Internet of Things (IoT) §

Group: 4 #group-4

Relations §

• Cyber-Physical Systems: Cyber-Physical Systems enable the integration of physical and computational processes, which is a key aspect of IoT systems.
• Metaverse: IoT devices can be integrated into the metaverse, enabling real-world data exchange and interactions.
• Big Data: The Internet of Things generates massive amounts of data that need to be processed and analyzed, which is a key application of Big Data.
• Digital Twins: Digital twins rely on data from IoT sensors to create and update the virtual model.
• Peer-to-Peer Networks: Peer-to-peer networks can be used in IoT applications, enabling devices to communicate and share resources directly.
• Sensors: Sensors are a key component of IoT systems, enabling data collection and monitoring.
• Smart Manufacturing: IoT enables connectivity and data exchange between machines, sensors, and systems in smart manufacturing.
• Virtual Prototyping: Virtual prototyping can be used to design and test IoT-enabled products and systems.
• Digital Thread: The digital thread leverages IoT data from connected products to enable data-driven decision-making.
• Digital Twins: IoT devices and sensors provide real-time data to update and synchronize the digital twin with the physical asset.
• Smart Cities: IoT technologies enable the integration and communication of various systems and devices in a smart city.
• Cyberspace: The Internet of Things connects physical devices and systems to cyberspace.
• Healthcare Applications: IoT devices and sensors are used in healthcare for remote monitoring, data collection, and automation.
• Internet: The Internet of Things (IoT) refers to the network of connected devices that can communicate and exchange data over the Internet.
• Predictive Maintenance: IoT technologies enable the collection and transmission of sensor data from equipment, which is essential for predictive maintenance.