Kim Thuat Nguyen, Nouha Oualha, M. Laurent-Maknavicius
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引用次数: 20
摘要
在物联网背景下,我们提出了一种基于标准化签名KCDSA (Korean Certificate-based Digital signature Algorithm)的椭圆曲线签名加密方案。我们的解决方案有几个优点。首先,证明了该方案在随机oracle模型下的安全性。其次,它提供了以下安全属性:外部/内部的机密性和不可伪造性,不可否认性和公共可验证性,同时在通信和计算成本方面效率很高。第三,该方案提供了无证书特性,因此不需要证书来验证用户的公钥。为了说明这一点,我们基于传感器Wismote平台进行了实验评估,并将所提出的方案与并发方案的性能进行了比较。我们希望这些实验结果在更大程度上对通常倾向于使用实际性能数据的科学界有所帮助。
Lightweight Certificateless and Provably-Secure Signcryptosystem for the Internet of Things
In this paper, we propose an elliptic curve-based signcryption scheme derived from the standardized signature KCDSA (Korean Certificate-based Digital Signature Algorithm) in the context of the Internet of Things. Our solution has several advantages. First, the scheme is provably secure in the random oracle model. Second, it provides the following security properties: outsider/insider confidentiality and unforgeability, non-repudiation and public verifiability, while being efficient in terms of communication and computation costs. Third, the scheme offers the certificateless feature, so certificates are not needed to verify the user's public keys. For illustration, we conducted experimental evaluation based on a sensor Wismote platform and compared the performance of the proposed scheme to concurrent schemes. We wish these experimental results be helpful at a larger extent to the scientific community usually prone to work with realistic performance figures.
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