2024/25 Undergraduate Module Catalogue
COMP3910 Combinatorial Optimisation
10 creditsClass Size: 180
Module manager: Dr Dibyayan Chakraborty
Email: D.Chakraborty@leeds.ac.uk
Taught: Semester 2 (Jan to Jun) View Timetable
Year running 2024/25
Pre-requisite qualifications
One of the pre-requisite modules must be studied.Pre-requisites
| COMP2421 | Numerical Computation |
| COMP2711 | Algorithms I |
| COMP2721 | Algorithms II |
| MATH2230 | Discrete Mathematics |
| MATH2231 | Discrete Mathematics with Computation |
| MATH2640 | Introduction to Optimisation |
This module is not approved as a discovery module
Module summary
Solutions to many real-world problems that arise in domains such as transport, manufacturing, supply chain management, telecommunications, financial decision making, healthcare logistics, planning and scheduling, can be obtained using techniques from the field of combinatorial optimisation. Combinatorial optimisation provides advanced analytical methods for decision making, where a set of feasible solutions is discrete and the task is to find the best one, with respect to some criteria. It is a well-established discipline with a powerful toolkit that can be applied to solve real-world problems. In this module, we practice in formulating mathematical models using the techniques of linear programming and integer linear programming, learn how to distinguish between 'good' and 'bad' formulations and how the problems can be solved. One of the methods we study, the simplex method, is recognised as one of the 10 most influential algorithms of the 20th century.Objectives
This module develops abstract modelling and problem-solving skills and contributes to developing computer science professionals who are capable of handling real world problems using advanced analytical methods.Learning outcomes
On successful completion of this module a student will have demonstrated the ability to:
- apply integer linear programming techniques to model combinatorial optimisation problems.
- select and apply appropriate methods for solving a combinatorial optimisation problem to find exact or heuristic solutions.
- articulate key concepts from the topic in a clear and rigorous manner.
Syllabus
This module covers the following 5 topic areas:
- Linear programming - simplex method, duality and the dual simplex method.
- Integer Linear Programming - modelling of combinatorial optimisation problems and logical conditions.
- Branch and bound algorithm - general methodology and implementation details.
- Network simplex algorithm - for minimum cost flows.
- Other solution approaches - construction and improvement heuristics.
Teaching methods
| Delivery type | Number | Length hours | Student hours |
| Lectures | 22 | 1.00 | 22.00 |
| Tutorials | 10 | 1.00 | 10.00 |
| Private study hours | 68.00 | ||
| Total Contact hours | 32.00 | ||
| Total hours (100hr per 10 credits) | 100.00 | ||
Private study
Taught session preparation: 10 hours;Taught session follow-up: 10 hours;
Self-directed study: 13 hours;
assessment activities: 24 hours;
Opportunities for Formative Feedback
CourseworkMethods of assessment
Coursework
| Assessment type | Notes | % of formal assessment |
| In-course Assessment | Coursework 1 (Gradescope) | 10.00 |
| In-course Assessment | Coursework 2 (Gradescope) | 10.00 |
| Total percentage (Assessment Coursework) | 20.00 | |
Normally resits will be assessed by the same methodology as the first attempt, unless otherwise stated.
Exams
| Exam type | Exam duration | % of formal assessment |
| Standard exam (closed essays, MCQs etc) | 2 hr 00 mins | 80.00 |
| Total percentage (Assessment Exams) | 80.00 | |
This module will be reassessed by exam only.
Reading list
The reading list is available from the Library websiteLast updated: 25/09/2024 09:18:38
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