Machine Learning
| Code | School | Level | Credits | Semesters |
| COMP3055 | School of Computer Science | 3 | 20 | Autumn China |
- Code
- COMP3055
- School
- School of Computer Science
- Level
- 3
- Credits
- 20
- Semesters
- Autumn China
Summary
Prerequisites: COMP1046 Mathematics for Computer Scientists
Providing you with an introduction to machine learning, pattern recognition, and data mining techniques, this module will enable you to consider both systems which are able to develop their own rules from trial-and-error experience to solve problems, as well as systems that find patterns in data without any supervision. In the latter case, data mining techniques will make generation of new knowledge possible, including very big data sets. This is now fashionably termed 'big data' science. You will cover a range of topics including: machine learning foundations; pattern recognition foundations; artificial neural networks; deep learning; applications of machine learning; data mining techniques and evaluating hypotheses. You will spend around six hours each week in lectures and computer classes for this module.
Target Students
Part II undergraduate students.students.
Classes
- Two 2-hour lectures each week for 12 weeks
- One 2-hour computing each week for 12 weeks
Method and Frequency of Class and timing of class: two two-hour lectures per week, with practical problems being tackled in individual coursework. One two-hour lab session will be held, in which students work on practical programming assignments and their coursework, or engage in further practice led learning.
Assessment
- 30% Coursework 1: Individual programming and data analysis assignment including codes and experiment reports
- 70% Exam 1 (2-hour): 2-hour written examination
Educational Aims
To introduce the principles, techniques and applications of machine learning and pattern recognition.To enable students the to appreciate some of the most widely used machine learning and pattern recognition algorithms and applications, as well as data mining techniques and their applications.To enable the students to understand and be able to put into practice a variety of machine learning and pattern recognition algorithms, as well as data mining techniques.To enable students to apply data mining techniques on real data sets, some of which can be described as big data sets.To allow students to appreciate the potential and limitation of big data.Learning Outcomes
Knowledge and Understanding:
•Understanding the capabilities, strengths and limitations of machine learning paradigms(A3)
•an appreciation of learning systems and learning algorithms (A4)
Intellectual Skills:
•The ability to understand complex ideas and relate them to specific situations (B4)
•The ability to identify both capabilities and limitations of a machine learning or pattern recognition method (B4)
Professional Skills
•The ability to implement selected machine learning operations including learning algorithms and apply them in real world applications (C1)
•The ability to evaluate available machine learning models and learning algorithms and select those appropriate to a given task (C3)
Transferable Skills:
•The ability to address real problems and assess the value of their proposed solutions (D1)
•The ability to retrieve and analyse information from a variety of sources and produced detailed written reports on the result (D4)
Conveners
- Dr Ying Weng
- Dr Zheng Lu