Integrating holographic counterparts for intelligent IoT consumer devices

Document Type

Article

Publication Title

Discover Internet of Things

Abstract

A new paradigm for improving consumer electronics’ real-time data interaction, autonomous decision-making, and system scalability is introduced by integrating Holographic Counterparts (HCs) into Internet of Things (IoT) ecosystems. In order to overcome the shortcomings of conventional Internet of Things (IoT) systems, such as slow response times, lack of flexibility, and security flaws, this article introduces a new multi-layered HC-IoT design that integrates blockchain technology, artificial intelligence (AI), edge computing, and quantum-assisted processing. With the help of the suggested architecture, smart devices may function more independently, rely less on centralised servers, and save more accurate data. When compared to baseline IoT designs, the HC-IoT system improves cybersecurity resilience by 63%, operational efficiency by 52%, and data processing latency by 47%, according to simulated evaluations. Optimal control of edge resources also reduces network congestion by 38%. The results show that the framework can help with scalable, secure, and dynamic Internet of Things installations. Advancements in quantum algorithms for predictive learning, self-optimization through more integrated machine learning models, and the development of standardised interoperability protocols to facilitate wider industrial usage are all areas that will be investigated in future research.

DOI

10.1007/s43926-025-00170-0

Publication Date

12-1-2025

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