Centurion Patentors as of November 19, 2024

Patent №: 12150152 (November 19, 2024) – Method and apparatus for repeatedly transmitting control information in wireless communication system. A user equipment (UE) receives a repetition configuration from a base station, specifying a repetition level for control resource sets (CORESETs). The UE performs blind decoding on the repeated CORESETs using the configuration.

Patent №: 12150141 (November 19, 2024) – Method and apparatus for transmitting and receiving data in wireless communication system. This disclosure describes a method for a user equipment (UE) in 5G or 6G systems to manage HARQ feedback for improved data transmission. The UE receives downlink control information (DCI) scheduling multiple PDSCHs, identifies the HARQ feedback timing indicator’s value, and transmits HARQ feedback accordingly. If the value is non-numerical, the UE delays HARQ feedback until another DCI with a numerical value is received.

Patent №: 12149297 (November 19, 2024) – Method and apparatus for determining pathloss in wireless communication system. This disclosure describes a communication method and system combining 5G technology with Internet of Things (IoT) capabilities to enable intelligent services. Applications include smart homes, buildings, cities, connected vehicles, healthcare, digital education, smart retail, and security services, leveraging 5G’s high data rates and IoT’s interconnected infrastructure.

Patent №: 12150172 (November 19, 2024) – Constraints on no listen-before-talk (LBT) transmission during uplink/downlink (UL/DL) switches. Wireless communication systems involve performing an initial listen-before-talk (LBT) procedure to acquire channel occupancy time (COT). During the COT, a signal is transmitted in one link direction, then the link switches direction, and a second signal is transmitted without a new LBT.

Patent №: 12149279 (November 19, 2024) – Coverage enhancement and normal modes switching related optimization. Improvements include reducing paging delays through simultaneous or historical-mode paging, enhancing random access with CE-mode procedures when normal access fails, and leveraging CE techniques like transmission repetition and gapless scheduling over hopped narrowband frequencies to improve coverage in normal mode operations.

Dr. Rastegar co-founded Omnitek Partners, LLC, and has published over 240 journal and conference papers. His contributions to the field have been recognized with various accolades, including the prestigious 2010 Machine Design Award from the American Society of Mechanical Engineers (ASME) for his “eminent achievements as an inventor and scholar in the field of machine design, particularly in smart actuation and control.”

Dr. Rastegar is a Fellow of the American Society of Mechanical Engineers and the National Academy of Inventors. He has also served as an Associate Editor for both the ASME Journal of Mechanical Design for Mechanisms and Robotics and the ASME Journal of Medical Devices.

Patent №: 12146731 (November 19, 2024) – Inertial delay mechanisms for low-g and long-duration acceleration event detection and for initiation devices in munitions and impulse switches and the like. An inertial mechanical delay mechanism includes a first rotatable member with an offset center of mass, biased by a first elastic material, which rotates when acceleration exceeds a predetermined threshold. This rotation indirectly drives a second rotatable member, biased by a second elastic material, after the first member reaches a specific angle, enabling delayed motion transfer based on acceleration magnitude and duration.