Dear Colleagues,

In 2021, the number of active IoT devices amounted to 12.2 trillion. It is predicted that by 2025 there will be 27 trillion active IoT devices. Smart devices connected to the Internet make our lives more comfortable and enjoyable. As consumers, we like and need to exchange information with others in real-time. Smartphones, smart watches, smart home appliances, smart cars and intelligent cities blend more and more into our everyday life. Companies, enterprises or device manufacturers control industrial processes or supply chains using an increasing number of devices connected to the Internet called industrial control systems. Systems or services based on the IoT ecosystem are becoming critical for organisations and consumers from the point of view of their business continuity. They should be included in risk management systems. The IoT ecosystem comprises elements that make up IoT solutions and allow you to manage IoT devices. The most important aspects of the IoT ecosystem are IoT hardware solutions consisting of sensors, microcontrollers, microprocessors, power systems, memory and communication interfaces; IoT device software along with authorisation and data protection services; wired and wireless communication networks; platforms collecting data integrated with cloud services; data processing algorithms, including artificial intelligence and machine learning algorithms, as well as personal teams dealing with data processing, scientists, IT specialists and cybersecurity specialists. Each of these elements of the IoT ecosystem can be an area vulnerable to cybercriminal attacks. Unauthorised access to a specific layer of the IoT ecosystem may cause visible or invisible effects on the services provided. In particular, it may threaten business continuity or drive the incorrect implementation of processes. This Special Issue is dedicated to presenting threats, vulnerabilities to cybercriminals' attacks and proactive and reactive solutions to protecting individual elements of the ecosystem of intelligent devices connected to the Internet.

Prof. Dr. Krzysztof Szczypiorski
Dr. Daniel Paczesny
Guest Editors

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• IoT cybersecurity prevention and response strategies
• emergent cybersecurity risks arising from IoT-enabled 5G and 6G
• situation awareness of IoT environment
• risk identification, assessment, and mitigation in IoT systems
• security architecture and frameworks for IoT
• IoT devices and protocols security
• attack detection and prevention in IoT
• privacy-preserving techniques in IoT
• secure integration of IoT and cloud/edge computing
• machine learning techniques for IoT security
• secure data management approaches
• security in cyber-physical systems
• blockchain technologies for reliable and trustworthy IoT
• threat and vulnerability analysis of IoT