NVIDIA Corporation patent applications on July 18th, 2024
Patent Applications by NVIDIA Corporation on July 18th, 2024
NVIDIA Corporation: 3 patent applications
NVIDIA Corporation has applied for patents in the areas of B60W60/00 (1), B60W50/00 (1), G06N3/08 (1), G01M3/16 (1), H01B5/14 (1) B60W60/0011 (1), G01M3/16 (1), G01R31/58 (1)
With keywords such as: device, connector, holder, electrical, selectively, conductive, material, conductivity, components, and cable in patent application abstracts.
Patent Applications by NVIDIA Corporation
20240239374. BEHAVIOR PLANNING FOR AUTONOMOUS VEHICLES_simplified_abstract_(nvidia corporation)
Inventor(s): David Nister of Bellevue WA (US) for nvidia corporation, Yizhou Wang of San Jose CA (US) for nvidia corporation, Julia Ng of San Jose CA (US) for nvidia corporation, Rotem Aviv of San Diego CA (US) for nvidia corporation, Seungho Lee of San Jose CA (US) for nvidia corporation, Joshua John Bialkowski of San Mateo CA (US) for nvidia corporation, Hon Leung Lee of Bellevue WA (US) for nvidia corporation, Hermes Lanker of Zürich (CH) for nvidia corporation, Raul Correal Tezanos of Santa Clara CA (US) for nvidia corporation, Zhenyi Zhang of San Jose CA (US) for nvidia corporation, Nikolai Smolyanskiy of Seattle WA (US) for nvidia corporation, Alexey Kamenev of Carlsbad CA (US) for nvidia corporation, Ollin Boer Bohan of Redmond WA (US) for nvidia corporation, Anton Vorontsov of San Jose CA (US) for nvidia corporation, Miguel Sainz Serra of Palo Alto CA (US) for nvidia corporation, Birgit Henke of Seattle WA (US) for nvidia corporation
IPC Code(s): B60W60/00, B60W50/00, G06N3/08
CPC Code(s): B60W60/0011
Abstract: embodiments of the present disclosure relate to behavior planning for autonomous vehicles. the technology described herein selects a preferred trajectory for an autonomous vehicle based on an evaluation of multiple hypothetical trajectories by different components within a planning system. the various components provide an optimization score for each trajectory according to the priorities of the component and scores from multiple components may form a final optimization score. this scoring system allows the competing priorities (e.g., comfort, minimal travel time, fuel economy) of different components to be considered together. in examples, the trajectory with the best combined score may be selected for implementation. as such, an iterative approach that evaluates various factors may be used to identify an optimal or preferred trajectory for an autonomous vehicle when navigating an environment.
Inventor(s): Anthony David Gamerman of Apex NC (US) for nvidia corporation, Israel Silva Dias of Apex NC (US) for nvidia corporation, Kyle Patrick Roberts of Raleigh NC (US) for nvidia corporation, Steven Hart Penna of Wake Forest NC (US) for nvidia corporation
IPC Code(s): G01M3/16, H01B5/14
CPC Code(s): G01M3/16
Abstract: devices, systems, and methods are provided for surface-mounted leak detection on a printed circuit board. an example leak detection device includes a first and second electrical contact with a selectively conductive material disposed therebetween. at a first electrical conductivity of the selectively conductive material, the device has a first circuit state. the selectively conductive material is configured to change from the first electrical conductivity to a second electrical conductivity in an instance in which a predetermined amount of fluid is absorbed by the selectively conductive material. at the second electrical conductivity of the selectively conductive material, the device has a second circuit state indicative of a fluid leak. corresponding systems and methods are also provided.
20240241191. HIGH-BANDWIDTH COAXIAL INTERFACE TEST FIXTURE_simplified_abstract_(nvidia corporation)
Inventor(s): Yongwei CHEN of Shenzhen (CN) for nvidia corporation, Baal YANG of Shenzhen (CN) for nvidia corporation, Tibet ZHAO of Shenzhen (CN) for nvidia corporation
IPC Code(s): G01R31/58, G01R1/067, G01R27/04, H01R24/40
CPC Code(s): G01R31/58
Abstract: a system for testing multiple devices includes a connector holder having a plurality of holes, wherein each hole included in the plurality of holes is configured to hold a respective cable connector that connects to a cable; a device holder that is configured to hold a first device in a testing position; and an engagement mechanism that supports the connector holder and is operable to move the connector holder to an engaged position, wherein when the first device is being held by the device holder in the testing position, and a first hole included in the plurality of holes holds a first cable connector, a contact point associated with the first cable connector contacts a signal pad associated with the first device.