Modular mechatronics systems comprise of mechatronics sub-systems that are functionally complete and can be independently operated. These sub-systems can be readily fitted and connected to, or in combination with, additional sub-systems. Advantages of modular Mechatronics design of systems include flexibility to changing environmental needs, low-cost due to standardization of the subsystems, inter-connect ability and inter-changeability of sub-systems with each other, and improved system reliability due to modular architecture. Communication technology allows for the systematic integration of mechatronics sub-systems in order to achieve complex integrated mechatronics system which would be difficult to achieve without the use of information technology (IT). Communication technology allows for the remote, real-time control of mechatronics systems e.g. the use of communication to send control signals from haptic device and feedback signals from robotic manipulator in robotics-aided surgery where the surgeon and patient are in different locations (e.g. countries).
Reference:
Bright, G, Tlale, NS and Kumile, CM. 2010. Wireless communication technology for modular mechatronic controllers. Mechatronics in action: case studies in mechatronics: applications and education, pp 121-134
Bright, G., Tlale, N., & Kumile, C. (2010). Wireless communication technology for modular mechatronic controllers., Workflow;5920 Springer Publishers. http://hdl.handle.net/10204/4926
Bright, G, NS Tlale, and CM Kumile. "Wireless communication technology for modular mechatronic controllers" In WORKFLOW;5920, n.p.: Springer Publishers. 2010. http://hdl.handle.net/10204/4926.
Bright G, Tlale N, Kumile C. Wireless communication technology for modular mechatronic controllers.. Workflow;5920. [place unknown]: Springer Publishers; 2010. [cited yyyy month dd]. http://hdl.handle.net/10204/4926.
