MUMBAI, India, June 30 -- Intellectual Property India has published a patent application (202641075988 A) filed by Paulson Geo Philip on June 19, 2026, for Intelligent Green Energy Optimization Framework For Sustainable Building Construction And Lifecycle Management..
Inventor includes Paulson Geo Philip.
The application for the patent was published on June 26, 2026, under issue no. 26/2026.
Abstract: The present invention relates to an Intelligent Green Energy Optimization Framework for Sustainable Building Construction and Lifecycle Management, designed to enhance energy efficiency, sustainability performance, and renewable energy utilization throughout the entire lifecycle of building projects. The framework integrates renewable energy sources, intelligent sensing technologies, Internet of Things (IoT) devices, building energy management systems, and artificial intelligence (AI)-based optimization techniques to continuously monitor, analyze, and optimize energy consumption during construction, operation, maintenance, and end-of-life phases of buildings. The proposed system enables dynamic energy allocation, real-time resource monitoring, and adaptive control strategies that support environmentally responsible construction practices while reducing operational costs and carbon emissions. The invention employs advanced machine learning and predictive analytics algorithms to forecast energy demand, evaluate renewable energy generation potential, identify inefficiencies, and recommend optimal energy utilization strategies. A digital intelligence layer processes data collected from smart sensors, photovoltaic systems, energy storage units, HVAC systems, lighting infrastructure, and occupancy monitoring devices to facilitate automated decision-making. The framework further incorporates sustainability assessment modules capable of evaluating environmental performance indicators, carbon footprint metrics, energy efficiency indices, and green building compliance requirements. Through continuous optimization and intelligent control, the system enhances building resilience, operational reliability, and long-term sustainability performance. The proposed framework provides a comprehensive and scalable solution for modern green construction and smart building ecosystems by integrating renewable energy management, intelligent analytics, and lifecycle sustainability evaluation within a unified architecture. The invention supports stakeholders including architects, engineers, contractors, facility managers, and policymakers in achieving sustainable development goals, reducing dependence on conventional energy sources, and promoting net-zero energy building initiatives. Consequently, the framework offers significant technological advancements in sustainable construction management, energy optimization, and environmentally conscious infrastructure development.
Disclaimer: Curated by HT Syndication.