Tue, Apr 16, 24, mqtt modbus and serialized communication; An IoT network is a system of interconnected devices, sensors, and actuators that communicate with each other to collect, exchange, and act on data, enabling smart functionalities.
Edit me
This is a draft, the content is not complete and of poor quality!
tech stacks
IoT networks serve as the backbone of the Internet of Things (IoT) infrastructure
| Protocol | Description |
|---|---|
| CoAP (Constrained Application Protocol) | Lightweight protocol designed for IoT devices. |
| HTTP (Hypertext Transfer Protocol) | Standard protocol for communication on the web. |
| AMQP (Advanced Message Queuing Protocol) | Messaging protocol for IoT and enterprise systems. |
| DDS (Data Distribution Service) | Middleware protocol for real-time data sharing. |
| Zigbee | Low-power, low-data-rate wireless protocol for IoT. |
| LoRaWAN (Long Range Wide Area Network) | LPWAN protocol for long-range IoT applications. |
| Sigfox | Low-power wide-area network (LPWAN) protocol. |
| NB-IoT (Narrowband Internet of Things) | Cellular communication protocol for IoT devices. |
5G in IoT Networking
5G, the fifth generation of cellular network technology, also plays a significant role in IoT networking. While not a communication protocol in itself, 5G offers several features and capabilities that enhance IoT connectivity and enable new use cases. These include:
- Higher data rates: 5G networks provide significantly faster data rates compared to previous generations, enabling high-bandwidth IoT applications such as real-time video streaming, high-definition surveillance, and augmented reality.
- Lower latency: 5G networks offer ultra-low latency, reducing the delay between sending and receiving data packets. This is crucial for latency-sensitive IoT applications such as industrial automation, autonomous vehicles, and remote surgery.
- Massive IoT support: 5G networks are designed to support a massive number of connected devices simultaneously, making them ideal for IoT deployments with a large number of sensors and devices deployed over a wide area.
- Enhanced reliability: 5G networks provide improved reliability and network availability, ensuring consistent connectivity for mission-critical IoT applications in industries such as healthcare, transportation, and manufacturing.
- Network slicing: 5G introduces the concept of network slicing, allowing network resources to be partitioned into multiple virtual networks tailored to specific IoT applications. This enables customized network performance, security, and quality of service for different IoT use cases.
Overall, 5G technology complements existing IoT communication protocols by offering higher performance, lower latency, and greater scalability, thereby unlocking new opportunities for innovation and deployment in the IoT ecosystem.
The following wiki, pages and posts are tagged with
| Title | Type | Excerpt |
|---|---|---|
| Quasar framework for smartFarm | post | Tue, Apr 16, 24, iot dashboard that displays node status and control page for node configuration |
| smartfarm "Visual Programming for IoT and API Integration" | page | Node-RED is an open-source flow-based development tool for visual programming, ideal for IoT applications and integrating APIs. It offers a web-based GUI for... |
| Quasar framework for smartFarm | page | Tue, Apr 16, 24, iot dashboard that displays node status and control page for node configuration |