Module Descriptors
INTEGRATED ROBOTICS
MECH50601
Key Facts
Faculty of Computing, Engineering and Sciences
Level 5
15 credits
Contact
Leader: Samuel Wane
Email: S.O.Wane@staffs.ac.uk
Hours of Study
Scheduled Learning and Teaching Activities: 36
Independent Study Hours: 114
Total Learning Hours: 150
Assessment
- EXAMINATION - UNSEEN IN EXAMINATION CONDITIONS weighted at 50%
- ASSIGNMENT weighted at 50%
Module Details
Module Special Admissions Requirements
None
Module Resources
PC, control software, interface cards, microcontroller programmer, servo motors, oscilloscopes, digital storage oscilloscopes, digital multimeters, power supplies, signal generators, etc. Laboratory vision equipment and MATLAB processing software.
Library resources (books on robotics, several robotics journals accessible online, full IEEExplore access to academic papers, and various magazines)
Library resources (books on robotics, several robotics journals accessible online, full IEEExplore access to academic papers, and various magazines)
Module Texts
Low.A, Introductory computer vision and image processing, London : McGraw-Hill (1991), ISBN/ISSN: 0077074033
Gonzalez.R, Woods.R, Digital Image Processing, Addison Wesley, (2002), ISBN: 0130946508
Niku.S, Introduction to robotics : analysis, systems, applications, Upper Saddle River, N.J. : Prentice Hall (2001), ISBN/ISSN: 0130613096
Pugh.A, Robot sensors, IFS (1986), ISBN/ISSN: 0948507020
Gonzalez.R, Woods.R, Digital Image Processing, Addison Wesley, (2002), ISBN: 0130946508
Niku.S, Introduction to robotics : analysis, systems, applications, Upper Saddle River, N.J. : Prentice Hall (2001), ISBN/ISSN: 0130613096
Pugh.A, Robot sensors, IFS (1986), ISBN/ISSN: 0948507020
Module Learning Strategies
Practical laboratory sessions (2 hours per week) will be complemented with theory in the form of handouts, recommended reading and tutorials (1 hour per week). (1:n)1 (1:20)2
Module Additional Assessment Details
50% by exam (2 hours) (Learning outcomes 2 and 3)
50% by an assignment (1500 words) on an application of a controller, actuator and sensor to realise the solution to a specific problem. (Learning outcomes 1and 2)
50% by an assignment (1500 words) on an application of a controller, actuator and sensor to realise the solution to a specific problem. (Learning outcomes 1and 2)
Module Indicative Content
The application of control using a microcontroller
Sensor interfacing and signal conditioning.
Analogue to digital interfacing and memory mapped input/output
Pulse width modulation for use as a control method
Control of radio control motors
Gears
An introduction to computer vision techniques. (image representation, grey level transform (thresholding), filtering.
Robotics for entertainment.
Sensor interfacing and signal conditioning.
Analogue to digital interfacing and memory mapped input/output
Pulse width modulation for use as a control method
Control of radio control motors
Gears
An introduction to computer vision techniques. (image representation, grey level transform (thresholding), filtering.
Robotics for entertainment.