Intellectual Property India Publishes Patent Application for 'A Heuristic-Driven Renewable Energy Optimization System For Dynamic Allocation And Utilization Of Renewable Energy Resources' Filed by Dit University

MUMBAI, India, Jan. 9 -- Intellectual Property India has published a patent application (202511102949 A) filed by Dit University, Dehradun, Uttarakhand, on Oct. 25, 2025, for 'a heuristic-driven renewable energy optimization system for dynamic allocation and utilization of renewable energy resources.'

Inventor(s) include Mr. Parveen Kumar Sharma; Prof. Hemraj Verma; and Dr. Vipul Gupta.

The application for the patent was published on Dec. 12, under issue no. 50/2025.

According to the abstract released by the Intellectual Property India: "The present invention relates to a heuristic-driven renewable energy optimization system (100) and method (200) for dynamic allocation and utilization of renewable energy resources is disclosed. The system (100) comprises a data acquisition module (101) configured to collect real-time data from renewable plants, grid operators, environmental sources, and smart meters; an initialization unit (102) for setting equal initial weights and system parameters; a rule-based heuristic algorithm module (103) for determining energy contributions based on source availability, transmission capacity, and demand; and a dynamic weight assignment engine (104) that adjusts weights in real time using availability, utilization, and seasonal factors. A distribution engine (105) allocates energy proportionally to these weights, while a transmission loss minimization module (106) reduces line losses by prioritizing nearby sources. A load balancing and storage module (107) ensures grid stability through hydro and battery-based interventions, and a feedback control unit (108) recalibrates system parameters using continuous monitoring of environmental and demand conditions. The method (200) further includes seasonal prioritization of sources-solar in summer, wind/hydro in monsoon, and biomass in winter-and integrates a feedback loop incorporating satellite and weather station data. The invention enables optimal renewable energy utilization, real-time adaptability, reduced transmission losses, and frequency stabilization."

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