Today, smart homes are used as one of the most promising communications protocols technologies. The combination of these protocols for communicating with the Internet of Things can carry a remote control. There are a variety of challenges in smart homes one of them is temperature estimation to check green energy consumption. This study tries to use the Internet of Things to estimate the temperature of smart homes, which combines and integrates Z-WAVE into smart homes and 6LoWPAN communication protocols on the Internet of Things. A processor environment has been created as the central base using a blockchain for optimally adapting the ambient temperature of the environment based on a robust controller, which is used in the PID-HTC controller structure of the blockchain to control the temperature accurately. Obtained results show an improvement over the previous method.
Yuan, J., & Hung Pho, K. (2023). Temperature Estimation of Smart Homes with Sensors in Internet of Things Environment based on Block Chain. Advances in Engineering and Intelligence Systems, 002(01), -. doi: 10.22034/aeis.2023.369496.1053
MLA
Jie Yuan; Kim Hung Pho. "Temperature Estimation of Smart Homes with Sensors in Internet of Things Environment based on Block Chain". Advances in Engineering and Intelligence Systems, 002, 01, 2023, -. doi: 10.22034/aeis.2023.369496.1053
HARVARD
Yuan, J., Hung Pho, K. (2023). 'Temperature Estimation of Smart Homes with Sensors in Internet of Things Environment based on Block Chain', Advances in Engineering and Intelligence Systems, 002(01), pp. -. doi: 10.22034/aeis.2023.369496.1053
VANCOUVER
Yuan, J., Hung Pho, K. Temperature Estimation of Smart Homes with Sensors in Internet of Things Environment based on Block Chain. Advances in Engineering and Intelligence Systems, 2023; 002(01): -. doi: 10.22034/aeis.2023.369496.1053