MUMBAI, India, March 13 -- Intellectual Property India has published a patent application (202641003776 A) filed by Dr. K. Suresh; Dr. M. Suresh Kumar; Dr. T Rajasekaran; Mr. T. Ramalingam; and Mr. V. Ranjith, Sriperumpudur, Tamil Nadu, on Jan. 14, for 'smart autonomous indoor mapping robot utilizing rf ranging for enhanced localization.'
Inventor(s) include Dr. K. Suresh; Dr. M. Suresh Kumar; Dr. T Rajasekaran; Mr. T. Ramalingam; and Mr. V. Ranjith.
The application for the patent was published on March 13, under issue no. 11/2026.
According to the abstract released by the Intellectual Property India: "AI Assisted loT-Based CubeSat Platform for Autonomous Weather Monitoring and Telemetry Communication ABSTRACT OF THE INVENTION The present invention discloses a solar-powered, autonomous weather-imaging CubeSat system with multi-sensor telemetry transmission. The system comprises a power generation and storage subsystem including solar panels and a rechargeable battery; a multi-sensor data acquisition subsystem comprising a magnetometer, an infrared sensor, and a temperature sensor; an imaging subsystem including a ~amera; a power management subsystem with a voltage regulator; a data handling subsystem; and a communication subsystem featuring a 2.4 GHz transmitter. The voltage regulator dynamically manages power from both the solar panels and the battery to ensure continuous operation during all orbital phases.The data handling subsystem acquires and processes data from the multi-sensor suite and imaging subsystem, fusing the collected information into an integrated telemetry data packet that is wirelessly transmitted to a ground station. An STM32H7 microcontroller is employed to process sensor and imaging data and to coordinate system operations. The invention enables correlated environmental analysis by providing synchronized spatial, thermal, temperature, magnetic, and visual data from a compact, energy-autonomous satellite platform, making it particularly suitable for weather monitoring, climate analysis, and Earth observation applications. The uniqueness of the proposed system lies in its At-powered dynamic routing mechanism, which allows the CubeSat to evaluate signal strength, network conditions, and available energy in real time to optimize data transmission. The proposed invention provides a low-cost, scalable, and energy-efficient solution for advanced Earth observation and autonomous weather monitoring miSSIOnS."
Disclaimer: Curated by HT Syndication.
