基于区块链技术的联合环境感知模型设计与应用
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摘要
为探索联合环境感知的新思路与新方法,提高多个传感器综合、全面、精确感知的能力,使用区块链技术,提出基于区块链技术的联合环境感知模型,研究其中涉及的区块链关键技术,并给出联合环境感知模型的应用场景。通过感知模型的设计,达到环境感知信息共享和目标精确感知,同时保证感知信息的可信性与不可篡改性,使感知信息可追溯。未来,在基于区块链技术的联合环境感知模型之上构建应用,还能将感知与控制结合起来,最终实现各传感节点的自动控制与自主协作。
In order to explore new ideas and methods for joint environment perception,improve the ability of multiple sensors perceive integrated,comprehensively and accurately,a joint environment perception model based on blockchain technology was proposed and the areas involved were studied. An application scenario of a joint environmental perception model is given. Through the design of the perceptual model,information sharing and target perception is accurately perceived. At the same time,the perceptual information is guaranteed to be trustworthy,cannot be modified and traceable. In the future,building an application based on a joint environment perception model can also combine sensing and control,which achieves automatic control and autonomous collaboration of sensor nodes ultimately.
In order to explore new ideas and methods for joint environment perception,improve the ability of multiple sensors perceive integrated,comprehensively and accurately,a joint environment perception model based on blockchain technology was proposed and the areas involved were studied. An application scenario of a joint environmental perception model is given. Through the design of the perceptual model,information sharing and target perception is accurately perceived. At the same time,the perceptual information is guaranteed to be trustworthy,cannot be modified and traceable. In the future,building an application based on a joint environment perception model can also combine sensing and control,which achieves automatic control and autonomous collaboration of sensor nodes ultimately.
引文
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[2]袁勇,王飞跃.区块链技术发展现状与展望[J].自动化学报,2016,42(4):481-494.
[3]廉蔺,朱启超,赵炤.区块链技术及其潜在的军事价值[J].国防科技,2016,37(2):30-34.
[4]刘慧霞,席庆彪,李大健,等.电子战无人机协同作战关键技术发展现状[J].火力与指挥控制,2013,38(9):5-8.
[5]赵赫,李晓风,占礼葵,等.基于区块链技术的采样机器人数据保护方法[J].华中科技大学学报(自然科学版),2015,43(s1):216-219.
[6]林小驰,胡叶倩雯.关于区块链技术的研究综述[J].金融市场研究,2016(2):97-109.
[7]陈何清.基于区块链的IMIX传输系统的设计与实现[D].南京:南京大学,2016.
[8] OUADDAH A,MOUSANNIF H,OUAHMAN A A. Access control models in Io T:The road ahead[C]//IEEE/ACS 201512th International Conference of Computer Systems and Applications Computer Systems and Applications. 2015.
[9] XU X W,PAUTASSO C,ZHU L M,et al. The blockchain as a software connector[C]//2016 13th Working IEEE/IFIP Conference on Software Architecture. 2016:182-191.
[10]丁未.基于区块链技术的仪器数据管理创新系统[J].中国仪器仪表,2015(10):5-17.
[11]张宁,王毅,康重庆,等.能源互联网中的区块链技术:研究框架与典型应用初探[J].中国电机工程学报,2016,36(15):4011-4022.
[12]何蒲,于戈,张岩峰,等.区块链技术与应用前瞻综述[J].计算机科学,2017,44(4):1-7.
[13]朱岩,甘国华,邓迪,等.区块链关键技术中的安全性研究[J].信息安全研究,2016,2(12):1090-1097.
[14]王继业,高灵超,董爱强,等.基于区块链的数据安全共享网络体系研究[J].计算机研究与发展,2017,54(4):742-749.
[15]曾鸣,程俊,王雨晴,等.区块链框架下能源互联网多模块协同自治模式初探[J].中国电机工程学报,2017,37(13):3672-3681.
[16]沈鑫,裴庆祺,刘雪峰.区块链技术综述[J].网络与信息安全学报,2016,2(11):11-20.
[17]李董,魏进武.区块链技术原理、应用领域及挑战[J].电信科学,2016,32(12):20-25.
[18] KOSBA A,MILLER A,SHI E,et al. Hawk:The blockchain model of cryptography and privacy-preserving smart contracts[C]//IEEE Symposium on Security and Privacy.2016:839-858.
[19] ZYSKIND G,NATHAN O,ALEX S P. Decentralizing privacy:Using blockchain to protect personal data[C]//IEEE Security and Privacy Workshops. 2015:180-184.