The Faculty Board of Engineering gives notice of a correction to the list of modules published on 12 June 2019 (Reporter, 6551, 2018–19, p. 676). The following module will no longer be offered:
4M3: Spanish
Further to the Notices published on 25 July 2018 (Reporter, 6516, 2017–18, p. 851) and on 1 May 2019 (Reporter, 6545, 2018–19, p. 495), the Faculty Board of History gives notice of an amendment to the specified subjects for Part II of the Historical Tripos in 2020, as follows:
By withdrawing the following from the list of specified subjects:
28. The history of the Indian sub-continent from the late eighteenth century to the present day
The Faculty Board is satisfied that no candidate's preparation for examination will be adversely affected by this amendment.
The Faculty Board of History gives notice that the options for Paper 1 of Part I of the Historical Tripos, 2021 (Statutes and Ordinances, p. 338) will be as follows:
i |
Money and society from late antiquity to the financial revolution |
ii |
Royal and princely courts: ancient, medieval and early modern |
iv |
Remaking the modern body, 1543–1939 |
v |
Land, property and power in America, c.1500–2000 |
vi |
Comparative histories of race, class and culture: Southern Africa, 1850–2013 |
vii |
Performance and power in ancient and medieval cities |
viii |
Imagining Ancient Rome in film, television and popular culture |
ix |
The history of collecting |
x |
Wealth and poverty in West Africa, from the slave trades to the present |
xi |
Utopian writing 1516–1789 |
xii |
Fighting for Algeria, fighting for France, 1945–1962 (French sources) |
xiii |
Earning a living 1377–1911: work, occupations, gender and economic development in England |
xiv |
Film and society 1946–1969: the remaking of national identities |
The Faculty Board of History gives notice that the Special Subjects for Papers 2 and 3 of Part II of the Historical Tripos, 2021 (Statutes and Ordinances, p. 340) will be as follows:
Roman religion: identity and empire [associated with C2 of Part II of the Classical Tripos] |
(A) |
The 'Angevin Empire', 1150s–1230s |
(B) |
Memory in early modern England |
(C) |
Uses of the visual in early modern Germany, c.1450–1550 |
(D) |
The Palace and the Coffeehouse: The power of place in Ottoman history, 1300–1800 |
(E) |
The culture of the miraculous in Renaissance Italy |
(G) |
The 1848 Revolutions |
(I) |
The British and the Ottoman Middle East, 1798–1850 |
(J) |
Fin de siècle Russia, 1891–1917 |
(K) |
The transformation of everyday life in Britain, 1945–1990 |
(L) |
Empires and the American imagination, c.1763–c.1900 |
(M) |
Central European cities: Budapest, Prague, Vienna, 1450–1914 |
(N) |
Missionary science, ethnic formation, and the religious encounter in Belgian Congo |
(O) |
Sources of East Asian modernity, c.1895–1927 |
(P) |
Indian democracy: ideas in action, c.1947–2007 |
(Q) |
The subjects for the following papers in Part II of the Historical Tripos, 2021 (Statutes and Ordinances, p. 340) will be:
1 |
Historical argument and practice |
4 |
History of political thought from c.1700 to c.1890 |
5 |
Political philosophy and the history of political thought since c.1890 |
6 |
States between states: the history of international political thought from the Roman Empires to the early nineteenth century |
7 |
Transformation of the Roman world [Paper C4 of Part II of the Classical Tripos] |
8 |
The Near East in the age of Justinian and Muhammad, ad527–700 |
9 |
Slavery in the Greek and Roman worlds [Paper C3 of Part II of the Classical Tripos] |
10 |
Living in Athens [Paper C1 of Part II of the Classical Tripos] |
11 |
Early medicine [Paper BBS113 of NST Part II Biological and Biomedical Sciences] |
12 |
The middle ages on film: medieval violence and modern identities |
13 |
Man, nature and the supernatural, c.1000–c.1600 |
14 |
Material culture in the early modern world |
15 |
The medieval globe [Paper A24 of Part II of the Archaeology Tripos] |
16 |
Overseas expansion and British identities, 1585–1714 |
17 |
The politics of knowledge from the late Renaissance to the early Enlightenment |
18 |
Japanese history [Paper J6 of Part Ib of the Asian and Middle Eastern Studies Tripos] |
19 |
Women, gender and paid work in Britain since c.1850 |
20 |
World population, development and environment since 1750: comparative history and policy |
21 |
Borderlands: life on the Habsburg-Ottoman frontier, 1521–1881 |
22 |
Stalinism and Soviet life |
23 |
The long road to modernisation: Spain since 1808 |
24 |
The 'rule of law' in early modern Britain: state power, criminal justice and civil liberties, c.1500–c.1800 |
25 |
Ireland and the Irish since the Famine |
26 |
Consumption and consumer culture in the United States |
27 |
The history of Latin America, from 1500 to the present day |
28 |
The history of the Indian sub-continent from the late eighteenth century to the present day |
29 |
The history of Africa from 1800 to the present day |
30 |
The problem of sustainability, 1500–1987 |
Candidates for Part II in 2021, who have previously taken Part I of the Historical Tripos and who did not offer in that Part a paper falling mainly in the period before 1750, may meet the requirement to take a pre-1750 paper in Part II by offering one of the Special Subjects A, B, C, D, E or G or by offering one of the Papers 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17 and 21 or a dissertation, provided that its subject falls mainly in the period before 1750.
Candidates for Part II in 2021, who have previously taken Part I of the Historical Tripos and who did not offer in that Part a paper in European History, may meet the requirement to take a European History paper in Part II by offering one of the following papers: 7, 8, 14, 21, 22 and 23.
Further to the Notice published on 5 June 2019 (Reporter, 6550, 2018–19, p. 653), the Faculty Board of History gives notice of an amendment to the variable subjects to be examined in Part II of the History and Politics Tripos in 2019–20, as follows:
By withdrawing the following from the list of History papers:
28. The history of the Indian sub-continent from the late eighteenth century to the present day
The Faculty Board is satisfied that no candidate's preparation for examination will be adversely affected by this amendment.
The Degree Committee for the Faculty of Engineering gives notice that the modules available to candidates studying the one-year course in Bioscience Enterprise for the degree of Master of Philosophy (Statutes and Ordinances, p. 518) in the academic year 2019–20 and the form of examination of each module will be as shown below.
The Degree Committee for the Faculty of Engineering may issue amendments to the lists below during the Michaelmas Term 2019, provided that no candidate's preparation for the examination will be affected by the change.
ST1 |
Treating disease |
Coursework |
ST2 |
Drug discovery I |
Coursework |
ST3 |
Drug discovery II |
Coursework |
ST4 |
Diagnostics and devices |
Coursework |
ST5 |
Agbiotech |
Coursework |
B1, B2, B3 |
Management of technology and innovation |
Coursework |
B4 |
Healthcare economics |
Coursework |
B5 |
Law and intellectual property |
Coursework |
T1 |
Company analysis I: partnerships and alliances |
Coursework |
T2 |
Company analysis II: finance and valuation |
Coursework |
T3 |
Building a bioscience enterprise I |
Coursework |
T4 |
Building a bioscience enterprise II |
Coursework |
Several principal individual assessments cover material from multiple modules, and include written papers on selected topics in science and technology in business (each of 4,000 words maximum) and a business plan submission. These assessments are:
STB1 |
Science and technology in business, paper I |
STB2 |
Science and technology in business, paper II |
T5 |
Business plan |
Coursework includes individual and/or group activities, to address one or a selected combination of report, critical appraisal, extended paper, or audio-visual presentation and may include engagement in approved extracurricular activities.
All candidates are required to complete a dissertation of up to 10,000 words (Reference: E1) on a topic approved by the Degree Committee, and will give a presentation on the project work at a symposium (Reference: E2).
The Degree Committee for the Faculty of Engineering gives notice that the modules available to candidates studying the one-year course in Biotechnology for the degree of Master of Philosophy (Statutes and Ordinances, p. 518) in the academic year 2019–20 and the form of examination of each module will be as as shown below.
The Degree Committee for the Faculty of Engineering may issue amendments to the lists below during the Michaelmas Term 2019, provided that no candidate's preparation for the examination will be affected by the change.
BPT |
Principles of biotechnology (double module) |
Coursework |
BPC |
Biotechnology practical course (double module) |
Coursework |
B3 |
Pharmaceutical engineering |
Examination |
C1 |
Optical microscopy |
Examination |
C3 |
Healthcare biotechnology |
Examination |
C6 |
Biosensors and bioelectronics |
Coursework |
C7 |
Bionanotechnology |
Examination |
C8 |
Biophysics (techniques) |
Examination |
BX1 |
Chemical biology and drug discovery |
Coursework |
BX2 |
Biomaterials |
Coursework and examination |
4G1 |
Mathematical biology of the cell |
Coursework |
4G3 |
Computational neuroscience |
Coursework |
4G4 |
Biomimetics |
Coursework |
4G6 |
Cellular and molecular biomechanics |
Examination |
SB |
Systems biology |
Examination |
4E1 |
Innovation and strategic management of intellectual property |
Coursework |
4E4 |
Management of technology |
Coursework |
4E5 |
International business |
Coursework |
4I8 |
Medical physics |
Examination |
All candidates are required to complete an individual project report of up to 7,000 words (reference: BIRP) and to complete a team project assessed by a report of up to 7,000 words (reference: BGRP).
The Degree Committee for the Faculty of Engineering gives notice that the modules available to candidates studying the one-year course in Energy Technologies for the degree of Master of Philosophy (Statutes and Ordinances, p. 525) in the academic year 2019–20, and the form of examination of each module, will be as shown below.
The Degree Committee for the Faculty of Engineering may issue amendments to the lists below during the Michaelmas Term 2019, provided that no candidate's preparation for the examination will be affected by the change.
ETA1 |
Energy topics |
Coursework |
ETA2 |
Revision of fundamentals |
Coursework |
ETB1 |
Clean fossil fuels |
Coursework |
ETB2 |
Renewables 1: wind, wave, tidal and hydro |
Coursework |
ETB3 |
Renewables 2: solar and biofuels |
Coursework |
ETB4 |
Energy systems and efficiency |
Coursework |
4A2 |
Computational fluid dynamics |
Coursework |
4A3 |
Turbomachinery I |
Coursework and examination |
4A4 |
Aircraft stability and control |
Coursework |
4A7 |
Aerodynamics |
Coursework |
4A9 |
Molecular thermodynamics |
Examination |
4A10 |
Flow instability |
Examination |
4A12 |
Turbulence and vortex dynamics |
Examination |
4A13 |
Combustion and IC engines |
Examination |
4B19 |
Renewable electrical power |
Examination |
4B21 |
Analogue integrated circuits |
Examination |
4C7 |
Random and non-linear vibrations |
Coursework and examination |
4D13 |
Architectural engineering |
Coursework |
4E1 |
Innovation and strategic management of intellectual property |
Coursework |
4E3 |
Business innovation in a digital age |
Coursework |
4E4 |
Management of technology |
Coursework |
4E11 |
Strategic management |
Coursework |
4F2 |
Robust and non-linear systems and control |
Examination |
4F3 |
Optimal and predictive control |
Examination |
4F12 |
Computer vision |
Examination |
4I7 |
Electricity and environment |
Examination |
4I10 |
Nuclear reactor engineering |
Examination |
4I11 |
Advanced fission and fusion systems |
Examination |
4M12 |
Partial differential equations and variational methods |
Examination |
4M16 |
Nuclear power engineering |
Examination |
4M19 |
Advanced building physics |
Coursework |
4M20 |
Robotics |
Coursework |
4M22 |
Climate change mitigation |
Coursework |
5R10 |
Turbulent reacting flows |
Coursework |
5R18 |
Environmental fluid mechanics and air pollution |
Coursework |
B2 |
Electrochemical engineering |
Examination |
Each candidate must submit a thesis of up to 20,000 words on a subject approved by the Degree Committee.
The Degree Committee for the Faculty of Engineering gives notice that the modules available to candidates studying the one-year course in Engineering for Sustainable Development for the degree of Master of Philosophy (Statutes and Ordinances, p. 525) in the academic year 2019–20 and the form of examination of each module will be as shown below.
The Degree Committee for the Faculty of Engineering may issue amendments to the lists below during the Michaelmas Term 2019, provided that no candidate's preparation for the examination will be affected by the change.
ESD150 |
Organisational change, values and negotiation |
Coursework |
ESD200 |
Sustainability methods and metrics |
Coursework |
ESDCCP |
Client consultancy project |
Coursework |
ESD450 |
Policy, legislation and government |
Coursework |
ESD650 |
International development |
Coursework |
ESD360 |
Resilience and hazard mitigation in future cities |
Coursework |
ESD560 |
Innovations in sustainable manufacturing |
Coursework |
4B19 |
Renewable electrical power |
Examination2 |
4D13 |
Architectural engineering |
Coursework |
4D16 |
Construction engineering |
Examination2 |
4E4 |
Management of technology |
Coursework |
4E6 |
Accounting and finance |
Coursework |
4M19 |
Advanced building physics |
Coursework |
4M22 |
Climate change mitigation |
Coursework |
TP1 |
Technology policy: concepts and frameworks |
Coursework |
TPE23 |
Negotiation skills |
Coursework |
TPE254 |
Strategic valuation uncertainty and real options in system design |
Coursework |
EP024 |
Fundamentals of environmental economics |
Coursework |
EP08 |
Comparative environmental politics and policy |
Coursework |
ESD-A2 |
Sustainable architecture and urban design |
Coursework |
Infrastructure design of poor settlements in developing countries |
Coursework |
|
4D14 |
Contaminated land and waste containment |
Coursework and examination |
4E5 |
International business |
Coursework |
4E11 |
Strategic management |
Coursework |
4G4 |
Biomimetics |
Coursework |
4I7/TEP22 |
Electricity and environment |
Coursework |
5R18 |
Environmental fluid mechanics |
Coursework |
ETB25 |
Renewable energy: wind, wave, tidal and hydro |
Coursework |
Renewable energy: solar and biomass |
Coursework |
|
ETB45 |
Energy systems and efficiency |
Coursework |
TP4 |
Business, government and technology in emerging markets |
Coursework |
TPE5 |
Policy, design, and evaluation |
Examination (two hours) |
TPE20 |
Management of the innovation process |
Coursework |
EP064 |
Energy and climate change |
Examination2 |
All candidates are required to submit a dissertation of up to 15,000 words on a topic approved by the Degree Committee.
1Two modules can be selected from the outer core as elective modules.
2All written examinations are of one and a half hours' duration unless otherwise specified.
3Subject to numbers.
4A cap will be placed of approximately five ESD students per module.
5Provisional, and to be confirmed.
6Lectures in both Michaelmas and Lent Terms (classed as a Lent module).
7Limited places available.
The Degree Committee for the Faculty of Engineering gives notice that the modules available to candidates studying the one-year course in Industrial Systems, Manufacture and Management for the degree of Master of Philosophy (Statutes and Ordinances, p. 532) in the academic year 2019–20, and the form of examination of each module, will be as shown below.
The Degree Committee for the Faculty of Engineering may issue amendments to the lists below during the Michaelmas Term 2019, provided that no candidate's preparation for the examination will be affected by the change.
ISMM1 |
Manufacturing processes |
Coursework |
ISMM2 |
Operations and supply chain management |
Coursework |
ISMM3 |
Data and modelling |
Coursework |
ISMM4 |
Marketing and new business development |
Coursework |
ISMM5 |
Research methods |
|
4E1 |
Innovation and strategic management of intellectual property |
Coursework |
4E4 |
Management of technology |
Coursework |
4E5 |
International business |
Coursework |
PR1 |
Industrial project 1 |
Coursework |
PR2 |
Industrial project 2 |
Coursework |
PR3 |
Entrepreneurship project |
Coursework |
PR4 |
Industrial project 3 |
Coursework |
PR5 |
Combined essay |
Coursework |
All candidates must submit a thesis of not more than 15,000 words on a subject approved by the Degree Committee.
The Degree Committee for the Faculty of Engineering gives notice that the modules available to candidates studying the one-year course in Machine Learning and Machine Intelligence for the degree of Master of Philosophy (Statutes and Ordinances, p. 534) in the academic year 2019–20 and the form of examination of each module will be as shown below.
The Degree Committee for the Faculty of Engineering may issue amendments to the lists below during the Michaelmas Term 2019, provided that no candidate's preparation for the examination will be affected by the change.
MLMI1 |
Introduction to machine learning (three-quarters) |
Coursework and examination |
MLMI2 |
Speech recognition |
Coursework |
MLMI4 |
Advanced machine learning |
Coursework |
MLMI6 |
Information theoretic ideas in statistical inference (half) |
Coursework |
MLMI7 |
Reinforcement learning and decision making |
Coursework |
MLMI11 |
Designing intelligence interactive systems (half) |
Coursework |
MLMI12 |
Computer vision (optional) |
Coursework |
MLMI13 |
Natural language processing (optional) |
Coursework |
4F10 |
Deep learning and structured data |
Examination |
4F13 |
Probabilistic machine learning |
Coursework |
4F1 |
Control system design |
Coursework and examination |
4F2 |
Robust and nonlinear systems and control |
Examination |
4F3 |
An optimisation based approach to control |
Examination |
4F5 |
Advanced communications and coding |
Examination |
4F7 |
Digital filters and spectrum estimation |
Examination |
4F8 |
Image processing and image coding |
Examination |
4F14 |
Computer systems |
Coursework and examination |
4G3 |
Computational neuroscience |
Coursework |
4M17 |
Practical optimisation |
Coursework |
4M20 |
Robotics |
Coursework |
4M21 |
Software engineering and design |
Examination |
L18 |
Automated reasoning |
Coursework |
L95 |
Introduction to natural language syntax and parsing |
Coursework |
R222 |
Advanced topics in natural language processing |
Coursework |
Note that not all of the core modules are equally weighted. This is indicated above in the module names.
All candidates are required to submit a dissertation of up to 15,000 words on a topic approved by the Degree Committee.
The Degree Committee for the Faculty of Engineering gives notice that the modules available to candidates studying the one-year course in Nuclear Energy for the degree of Master of Philosophy (Statutes and Ordinances, p. 538) in the academic year 2019–20 and the form of examination of each module will be as shown below.
The Degree Committee for the Faculty of Engineering may issue amendments to the lists below during the Michaelmas Term 2019, provided that no candidate's preparation for the examination will be affected by the change.
NE1 |
Reactor physics |
Examination |
NE2 |
Reactor engineering and thermal-hydraulics (double) |
Coursework and examination |
NE5 |
Nuclear safety principles and practice (half) |
Coursework and examination |
NE6 |
Nuclear policy |
Coursework |
NE7 |
Nuclear practice (half) |
Coursework |
NE3 |
Materials for nuclear energy |
Examination |
NE4 |
Fuel cycle, waste and decommissioning |
Examination |
NE8 |
Computational reactor modelling |
Coursework |
NE9 |
Advanced fission and fusion reactor systems |
Coursework |
4A2 |
Computational fluid dynamics |
Coursework |
4A3 |
Turbomachinery I |
Coursework and examination |
4B19 |
Renewable electrical power |
Examination |
4C4 |
Design methods |
Examination |
4C5 |
Design case studies |
Coursework |
4D7 |
Concrete structures |
Coursework and examination |
4D10 |
Structural steelwork |
Coursework and examination |
4E4 |
Management of technology |
Coursework |
4E5 |
International business |
Coursework |
4E6 |
Accounting and finance |
Coursework |
4E11 |
Strategic management |
Coursework |
4F1 |
Control system design |
Coursework and examination |
4F2 |
Robust and nonlinear systems and control |
Examination |
4F12 |
Computer vision |
Examination |
4I7 |
Electricity and environment |
Coursework |
4I8 |
Medical physics |
Examination |
4M15 |
Sustainable energy |
Coursework and examination |
4M17 |
Practical optimisation |
Coursework |
4M18 |
Present and future energy systems |
Examination |
ESD560 |
Innovations in sustainable manufacturing |
Coursework |
B6 |
Fluid mechanics and the environment |
Examination |
TP1 |
Technology policy |
Coursework |
TP2 |
Economic foundations of technology policy |
Coursework |
TP4 |
Business, government and technology in emerging markets |
Coursework |
TP5 |
Policy design and evaluation |
Coursework |
TPE20 |
Management of the innovation process |
Coursework |
TPE21 |
Entrepreneurial science and innovation policy |
Coursework |
TPE23 |
Negotiation skills |
Coursework |
TPE24 |
Competitive strategy in the digital age |
Coursework |
ESD150 |
Driving change towards sustainability |
Coursework |
M3 |
Extraction and recycling |
Examination |
M15 |
Corrosion and protection |
Examination |
M16 |
Atomistic materials modelling |
Examination |
M21 |
Steels |
Examination |
PNP |
Particle and nuclear physics/comp physics |
Examination |
Note that some options are half-modules, and one is a double module. This is indicated above in the module names.
All candidates are required to submit a dissertation of up to 15,000 words on a topic approved by the Degree Committee.
The Degree Committee for the Faculty of Engineering gives notice that the modules available to candidates studying the one-year course in Future Infrastructure and Built Environment for the degree of Master of Research (Statutes and Ordinances, p. 548) in the academic year 2019–20, and the form of examination of each module, will be as shown below.
The Degree Committee for the Faculty of Engineering may issue amendments to the lists below during the Michaelmas Term 2019, provided that no candidate's preparation for the examination will be affected by the change.
CM1 |
Civil engineering theory |
Coursework |
CM2 |
Civil engineering research methods |
Coursework |
CM3 |
Multi-disciplinarity in civil engineering |
Coursework |
ETech |
Introduction to entrepeneurship |
Coursework |
4C6 |
Advanced linear vibrations |
Coursework and examination |
4C7 |
Random and non-linear vibrations |
Coursework and examination |
4C9 |
Continuum mechanics |
Examination |
4D4 |
Construction engineering |
Coursework |
4D5 |
Foundation engineering |
Coursework and examination |
4D6 |
Dynamics in civil engineering |
Coursework and examination |
4D7 |
Concrete structures |
Coursework and examination |
4D9 |
Offshore geotechnical engineering |
Examination |
4D10 |
Structural steelwork |
Coursework and examination |
4D13 |
Architectural engineering |
Coursework |
4F8 |
Image processing and image coding |
Examination |
4F12 |
Computer vision |
Examination |
4G4 |
Biomimetics |
Coursework |
4M12 |
Partial differential equations and variational methods |
Examination |
4M16 |
Nuclear power engineering |
Examination |
4M17 |
Practical optimisation |
Coursework |
4M19 |
Advanced building physics |
Coursework |
4M20 |
Robotics |
Coursework |
4M22 |
Climate change mitigation |
Coursework |
5R5 |
Advanced experimental methods in geomechanics |
Coursework |
5R7 |
Advanced numerical methods in geomechanics |
Coursework |
5R14 |
Nonlinear solid mechanics |
Coursework |
5R19 |
Earthquake engineering |
Coursework |
EP10 |
Climate change policy and land development |
Examination |
All candidates are required to complete a desktop study (DS), a mini-project (MP), a group project (GP), and an M.Res. dissertation of up to 12,000 words on a topic approved by the Degree Committee.
The Degree Committee for the Faculty of Engineering gives notice that the modules available to candidates studying the one-year course in Future Propulsion and Power for the degree of Master of Research (formerly Gas Turbine Aerodynamics, Statutes and Ordinances, p. 549) in the academic year 2019–20, and the form of examination of each module, will be as shown below.
The Degree Committee for the Faculty of Engineering may issue amendments to the lists below during the Michaelmas Term 2019, provided that no candidate's preparation for the examination will be affected by the change.
FPP1 |
Advanced propulsion and power dynamics |
Examination |
FPP2 |
Turbomachinery aerodynamic design process |
Coursework |
FPP3 |
Experimental methods |
Coursework |
FPP4 |
Researcher skills |
Coursework |
4A2 |
Computational fluid dynamics |
Coursework |
4A3 |
Turbomachinery I |
Coursework and examination |
4A4 |
Aircraft stability and control |
Coursework |
4A7 |
Aerodynamics and design |
Coursework |
4A9 |
Molecular thermodynamics |
Examination |
4B19 |
Renewable electrical power |
Examination |
4E4 |
Management of technology |
Coursework |
4E6 |
Accounting and finance |
Coursework |
4F1 |
Control system design |
Coursework and examination |
4F13 |
Probabilistic machine learning |
Coursework |
4M17 |
Practical optimisation |
Coursework |
4I7 |
Electricity and environment |
Coursework |
All candidates are required to complete three mini-projects:
MP1 |
Combustion system aerodynamics |
MP2 |
Compressor performance |
MP3 |
Internal flows and combustor-turbine interaction |
All candidates are furthermore required to complete three industry courses:
IC1 |
Holistic gas turbine design |
IC2 |
Hands-on gas turbine training |
IC3 |
Dyson product design |
Finally, all candidates are required to complete a Ph.D. proposal dissertation of up to 12,000 words on a topic approved by the Degree Committee.
The Degree Committee for the Faculty of Engineering gives notice that the modules available to candidates studying the one-year course in Graphene Technology for the degree of Master of Research (Statutes and Ordinances, p. 549) in the academic year 2019–20, and the form of examination of each module, will be as shown below.
The Degree Committee for the Faculty of Engineering may issue amendments to the lists below during the Michaelmas Term 2019, provided that no candidate's preparation for the examination will be affected by the change.
GRM1 |
Science of graphene, related layered materials and hybrid systems |
Examination |
GRM2 |
Technology of graphene, related layered materials and hybrid systems |
Examination |
GRM3 |
Flexible and stretchable electronics |
Examination |
4B26 |
Advanced devices for high frequency electronics and biosensing |
Examination |
NT01 |
Characterisation techniques |
Examination |
NT04 |
Nanofabrication techniques |
Examination |
All candidates are required to complete thirty research skills sessions (reference: RSS) and two mini-projects (reference: MP1 and MP2).
The Degree Committee for the Faculty of Engineering may issue amendments to the above lists during the Michaelmas Term 2019, provided that no candidate's preparation for the examination will be affected by the change.
The Degree Committee for the Faculty of Engineering gives notice that the modules available to candidates studying the one-year course in Connected Electronic and Photonic Systems for the degree of Master of Research (formerly Integrated Photonic and Electronic Systems, Statutes and Ordinances, p. 550) in the academic year 2019–20, and the form of examination of each module, will be as shown below.
The Degree Committee for the Faculty of Engineering may issue amendments to the lists below during the Michaelmas Term 2019, provided that no candidate's preparation for the examination will be affected by the change.
4B13 |
Electronic sensors and instrumentation |
Examination |
4B24 |
Radio frequency systems |
Coursework and examination |
4B25 |
Embedded systems for the internet of things |
Coursework |
UCLRFC |
RF circuits and systems |
Coursework and examination |
4B11 |
Photonic systems |
Examination |
4B23 |
Optical fibre communication |
Coursework and examination |
UCLAPD |
Advanced photonic devices |
Examination |
UCLOTN |
Optical transmission and networks |
Examination |
UCLPSS |
Photonic sub-systems |
Examination |
4E4 |
Management of technology |
Coursework |
UCLTBE |
Telecommunication business environment |
Coursework |
4B5 |
Nanotechnology |
Coursework and examination |
4B21 |
Analogue integrated circuits |
Examination |
4B26 |
Advanced devices for high frquency electronics and biosensing |
Examination |
GRM3 |
Flexible and stretchable electronics |
Examination |
4F5 |
Advanced information theory and coding |
Examination |
4F12 |
Computer vision |
Examination |
UCLAML |
Applied maching learning |
Coursework |
UCLBCL |
Broadband communications lab |
Coursework |
UCLBTC |
Broadband technologies and components |
Examination |
UCLEC3 |
Electronic circuits 3 |
Coursework |
UCLIOT |
Internet of things |
Coursework |
UCLPON |
Physics and optics of nano-structure |
Coursework and examination |
UCLSNS |
Software for network services and design |
Coursework |
The modules beginning 'UCL' are provided and examined by University College, London.
All candidates are required to complete two project reports (references: MP1 and MP2).
The Degree Committee for the Faculty of Engineering gives notice that the modules available to candidates studying the one-year course in Sensor Technologies and Applications for the degree of Master of Research (Statutes and Ordinances, p. 551) in the academic year 2019–20, and the form of examination of each module, will be as shown below.
The Degree Committee for the Faculty of Engineering may issue amendments to the lists below during the Michaelmas Term 2019, provided that no candidate's preparation for the examination will be affected by the change.
STA1 |
Principles of sensing |
Coursework |
STA2 |
Guided sensor design project |
Coursework |
ETech |
Introduction to entrepreneurship |
Coursework |
BIOPR |
Biological physics (principles) |
Examination |
4B5 |
Nanotechnology |
Coursework and examination |
4B11 |
Photonic systems |
Examination |
4B13 |
Electronic sensors and instrumentation |
Examination |
4B21 |
Analogue integrated circuits |
Examination |
4B25 |
Embedded systems for the internet of things |
Coursework |
4B26 |
Advanced devices for high frequency electronics and biosensing |
Examination |
4C3 |
Electrical and nano materials |
Examination |
4E12 |
Project management |
Coursework |
4F8 |
Image processing and image coding |
Examination |
4F12 |
Computer vision |
Examination |
4F13 |
Probabilistic machine learning |
Coursework |
4I8 |
Medical physics |
Examination |
4M20 |
Robotics |
Coursework |
4M22 |
Climate change migration |
Coursework |
B5 |
Optical imaging and microscopy |
Examination |
C6 |
Biosensors and bioelectronics |
Coursework |
C8 |
Biological physics (techniques) |
Examination |
GRM3 |
Flexible and stretchable electronics |
Examination |
IDP1 |
Atmospheric chemistry and global change |
Examination |
MLMI4 |
Advanced machine learning |
Coursework |
NT01 |
Nanotechnology characterisation techniques |
Examination |
NT08 |
Bionanotechnology |
Examination |
R214 |
Biomedical information processing |
Coursework |
All candidates are required to complete an individual mini-project report (reference: MP1) and a 'Sensor Team Challenge' project report (reference: GP1).