DESIGNING HYBRID ELECTRONIC-WIRELESS COMMUNICATION SYSTEMS FOR INTELLIGENT BUILDING AUTOMATION

Abstract

The integration of hybrid electronic-wireless communication systems in intelligent building automation (IBA) holds significant potential for improving the performance, energy efficiency, and security of modern smart buildings. This study addresses the key challenges of interoperability, energy consumption, and security in the deployment of hybrid communication networks within IBA systems. A novel hybrid communication model combining both wired electronic and wireless technologies was designed, optimizing the strengths of each system while mitigating their limitations. Our results show that the hybrid model enhances the overall stability and efficiency of building automation systems by ensuring seamless data transmission between devices while minimizing network congestion.Systems using the hybrid approach reduce their energy consumption by 20% when installed in dense infrastructure areas compared to traditional wireless systems.  The system utilized sophisticated machine learning methods to automatically adjust traffic flow while also predicting network congestion in order to prevent data bottlenecks which secured system dependability and responsiveness levels.  Security performance of the hybrid system increased through advanced encryption and authentication methods which reduced the risk of communication network attacks by 35%.  Next-generation smart buildings should embrace the proposed hybrid electronic-wireless communication system because it provides an overall robust effective and secure framework.  The research in this paper provides essential information about hybrid communications for advanced building automation and contributes to existing scholarly knowledge on this topic.