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引用次数: 57
摘要
车辆自组织网络(Vehicular Ad hoc Network, VANET)是一种由道路上的车辆组成的网络,其应用的成功与否高度依赖于其底层的安全机制。默认的试用非对称PKI/ECDSA安全机制以其高计算成本而闻名,因此在生命攸关的安全消息传递中缺乏适用性。其他安全方案,如对称方法,以降低安全性为代价提供更快的通信。因此,研究人员提出了基于混合和硬件的解决方案来缓解这个问题。然而,这些解决方案要么不支持现有的VANET PKI标准,要么具有更大的消息大小。在本文中,我们提出了一个基于硬件的安全框架,它使用标准的非对称PKI和对称加密来实现更快和更安全的安全消息交换。该框架有望通过在相邻节点之间建立信任关系,从而形成可信组,从而改善VANET中的安全机制。通过可信平台模块(Trusted Platform Module, TPM)和组通信建立信任。
VANET Security Framework for Trusted Grouping Using TPM Hardware
Vehicular Ad hoc Network (VANET) is a network of vehicles on the roads, of which the success of its applications is highly dependent upon the underlying security mechanism. The default trial asymmetric PKI/ECDSA security mechanism is known for its high computational cost, thus lacking applicability in life-critical safety messaging. Alternative security schemes, such as symmetric methods provide faster communication at the expense of reduced security. Hence, hybrid and hardware based solutions were proposed by researchers to ease the issue. However, these solutions either do not support the existing VANET PKI standard or have larger message size. In this paper, we present a hardware based security framework that uses both standard asymmetric PKI and symmetric cryptography for faster and secure safety message exchange. The proposed framework is expected to improve security mechanism in VANET by developing trust relationship among the neighboring nodes, hence forming trusted groups. The trust is established via Trusted Platform Module (TPM) and group communication.
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