Security-Aware Mapping for TDMA-Based Real-Time Distributed Systems
Chung-Wei Lin, Qi Zhu, Alberto Sangiovanni-Vincentelli

Citation
Chung-Wei Lin, Qi Zhu, Alberto Sangiovanni-Vincentelli. "Security-Aware Mapping for TDMA-Based Real-Time Distributed Systems". International Conference on Computer-Aided Design (ICCAD), IEEE/ACM, 2, November, 2014.

Abstract
Cyber-security has become a critical issue for realtime distributed embedded systems in domains such as automotive, avionics, and industrial automation. However, in many of such systems, tight resource constraints and strict timing requirements make it difficult or even impossible to add security mechanisms after the initial design stages. To produce secure and safe systems with desired performance, security must be considered together with other objectives at the system level and from the beginning of the design. In this paper, we focus on security-aware design for Time Division Multiple Access (TDMA) based real-time distributed systems. The TDMA-based protocol we consider is an abstraction of many time-triggered protocols that are being adopted in various safety-critical systems for their more predictable timing behavior, such as FlexRay, Time- Triggered Protocol, and Time-Triggered Ethernet. To protect against attacks on TDMA-based real-time distributed systems, we apply a message authentication mechanism with time-delayed release of keys, which provides a good balance between security and computation overhead but needs sophisticated network scheduling to ensure that the increased latencies due to delayed key releases will not violate timing requirements. We propose formulations and an algorithm to optimize the task allocation, priority assignment, network scheduling, and key-release interval length during the mapping process, while meeting both security and timing requirements. Experimental results of an automotive case study and a synthetic example show the effectiveness and efficiency of our approach.

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  • HTML 
    Chung-Wei Lin, Qi Zhu, Alberto Sangiovanni-Vincentelli.
<a
href="http://www.terraswarm.org/pubs/342.html"
>Security-Aware Mapping for TDMA-Based Real-Time
Distributed Systems</a>, International Conference on
Computer-Aided Design (ICCAD), IEEE/ACM, 2, November, 2014.
  • Plain text 
    Chung-Wei Lin, Qi Zhu, Alberto Sangiovanni-Vincentelli.
"Security-Aware Mapping for TDMA-Based Real-Time
Distributed Systems". International Conference on
Computer-Aided Design (ICCAD), IEEE/ACM, 2, November, 2014.
  • BibTeX 
    @inproceedings{LinZhuSangiovanniVincentelli14_SecurityAwareMappingForTDMABasedRealTimeDistributed,
    author = {Chung-Wei Lin and Qi Zhu and Alberto
              Sangiovanni-Vincentelli},
    title = {Security-Aware Mapping for TDMA-Based Real-Time
              Distributed Systems},
    booktitle = {International Conference on Computer-Aided Design
              (ICCAD)},
    organization = {IEEE/ACM},
    day = {2},
    month = {November},
    year = {2014},
    abstract = {Cyber-security has become a critical issue for
              realtime distributed embedded systems in domains
              such as automotive, avionics, and industrial
              automation. However, in many of such systems,
              tight resource constraints and strict timing
              requirements make it difficult or even impossible
              to add security mechanisms after the initial
              design stages. To produce secure and safe systems
              with desired performance, security must be
              considered together with other objectives at the
              system level and from the beginning of the design.
              In this paper, we focus on security-aware design
              for Time Division Multiple Access (TDMA) based
              real-time distributed systems. The TDMA-based
              protocol we consider is an abstraction of many
              time-triggered protocols that are being adopted in
              various safety-critical systems for their more
              predictable timing behavior, such as FlexRay,
              Time- Triggered Protocol, and Time-Triggered
              Ethernet. To protect against attacks on TDMA-based
              real-time distributed systems, we apply a message
              authentication mechanism with time-delayed release
              of keys, which provides a good balance between
              security and computation overhead but needs
              sophisticated network scheduling to ensure that
              the increased latencies due to delayed key
              releases will not violate timing requirements. We
              propose formulations and an algorithm to optimize
              the task allocation, priority assignment, network
              scheduling, and key-release interval length during
              the mapping process, while meeting both security
              and timing requirements. Experimental results of
              an automotive case study and a synthetic example
              show the effectiveness and efficiency of our
              approach.},
    URL = {http://terraswarm.org/pubs/342.html}
}

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