The efforts in designing and developing lightweight cryptography (LWC) started a decade ago. Many scholarly studies literature report the enhancement of conventional cryptographic algorithms development new algorithms. This significant number resulted rise many review on LWC IoT. Due to vast IoT, it is not known what cover how extensive are. Therefore, this article aimed bridge gap by conductin...

For a recent student conference, the authors developed a day-long design problem and competition suitable for engineering, mathematics, and science undergraduates. The competition included a cryptography problem, for which a workshop was run during the conference. This paper describes the competition, focusing on the cryptography problem and the workshop. Notes from the workshop and code for th...

With the fast development of wearable IoT devices, their applications are becoming more and pervasive, ranging from social networking, payment, navigation to health activity monitoring. The security communication between these devices is essential protect transmitted sensitive information tampering eavesdropping. integration accelerometers into gait-based biometric cryptography technology has e...

The development of military (state) control systems in modern conditions hybrid warfare requires the possibility rapid expansion both functionality and scaling physical logical basis management, increasing range digitization use civilian communication channels to manage troops weapons. Not only computing power enemy, means suppressing / or blocking system, but also quantum technologies that pla...

NIST’s Lightweight Cryptography Project ties selected crypto­ graphic algorithms to a profile, which captures the physical, performance and security characteristics of the target devices that run these algorithms. This contribution investigates the role of energy in the profile. For many of the important application domains of Lightweight Cryptography, the opera­ tion is intermittent, rather th...

This paper gives an overview of the state-of-the-art technology and standardization status of lightweight cryptography, which can be implemented efficiently in constrained devices. This technology enables secure and efficient communication between networked smart objects.

The field of lightweight cryptography has developed significantly over recent years and many impressive implementation results have been published. However these results are often concerned with a core computation and when it comes to a real implementation there can be significant hidden overheads. In this paper we consider the case of cryptoGPS and we outline a full implementation that has bee...

Rijndael’s Advanced Encryption Standard (AES) is the block cipher based symmetric-key cryptography to protect the sensitive information. The key sizes of AES are 128, 192, 256 bits. AES is based on substitution-permutation strategy. It is accepted by NIST in 2001 after the five year of security evaluation. It is highly secured and efficient than Data Encryption Standard (DES) and other symmetri...

CRYSTALS-Dilithium and Falcon are digital signature algorithms based on cryptographic lattices, that considered secure even if large-scale quantum computers will be able to break conventional public-key cryptography. Both schemes have been selected for standardization in the NIST post-quantum competition. In this work, we present a RISC-V HW/SW codesign aims combine advantages of software- hard...

1. Panasenko, S., & Smagin, S., “Lightweight Cryptography: Underlying Principles and Approaches”, International Journal of Computer Theory and Engineering, Vol 3 No.4, (2011). 2. S. Salim and I. Taha, "Lightweight block ciphers: comparative study," Journal of Advanced Computer Science and Technology Research (JACSTR), vol. 2, pp. 159-165, 2012. 3. J. Borghoff, et al., "PRINCE – A Low-Latency Bl...