| Title | Advanced Lightweight Encryption Algorithm for Android (IoT) Devices |
| Publication Type | Conference Paper |
| Year of Publication | 2022 |
| Authors | Chandrashekhar, RV, Visumathi, J, Anandaraj, A. PeterSoosai |
| Conference Name | 2022 International Conference on Advances in Computing, Communication and Applied Informatics (ACCAI) |
| Keywords | android, android encryption, Attack, authentication, cryptography, Encryption, Hazards, Heuristic algorithms, Human Behavior, IoT, Lightweight, Metrics, performance evaluation, privacy, pubcrawl, Receivers, resilience, Resiliency, Scalability, Software, Software algorithms |
| Abstract | Security and Controls with Data privacy in Internet of Things (IoT) devices is not only a present and future technology that is projected to connect a multitude of devices, but it is also a critical survival factor for IoT to thrive. As the quantity of communications increases, massive amounts of data are expected to be generated, posing a threat to both physical device and data security. In the Internet of Things architecture, small and low-powered devices are widespread. Due to their complexity, traditional encryption methods and algorithms are computationally expensive, requiring numerous rounds to encrypt and decode, squandering the limited energy available on devices. A simpler cryptographic method, on the other hand, may compromise the intended confidentiality and integrity. This study examines two lightweight encryption algorithms for Android devices: AES and RSA. On the other hand, the traditional AES approach generates preset encryption keys that the sender and receiver share. As a result, the key may be obtained quickly. In this paper, we present an improved AES approach for generating dynamic keys. |
| DOI | 10.1109/ACCAI53970.2022.9752555 |
| Citation Key | chandrashekhar_advanced_2022 |
Advanced Lightweight Encryption Algorithm for Android (IoT) Devices