Xing Sun
67Patents
7h-index
49Co-inventors
68Inventor score
Filing activity: Mar 26, 2010 → Jan 26, 2024
Most-cited inventions
| Patent | Title | Area | Cited by | Status |
|---|---|---|---|---|
| US8275784B2 | Translation system and method for SPARQL queries | Physics | 87 | Active |
| US10782694B2 | Prediction-based system and method for trajectory planning of autonomous vehicles | Physics | 31 | Active |
| US10481044B2 | Perception simulation for improved autonomous vehicle control | Performing Operations; Transporting | 11 | Active |
| US10739775B2 | System and method for real world autonomous vehicle trajectory simulation | Physics | 11 | Active |
| US9584983B2 | Tracking a mobile unit in a housing facility for mobile units | Electricity | 7 | Active |
| US10768626B2 | System and method for providing multiple agents for decision making, trajectory planning, and control for autonomous vehicles | Physics | 7 | Active |
| US10678234B2 | System and method for autonomous vehicle control to minimize energy cost | Emerging Cross-Sectional Technologies | 7 | Active |
| US10649458B2 | Data-driven prediction-based system and method for trajectory planning of autonomous vehicles | Physics | 7 | Active |
| US11753008B2 | System and method for adaptive cruise control with proximate vehicle detection | Performing Operations; Transporting | 6 | Active |
| US10782693B2 | Prediction-based system and method for trajectory planning of autonomous vehicles | Physics | 6 | Active |
| US10308242B2 | System and method for using human driving patterns to detect and correct abnormal driving behaviors of autonomous vehicles | Physics | 6 | Active |
| US10953881B2 | System and method for automated lane change control for autonomous vehicles | Physics | 6 | Active |
| US10474790B2 | Large scale distributed simulation for realistic multiple-agent interactive environments | Physics | 5 | Active |
| US10953880B2 | System and method for automated lane change control for autonomous vehicles | Physics | 5 | Active |
| US9275425B2 | Balancing provenance and accuracy tradeoffs in data modeling | Physics | 4 | Active |
| US11270169B2 | Image recognition method, storage medium and computer device | Physics | 4 | Active |
| US8768953B2 | Method and system for determining node to be materialized | Physics | 4 | Active |
| US10830669B2 | Perception simulation for improved autonomous vehicle control | Performing Operations; Transporting | 4 | Active |
| US9210549B2 | Tracking a mobile unit in a housing facility for mobile units | Electricity | 4 | Active |
| US8947433B2 | Spatiotemporal visualization of sensor data | Physics | 3 | Active |
| US9043256B2 | Hypothesis derived from relationship graph | Physics | 3 | Active |
| US8941656B2 | Spatiotemporal visualization of sensor data | Physics | 3 | Active |
| US9583000B2 | Vehicle-based abnormal travel event detecting and reporting | Performing Operations; Transporting | 3 | Active |
| US9564983B1 | Enablement of a private phone conversation | Electricity | 2 | Active |
| US11373305B2 | Image processing method and device, computer apparatus, and storage medium | Physics | 2 | Active |
Source: USPTO / EPO open patent data. Inventor disambiguation is heuristic; counts are objective bibliographic measures.