Articles

type: Journal
Title DOI Date Conference / journal
An IoT-Aware Certificateless Signature Scheme for Protection Against Type-I and Type-II Super Adversaries IoT
Protecting HWSNs from Super Adversaries with Robust Certificateless Signcryption Telecom
Cryptanalysis and Improvement of the SMEP-IoV Protocol: A Secure and Lightweight Protocol for Message Exchange in IoV Paradigm IoT
IoT-friendly certificateless signcryption schemes: Introducing a provably secure scheme in ROM 10.1016/j.jisa.2025.103979 Journal of Information Security and Applications
On Secure and Energy-Efficient Message Communication Protocols for Internet of Vehicles: Cryptanalysis and Improvements 10.1109/ACCESS.2024.3488570 IEEE Access
ارتقاي امنيت و حريم خصوصي در خدمات اشتراك گذاري سفر با رويكردي مبتني بر قرارداد هوشمند و اجماع مبتني بر شهرت #
بررسي طرحهاي احراز هويت در سامانه هاي اطلاعات پزشكي مراقبت از راه دور #
ECKCI: An ECC-Based Authenticated Key Agreement (AKA) Scheme Resistant to Key Compromise Impersonation Attack for TMIS ISeCure-ISC International Journal of Information Security
مروري بر روش هاي تحليل و اثبات امنيت پروتكل هاي امنيتي #
Feasibility Analysis for Sybil Attacks in Shard-Based Permissionless Blockchains 10.1145/3618302
A new code-based digital signature based on the McEliece cryptosystem 10.1049/cmu2.12607
Post Quantum Digital Signature Based on the McEliece Cryptosystems with Dual Inverse Matrix #
Security Analysis and Improvement of an Access Control Scheme for Wireless Body Area Networks 10.22042/isecure.2023.180857
ECCPWS: An ECC-based protocol for WBAN systems 10.1016/j.comnet.2023.109598
Efficient chameleon hash functions in the enhanced collision resistant model 10.1016/j.ins.2019.09.001
Short tightly secure signatures for signing a vector of group elements: A new approach 10.1016/j.tcs.2019.07.001
Multi-designated verifiers signature schemes with threshold verifiability: generic pattern and a concrete scheme in the standard model 10.1049/iet-ifs.2018.5063
type: Conference
Title Date
A McEliece-type Cryptosystem using a Random Inverse Matrix and an Error Vector with Large Hamming Weight
Post Quantum Code-Based Cryptosystems with Dual Inverse Matrix
Structure-preserving signatures on equivalence classes from standard assumptions