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| Title | Enhancing Security In Iot Devices With A Comprehensive Analysis Of Lightweight Cryptographic Algorithms |
|---|---|
| ID_Doc | 23929 |
| Authors | Desai L.R.; Malathi P.; Patil D.M.; Sonone S.T.; Kalokhe S.G.; Jawalkar A. |
| Year | 2024 |
| Published | Advances in Nonlinear Variational Inequalities, 27, 4 |
| DOI | http://dx.doi.org/10.52783/anvi.v27.1555 |
| Abstract | A lot of gadgets connected to the Internet of Things (IoT) have changed many fields, from healthcare and smart houses to smart cities and commercial robotics. But this fast growth has also brought about big security problems, mostly because IoT devices don't have a lot of resources, which makes it hard to use standard cryptographic methods. The reason of this ponder is to grant a intensive examination of lightweight cryptographic strategies that can make IoT gadgets more secure without abating them down. Since IoT gadgets have uncommon security needs, lightweight cryptography has ended up one of the foremost critical ways to secure them. These methods are made to supply solid assurance whereas utilizing as few computer assets, power, and memory as conceivable. We see at well-known illustrations from each gather, like Display and Driven (square ciphers), Trivium and Grain (stream ciphers), and PHOTON and SPONGENT (hash capacities), to see how well they work in IoT settings. To donate a full picture of the contrasts, we carefully see at a few speed measures, such as running time, vitality utilize, memory utilization, and security against cryptographic dangers. The appraisal is based on both a common see at the subject and real-world tests on common IoT frameworks. We moreover conversation almost the trade-offs that come with choosing the correct cryptographic strategies to meet security needs whereas moreover taking under consideration the limits of IoT gadgets. Our inquire about appears that lightweight cryptographic calculations have a part of benefits, but the correct calculation must be chosen based on the IoT deployment's one of a kind utilize case and threat demonstrate. For example, applications that require a part of speed might advantage from lightweight stream ciphers, while applications that require to form beyond any doubt the security of the data might select lightweight hash capacities. The think about moreover talks approximately unused thoughts and bearings for lightweight cryptography for IoT, such as utilizing post-quantum cryptographic primitives to create IoT security future-proof. We see into the plausibility of blended strategies that use more than one lightweight procedure to progress security without utilizing as well numerous assets. Within the conclusion, this in-depth ponder appears how vital lightweight cryptographic strategies are for progressing IoT security. This paper aims to help researchers and practitioners set up good security measures for IoT devices by giving a thorough look at how well they work and what kinds of uses they are best for. This will make the IoT environment safer and more reliable. © 2024, International Publications. All rights reserved. |
| Author Keywords | Internet of Things (IoT); IoT security; Lightweight block ciphers; Lightweight cryptography; Lightweight hash functions; Lightweight stream ciphers |
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