One of the following streams
BIOMEDICAL ENGINEERING STREAM
(i)
BIE308
F6
Research Seminars in Bioengineering
10
BIE3411
Design of Medical Devices and Implants I
MPY308
Clinical Engineering and Computational Mechanics
(ii)
units to the value of twenty credits from the following
ACS323
Intelligent Systems
ACS340
Biomechatronics
CPE213
F5
Transport Processes I
MAT3430
Materials for Biological Applications
MEC202
Mechanics of Deformable Solids
(iii)
ACS321
Digital Signal Processing
MAT209
Cell and Molecular Biology
MAS340
Computational Methods
MAT300
Tissue Engineering Approaches to Failure in Living Systems
20
MEDICAL DEVICES AND SYSTEMS STREAM
ACS317
State Space Control Design
ACS318
Systems Identification
ACS336
Hardware-in-the-Loop and Rapid Control Prototyping
ACS329
Robotics
EEE317
Principles of Communications
BIOMANUFACTURING STREAM
CPE3004
Biopharmaceutical Manufacturing
CPE327
15
CPE328
BIOMATERIALS SCIENCE AND TISSUE ENGINEERING STREAM
units to the value of ten credits from the following
A student must normally achieve a weighted mean grade of 55 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. 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).
CPE402
F7
Computational Fluid Dynamics
MAT408
Bioimaging
MEC421
Sports Engineering
MEC6430
Solid Biomechanics
MEC432
Regulatory Affairs for Medical Devices
EEE6423
10 credit unrestricted module from the Faculty of Engineering if not taken in the Spring Semester.
ACS408
Optimisation and Search
ACS424
Multi-Sensor Data Fusion
MEC407
Fundamental Biomechanics
CPE412
Engineering Biotechnology
CPE424
Bio-energy
CPE423
Synthetic Biology
BIOMATERIALS SCIENCE AND TISSUE ENGINEERING
CPE6013
Proteomics and Bioinformatics
10 credit unrestricted module from the Faculty of Engineering if not taken in the Autumn Semester.
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).
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).
Please note that the regulations displayed on this page reflect provision in 2017/18 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.