Year 1, Academic year 2014/15, Starting month: September
COMPULSORY COURSES
This DPT has 8
compulsory course(s).
Code |
Course Name |
Period |
Credits |
INFR08012
|
Informatics 1 - Computation and Logic |
Semester 1 |
10 |
|
INFR08013
|
Informatics 1 - Functional Programming |
Semester 1 |
10 |
|
INFR08014
|
Informatics 1 - Object-Oriented Programming |
Semester 2 |
10 |
|
INFR08015
|
Informatics 1 - Data and Analysis |
Semester 2 |
10 |
|
SCEE08001
|
Engineering 1 |
Semester 1 |
20 |
|
ELEE08001
|
Electrical Engineering 1 |
Semester 2 |
20 |
|
MATH08060
|
Mathematics for Science and Engineering 1a |
Semester 1 |
20 |
|
MATH08061
|
Mathematics for Science and Engineering 1b |
Semester 2 |
20 |
|
COURSE OPTIONS
This DPT has 0
set(s) of course options with the following rules.
|
Year 2, Academic year 2014/15, Starting month: August
Notes: Entry to Honours requires passes at 50% or above at the first attempt in two of Analogue Circuits 2, Digital System Design 2, Signals and Communications Systems 2, and also in one of the Informatics 2 courses, together with passes in all other compulsory courses, or the permission of the relevant Head of School.
COMPULSORY COURSES
This DPT has 11
compulsory course(s).
Code |
Course Name |
Period |
Credits |
INFR08009
|
Informatics 2B - Algorithms, Data Structures, Learning |
Semester 2 |
20 |
|
INFR08018
|
Informatics 2C - Introduction to Computer Systems |
Semester 1 |
10 |
|
INFR08019
|
Informatics 2C - Introduction to Software Engineering |
Semester 1 |
10 |
|
ELEE08016
|
Analogue Circuits 2 |
Semester 1 |
10 |
|
ELEE08014
|
Electronics Project Laboratory 2A |
Semester 1 |
10 |
|
ELEE08015
|
Digital System Design 2 |
Semester 2 |
10 |
|
SCEE08007
|
Signals and Communication Systems 2 |
Semester 2 |
10 |
|
MATH08066
|
Probability |
Semester 1 |
10 |
|
ELEE08019
|
Electronics Project Laboratory 2B |
Semester 2 |
10 |
|
SCEE08009
|
Engineering Mathematics 2A |
Semester 1 |
10 |
|
SCEE08010
|
Engineering Mathematics 2B |
Semester 2 |
10 |
|
COURSE OPTIONS
This DPT has 0
set(s) of course options with the following rules.
|
Year 3, Academic year 2014/15, Starting month: August
Notes:
1. Courses listed here are all level 9. However, with the permission of the School Curriculum Approval Officer, 10 points may be taken at level 10 to assist in preparation for the Honours project.
2. For accreditation purposes, students must select Professional Issues (Level 10), normally in 4th year.
3. Progression to year 4 normally requires passes in at least 100 credit points worth of courses, including "Resit for Professional Purposes", AND an average of 40% across all courses. See the year guide for full details.
COMPULSORY COURSES
This DPT has 2
compulsory course(s).
Code |
Course Name |
Period |
Credits |
ELEE09026
|
Analogue Circuits 3 |
Semester 1 |
10 |
|
ELEE09017
|
Signal and Communication Systems 3 |
Semester 2 |
10 |
|
COURSE OPTIONS
This DPT has 5
set(s) of course options with the following rules.
Select
exactly 20 credits
from the following list of courses, as available
Code |
Course Name |
Credits |
INFR10056
|
Software Engineering with Objects and Components
|
10
|
INFR10057
|
Software Testing
|
10
|
AND
Overarching rule collection group: A
Select exactly 80 credits
from these collections:
Select
a minimum of 10 credits and maximum of 30 credits
from the following list of courses, as available
Code |
Course Name |
Credits |
INFR09032
|
System Design Project
|
20
|
INFR09040
|
Computer Science Large Practical
|
10
|
INFR09039
|
Software Engineering Large Practical
|
10
|
AND
Select
a minimum of 10 credits and maximum of 40 credits
from the following list of courses, as available
AND
Select
a minimum of 20 credits and maximum of 50 credits
from Electronics Level 9 courses, as available
Notes: Documentation giving details, as well as restrictions on choice of courses in the School of Engineering & Electronics, will be available for students entering the year to facilitate advance Planning.
AND
|
Year 4, Academic year 2014/15, Starting month: August
Notes:
1. The Honours Project may be chosen from either Electronics or Informatics.
2. For the award of Honours, a minumum mark of 40% must be attained in the BEng Electronics Project 4 or the Honours Project (Informatics).
3. For accreditation purposes, students must select Professional Issues (Level 10), normally in 4th Year.
4. Graduation normally requires passes in at least 100 credit points worth of courses, including "Resit for Professional Purposes", AND an average of 40% across all courses. See the year guide for full details.
5. Entry to the 4th year normally requires two or more prior years of instruction in a UK institution, or satisfactory completion of English language training as indicated by a TEAM test.
6. Students must take at least 40 credits worth of courses in the school in which they do not take their project.
COMPULSORY COURSES
This DPT has 0
compulsory course(s).
Code |
Course Name |
Period |
Credits |
COURSE OPTIONS
This DPT has 7
set(s) of course options with the following rules.
Select
exactly 40 credits
from the following list of courses, as available
Code |
Course Name |
Credits |
INFR10044
|
Honours Project (Informatics)
|
40
|
ELEE10013
|
BEng Electronics Project 4
|
40
|
Notes: For the award of Honours, a minimum mark of 40% must be attained in the BEng Electronics 4 Project or the Honours Project (Informatics).
AND
Select
exactly 10 credits
from the following list of courses, as available
Code |
Course Name |
Credits |
INFR11017
|
Human-Computer Interaction (Level 11)
|
10
|
INFR11082
|
Performance Modelling (Level 11)
|
10
|
INFR11038
|
Software Architecture, Process, and Management (Level 11)
|
10
|
INFR10057
|
Software Testing
|
10
|
INFR10056
|
Software Engineering with Objects and Components
|
10
|
AND
Select
exactly 20 credits
from the following list of courses, as available
Code |
Course Name |
Credits |
INFR11011
|
Advanced Databases (Level 11)
|
10
|
INFR11069
|
Adaptive Learning Environments 1 (Level 11)
|
10
|
INFR11074
|
Automated Reasoning (Level 11)
|
10
|
INFR11031
|
Advanced Vision (Level 11)
|
10
|
INFR11067
|
Computer Animation & Visualisation (Level 11)
|
10
|
INFR11021
|
Computer Graphics (Level 11)
|
10
|
INFR11102
|
Computational Complexity
|
10
|
INFR11049
|
Computer Networking (Level 11)
|
10
|
INFR11032
|
Compiler Optimisation (Level 11)
|
10
|
INFR11022
|
Distributed Systems (Level 11)
|
10
|
INFR11017
|
Human-Computer Interaction (Level 11)
|
10
|
INFR11062
|
Machine Translation (Level 11)
|
10
|
INFR11061
|
Natural Language Understanding (Level 11)
|
10
|
INFR11024
|
Parallel Architectures (Level 11)
|
10
|
INFR11082
|
Performance Modelling (Level 11)
|
10
|
INFR11023
|
Parallel Programming Languages and Systems (Level 11)
|
10
|
INFR11103
|
Querying and Storing XML
|
10
|
INFR11038
|
Software Architecture, Process, and Management (Level 11)
|
10
|
INFR10042
|
System Level Integration Practical
|
10
|
INFR11086
|
Topics in Cognitive Modelling (Level 11)
|
10
|
INFR11100
|
Text Technologies for Data Science
|
10
|
INFR10049
|
Agent Based Systems (Level 10)
|
10
|
INFR10052
|
Algorithms and Data Structures
|
10
|
INFR10053
|
Compiling Techniques
|
10
|
INFR10054
|
Computational Cognitive Science
|
10
|
INFR10058
|
Computer Security
|
10
|
INFR10055
|
Database Systems
|
10
|
INFR10056
|
Software Engineering with Objects and Components
|
10
|
INFR10057
|
Software Testing
|
10
|
INFR11020
|
Algorithmic Game Theory and its Applications
|
10
|
INFR11033
|
Automatic Speech Recognition
|
10
|
INFR11110
|
Communication and Concurrency
|
10
|
INFR11037
|
Computational Neuroscience of Vision
|
10
|
INFR11111
|
Computer Algebra
|
10
|
INFR11058
|
Data Integration and Exchange (Level 11)
|
10
|
INFR11088
|
Extreme Computing
|
10
|
INFR11112
|
Embedded Software
|
10
|
INFR11087
|
Information Theory
|
10
|
INFR11099
|
Introduction to Quantum Computing
|
10
|
INFR11073
|
Machine Learning & Pattern Recognition (Level 11)
|
10
|
INFR11104
|
Semantic Web Systems
|
10
|
INFR11089
|
Randomness and Computation
|
10
|
INFR11114
|
Types and Semantics for Programming Languages
|
10
|
INFR10060
|
Enterprise Computing
|
10
|
INFR10059
|
Introduction to Theoretical Computer Science
|
10
|
INFR11113
|
Topics in Natural Language Processing
|
10
|
INFR11101
|
Advances in Programming Languages
|
10
|
LASC10061
|
Speech Processing (Hons)
|
20
|
PHIL10024
|
Theories of Mind (Philosophy Hons)
|
20
|
PHIL10133
|
Logic, Computability and Incompleteness
|
20
|
AND
Select
exactly 30 credits
from the following list of courses, as available
AND
AND
Overarching rule collection group: B
Select exactly 10 credits
from these collections:
Select
a minimum of 0 credits and maximum of 10 credits
from the following list of courses, as available
OR
Select
a minimum of 0 credits and maximum of 10 credits
from the following list of courses, as available
Code |
Course Name |
Credits |
INFR11011
|
Advanced Databases (Level 11)
|
10
|
INFR11069
|
Adaptive Learning Environments 1 (Level 11)
|
10
|
INFR11074
|
Automated Reasoning (Level 11)
|
10
|
INFR11031
|
Advanced Vision (Level 11)
|
10
|
INFR11067
|
Computer Animation & Visualisation (Level 11)
|
10
|
INFR11021
|
Computer Graphics (Level 11)
|
10
|
INFR11102
|
Computational Complexity
|
10
|
INFR11049
|
Computer Networking (Level 11)
|
10
|
INFR11032
|
Compiler Optimisation (Level 11)
|
10
|
INFR11022
|
Distributed Systems (Level 11)
|
10
|
INFR11017
|
Human-Computer Interaction (Level 11)
|
10
|
INFR11062
|
Machine Translation (Level 11)
|
10
|
INFR11061
|
Natural Language Understanding (Level 11)
|
10
|
INFR11024
|
Parallel Architectures (Level 11)
|
10
|
INFR11082
|
Performance Modelling (Level 11)
|
10
|
INFR11023
|
Parallel Programming Languages and Systems (Level 11)
|
10
|
INFR11103
|
Querying and Storing XML
|
10
|
INFR11038
|
Software Architecture, Process, and Management (Level 11)
|
10
|
INFR10042
|
System Level Integration Practical
|
10
|
INFR11086
|
Topics in Cognitive Modelling (Level 11)
|
10
|
INFR11100
|
Text Technologies for Data Science
|
10
|
INFR10049
|
Agent Based Systems (Level 10)
|
10
|
INFR10052
|
Algorithms and Data Structures
|
10
|
INFR10053
|
Compiling Techniques
|
10
|
INFR10054
|
Computational Cognitive Science
|
10
|
INFR10058
|
Computer Security
|
10
|
INFR10055
|
Database Systems
|
10
|
INFR10056
|
Software Engineering with Objects and Components
|
10
|
INFR10057
|
Software Testing
|
10
|
INFR11020
|
Algorithmic Game Theory and its Applications
|
10
|
INFR11033
|
Automatic Speech Recognition
|
10
|
INFR11110
|
Communication and Concurrency
|
10
|
INFR11037
|
Computational Neuroscience of Vision
|
10
|
INFR11111
|
Computer Algebra
|
10
|
INFR11058
|
Data Integration and Exchange (Level 11)
|
10
|
INFR11088
|
Extreme Computing
|
10
|
INFR11112
|
Embedded Software
|
10
|
INFR11087
|
Information Theory
|
10
|
INFR11099
|
Introduction to Quantum Computing
|
10
|
INFR11073
|
Machine Learning & Pattern Recognition (Level 11)
|
10
|
INFR11104
|
Semantic Web Systems
|
10
|
INFR11089
|
Randomness and Computation
|
10
|
INFR11114
|
Types and Semantics for Programming Languages
|
10
|
INFR10060
|
Enterprise Computing
|
10
|
INFR10059
|
Introduction to Theoretical Computer Science
|
10
|
INFR11113
|
Topics in Natural Language Processing
|
10
|
INFR11101
|
Advances in Programming Languages
|
10
|
LASC10061
|
Speech Processing (Hons)
|
20
|
PHIL10024
|
Theories of Mind (Philosophy Hons)
|
20
|
PHIL10133
|
Logic, Computability and Incompleteness
|
20
|
|
|