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Anyembe Andrew Omala
Researcher at University of Electronic Science and Technology of China
Publications - 10
Citations - 244
Anyembe Andrew Omala is an academic researcher from University of Electronic Science and Technology of China. The author has contributed to research in topics: Random oracle & Signcryption. The author has an hindex of 7, co-authored 10 publications receiving 167 citations. Previous affiliations of Anyembe Andrew Omala include South Eastern Kenya University.
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Efficient certificateless access control for industrial Internet of Things
TL;DR: This paper first gives a certificateless signcryption scheme and then design an access control scheme for the IWSNs in the context of the industrial IoT using the certificatelessSigncryption, which achieves public verifiability, ciphertext authenticity and insider security.
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An Efficient Remote Authentication Scheme for Wireless Body Area Network
TL;DR: This work proposes an efficient remote authentication scheme for WBAN that can not only provide a malicious insider security, but also reduce running time of WBAN (client) by 51 % as compared to Wang and Zhang scheme.
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Provably Secure Heterogeneous Access Control Scheme for Wireless Body Area Network.
TL;DR: A heterogeneous signcryption scheme where a sender is in a certificateless cryptographic (CLC) environment while a receiver is in identity-based cryptographic (IBC) environment is proposed and used to design a heterogeneous access control protocol.
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An Efficient Hybrid Signcryption Scheme With Conditional Privacy-Preservation for Heterogeneous Vehicular Communication in VANETs
TL;DR: An efficient conditional privacy-preserving hybrid signcryption (CPP-HSC) scheme that uses bilinear pairing to satisfy the security requirements of heterogeneous vehicular communication in a single logical step is proposed.
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A Provably-Secure Transmission Scheme for Wireless Body Area Networks
TL;DR: A lightweight certificateless signcryption scheme for secure transmission of data between WBAN and servers that provides confidentiality of data and authentication in a single logical step, and is lightweight and resistant to key escrow attacks.