The combination of artificial intelligence (AIoT) with quantum computing has the potential to transform smart technologies by enabling previously unheard-of levels of efficiency and processing power. Real-time analytics, automation, and decision-making are all improved by the AIoT, an intelligent, data-driven ecosystem. However, the enormous volumes of data and growing complexity of AIoT systems create computational difficulties that are difficult for traditional computing to effectively handle. The combination of artificial intelligence (AIoT) with quantum computing has the potential to transform smart technologies by enabling previously unheard-of levels of efficiency and processing power. Real-time analytics, automation, and decision-making are all improved by the AIoT, an intelligent, data-driven ecosystem. However, the enormous volumes of data and growing complexity of AIoT systems create computational difficulties that are difficult for traditional computing to effectively handle. This integration overcomes the limitations of classical computing in managing intricate, large-scale datasets by enabling quicker data processing, better machine learning models, and real-time decision-making at scale. This chapter examines how quantum computing and AIoT may work together, emphasising how it has the potential to completely transform smart technologies. We talk on significant developments, real-world applications, quantum algorithms for AI and IoT, and the difficulties in implementing quantum-powered AIoT systems. AIoT can reach previously unheard-of efficiency, scalability, and security by utilising the special qualities of quantum computing, such as superposition and entanglement, opening the door for the next generation of intelligent and networked systems. By enabling smarter, more adaptable, and energy-efficient solutions, quantum-powered AIoT promises to revolutionize a variety of industries, from healthcare and smart cities to driverless cars and industrial automation. This study examines the fundamental ideas, possible uses, and difficulties of combining quantum computing with AIoT, emphasising how revolutionary it will be for smart technology in the future.

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Quantum-Powered AIoT: Revolutionizing Smart Technologies with Quantum Computing

  • Pradnya Samit Mehta,
  • Manaswi Brijesh Shekokar,
  • Arnav Ashish Gilankar

摘要

The combination of artificial intelligence (AIoT) with quantum computing has the potential to transform smart technologies by enabling previously unheard-of levels of efficiency and processing power. Real-time analytics, automation, and decision-making are all improved by the AIoT, an intelligent, data-driven ecosystem. However, the enormous volumes of data and growing complexity of AIoT systems create computational difficulties that are difficult for traditional computing to effectively handle. The combination of artificial intelligence (AIoT) with quantum computing has the potential to transform smart technologies by enabling previously unheard-of levels of efficiency and processing power. Real-time analytics, automation, and decision-making are all improved by the AIoT, an intelligent, data-driven ecosystem. However, the enormous volumes of data and growing complexity of AIoT systems create computational difficulties that are difficult for traditional computing to effectively handle. This integration overcomes the limitations of classical computing in managing intricate, large-scale datasets by enabling quicker data processing, better machine learning models, and real-time decision-making at scale. This chapter examines how quantum computing and AIoT may work together, emphasising how it has the potential to completely transform smart technologies. We talk on significant developments, real-world applications, quantum algorithms for AI and IoT, and the difficulties in implementing quantum-powered AIoT systems. AIoT can reach previously unheard-of efficiency, scalability, and security by utilising the special qualities of quantum computing, such as superposition and entanglement, opening the door for the next generation of intelligent and networked systems. By enabling smarter, more adaptable, and energy-efficient solutions, quantum-powered AIoT promises to revolutionize a variety of industries, from healthcare and smart cities to driverless cars and industrial automation. This study examines the fundamental ideas, possible uses, and difficulties of combining quantum computing with AIoT, emphasising how revolutionary it will be for smart technology in the future.