摘要
智能移动设备遗失时,隐私泄露是一个大问题。现在的生物特征识别技术必须借助相应的辅助设备,如指纹识别、人脸识别等,认证操作复杂且成本较高。针对以上问题,该文提出一种基于步态识别的移动设备身份认证模型。在训练阶段,通过移动设备自带的加速度传感器对用户在日常生活中不同行为下的步态数据进行收集,提取特征形成特征向量并建立步态模型;在识别阶段,利用基于神经网络的模型匹配算法进行身份识别。系统实现采用C/S架构,所有传输数据采用国密SMS4对称加密算法进行加密,保证了数据传输的安全性。实验表明,神经网络算法的平均识别率为78.13%,综合反馈机制之后,可以达到98.96%的认证准确率。
Privacy disclosure is a big problem when smart mobile devices lost. Now, the biometric technologies must rely on the corresponding auxiliary equipment, such as fingerprint recognition, face recognition,resulting in the authentication is complex and costly. To solve these problems, a gait biometrics-based mobile device authentication solution is proposed in this paper. In the training phase, the gait data of different behaviors of users in daily life are collected by the accelerometer in the mobile device. Then, the feature is extracted to construct feature vector and establish the gait model of users. The model matching algorithm based on the neural network is used to achieve the purpose of identification during the identification phase. The C/S architecture is applied to the implementation of the system. In order to ensure the security of network data transmission, all the transmission data is encrypted by SMS4 symmetric encryption algorithm. Lots of experiments show that the average recognition rate of neural network algorithm is 78.13 percent, and integrating the feedback mechanism, the authentication accuracy can up to 98.96 percent.
作者
蒋伟
王瑞锦
余苏喆
秦圣智
李蝉娟
李冬芬
JIANG Wei;WANG Rui-jin;YU Su-zhe;QIN Sheng-zhi;LI Chan-juan;LI Dong-fen(School of Information and Software Engineering,University of Electronic Science and Technology of China Chengdu 610054)
出处
《电子科技大学学报》
EI
CAS
CSCD
北大核心
2019年第2期272-277,共6页
Journal of University of Electronic Science and Technology of China
基金
国家自然科学基金(61472064,61602096)
四川省科技计划(2018GZ0087,2016FZ0002)
四川省教育厅重点项目(17ZA0322)
网络与数据安全四川省重点实验室开放课题(NDSMS201606)
关键词
步态识别
身份认证
智能移动设备
对称加密
gait recognition
identity authentication
smart mobile devices
symmetric encryption