Cyber Physical System is a mechanism that is controlled by computer based algorithms. In CPS every component is thoroughly interviewed, it exhibits multiple tasks and use in interacting with other in myriad ways by its technology, .Application of CPS include smart grid, autonomous automobile systems, medical monitoring, robotic system, automatic pilot avionics.
CPS involves transdisciplinary approaches merging theory of mechatronics design process sciences.The process control is often reffered as embedded systems. In embedded systems, the emphasis tends to be more on the computational elements, and less on an intense link between the computational and physical elements. CPS is also similar to the Internet of Things (IoT), sharing the same basic architecture; nevertheless, CPS presents a higher combination and coordination between physical and computational elements.
Mobile Cyber Physical Systems
In which physical system under study has inherent mobility, are prominent sub category of this tech.
Examples for Mobile Cyber Physical System is mobile robotics and the goods transferred by robots by using embedded systems.
Smartphone platforms make ideal mobile cyber-physical systems for a number of reasons, including:
CPS involves transdisciplinary approaches merging theory of mechatronics design process sciences.The process control is often reffered as embedded systems. In embedded systems, the emphasis tends to be more on the computational elements, and less on an intense link between the computational and physical elements. CPS is also similar to the Internet of Things (IoT), sharing the same basic architecture; nevertheless, CPS presents a higher combination and coordination between physical and computational elements.
Mobile Cyber Physical Systems
In which physical system under study has inherent mobility, are prominent sub category of this tech.
Examples for Mobile Cyber Physical System is mobile robotics and the goods transferred by robots by using embedded systems.
Smartphone platforms make ideal mobile cyber-physical systems for a number of reasons, including:
- Significant computational resources, such as processing capability, local storage
- Multiple sensory input/output devices, such as touch screens, cameras, GPS chips, speakers, microphone, light sensors, proximity sensors
- Multiple communication mechanisms, such as WiFi, 3G, EDGE, Bluetooth for interconnecting devices to either the Internet, or to other devices
- High-level programming languages that enable rapid development of mobile CPS node software, such as Java, Objective C, JavaScript, ECMAScript or C#
- Readily-available application distribution mechanisms, such as the Android Market and Apple App Store
- End-user maintenance and upkeep, including frequent re-charging of the battery Design : It is a challenge and the major difference in the designing between embedded and CPS ,because the are used and made by so many engineering branches Designing and deploying a cyber-physical production system can be done based on the 5C architecture (connection, conversion, cyber, cognition, and configuration). In the "Connection" level, devices can be designed to self-connect and self-sensing for its behavior. In the "Conversion" level, data from self-connected devices and sensors are measuring the features of critical issues with self-aware capabilities, machines can use the self-aware information to self-predict its potential issues. In the "Cyber" level, each machine is creating its own "twin" by using these instrumented features and further characterize the machine health pattern based on a "Time-Machine" methodology. Also used as the Internet of Things (IoT), CPS are smart systems that have cyber technologies, both hardware and software, deeply embedded in and interacting with physical components, and sensing and changing the state of the real world. These systems have to operate with high levels of reliability, safety, security and usability since they must meet the rapidly growing demand for applications such as the smart grid, the next generation air transportation system, intelligent transportation systems, smart medical technologies, smart buildings and smart manufacturing. 2016 will be another milestone year in the development of these critical systems, which while currently being employed on a modest scale, don’t come close to meeting the demand.
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