical wetlands;
Monitoring and survey methodology; environmental impact assessment;
Population studies towards conservation and management of threatened species;
Population genetics of endangered species.

Evolutionary Biology

Ecological, behavioural and genetic influences on geographic variation and natural selection;
The function, ecology and evolution of animal colour patterns and vision;
Molecular phylogenetics;
Evolution of life history strategies;
Population genetics of native animals.

SCHOOL OF TROPICAL ENVIRONMENT STUDIES AND GEOGRAPHY


These can be grouped into the following major programs and their subsets.