|Delivery Type||Delivery length / details|
|Seminars / Tutorials||2 Hours.|
|Practical||6 x 2 hours|
|Assessment Type||Assessment length / details||Proportion|
|Semester Assessment||Course work: Design study for a wearable computer system.||50%|
|Semester Exam||2 Hours||50%|
|Supplementary Exam||2 Hours Supplementary examination will take the same form, under the terms of the Department's policy.||100%|
On successful completion of this module students should be able to:
Identify and analyse key technical limitations of mobile, wearable and embedded computer systems in particular applications and environments.
Evaluate and explain the likely usefulness of the use of a mobile or wearable computer system for particular applications and environments.
Calculate battery sizes, processing requirement, energy budgets, heat dissipation requirements and other key characteristics of mobile, wearable and embedded computer systems.
Identify and explain likely effectiveness of appropriate short to medium range communication mechanisms suitable for use by mobile, wearable and embedded computer systems in various environments.
Describe mechanisms and technologies useful for endowing mobile, wearable and embedded computer systems with context awareness.
Design mobile, embedded and wearable computer systems tailored to particular applications and environments.
The module builds on the initial knowledge of computer systems gained in part one of the undergraduate degree schemes in computer science (CS10110 , CS15210) and the detailed knowledge of computer hardware established in CS25510 in order to provide a detailed knowledge of the techniques and possibilities opened-up through the use of such techniques in mobile, embedded and wearable computer systems.
The module covers issues pertinent to the uses, drawbacks, physical limitations and technological possibilities offered by mobile, embedded and wearable computer systems. This includes discussion of communication mechanisms, battery life, energy budgets, heat dissipation and the use of low-power and interrupt driven processing.
Definitions of the terms and what is particularly interesting, challenging and different about these types of technology. Outline of the key challenges for the technology. Brief discussion of characteristics of applications suitable to be addressed with this type of technology.
Existing applications (3 lectures)
Explanation of a number of existing applications of such systems and a technical analysis of their key properties with respect to the technology available and used in their construction. Detailed discussion of their advantage and limitations with respect to competitors and more conventional technology. Environmental limitations on their use and functionality will also be examined.
Fundamentals and effective application of the technologies (8 lectures and 4 practicals)
Examination of the key properties of a number of aspects of different available technologies and the pros and cons of particular usage patterns will be discussed. In particular the following will be addressed:
i)battery technologies and properties of each,
ii)processor technologies and mechanisms and their properties,
iii)energy budgets and heat dissipation requirements for various types of systems
iv)human-computer interface technologies and modes of interaction
v)technologies for context awaremess and sensing the environment.
Communication mechanisms (3 lectures and 2 practicals)
A range of short to medium range communication mechanisms will be discussed and analysed with respect to their functional properties in the types of environment in which mobile, embedded and wearable computer systems are deployed. This will include examination of:
i)Radio technologies including unlicensed low-power radio technology, mobile telephone technology and very low frequency radio signals
ii)Infra-red and ultrasound communications
iii)The possible uses and suitability of these technologies including ad-hoc networks and personal area networks
Reading and research (2 seminars)
A number of texts, including research papers will be presented by students and discussed. Summaries of relevant material garnered by students and a list of web-sites, books and research papers will be provided and described. Students will be informed of the compulsory topic on the exam paper and given starting points from which to begin their study.
System integration and overall design issues for wearable systems (3 lectures)
By focussing on a complete wearable computer system designed for a particular application and environment, a coherent set of constraints and demands for that application will be identified. This will then be developed over a small number of lectures into a set of possible solutions for that particular application.
Wrap-up and reiteration of fundamentals (1 lecture)
An overview of the fundamentals of the course and their inter-relationship will be presented in order to leave the students with a coherent overall view of this area of technology.
|Skills Type||Skills details|
|Improving own Learning and Performance||The emphasis on discovering and reading texts and the work for the compulsory examination question will (through the seminars) help students to develop their individual learning skills|
|Problem solving||Thinking through and designing a wearable computer system involves the application of problem solving skills with a new set of constraints and demands. Novel and effective solutions will be encouraged and rewarded|
|Research skills||The use of printed and web resources will be expected and encouraged both in the development of coursework and in the semester/supplementary examination (a pre-specified compulsory question topic will be examined)|
Reading ListGeneral Text
Jones, Matthew (Jan. 2006) Mobile Interaction Design John Wiley & Sons Canada, Limited Primo search
This module is at CQFW Level 5