Jiajun Zhu
178Patents
38h-index
51Co-inventors
89Inventor score
Filing activity: Jan 15, 2008 → Sep 25, 2024
Most-cited inventions
| Patent | Title | Area | Cited by | Status |
|---|---|---|---|---|
| US9383753B1 | Wide-view LIDAR with areas of special attention | Physics | 461 | Active |
| US8660734B2 | System and method for predicting behaviors of detected objects | Physics | 353 | Active |
| US9381916B1 | System and method for predicting behaviors of detected objects through environment representation | Physics | 288 | Active |
| US9274525B1 | Detecting sensor degradation by actively controlling an autonomous vehicle | Physics | 262 | Active |
| US8700251B1 | System and method for automatically detecting key behaviors by vehicles | Performing Operations; Transporting | 248 | Active |
| US9221396B1 | Cross-validating sensors of an autonomous vehicle | Physics | 244 | Active |
| US9495874B1 | Automated system and method for modeling the behavior of vehicles and other agents | Physics | 240 | Active |
| US8954252B1 | Pedestrian notifications | Performing Operations; Transporting | 219 | Active |
| US9315192B1 | Methods and systems for pedestrian avoidance using LIDAR | Performing Operations; Transporting | 218 | Active |
| US9489635B1 | Methods and systems for vehicle perception feedback to classify data representative of types of objects and to request feedback regarding such classifications | Physics | 211 | Active |
| US8195394B1 | Object detection and classification for autonomous vehicles | Physics | 168 | Active |
| US8880270B1 | Location-aware notifications and applications for autonomous vehicles | Physics | 162 | Active |
| US9097800B1 | Solid object detection system using laser and radar sensor fusion | Physics | 155 | Active |
| US9120484B1 | Modeling behavior based on observations of objects observed in a driving environment | Physics | 131 | Active |
| US8948955B2 | System and method for predicting behaviors of detected objects | Physics | 109 | Active |
| US9014905B1 | Cyclist hand signal detection by an autonomous vehicle | Physics | 104 | Active |
| US9086481B1 | Methods and systems for estimating vehicle speed | Physics | 95 | Active |
| US8676427B1 | Controlling autonomous vehicle using audio data | Performing Operations; Transporting | 87 | Active |
| US9196164B1 | Pedestrian notifications | Performing Operations; Transporting | 87 | Active |
| US9234618B1 | Characterizing optically reflective features via hyper-spectral sensor | Physics | 84 | Active |
| US8825265B1 | Approach for consolidating observed vehicle trajectories into a single representative trajectory | Physics | 78 | Active |
| US9043069B1 | Methods and systems for scan matching approaches for vehicle heading estimation | Physics | 73 | Active |
| US8825391B1 | Building elevation maps from laser data | Physics | 68 | Active |
| US9098753B1 | Methods and systems for object detection using multiple sensors | Physics | 65 | Active |
| US9720412B1 | Modifying the behavior of an autonomous vehicle using context based parameter switching | Performing Operations; Transporting | 64 | Active |
Source: USPTO / EPO open patent data. Inventor disambiguation is heuristic; counts are objective bibliographic measures.