Quality, Reliability, Security and Robustness in Heterogeneous Networks. 12th International Conference, QShine 2016, Seoul, Korea, July 7–8, 2016, Proceedings

Research Article

Industrial Wireless Sensor Network-Oriented Energy-Efficient Secure AODV Protocol

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  • @INPROCEEDINGS{10.1007/978-3-319-60717-7_40,
        author={Weidong Fang and Chuanlei Zhang and Wei He and Wei Chen and Fengying Ma},
        title={Industrial Wireless Sensor Network-Oriented Energy-Efficient Secure AODV Protocol},
        proceedings={Quality, Reliability, Security and Robustness in Heterogeneous Networks. 12th International Conference, QShine 2016, Seoul, Korea, July 7--8, 2016, Proceedings},
        proceedings_a={QSHINE},
        year={2017},
        month={8},
        keywords={Industrial Wireless Sensor Network Security AODV Energy efficiency},
        doi={10.1007/978-3-319-60717-7_40}
    }
    
  • Weidong Fang
    Chuanlei Zhang
    Wei He
    Wei Chen
    Fengying Ma
    Year: 2017
    Industrial Wireless Sensor Network-Oriented Energy-Efficient Secure AODV Protocol
    QSHINE
    Springer
    DOI: 10.1007/978-3-319-60717-7_40
Weidong Fang1,*, Chuanlei Zhang2,*, Wei He1,*, Wei Chen3,*, Fengying Ma4,*
  • 1: Shanghai Institute of Micro-system and Information Technology, Chinese Academy of Sciences
  • 2: Tianjin University of Science and Technology
  • 3: China University of Mining and Technology
  • 4: Qilu University Technology
*Contact email: weidong.fang@mail.sim.ac.cn, a17647@gmail.com, hewei@mail.sim.ac.cn, chenw@cumt.edu.cn, mafengy@163.com

Abstract

As a traditional routing protocol, the Ad hoc On-demand Distance Vector routing (AODV) protocol has been applied in many Industrial fields. Meanwhile, researches on AODV have very in-depth, whether in improving performance, or enhancing security. Unfortunately, there are few researches on joint energy efficiency and security. In this article, we propose an Energy-efficient Secure AODV Protocol (E-SAODV) in Industrial Wireless Sensor Network (IWSN). In E-SAODV, the low complexity verification and the Delayed Transmitting Mechanism (DTM) is proposed and applied. The mechanism involve two parts: the polynomial of the Cyclic Redundancy Check 4 (CRC-4) that substitutes the shortest key of RSA digital signature in SAODV guarantees the integrity of data verification, and reduces storage space, computation and energy consumption. DTM is implemented to separate the check code and valid data, and to achieves tamper-proof. The simulation results show that comprehensive performance of proposed E-SAODV is a trade-off the energy efficiency and security, and better than AODV and SAODV, and could meet the requirement of the throughput in the industrial scene.