**Corequisite major:** Quantitative Biology

Quantitative skills have become an essential ingredient for modern biology. The vast quantities of genomic data generated by sequencing technologies can only be handled and interpreted through computers using algorithms underpinned by sound mathematical and statistical models. Mathematics also finds application in directly modelling biological processes at all levels from the molecular to macroscopic. This specialisation is designed to equip students with an understanding of the mathematics behind the computer programs regularly used by biologists, and an ability to analyse biological data and construct mathematical models. The intersection of mathematics and biology is one of the fastest growing areas of science, with most large biology laboratories now employing bioinformaticians, creating career opportunities in both the public and private sector.

## Learning Outcomes

- Understand how mathematical and statistical models of biological phenomena from biomolecular to macroscopic scales are constructed and analysed.
- Demonstrate the ability to construct mathematical and statistical models of biological phenomena.
- Demonstrate the ability to obtain quantitative results from mathematical and statistical models through analytical and computational methods.
- Communicate the results and limitations of mathematical and statistical models of biological models to non-mathematical stakeholders, e.g. experimental biologists and medical researchers.
- Demonstrate an ability to complete projects in quantitative biology and bioinformatics individually and within groups.

## Other Information

Please note, some of the courses listed in the specialisation may have prerequisites that are not included in the co-requisite major. Students should check prerequisite requirements carefully.

Students who need further information should contact the academic convener of the Advanced Quantitative Biology Specialisation.

Back to the top## Requirements

This specialisation may only be undertaken in conjunction with the Quantitative Biology major.

This specialisation requires the completion of 24 units, of which

A minimum of 12 units must come from completion of 3000- level courses

The 24 units must come from completion of courses from the following list:

BIOL2202 Experimental Design and Analysis in Biology (6 units)

BIOL3161 Genomics and its Applications (6 units)

BIOL3206 Evolution of Biodiversity (6 units)

COMP3600 Algorithms (6 units)

COMP3630 Theory of Computation (6 units)

MATH2306 Applied Mathematics II (6 units)

MATH3029 Probability Theory with Applications (6 units)

MATH3501 Scientific and Industrial Modelling (6 units)

MATH3512 Matrix Computations (6 units)

MATH3514 Numerical Optimisation (6 units)

STAT2005 Introduction to Stochastic Processes (6 units)

STAT3004 Stochastic Modelling (6 units)

STAT3017 Big Data Statistics (6 units)

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