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Showing 25 course outlines from 19204 matches

876

BIOMENG 241

: Instrumentation and Design
2023 Semester Two (1235)
An introduction to engineering instrumentation related to the measurement of biological signals. Topics include: Fundamentals of measurement systems (electric circuits, basic electronics, frequency domain signal analysis and transient analysis, measurement systems). This course will cover the design methodology of instrumentation systems and include an instrumentation design project.
Subject: Biomedical Engineering
Prerequisite: ELECTENG 101
877

BIOMENG 241

: Instrumentation and Design
2022 Semester Two (1225)
An introduction to engineering instrumentation related to the measurement of biological signals. Topics include: Fundamentals of measurement systems (electric circuits, basic electronics, frequency domain signal analysis and transient analysis, measurement systems). This course will cover the design methodology of instrumentation systems and include an instrumentation design project.
Subject: Biomedical Engineering
Prerequisite: ELECTENG 101
878

BIOMENG 241

: Instrumentation and Design
2021 Semester Two (1215)
An introduction to engineering instrumentation related to the measurement of biological signals. Topics include: Fundamentals of measurement systems (electric circuits, basic electronics, frequency domain signal analysis and transient analysis, measurement systems). This course will cover the design methodology of instrumentation systems and include an instrumentation design project.
Subject: Biomedical Engineering
Prerequisite: ELECTENG 101
879

BIOMENG 241

: Instrumentation and Design
2020 Semester Two (1205)
An introduction to engineering instrumentation related to the measurement of biological signals. Topics include: Fundamentals of measurement systems (electric circuits, basic electronics, frequency domain signal analysis and transient analysis, measurement systems). This course will cover the design methodology of instrumentation systems and include an instrumentation design project.
Subject: Biomedical Engineering
Prerequisite: ELECTENG 101
880

BIOMENG 261

: Tissue and Biomolecular Engineering
2025 Semester Two (1255)
Overview of molecular and tissue engineering principles emphasising biochemical kinetics, gene regulation, cell behaviour and biomedical ethics. Laboratory practice and design project in cell culture and molecular biology techniques. Topics include enzymes and regulation of metabolic pathways, thermodynamic principles of biochemical reactions, systems biology and regulatory motifs in biochemical networks, cell culture techniques, research and medical ethics.
Subject: Biomedical Engineering
Prerequisite: BIOSCI 107, ENGSCI 211
Restriction: BIOMENG 361
881

BIOMENG 261

: Tissue and Biomolecular Engineering
2024 Semester Two (1245)
Overview of molecular and tissue engineering principles emphasising biochemical kinetics, gene regulation, cell behaviour and biomedical ethics. Laboratory practice and design project in cell culture and molecular biology techniques. Topics include enzymes and regulation of metabolic pathways, thermodynamic principles of biochemical reactions, systems biology and regulatory motifs in biochemical networks, cell culture techniques, research and medical ethics.
Subject: Biomedical Engineering
Prerequisite: BIOSCI 107, ENGSCI 211
Restriction: BIOMENG 361
882

BIOMENG 261

: Tissue and Biomolecular Engineering
2023 Semester Two (1235)
Overview of molecular and tissue engineering principles emphasising biochemical kinetics, gene regulation, cell behaviour and biomedical ethics. Laboratory practice and design project in cell culture and molecular biology techniques. Topics include enzymes and regulation of metabolic pathways, thermodynamic principles of biochemical reactions, systems biology and regulatory motifs in biochemical networks, cell culture techniques, research and medical ethics.
Subject: Biomedical Engineering
Prerequisite: BIOSCI 107, ENGSCI 211
Restriction: BIOMENG 361
883

BIOMENG 261

: Tissue and Biomolecular Engineering
2022 Semester Two (1225)
Overview of molecular and tissue engineering principles emphasising biochemical kinetics, gene regulation, cell behaviour and biomedical ethics. Laboratory practice and design project in cell culture and molecular biology techniques. Topics include enzymes and regulation of metabolic pathways, thermodynamic principles of biochemical reactions, systems biology and regulatory motifs in biochemical networks, cell culture techniques, research and medical ethics.
Subject: Biomedical Engineering
Prerequisite: BIOSCI 107, ENGSCI 211
Restriction: BIOMENG 361
884

BIOMENG 261

: Tissue and Biomolecular Engineering
2021 Semester Two (1215)
Overview of molecular and tissue engineering principles emphasising biochemical kinetics, gene regulation, cell behaviour and biomedical ethics. Laboratory practice and design project in cell culture and molecular biology techniques. Topics include enzymes and regulation of metabolic pathways, thermodynamic principles of biochemical reactions, systems biology and regulatory motifs in biochemical networks, cell culture techniques, research and medical ethics.
Subject: Biomedical Engineering
Prerequisite: BIOSCI 107, ENGSCI 211
Restriction: BIOMENG 361
885

BIOMENG 261

: Tissue and Biomolecular Engineering
2020 Semester Two (1205)
Overview of molecular and tissue engineering principles emphasising biochemical kinetics, gene regulation, cell behaviour and biomedical ethics. Laboratory practice and design project in cell culture and molecular biology techniques. Topics include enzymes and regulation of metabolic pathways, thermodynamic principles of biochemical reactions, systems biology and regulatory motifs in biochemical networks, cell culture techniques, research and medical ethics.
Subject: Biomedical Engineering
Prerequisite: BIOSCI 107, ENGSCI 211
Restriction: BIOMENG 361
886

BIOMENG 299

: Workshop Practice
2025 Semester One (1253)
Subject: Biomedical Engineering
Restriction: ENGGEN 299
887

BIOMENG 299

: Workshop Practice
2024 Semester One (1243)
Subject: Biomedical Engineering
Restriction: ENGGEN 299
888

BIOMENG 321

: Continuum Modelling in Bioengineering
2025 Semester One (1253)
An introduction to continuum modelling approaches to bioengineering problems across a range of spatial scales. Topics include: tensor analysis, molecular and cellular mechanics of striated muscle; finite deformation elasticity and constitutive relations for soft biological materials; conservation equations for momentum, mass and heat transfer in fluids; viscous flow; boundary layers; pure conduction and diffusion; advective transport of mass and heat.
Subject: Biomedical Engineering
Prerequisite: BIOMENG 221, ENGSCI 211
Restriction: ENGSCI 343
889

BIOMENG 321

: Continuum Modelling in Bioengineering
2024 Semester One (1243)
An introduction to continuum modelling approaches to bioengineering problems across a range of spatial scales. Topics include: tensor analysis, molecular and cellular mechanics of striated muscle; finite deformation elasticity and constitutive relations for soft biological materials; conservation equations for momentum, mass and heat transfer in fluids; viscous flow; boundary layers; pure conduction and diffusion; advective transport of mass and heat.
Subject: Biomedical Engineering
Prerequisite: BIOMENG 221, ENGSCI 211
Restriction: ENGSCI 343
890

BIOMENG 321

: Continuum Modelling in Bioengineering
2023 Semester One (1233)
An introduction to continuum modelling approaches to bioengineering problems across a range of spatial scales. Topics include: tensor analysis, molecular and cellular mechanics of striated muscle; finite deformation elasticity and constitutive relations for soft biological materials; conservation equations for momentum, mass and heat transfer in fluids; viscous flow; boundary layers; pure conduction and diffusion; advective transport of mass and heat.
Subject: Biomedical Engineering
Prerequisite: BIOMENG 221, ENGSCI 211
Restriction: ENGSCI 343
891

BIOMENG 321

: Continuum Modelling in Bioengineering
2022 Semester One (1223)
An introduction to continuum modelling approaches to bioengineering problems across a range of spatial scales. Topics include: tensor analysis, molecular and cellular mechanics of striated muscle; finite deformation elasticity and constitutive relations for soft biological materials; conservation equations for momentum, mass and heat transfer in fluids; viscous flow; boundary layers; pure conduction and diffusion; advective transport of mass and heat.
Subject: Biomedical Engineering
Prerequisite: BIOMENG 221, ENGSCI 211
Restriction: ENGSCI 343
892

BIOMENG 321

: Continuum Modelling in Bioengineering
2021 Semester One (1213)
An introduction to continuum modelling approaches to bioengineering problems across a range of spatial scales. Topics include: tensor analysis, molecular and cellular mechanics of striated muscle; finite deformation elasticity and constitutive relations for soft biological materials; conservation equations for momentum, mass and heat transfer in fluids; viscous flow; boundary layers; pure conduction and diffusion; advective transport of mass and heat.
Subject: Biomedical Engineering
Prerequisite: BIOMENG 221, ENGSCI 211
Restriction: ENGSCI 343
893

BIOMENG 321

: Continuum Modelling in Bioengineering
2020 Semester One (1203)
An introduction to continuum modelling approaches to bioengineering problems across a range of spatial scales. Topics include: tensor analysis, molecular and cellular mechanics of striated muscle; finite deformation elasticity and constitutive relations for soft biological materials; conservation equations for momentum, mass and heat transfer in fluids; viscous flow; boundary layers; pure conduction and diffusion; advective transport of mass and heat.
Subject: Biomedical Engineering
Prerequisite: BIOMENG 221, ENGSCI 211
Restriction: ENGSCI 343
894

BIOMENG 341

: Bioinstrumentation and Design
2025 Semester One (1253)
Sensors and actuators (temperature, position, force, pressure, flow, bioelectric, optical sensors and instruments). Signals, systems and controls (s-domain signal notation, transfer functions, frequency response functions, block diagrams, the Laplace transform, first and second order systems, characterisation methods, fundamentals of control). Bioinstrumentation design methodology and group design project integrating professional engineering considerations.
Subject: Biomedical Engineering
Prerequisite: BIOMENG 241
895

BIOMENG 341

: Bioinstrumentation and Design
2024 Semester One (1243)
Sensors and actuators (temperature, position, force, pressure, flow, bioelectric, optical sensors and instruments). Signals, systems and controls (s-domain signal notation, transfer functions, frequency response functions, block diagrams, the Laplace transform, first and second order systems, characterisation methods, fundamentals of control). Bioinstrumentation design methodology and group design project integrating professional engineering considerations.
Subject: Biomedical Engineering
Prerequisite: BIOMENG 241
896

BIOMENG 341

: Bioinstrumentation and Design
2023 Semester Two (1235)
Sensors and actuators (temperature, position, force, pressure, flow, bioelectric, optical sensors and instruments). Signals, systems and controls (s-domain signal notation, transfer functions, frequency response functions, block diagrams, the Laplace transform, first and second order systems, characterisation methods, fundamentals of control). Bioinstrumentation design methodology, Biomedical instrumentation design project.
Subject: Biomedical Engineering
Prerequisite: BIOMENG 241
897

BIOMENG 341

: Bioinstrumentation and Design
2022 Semester Two (1225)
Sensors and actuators (temperature, position, force, pressure, flow, bioelectric, optical sensors and instruments). Signals, systems and controls (s-domain signal notation, transfer functions, frequency response functions, block diagrams, the Laplace transform, first and second order systems, characterisation methods, fundamentals of control). Bioinstrumentation design methodology, Biomedical instrumentation design project.
Subject: Biomedical Engineering
Prerequisite: BIOMENG 241
898

BIOMENG 341

: Bioinstrumentation and Design
2021 Semester Two (1215)
Sensors and actuators (temperature, position, force, pressure, flow, bioelectric, optical sensors and instruments). Signals, systems and controls (s-domain signal notation, transfer functions, frequency response functions, block diagrams, the Laplace transform, first and second order systems, characterisation methods, fundamentals of control). Bioinstrumentation design methodology, Biomedical instrumentation design project.
Subject: Biomedical Engineering
Prerequisite: BIOMENG 241
899

BIOMENG 341

: Bioinstrumentation and Design
2020 Semester Two (1205)
Sensors and actuators (temperature, position, force, pressure, flow, bioelectric, optical sensors and instruments). Signals, systems and controls (s-domain signal notation, transfer functions, frequency response functions, block diagrams, the Laplace transform, first and second order systems, characterisation methods, fundamentals of control). Bioinstrumentation design methodology, Biomedical instrumentation design project.
Subject: Biomedical Engineering
Prerequisite: BIOMENG 241
900

BIOMENG 771

: Musculoskeletal and Orthopaedic Biomechanics
2025 Semester Two (1255)
Topics that biomechanical and orthopaedic engineers use in research and industry. Includes guest lectures from practitioners. Orthopaedic engineering topics cover implant design, material choice, implant stress shielding and bone loss, implant wear and bone remodelling. Musculoskeletal biomechanics topics cover motion capture, inverse kinematics and dynamics, muscle force evaluation, electromyography (EMG), inertial sensors and applications in sports medicine and rehabilitation.
Subject: Biomedical Engineering
Prerequisite: 15 points from ENGSCI 311, 313, 314