NEXT-GENERATION SMART WIRING TECHNIQUES FOR REAL-TIME DATA TRANSMISSION AND POWER MANAGEMENT IN INTEGRATED BUILDING SYSTEMS

Abstract

This study investigates the development and performance evaluation of next-generation smart wiring techniques designed to optimize real-time data transmission and power management in integrated building systems (IBS). The proposed system integrates adaptive power management protocols with dynamic data routing, aimed at addressing the limitations of traditional wiring solutions in terms of bandwidth, energy efficiency, and scalability. Comparative analysis with existing technologies such as conventional wiring, Power over Ethernet (PoE), and hybrid systems reveals that the proposed smart wiring system significantly outperforms these alternatives. The results demonstrate a substantial increase in data transmission speeds, with the proposed system achieving 500 Mbps, compared to 250 Mbps for conventional systems. Additionally, power consumption is reduced by up to 30%, with the proposed system consuming only 85 watts, compared to 120 watts for traditional systems. The scalability analysis validates that the proposed solution delivers stable performance in extensive smart building operations while linking more devices thus maintaining peak functional standards.  Reliability and fault tolerance testing helps enhance the proposed system by producing quick recoveries along with minimal data loss.  The user satisfaction survey reports high approval because the suggested system received 4.9 out of 5 in ratings for performance, ease of use, and satisfaction which surpassed ratings of conventional systems.  These results demonstrate the effectiveness of advanced smart wiring solutions for modern smart buildings because they support better energy management and integration and operational efficiency.