位置:成果数据库 > 期刊 > 期刊详情页
RISE: A RelIable and SEcure Scheme for Wireless Machine to Machine Communications
  • 分类:TP393.08[自动化与计算机技术—计算机应用技术;自动化与计算机技术—计算机科学与技术] TU731.2[建筑科学—建筑技术科学]
  • 作者机构:[1]Department ofInformation Security, School of Computer Science, ChinaUniversity of Geosciences, Wuhan 430074, China., [2]Department of Computer Science, NavalUniversity of Engineering, Wuhan 430030, China., [3]Department of Computer Science,'National' Chiao Tung University, Taiwan, China.
  • 相关基金:supported by the National Natural Science Foundation of China(No.61170217);the Open Research Fund from the Shandong Provincial Key Laboratory of Computer Network(No.SDKLCN-2011-01);Fundamental Research Funds for the Central Universities,China University of Geosciences(Wuhan)(No.110109)
作者: Wei Ren[1], Linchen Yu[1], Liangli Ma[2], Yi Ren[3]
关键词: 安全可靠, 机器, 无线, 通信, 可靠性数据, 安全性分析, 传感器, M2M, Machine to Machine (M2M), reliability, security, target distinguishing attack
中文摘要:

Wireless Machine to Machine (M2M) communications enable ubiquitous sensing, controlling, and acting via sensors, actuators, and actors. Reliability and security are of foremost importance in wireless M2M systems. A simple, target distinguishing attack can result in M2M’s failure. This paper presents a RelIable and SEcure scheme, RISE, which is a package of policies that guarantee the reliability of data (including sensor reports and actuator instructions) and devices (including sensors, actuators, and actors). The data reliability is improved by four algorithms, ChooseMedian, ChooseMost, ChooseNearest, and Trust-based Enhancement. Report attainability is improved via m repeat-sending and n multiple-reporting algorithms. Device reliability is guaranteed by device-indistinguishability, which comprises data-indistinguishability and behavior-indistinguishability. The security requirements are formally defined, and the security analysis proves the soundness and completeness of the scheme.

英文摘要:

Wireless Machine to Machine (M2M) communications enable ubiquitous sensing, controlling, and acting via sensors, actuators, and actors. Reliability and security are of foremost importance in wireless M2M systems. A simple, target distinguishing attack can result in M2M's failure. This paper presents a Reliable and SEcure scheme, RISE, which is a package of policies that guarantee the reliability of data (including sensor reports and actuator instructions) and devices (including sensors, actuators, and actors). The data reliability is improved by four algorithms, ChooseMedian, ChooseMost, ChooseNearest, and Trust-based Enhancement. Report attainability is improved via m repeat-sending and n multiple-reporting algorithms. Device reliability is guaranteed by device-indistinguishability, which comprises data-indistinguishability and behavior-indistinguishability. The security requirements are formally defined, and the security analysis proves the soundness and completeness of the scheme,

同期刊论文项目
物联网轻量级健壮安全中的关键问题研究
期刊论文 28 会议论文 2 著作 8
同项目期刊论文
Provably Secure Information Hiding via Short Text in Social Networking Tools
CoP: An Ultra-Lightweight Secure Network Coding Scheme via Last Forwarder’s Proof
QoS-aware and compromise-resilient key management scheme for heterogeneous wireless Internet of Thin
Lightweight and compromise resilient storage outsourcing with distributed secure accessibility in mo
Lightweight privacy-aware yet accountable secure scheme for SM-SGCC communications in smart grid
BVS: A lightweight forward and backward secure scheme for PMU communications in smart grid
APP: An Ultralightweight Scheme to Authenticate ONS and Protect EPC Privacy without Cryptography in
Secure, dependable and publicly verifiable distributed data storage in unattended wireless sensor ne
LIRT: a Lightweight Scheme for Indistinguishability, Reachability, and Timeliness in Wireless Sensor
How to Authenticate a Device? Formal Authentication Models for M2M Communications Defending against
LIFE: a Lightweight and Flexible Key Management Scheme for Securely and Pervasively File Editing in
uLeepp: An Ultra-Lightweight Energy-Efficient and Privacy-Protected Scheme for Pervasive and Mobile
物联网安全架构与技术路线研究
智能电网安全架构与分析
M2M 技术及其安全性讨论
F2AC: A Lightweight, Fine-Grained and Flexible Access Control Scheme for File Storage in Mobile Clou
LibTiP: A Lightweight and Robust Scheme for Data Trustworthiness and Privacy Protection in Participa
可证明UC 安全的前后向不可追踪的RFID 双向认证协议
基于通用可组合理论的协议安全性证明方法讨论
Toward an RSU-unavailable Lightweight Certificateless Key Agreement Scheme for VANETs
RISE: A RelIable and SEcure Scheme for Wireless Machine to Machine Communications
Perturbation-Based Schemes with Ultra-Lightweight Computation to Protect User Privacy in Smart Grid
A Lightweight Possession Proof Scheme for Outsourced Files in Mobile Cloud Computing based on Chamel
Provably Secure Information Hiding via Short Text in Social Networking Tools
Lightweight Privacy-Aware Yet Accountable Secure Scheme for SM-SGCC Communications in Smart Grid
CoP: An Ultra-Lightweight Secure Network Coding Scheme via Last Forwarder's Proof
Lightweight and Compromise Resilient Storage Outsourcing with Distributed Secure Accessibility in Mobile Cloud Computing