The book is currently out of stock
New methods to engineer and seamlessly reconfigure time triggered Ethernet based systems during runtime based on the PROFINET IRT example
Authors
Parameters
More about the book
The objective of this dissertation is to design a concept that would allow to increase the flexibility of currently available Time Triggered Ethernet based (TTEB) systems, however, without affecting their performance and robustness. The main challenges are related to scheduling of time triggered communication that may take significant amount of time and has to be performed on a powerful platform. Additionally, the reliability has to be considered and kept on the required high level. Finally, the reconfiguration has to be optimally done without affecting the currently running system.
Book purchase
New methods to engineer and seamlessly reconfigure time triggered Ethernet based systems during runtime based on the PROFINET IRT example, Lukasz Wisniewski
- Language
- Released
- 2017
We’ll notify you via email once we track it down.
Payment methods
- Title
- New methods to engineer and seamlessly reconfigure time triggered Ethernet based systems during runtime based on the PROFINET IRT example
- Language
- English
- Authors
- Lukasz Wisniewski
- Publisher
- Springer Vieweg
- Released
- 2017
- ISBN10
- 3662546493
- ISBN13
- 9783662546499
- Series
- Technologien für die intelligente Automation
- Category
- University and college textbooks
- Description
- The objective of this dissertation is to design a concept that would allow to increase the flexibility of currently available Time Triggered Ethernet based (TTEB) systems, however, without affecting their performance and robustness. The main challenges are related to scheduling of time triggered communication that may take significant amount of time and has to be performed on a powerful platform. Additionally, the reliability has to be considered and kept on the required high level. Finally, the reconfiguration has to be optimally done without affecting the currently running system.