3 1 7537 Please contact admin.teaching.msi@anu.edu.au for consent to enrol in this course. true MATH6103 <p>The use of mathematical models has grown rapidly in recent years, owing to the advent of cheap and powerful computers, expanding from applications in the physical and earth sciences to the biological and environmental sciences, and now into industry and commerce. </p><p>In this course we study:</p><ul><li>The process of starting with an initial succinct non-mathematical description of a problem<br />Formulate associated mathematical models.</li><li>Introduce new mathematical techniques and then determine and interpret solutions that are useful in a real life context.</li><li>General computational and mathematical techniques and strategies will be introduced by examining specific scientific and industrial problems.</li></ul><p>The topics to be covered in this course include: </p><ul><li>Model type selection and formulation</li><li>Data analysis techniques (time/space and frequency domain)</li><li>State Space and Transfer Function Models</li><li>Model Structure Identification</li><li>Testing and Sensitivity Analysis</li></ul><p>Computations will be done using modern high level scientific computing environments such as SCILAB or PYTHON.&nbsp; </p><p>Note: Graduate students attend joint classes with undergraduates but are assessed separately.</p> <p>Bachelor degree; with second year Maths. </p> 1 false 12637 <p>Assessment will be based on:</p><ul><li>Exam (40%; LO 1, 2, 3, 4, 5)</li><li>Project designing and evaluating a model for a selected system (30%; LO 1, 2)</li><li>Three assignments demonstrating ability to apply techniques (10% each; LO 2, 3, 5)</li></ul> 1 1 <p>On satisfying the requirements of this course, students will have the knowledge and skills to:</p>1. Design a model based on the basic processes and behaviour of a system and different ways of representing them<br />2. Evaluate the issues in building and evaluating models, taking into account their purpose and prior knowledge<br />3. Explain and use some important modelling tools (transfer function, state space, frequency-domain and DE-based models as well as data analysis techniques)<br />4. Discuss the role of modelling in both industry and science<br />5. Explain sensitivity and uncertainty analysis techniques 1 Scientific and Industrial Modelling 6 6 6 <p>Requirtes undergraduate degree with suitable second year Maths (or equivalent)</p> Scientific and Industrial Mode Band 2 NP Mathematics u8606170 2 2010