Paper Title
LIGHTWEIGHT CRYPTOGRAPHIC ALGORITHMS USED FOR SECURE DATA TRANSMISSION IN IOT HEALTHCARE DEVICES: A COMPARISON WITH CHAOTIC MAP-BASED APPROACHES

Abstract
The Internet of Things (IoT) healthcare devices generate vast amounts of sensitive medical data, requiring robust security measures to prevent unauthorized access. Lightweight cryptographic algorithms and chaotic map-based approaches have emerged as potential solutions. IoT healthcare devices require robust security measures to prevent unauthorized access to sensitive medical data. Lightweight cryptographic algorithms and chaotic map-based approaches have emerged as potential solutions. This paper presents a comprehensive review and comparison of lightweight cryptographic algorithms (LEA, KATAN, and Hummingbird) and chaotic map-based approaches (Logistic Map, Tent Map, and Chebyshev Map) for secure data transmission in IoT healthcare devices Keywords: IoT healthcare devices, lightweight cryptography, chaotic maps, secure data transmission.