IoT security Module

FPGA Implementation of Dynamically Reconfigurable IoT security Module Using Algorithm Hopping

1 min read · Thu, Apr 25 2019

IoT security Module Circuits Algorithm Hopping FPGA

Shady Soliman, et al., "FPGA Implementation of Dynamically Reconfigurable IoT security Module Using Algorithm Hopping." Integration 68, 2019, 108. Internet of Things (IoT) is a promising technology that is continuously spreading around the world leading to many challenges facing cryptographic designers who are trying to fulfill the security standards of IoT constrained devices. In this work, a new design is proposed that adds a new dimension of security by using the concept of frequency hopping to generate a pseudo-random pattern for switching between 5 lightweight cryptographic ciphers: AEGIS

Abdullah Aldalaan

M.S. Student, Computer Science

IoT security Module

Abdullah Aldalaan is a Computer Science graduate student who joined KAUST as an M.S. student from Purdue University under the supervision of Professor Marc Dacier at the Resilience and Cybersecurity Computing Center (RC3). Prior to his graduate school, Abdullah was a KGSP student at Purdue University; He got exposed to the Cybersecurity world by taking classes that interested him to start looking at the field. Abdullah is working with the IoT protocols and look for ways to solve its' vulnerabilities. Education Profile Bachelor's degree in Computer Science, Purdue University, United States