Distributed control applications enabled by wireless networks are becoming more and more frequent. The advantages of wireless access are many, as control systems become mobile, autonomous and connected. Examples include platooning and automated factories. However, distributed control systems have stringent requirement on both reliability and timeliness, the latter in terms of deadlines. If the deadline is missed, the packet is considered useless, similarly to a lost or erroneous packet in a system without deadlines. In addition, wireless channels are, by nature, more exposed to noise and interference than their wired counterparts. Consequently, it implies a considerable challenge to fulfill the deadline requirements with sufficient reliabil...
©2009 IEEE. Personal use of this material is permitted. However, permission to reprint/republish thi...
Applications that require ultra low latency and high reliability--such as intelligent transportation...
Modern industrial control environments consist of a multitude of spatially distributed sensors and a...
Many emerging applications based on wireless networks involve distributed control. This implies high...
Introducing wireless networks into distributed industrial systems may enable new or improved applica...
Wireless automation and control networks, with stringent latency and reliability requirements, typic...
We consider wireless relay networks for use in industrial applications with strict requirements on b...
We consider wireless relay networks for use in industrial applications with strict requirements on b...
Autonomous driving in road trains, a.k.a. platooning, may reduce fuel consumption considerably if th...
Modern industrial control systems use a multitude of spatially distributed sensors and actuators to ...
textWireless communication continues to make a profound impact upon our daily lives. The oft-touted ...
Platooning is widely considered a promising approach to decrease fuel consumption by reducing the ai...
In the near future, the number of wireless devices will outnumber humans by an order of magnitude, a...
This paper investigates the strict reliable and timely requirements of the hard real traffic based c...
Relay channels have been in use for decades as an effective means to tackle some of the challenges f...
©2009 IEEE. Personal use of this material is permitted. However, permission to reprint/republish thi...
Applications that require ultra low latency and high reliability--such as intelligent transportation...
Modern industrial control environments consist of a multitude of spatially distributed sensors and a...
Many emerging applications based on wireless networks involve distributed control. This implies high...
Introducing wireless networks into distributed industrial systems may enable new or improved applica...
Wireless automation and control networks, with stringent latency and reliability requirements, typic...
We consider wireless relay networks for use in industrial applications with strict requirements on b...
We consider wireless relay networks for use in industrial applications with strict requirements on b...
Autonomous driving in road trains, a.k.a. platooning, may reduce fuel consumption considerably if th...
Modern industrial control systems use a multitude of spatially distributed sensors and actuators to ...
textWireless communication continues to make a profound impact upon our daily lives. The oft-touted ...
Platooning is widely considered a promising approach to decrease fuel consumption by reducing the ai...
In the near future, the number of wireless devices will outnumber humans by an order of magnitude, a...
This paper investigates the strict reliable and timely requirements of the hard real traffic based c...
Relay channels have been in use for decades as an effective means to tackle some of the challenges f...
©2009 IEEE. Personal use of this material is permitted. However, permission to reprint/republish thi...
Applications that require ultra low latency and high reliability--such as intelligent transportation...
Modern industrial control environments consist of a multitude of spatially distributed sensors and a...
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