Optimization Design of Preemptive Reconfiguration Scheme in Time-Triggered Ethernet

GAO Yang; LI Haoruo; HE Feng; WANG Tong

doi:10.3969/j.issn.1671-637x.2020.10.018

[1] WOLFIG R, JAKOVLJEVIC M. Distributed IMA and DO-297: architectural, communication and certification attributes［C］//IEEE/AIAA 27th Digital Avionics Systems Conference, 2008. doi: 10.1109/DASC.2008.4702769.

[4] SAE. AS6802 SAE. Time-Triggered Ethernet［S］. ［S. l］: SAE International, 2011.

[5] DA FONTOURA A A, NASCIMENTO F A, NADJM-TEHRANI S, et al. Timing assurance of avionic reconfiguration schemes using formal analysis［J］. IEEE Transactions on Aerospace and Electronic Systems, 2020, 56(1): 95-106.

[6] HOUSSEYNI W, MOSBAHI O, KHALGUI M, et al. Multiagent architecture for distributed adaptive scheduling of reconfigurable real-time tasks with energy harvesting constraints［J］. IEEE Access, 2017, 6: 2068-2084.

[7] ZHANG Q, WANG S H, LIU B. Approach for integrated modular avionics reconfiguration modelling and reliability analysis based on AADL［J］. IET Software, 2016, 10(1): 18-25.

[8] WISNIEWSKI L, CHAHAR S, JASPERNEITE J. Seamless reconfiguration of time triggered ethernet based protocols［C］//IEEE World Conference on Factory Communication Systems (WFCS), 2015: 1-4.

[9] LI Z H, WAN H, PANG Z Y, et al. An enhanced reconfiguration for deterministic transmission in time-triggered networks［J］. IEEE/ACM Transactions on Networking, 2019, 27(3): 1124-1137.

[11] RAAGAARD M L, POP P, GUTIERREZ M, et al. Runtime reconfiguration of time-sensitive networking (TSN) sche-dules for fog computing［C］//IEEE Fog World Congress (FWC), 2017: 1-6.

[12] KREUTZ D, RAMOS F M V, VERISSIMO P, et al. Software-defined networking: a comprehensive survey［J］. Proceedings of the IEEE, 2015, 103(1): 10-13.

[13] TAJIKI M M, AKBARI B, MOKARI N. Optimal QoS-aware network reconfiguration in software defined cloud data centers［J］. Computer Networks, 2017, 120: 71-86.

[14] DESTOUNIS A, PARIS S, MAGGI L, et al. Minimum cost SDN routing with reconfiguration frequency constraints［J］. IEEE/ACM Transactions on Networking, 2018, 26(4): 1577-1590.

[15] BIEBER P, BONIOL F, BOYER M, et al. New challenges for future avionic architectures［J］. Aerospace Lab, 2012(4): 1-10.

[16] STEINER W. An evaluation of SMT-based schedule synthesis for time-triggered multi-hop networks［C］//The 31st IEEE Real-Time Systems Symposium, 2010: 375-384.

[17] ARINC Aeronautical Radio. ARINC specification 664: aircraft data network. Part 7-Avionics Full Duplex Swit-ched Ethernet (AFDX) network［S］. Annapolis: Aeronautical Radio Inc, 2005.

[18] ZHAO L X, POP P, LI Q, et al. Timing analysis of rate-constrained traffic in TTEthernet using network calculus［J］. Real-Time Systems, 2017, 53(2): 254-287.

[19] KONAR D, BHATTACHARYYA S, SHARMA K, et al. An improved Hybrid Quantum-Inspired Genetic Algorithm (HQIGA) for scheduling of real-time task in multiprocessor system［J］. Applied Soft Computing, 2017, 53: 296-307.