Controller Area Networks (CAN) adopt bit stuffing at the physical layer, thus introducing a frame length variability that may adversely affect sensing and actuation jitter. One way to mitigate this issue is to encode the payload by means of a suitable run length limited code, before transmission. In this paper, a family of these codes is defined and thoroughly analyzed from the theoretical point of view, showing its optimality within a set of performance and footprint-related constraints typical of contemporary embedded systems. Experimental results confirm that the proposed technique is amenable to an efficient and deterministic software-based implementation
The existing response-time analysis for messages in Controller Area Network (CAN) with controllers i...
We provide a coding scheme, by which an additional lonely bit can be piggybacked on a payload data p...
We propose a security mechanism to help prevent cyber-attacks (masquerade and replay) in vehicles wi...
The controller area network (CAN) bit stuffing mechanism, albeit essential to ensure proper receiver...
Abstract — The controller area network (CAN) bit stuffing mechanism, it is essential to ensure prope...
The bit stuffing mechanism adopted in controller area networks leads to unwanted jitter on frame rec...
Bit stuffing in CAN is likely to cause jitters on message reception that, in specific cases where ti...
The research work conducted during the PhD program was focused on real-time embedded systems communi...
The CAN (Controller Area Network) protocol provides one of the cost-effective methods to network cur...
Abstract — When a message is transferred from one CAN bus to another via a gateway, variability in t...
Control area network (CAN) is a two- wired, half duplex, high-speed network system, that is far supe...
The main requirement for the design of the controller are network (CAN) is to guarantee that each me...
Analysis is presented that enables the worst case latencies for Controller Area Network (CAN) messag...
Abstract. Controller Area Network (CAN) is a communication bus that has no cryptographic protection ...
Packet data broadcast systems require error free delivery of packet data without retransmission requ...
The existing response-time analysis for messages in Controller Area Network (CAN) with controllers i...
We provide a coding scheme, by which an additional lonely bit can be piggybacked on a payload data p...
We propose a security mechanism to help prevent cyber-attacks (masquerade and replay) in vehicles wi...
The controller area network (CAN) bit stuffing mechanism, albeit essential to ensure proper receiver...
Abstract — The controller area network (CAN) bit stuffing mechanism, it is essential to ensure prope...
The bit stuffing mechanism adopted in controller area networks leads to unwanted jitter on frame rec...
Bit stuffing in CAN is likely to cause jitters on message reception that, in specific cases where ti...
The research work conducted during the PhD program was focused on real-time embedded systems communi...
The CAN (Controller Area Network) protocol provides one of the cost-effective methods to network cur...
Abstract — When a message is transferred from one CAN bus to another via a gateway, variability in t...
Control area network (CAN) is a two- wired, half duplex, high-speed network system, that is far supe...
The main requirement for the design of the controller are network (CAN) is to guarantee that each me...
Analysis is presented that enables the worst case latencies for Controller Area Network (CAN) messag...
Abstract. Controller Area Network (CAN) is a communication bus that has no cryptographic protection ...
Packet data broadcast systems require error free delivery of packet data without retransmission requ...
The existing response-time analysis for messages in Controller Area Network (CAN) with controllers i...
We provide a coding scheme, by which an additional lonely bit can be piggybacked on a payload data p...
We propose a security mechanism to help prevent cyber-attacks (masquerade and replay) in vehicles wi...