Intellectual Property India Publishes Patent Application for 'An Energy-Efficient Embedded System For Real-Time Signal Processing Applications' Filed by Dr. Baddeti Syam; Bondili Nagarajun Singh; Mothukuri Suseela; Gera Gopala Rao; Tippireddy Hemala; Velisetti Haritha; Markapudi Navya; Gentela Madhavi; Gadara Venkatesh; and Mandava Institute Of Engineering & Technology

MUMBAI, India, Feb. 27 -- Intellectual Property India has published a patent application (202641018721 A) filed by Dr. Baddeti Syam; Bondili Nagarajun Singh; Mothukuri Suseela; Gera Gopala Rao; Tippireddy Hemala; Velisetti Haritha; Markapudi Navya; Gentela Madhavi; Gadara Venkatesh; and Mandava Institute Of Engineering & Technology, Jaggayyapeta, Andhra Pradesh, on Feb. 19, for 'an energy-efficient embedded system for real-time signal processing applications.'

Inventor(s) include Dr. Baddeti Syam; Bondili Nagarajun Singh; Mothukuri Suseela; Gera Gopala Rao; Tippireddy Hemala; Velisetti Haritha; Markapudi Navya; Gentela Madhavi; and Gadara Venkatesh.

The application for the patent was published on Feb. 27, under issue no. 09/2026.

According to the abstract released by the Intellectual Property India: "The present invention discloses an energy-efficient embedded system for real-time signal processing applications in power-constrained environments. The system comprises a signal acquisition module, a low-power processing unit, a memory management subsystem, and an adaptive power management module. The signal acquisition module captures analog or digital input signals using adaptive sampling techniques to reduce redundant data processing. The processing unit executes optimized signal processing operations including filtering, transformation, feature extraction, and compression using reduced-complexity algorithms. The adaptive power management module dynamically scales clock frequency, voltage levels, and operational states based on real-time workload conditions to minimize energy consumption. Optimized memory access and selective peripheral activation further reduce power overhead. The system maintains processing accuracy and low latency while extending operational lifespan of battery-powered devices. The invention is applicable to portable electronics, industrial monitoring systems, biomedical instruments, wireless communication devices, and Internet of Things (IoT) platforms requiring efficient and reliable real-time signal processing."

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