SOTAVerified

Trajectory Planning

Trajectory planning for industrial robots consists of moving the tool center point from point A to point B while avoiding body collisions over time. Trajectory planning is sometimes referred to as motion planning and erroneously as path planning. Trajectory planning is distinct from path planning in that it is parametrized by time. Essentially trajectory planning encompasses path planning in addition to planning how to move based on velocity, time, and kinematics.

Papers

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Showing 91100 of 324 papers

TitleStatusHype
V2X-VLM: End-to-End V2X Cooperative Autonomous Driving Through Large Vision-Language Models0
Logically Constrained Robotics Transformers for Enhanced Perception-Action Planning0
A Holistic Optimization Framework for Energy Efficient UAV-assisted Fog Computing: Attitude Control, Trajectory Planning and Task Assignment0
Trajectory Planning Using Tire Thermodynamics for Automated Drifting0
Is That Rain? Understanding Effects on Visual Odometry Performance for Autonomous UAVs and Efficient DNN-based Rain Classification at the Edge0
LSM: A Comprehensive Metric for Assessing the Safety of Lane Detection Systems in Autonomous Driving0
Let Hybrid A* Path Planner Obey Traffic Rules: A Deep Reinforcement Learning-Based Planning Framework0
Optimizing Energy-Efficient Braking Trajectories with Anticipatory Road Data for Automated Vehicles0
Automatic Parameter Tuning of Self-Driving Vehicles0
Autonomous Robotic Drilling System for Mice Cranial Window Creation0
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All datasetsnuScenesToolBench

Benchmark Results

#ModelMetricClaimedVerifiedStatus
1ST-P3 (Lidar)Collision-3s1.27Unverified
2UniADCollision-3s0.71Unverified
3AD-MLPCollision-3s0.24Unverified
4VAD-Base [jiang2023vad]Collision-3s0.24Unverified
#ModelMetricClaimedVerifiedStatus
1GPT4-TOPGUNWin rate86.54Unverified
2Attention BucketWin rate71.5Unverified
3GPT4- DFSDTWin rate70.4Unverified