Smart home has become a trend of housing in the future. At present, most smart home control systems are closed systems developed by major developers. With specific interfaces and communication protocols, they cannot be well managed when they have problems like not receiving real-time data from sensors when there are too many devices.
The design is intended to implement smart home control and data acquisition in the house covered with Wi-Fi with FPGA Cloud Connectivity Kit platform based on DE10-Nano. Data monitoring and smart home remoting control functions are implemented with Microsoft Azure IoT and AI tools in cloud.

Project Proposal

1. High-level project introduction and performance expectation

Purpose of the Design

     Smart home has become a trend of housing in the future. At present, most smart home control systems are closed systems developed by major developers. With specific interfaces and communication protocols, they cannot be well managed when they have problems like not receiving real-time data from sensors when there are too many devices.

     The design is intended to implement smart home control and data acquisition in the house covered with Wi-Fi with FPGA Cloud Connectivity Kit platform based on DE10-Nano. Data monitoring and smart home remoting control functions are implemented with Microsoft Azure IoT and AI tools in cloud.

    When implementing the smart scene, it can adjust the electrical equipment using condition by judging the user's location and behavior in order to achieve resource saving.

Application Scope

       Houses covered with Wi-Fi

Target Users

       Users who want to experience smart home.

Why Using Intel FPGA Devices

       1、Greater parallelism. FPGA concurrency can be performed between different logic functions, not limited to performing the same function at the same time.

    2、Faster. FPGA has more stability and lower latency, which is suitable for streaming computing intensive tasks and communication intensive tasks.

   3、Reconfigurable. Compared with the traditional hardware circuit, the development cost of FPGA is greatly reduced due to the reconfigurable characteristics in the development process.

2. Block Diagram

3. Expected sustainability results, projected resource savings

       Through the high-speed parallel processing of FPGA, the indoor electrical appliances are controlled in real time, so as to save power resources to the greatest extent.

4. Design Introduction

5. Functional description and implementation

6. Performance metrics, performance to expectation

7. Sustainability results, resource savings achieved

8. Conclusion