Cyber-Physical Systems §

Group: 4 #group-4

Relations §

• Digital Twins: Digital twins are virtual representations of physical systems, which are a key concept in Cyber-Physical Systems.
• Internet of Things (IoT): Cyber-Physical Systems enable the integration of physical and computational processes, which is a key aspect of IoT systems.
• Autonomous Systems: Autonomous systems are often part of larger cyber-physical systems, integrating computational and physical components.
• Real-Time Systems: Many Cyber-Physical Systems require real-time processing and control, which is a key aspect of real-time systems.
• Cyber-Physical System Integration: Integration of physical and computational components is a key challenge in Cyber-Physical Systems, requiring careful coordination and synchronization.
• Robotics: Robotics is a key application area of Cyber-Physical Systems, where physical robots are controlled by computational systems.
• Smart Manufacturing: Cyber-Physical Systems are used in smart manufacturing to integrate physical manufacturing processes with computational systems for optimization and control.
• Smart Manufacturing: Cyber-physical systems integrate computational and physical processes, enabling real-time monitoring and control in smart manufacturing.
• Smart Grid: The smart grid is an example of a Cyber-Physical System, where the power grid is integrated with computational systems for monitoring and control.
• Cyber-Physical System Design: The design of Cyber-Physical Systems involves integrating physical and computational components in a systematic and efficient manner.
• Intelligent Transportation Systems: Intelligent Transportation Systems are a prominent application area of Cyber-Physical Systems, integrating transportation infrastructure with computational systems.
• Embedded Systems: Embedded systems are a crucial component of Cyber-Physical Systems, providing the computational and control capabilities.
• Distributed Control Systems: Cyber-Physical Systems often involve distributed control systems, where multiple computational and physical components interact.
• Cyber-Physical System Verification: Verification is crucial in Cyber-Physical Systems to ensure the correct and safe operation of the integrated system.
• Digital Twins: Digital twins are a key component of cyber-physical systems, integrating computational and physical elements.
• Smart Environments: Cyber-Physical Systems are used to create smart environments, such as smart homes, smart cities, and smart factories.
• Automation: Cyber-Physical Systems enable automation of various processes by integrating computational and physical components.
• Digital Twins: Digital twins are a key component of cyber-physical systems, integrating physical and virtual systems.
• Cyber-Physical System Modeling: Modeling is an important aspect of Cyber-Physical Systems, as it helps in understanding and analyzing the behavior of the integrated system.
• Sensor Networks: Sensor networks are used to collect data from the physical environment in Cyber-Physical Systems.
• Networked Control Systems: Cyber-Physical Systems often involve networked control systems, where physical components are controlled over a network.
• Edge Computing: Edge computing is often used in Cyber-Physical Systems to process data closer to the physical components, reducing latency.
• Digital Thread: The digital thread is a key enabler for cyber-physical systems, integrating physical and virtual components.
• Cyber-Security: Cyber-security is a critical concern in Cyber-Physical Systems, as they involve the integration of physical and computational components.