Chaos and Logistic Map based Key Generation Technique for AES-driven IoT Security

TL;DR

This paper proposes a novel key generation method for AES in IoT security using chaos theory and logistic maps to enhance data confidentiality and dynamic key propagation, addressing latency issues.

Contribution

It introduces a chaos-based key generation technique combining logistic maps with AES to improve security and real-time data exchange in IoT environments.

Findings

Enhanced security through unpredictable chaos-based keys

Reduced latency in encryption and decryption processes

Improved data confidentiality in IoT communications

Abstract

Several efforts have been seen claiming the lightweight block ciphers as a necessarily suitable substitute in securing the Internet of Things. Currently, it has been able to envisage as a pervasive frame of reference almost all across the privacy preserving of smart and sensor-oriented appliances. Different approaches are likely to be inefficient, bringing desired degree of security considering the easiness and surely the process of simplicity but security. Strengthening the well-known symmetric key and block dependent algorithm using either chaos motivated logistic map or elliptic curve has shown a far-reaching potential to be a discretion in secure real-time communication. The popular feature of logistic maps, such as the un-foreseeability and randomness often expected to be used in dynamic key-propagation in sync with chaos and scheduling technique towards data integrity. As a bit alternation in keys, able to come up with oversize deviation, also would have consequence to leverage data confidentiality. Henceforth it may have proximity to time consumption, which may lead to a challenge to make sure instant data exchange between participating node entities. In consideration of delay latency required to both secure encryption and decryption, the proposed approach suggests a modification on the key-origination matrix along with S-box. It has plausibly been taken us to this point that the time required proportionate to the plain-text sent while the plain-text disproportionate to the probability happening a letter on the message made. In line with that the effort so far sought how apparent chaos escalates the desired key-initiation before message transmission.