Category Archives: Five layer architecture
IIoT System Structure
The structure of an Industrial Internet of Things (IIoT) system typically consists of several key components that work together to enable the integration and connectivity of devices, sensors, and systems in an industrial environment. Devices and Sensors: IIoT systems involve
Application Classification of IoT System
IoT systems can be classified into several application categories based on their specific use cases. Here are some common classifications: Consumer Applications: These applications target individual consumers and focus on enhancing daily life experiences. Examples include smart homes, wearable devices,
Design Requirements of Human-Centric Internet of Things (IoT)
Designing a human-centric Internet of Things (IoT) involves considering the needs, preferences, and well-being of individuals who interact with IoT devices and systems. The design requirements for a human-centric IoT can be summarized as follows: User-Centric Approach: The IoT systems
Architecture for smart city deployment framework
A robust architecture is critical for the successful deployment of a smart city framework. The architecture should provide a scalable, flexible, and secure foundation to support the diverse range of technologies and services in a smart city ecosystem. At its
Integration and Exploitation of Sensor Data in Smart Cities through Event-Driven Applications
Integration and exploitation of sensor data in smart cities through event-driven applications play a crucial role in enabling efficient and sustainable urban environments. In this context, we acknowledge the significance of integrating diverse sensor data sources and leveraging event-driven applications
Exploiting Mobile Edge Computing for Enhancing Vehicular Applications in Smart Cities
Mobile Edge Computing (MEC) offers significant benefits for enhancing vehicular applications in smart cities. By bringing computing resources closer to the edge of the network, MEC enables real-time data processing and low-latency communication, which is crucial for efficient and reliable
Mobile Computing Challenges for Smart Cities
Mobile computing plays a crucial role in enabling smart city services and applications. However, it also presents certain challenges that need to be addressed for seamless implementation. Here are some key challenges of mobile computing in smart cities: Network Connectivity:
Mobile Computing for Smart Cities
Mobile computing plays a pivotal role in the development and advancement of smart cities, enabling connectivity, data collection, and real-time information dissemination. Here are some key aspects of mobile computing in smart cities: Connectivity: Mobile devices, such as smartphones and
