Intellectual Property India Publishes Patent Application for 'Advanced Antenna Design For Millimeter-Wave 5g And 6g Wireless Communication Systems' Filed by Dr. Ravi Kumar Kolakaluri; Dr. D. V Appala Naidu Telu; Dr. V. Saidulu; Dr. Srinivasan Nagaraj; M. Sreedhar Reddy; S Phani Varaprasad; Gondasu Sandhya; and Dr. Prasadrao Rayavarapu

MUMBAI, India, Jan. 2 -- Intellectual Property India has published a patent application (202541124925 A) filed by Dr. Ravi Kumar Kolakaluri; Dr. D. V Appala Naidu Telu; Dr. V. Saidulu; Dr. Srinivasan Nagaraj; M. Sreedhar Reddy; S Phani Varaprasad; Gondasu Sandhya; and Dr. Prasadrao Rayavarapu, Anakapalle, Andhra Pradesh, on Dec. 10, 2025, for 'advanced antenna design for millimeter-wave 5g and 6g wireless communication systems.'

Inventor(s) include Dr. Ravi Kumar Kolakaluri; Dr. D. V Appala Naidu Telu; Dr. V. Saidulu; Dr. Srinivasan Nagaraj; M. Sreedhar Reddy; S Phani Varaprasad; Gondasu Sandhya; and Dr. Prasadrao Rayavarapu.

The application for the patent was published on Jan. 2, under issue no. 01/2026.

According to the abstract released by the Intellectual Property India: "The present invention relates to an advanced antenna design for millimeter-wave (mmWave) 5G and next-generation 6G wireless communication systems, addressing the limitations of conventional antennas in supporting high data rates, ultra-low latency, and massive connectivity. With the growing demand for enhanced mobile broadband, ultra-reliable low-latency communications, massive machine-type communications, and advanced applications such as holographic communication and extended reality, traditional sub-6 GHz and early mmWave antennas are insufficient due to their limited bandwidth, low gain, and susceptibility to environmental blockages and atmospheric absorption. The invention introduces a high-performance antenna system integrating phased array, massive MIMO, and metasurface-based architectures to enable precise beamforming, adaptive beam steering, and wide-bandwidth operation across the 24-300 GHz spectrum. Reconfigurable antenna elements dynamically adjust radiation patterns, operating frequencies, and polarization to maintain robust performance in dynamic environments, including urban landscapes, vehicular networks, and mobile devices affected by hand blockage or device orientation. Hybrid beamforming techniques reduce hardware complexity and power consumption while ensuring rapid and accurate directional communication. Designed for compact integration into user devices, base stations, and industrial equipment, the antenna system is scalable, energy-efficient, and compatible with cost-effective manufacturing processes. It overcomes challenges such as free-space path loss, signal blockage, interference, and thermal limitations, providing consistent high-speed connectivity. The invention enables next-generation applications requiring high reliability, low latency, and multi-user support, including immersive extended reality, holographic communications, intelligent vehicular networks, and massive IoT deployment. By combining high gain, wide bandwidth, reconfigurability, energy efficiency, and adaptability, this invention provides a versatile, robust, and practical solution for 5G and 6G networks, facilitating enhanced user experience, efficient spectrum utilization, and seamless connectivity across diverse real-world scenarios."

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