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Article Type

Original Study

Abstract

The rapid advancements in ultrasound technology, coupled with the growing significance of IoT security, present a unique opportunity to enhance imaging systems while ensuring data integrity. This study explores the integration of physics-based principles in ultrasound imaging, focusing on how lightweight encryption algorithms can secure data transmitted from IoT devices.Ultrasound technology has evolved significantly, benefiting from improved imaging techniques and the incorporation of IoT devices. As these devices proliferate across various applications, including healthcare and industrial monitoring, the need for secure data transmission becomes paramount. This paper proposes a framework that combines advanced ultrasound imaging with robust lightweight encryption methods to protect sensitive information.

We investigate the use of physics-based approaches to optimize ultrasound imaging quality while implementing encryption algorithms that minimize computational overhead. This dual focus not only enhances the clarity of images but also ensures that data from IoT devices is transmitted securely. Through this research, we aim to establish a comprehensive understanding of how these advancements can lead to improved outcomes in both imaging and data security, ultimately contributing to more reliable and secure IoT applications in various fields.

Keywords

Ultrasound technology, Internet of things (IoT), Data security, Lightweight encryption, Imaging techniques, Physics-based approach

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