MENG Bioengineering with a Year in Industry (BIEU21) IS

2015 - 2016

For students whose initial registration was in the 2015-16 to 2022-23 session.

Year 1

Core These are a compulsory part of your degree: you cannot change them. units (120 credits)

A student will take

Semester 1
FCE1001	Global Engineering Challenge Week	AUT SEM	0 credits
MAT1410 + A Level or equivalent in at least one of the following: Physics, Chemistry, Biology.	Biomaterials I	AUT SEM	10 credits
MAT1510 P⇒Is a pre-requisite for: MAT209 (when the module is running) XCannot be taken with: MAT2510 MAT6306	Tissue Structure and Function	AUT SEM	10 credits
Semester 2
MAT1520	Biology and Chemistry of Living Systems	SPR SEM	10 credits
MPY101	Physics of Living Systems 2	SPR SEM	10 credits
Full academic year
ACS123 P⇒Is a pre-requisite for: ACS425 ACS425 (when the module is running) + A level Mathematics or equivalent.	Systems Engineering Mathematics	ACAD YR	20 credits
ACS124 P⇒Is a pre-requisite for: ACS340 ACS425 ACS425 (when the module is running) + A Level Maths or equivalent.	Modelling, Analysis and Control	ACAD YR	20 credits
BIE101 + A level Maths or equivalent.. Restricted to students on MEng/BEng Bioengineering..	Introduction to Bioengineering	ACAD YR	20 credits
EEE123 XCannot be taken with: AER123 EEE140	Introduction to Electric and Electronic Circuits	ACAD YR	20 credits

Year 2

Core These are a compulsory part of your degree: you cannot change them. units (40 credits)

A student will take

Semester 1
COM161 + Not open to students from the Department of Computer Science or students who are taking or have taken COM160. .	Introduction to Programming and Problem Solving	AUT SEM	10 credits
FCE2001 + Yes. Restricted to second year Faculty of Engineering students.	Engineering - You're Hired	AUT SEM	0 credits
Semester 2
BIE201 + Restricted to level 2 students on the MEng/BEng Bioengineering programme..	Advanced Bioengineering Topics	SPR SEM	10 credits
Full academic year
ACS2214 ⇐PPre-requisites: ACS124 XCannot be taken with: ACS214 ACS221 + A Level Maths or equivalent. ACS124 or equivalent advised.	Control Systems Analysis for Continuous and Discrete Systems	ACAD YR	20 credits

One of the following streams

Approved These are on a restricted list of modules offered by your department(s). Normally you will need to select a minimum number of credits from the list. units (80 credits)

BIOMEDICAL ENGINEERING STREAM

A student will take 80 credits from this group.

Semester 1
MAS248 ⇐PPre-requisites: MAS140 + This module is compulsory for students in Chemical Engineering..	Mathematics III (Chemical)	AUT SEM	10 credits
MPY205	Aspects of Medical Imaging and Technology	AUT SEM	10 credits
Semester 2
CPE106 + A Level Maths, A Level Chemistry.	Fluid Mechanics and Heat Transfer	SPR SEM	10 credits
MAT205	The Physiology of the Musculoskeletal System	SPR SEM	10 credits
MAT291 + Physics, Mathematics.	Biomedical Instrumentation	SPR SEM	10 credits
MEC102 + Only available to students within the Faculty of Engineering.	Materials Under Stress	SPR SEM	10 credits
Full academic year
EEE227	Communication Electronics	ACAD YR	20 credits

AND

Approved These are on a restricted list of modules offered by your department(s). Normally you will need to select a minimum number of credits from the list. units (80 credits)

MEDICAL DEVICES AND SYSTEMS STREAM

A student will take 80 credits from this group.

Semester 1
MEC115 + Restricted to students registered for a programme of study within the Faculty of Engineering.	Design and Manufacturing	AUT SEM	10 credits
MPY205	Aspects of Medical Imaging and Technology	AUT SEM	10 credits
Semester 2
MAT291 + Physics, Mathematics.	Biomedical Instrumentation	SPR SEM	10 credits
MEC119 + MEC115. Restricted to students registered for Programmes of Study in the Department of Mechanical Engineering and IPO.	Design Skills	SPR SEM	10 credits
Full academic year
ACS217 CCo-requisites: ACS214 ACS2141	Mathematics & Data Modelling	ACAD YR	20 credits
EEE227	Communication Electronics	ACAD YR	20 credits

AND

Approved These are on a restricted list of modules offered by your department(s). Normally you will need to select a minimum number of credits from the list. units (80 credits)

BIOMANUFACTURING STREAM and BIOMATERIALS SCIENCE AND TISSUE ENGINEERING STREAM

A student will take 80 credits from this group.

Semester 1
MAT2530 CCo-requisites: MAT209	Biology and Chemistry of Living Systems II	AUT SEM	10 credits
MEC115 + Restricted to students registered for a programme of study within the Faculty of Engineering.	Design and Manufacturing	AUT SEM	10 credits
Semester 2
MAT205	The Physiology of the Musculoskeletal System	SPR SEM	10 credits
MAT209 ⇐PPre-requisites: MAT1510 CCo-requisites: MAT2530	Cell and Molecular Biology	SPR SEM	10 credits
MAT2410 XCannot be taken with: MAT6241	Biomaterials II	SPR SEM	10 credits
MEC119 + MEC115. Restricted to students registered for Programmes of Study in the Department of Mechanical Engineering and IPO.	Design Skills	SPR SEM	10 credits
Full academic year
MAT1642 CCo-requisites: MAS152 MAS153 XCannot be taken with: MAT1640 MAT1641 MAT1730	Introduction to Microstructure, Kinetics and Mechanical Properties of Materials	ACAD YR	20 credits

Year 3

Core These are a compulsory part of your degree: you cannot change them. units (50 credits)

A student will take

Semester 1
MAT320 CCo-requisites: MAT404 XCannot be taken with: MAT405 MAT405 MAT6668 MAT6678	Scientific Writing	AUT SEM	10 credits
MGT388	Finance and Law for Engineers	AUT SEM	10 credits
Semester 2
MGT389 CCo-requisites: BIE372	Project Management and HRM for Engineers	SPR SEM	10 credits
Full academic year
BIE372 CCo-requisites: MGT389	Group Project in Bioengineering	ACAD YR	20 credits

One of the following streams

BIOMEDICAL ENGINEERING STREAM
(i)	MAT308	F6	Research Seminars in Bioengineering	10
	MAT3411	F6	Design of Medical Devices and Implants I	10
	MPY308	F6	Clinical Engineering and Computational Mechanics	10
(ii)	units to the value of twenty credits from the following
	ACS323	F6	Intelligent Systems	10
	ACS340	F6	Biomechatronics	10
	CPE213	F5	Transport Processes I	10
	MAT206	F5	The Physiology of the Neural and Endocrine Systems	10
	MAT3430	F6	Materials for Biological Applications	10
	MEC202	F5	Mechanics of Deformable Solids	10

(iii)	units to the value of twenty credits from the following
	ACS321	F6	Digital Signal Processing	10
	MAT209	F5	Cell and Molecular Biology	10
	MAS340	F6	Computational Methods	10
	MAT300	F6	Tissue Engineering Approaches to Failure in Living Systems	20

MEDICAL DEVICES AND SYSTEMS STREAM
(i)	ACS317	F6	State Space Control Design	10
	MAT3411	F6	Design of Medical Devices and Implants I	10
(ii)	units to the value of thirty credits from the following
	ACS318	F6	Systems Identification	10
	ACS321	F6	Digital Signal Processing	10
	ACS329	F6	Robot Technology	10
	ACS336	F6	Hardware-in-the-Loop and Rapid Control Prototyping	10
(ii)	units to the value of twenty credits from the following
	ACS323	F6	Intelligent Systems	10
	ACS340	F6	Biomechatronics	10
	EEE317	F6	Principles of Communications	10
	MPY308	F6	Clinical Engineering and Computational Mechanics	10

BIOMANUFACTURING STREAM
(i)	CPE3004	F6	Biopharmaceutical Manufacturing	20
	CPE326	F6	Principles in Biochemical Engineering	30
(ii)	units to the value of twenty credits from the following
	ACS329	F6	Robotics	10
	MAS340	F6	Computational Methods	10
	MAT308	F6	Research Seminars in Bioengineering	10

BIOMATERIALS SCIENCE AND TISSUE ENGINEERING STREAM
(i)	CPE213	F5	Transport Processes I	10
	MAT206	F5	The Physiology of the Neural and Endocrine Systems	10
	MAT300	F6	Tissue Engineering Approaches to Failure in Living Systems	20
	MAT3411	F6	Design of Medical Devices and Implants I	10
	MAT3430	F6	Materials for Biological Applications	10
(ii)	units to the value of ten credits from the following
	CPE317	F6	Manufacturing - Process and Facility Design	10
	MAT308	F6	Research Seminars in Bioengineering	10

Year 4

Core These are a compulsory part of your degree: you cannot change them. units (120 credits)

A student will take

Full academic year
BIE390	Bioengineering Year in Industry	ACAD YR	120 credits

A student must normally achieve a weighted mean grade of 60 or above at Level 2 and Level 3 in order to proceed to the Year in Industry, progression being at the discretion of the Bioengineering Board of Examiners. A student who fails to progress may be permitted to become instead a student for the Degree of MEng Bioengineering (BIEU19) or the Degree of BEng Bioengineering (BIEU20).

A student will be responsible for securing a suitable industrial placement in order to take BIE390 Bioengineering Year in Industry. The appropriateness of the placement will be determined by the Bioengineering Director of Undergraduate Studies. A student who fails to obtain a suitable placement will instead be required to become a student for the Degree of MEng Bioengineering (BIEU19). A student will take BIE390 Bioengineering Year in Industry before proceeding to Level 4.

BIE390 requires that a student will spend a minimum of 38 weeks working in an industrial establishment, the arrangements being subject to the approval of the Bioengineering Director of Undergraduate Studies. The Year in Industry will be assessed on (a) written reflections on a skills-based placement journal; (b) two written reports; and (c) a post-placement presentation. No grades will be awarded for the Year in Industry which will be assessed on a pass/fail basis. A student who fails to satisfy these requirements may be permitted by the Faculty to become instead a student for the Degree of MEng Bioengineering (BIEU19).

Year 5

Approved These are on a restricted list of modules offered by your department(s). Normally you will need to select a minimum number of credits from the list. units (60 credits)

A student will take 60 credits from this group.

Full academic year
ACS4000	Advanced Bioengineering Research Project	ACAD YR	60 credits
BIE4000 + Restricted to students on MEng Bioengineering programmes..	Advanced Bioengineering Research Project	ACAD YR	60 credits
COM4000	Advanced Bioengineering Research Project	ACAD YR	60 credits
CPE4000	Advanced Bioengineering Research Project	ACAD YR	60 credits
EEE4000	Advanced Bioengineering Research Project	ACAD YR	60 credits
MAT4000	Advanced Bioengineering Research Project	ACAD YR	60 credits
MEC4000	Advanced Bioengineering Research Project	ACAD YR	60 credits
MPY4000	Advanced Bioengineering Research Project	ACAD YR	60 credits

One of the following streams

BIOMEDICAL ENGINEERING STREAM
(i)	CPE402	F7	Computational Fluid Dynamics	10
	MAT408	F7	Bioimaging	10
	MEC421	F7	Sports Engineering	10
	MEC6430	F7	Solid Biomechanics	10
(ii)	units to the value of ten credits from the following
	CPE422	F7	Biosystems Engineering Computational Biology	10
	EEE6423	F7	Introduction to Biomedical Imaging Sciences	10
(iii)	units to the value of ten credits from the following
	ACS424	F7	Multi-Sensor Data Fusion	10
	MEC312	F6	Advanced Mechanics of Solids	10
	MEC313	F6	Finite Element Techniques	10

MEDICAL DEVICES AND SYSTEMS STREAM
(i)	ACS408	F7	Optimisation and Search	10
	ACS424	F7	Multi-Sensor Data Fusion	10
	MAT408	F7	Bioimaging	10
	MEC407	F7	Fundamental Biomechanics	10
(ii)	units to the value of twenty credits from the following
	ACS428	F7	Hybrid Control Systems	10
	ACS427	F7	Data Modelling and Machine Intelligence	10
	EEE6219	F7	Computer Vision	15
	EEE6226	F7	Future Electronic and Electrical Trends	5

BIOMANUFACTURING STREAM
(i)	CPE412	F7	Engineering Biotechnology	10
	CPE422	F7	Biosystems and Engineering Computational Biology	10
	CPE423	F7	Synthetic Biology	10
(ii)	units to the value of twenty credits from the following
	CPE402	F7	Computational Fluid Dynamics	10
	CPE417	F7	Environmental Issues	10
	MAT460	F7	Introduction to Materials Modelling	10
(iii)	units to the value of ten credits from the following
	CPE6013	F7	Proteomics and Bioinformatics	10
	MAT444	F7	Advanced Manufacturing Part 1	10
	MEC407	F7	Fundamental Biomechanics	10

BIOMATERIALS SCIENCE AND TISSUE ENGINEERING
(i)	CPE412	F7	Engineering Biotechnology	10
	MAT408	F7	Bioimaging	10
	MAT460	F7	Introduction to Materials Modelling	10
	MEC407	F7	Fundamental Biomechanics	10
(ii)	units to the value of ten credits from the following
	CPE422	F7	Biosystems and Engineering Computational Biology	10
	EEE6423	F7	Introduction to Biomedical Imaging Sciences	10
(iii)	units to the value of ten credits from the following
	CPE423	F7	Synthetic Biology	10
	CPE6013	F7	Proteomics and Bioinformatics	10
	MEC421	F7	Sports Engineering	10

A student must satisfy the requirements of the General Regulations for First Degrees as to progression in order to continue as a student for the Degree of MEng Bioengineering with a Year in Industry (BIEU21). A student who fails to satisfy these requirements may be permitted by the Faculty to become instead a student for the Degree of BEng Bioengineering (BIEU20) or BEng Bioengineering with a Year in Industry (BIEU22).

A student must pass the Advanced Bioengineering Research Project (ACS4000 / BIE4000 / COM4000 / CPE4000 / EEE4000 / MAT4000 / MEC4000 / MPY4000) at the first attempt in order to be eligible for the award of the Degree of MEng in Bioengineering with a Year in Industry. A student who fails to satisfy this requirement may be permitted by the Faculty to become instead a student for the Degree of BEng Bioengineering with a Year in Industry (BIEU22).

⇐P	-	This module has pre-requisite(s).
P⇒	-	This module is a pre-requisite for other modules.
C	-	This module has co-requisite(s).
X	-	Some modules cannot be studied in combination with this module.
+	-	Additional information about requirements for studying this module.

Please note that the regulations displayed on this page reflect provision in 2015/16 and may not reflect study undertaken in other academic sessions. To see regulations that applied in another academic session, please return to the Programme Regulations Finder home screen and select the appropriate session.