Performance Evaluation of Lightweight Stream Ciphers for Real-Time Video Feed Encryption on ARM Processor
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https://hdl.handle.net/10037/34282Date
2024-07-25Type
Journal articleTidsskriftartikkel
Peer reviewed
Abstract
In resource-intensive Internet of Things applications, Lightweight Stream Ciphers (LWSCs) play a vital role in influencing both the security and performance of the system. Numerous LWSCs have been proposed, each offering certain properties and trade-offs that carefully balance security and performance requirements. This paper presents a comprehensive evaluation of prominent LWSCs, with a focus on their performance and resource consumption, providing insights into efficiency, efficacy, and suitability in the real-world application of resource-intensive live video feed encryption on an ARM processor. The study involves the development of a benchmarking tool designed to evaluate key metrics, including encryption frame rate, throughput, processing cycles, memory footprint, ROM utilization, and energy consumption. In addition, we apply the E−Rank metric, which combines key performance and resource metrics to derive a unified comparative measure for overall software performance.
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MDPICitation
Khan, Dagenborg, Johansen. Performance Evaluation of Lightweight Stream Ciphers for Real-Time Video Feed Encryption on ARM Processor. Future Internet. 2024;16(8)Metadata
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