Jesse Levinson has a total of 35 patents globally, out of which 1 has been granted. Of these 35 patents, more than 42% patents are active. European Countries is where Jesse Levinson has filed the maximum number of patents. Parallelly, the USA seems to be the main focused R&D centre of Jesse Levinson.
“Electric cars can be much better — faster, smoother and quieter, so that’s a wonderful evolution of the automobile.” – Levinson
Jesse Levinson is a cofounder and chief technology officer of Zoox, a venture-backed firm building electric vehicles from the ground up that are fully autonomous for point-to-point transportation in urban areas. The software, artificial intelligence, computing, and sensing platforms for the business are under Jesse’s management.
Do read about some of the most popular patents of Jesse Levinson which have been covered by us in this article and also you can find Jesse Levinson patents information, the worldwide patent filing activity and its patent filing trend over the years, and many other stats over Jesse Levinson patent portfolio.
How many patents does Jesse Levinson have?
Jesse Levinson has a total of 35 patents globally. These patents belong to 13 unique patent families. Out of 35 patents, 15 patents are active.
How Many Patents did Jesse Levinson File Every Year?
Are you wondering why there is a drop in patent filing for the last two years? It is because a patent application can take up to 18 months to get published. Certainly, it doesn’t suggest a decrease in the patent filing.
|Year of Patents Filing or Grant||Jesse Levinson Applications Filed||Jesse Levinson Patents Granted|
How many Jesse Levinson patents are Alive/Dead?
How Many Patents did Jesse Levinson File in Different Countries?
Where are Research Centres of Jesse Levinson Patents Located?
The R&D Centres of all patents are in the USA.
List of Jesse Levinson’s Patents
|Jesse Levinson Patents||Title|
|EP3371023A1||Simulation System And Methods For Autonomous Vehicles|
|EP3371794A2||Adaptive Autonomous Vehicle Planner Logic|
|EP3371796A2||Method For Robotic Vehicle Communication With An External Environment Via Acoustic Beam Forming|
|EP3371668A1||Teleoperation System And Method For Trajectory Modification Of Autonomous Vehicles|
|EP3371660A2||Machine-Learning Systems And Techniques To Optimize Teleoperation And/Or Planner Decisions|
|EP3371797A2||Adaptive Mapping To Navigate Autonomous Vehicles Responsive To Physical Environment Changes|
|EP3639241A1||Voxel Based Ground Plane Estimation And Object Segmentation|
|EP3649525A1||Interactions Between Vehicle And Teleoperations System|
|EP3936966A1||Interactions Between Vehicle And Teleoperations System|
|EP3665501A1||Vehicle Sensor Calibration And Localization|
|EP3752953A1||Detecting Blocking Stationary Vehicles|
|EP3756106A1||Creating Clean Maps Including Semantic Information|
|EP3775789A1||Detecting Errors In Sensor Data|
|EP3857168A1||Modifying Map Elements Associated With Map Data|
|WO2017079332A2||Method For Robotic Vehicle Communication With An External Environment Via Acoustic Beam Forming|
|WO2017079219A1||Teleoperation System And Method For Trajectory Modification Of Autonomous Vehicles|
|WO2017079228A3||Adaptive Autonomous Vehicle Planner Logic|
|WO2017079321A1||Sensor-Based Object-Detection Optimization For Autonomous Vehicles|
|WO2017079229A1||Simulation System And Methods For Autonomous Vehicles|
|WO2017079341A3||Automated Extraction Of Semantic Information To Enhance Incremental Mapping Modifications For Robotic Vehicles|
|WO2017079301A1||Calibration For Autonomous Vehicle Operation|
|WO2017079460A3||Adaptive Mapping To Navigate Autonomous Vehicles Responsive To Physical Environment Changes|
|WO2017079474A2||Machine-Learning Systems And Techniques To Optimize Teleoperation And/Or Planner Decisions|
|WO2018231616A1||Voxel Based Ground Plane Estimation And Object Segmentation|
|WO2019010128A1||Interactions Between Vehicle And Teleoperations System|
|WO2019032588A1||Vehicle Sensor Calibration And Localization|
|WO2019160700A1||Detecting Blocking Stationary Vehicles|
|WO2019164668A1||Creating Clean Maps Including Semantic Information|
|WO2019173078A1||Mesh Decimation Techniques|
|WO2019182782A1||Generating Maps Without Shadows|
|WO2019195363A1||Detecting Errors In Sensor Data|
|WO2020069126A1||Modifying Map Elements Associated With Map Data|
|WO2020131965A1||Event-Based Data Logging|
|WO2021162951A1||Modular Delivery Systems With Access Lockers|
|DE602018023951T2||Interaction Between Vehicle And Remote Operating System|