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 191200 of 324 papers

TitleStatusHype
Altitude-Loss Optimal Glides in Engine Failure Emergencies -- Accounting for Ground Obstacles and Wind0
A message-passing algorithm for multi-agent trajectory planning0
Amortized Q-learning with Model-based Action Proposals for Autonomous Driving on Highways0
An Attention-based Recurrent Convolutional Network for Vehicle Taillight Recognition0
An Efficient Generation Method based on Dynamic Curvature of the Reference Curve for Robust Trajectory Planning0
A nonlinear real time capable motion cueing algorithm based on deep reinforcement learning0
A nonlinear tracking model predictive control scheme for dynamic target signals0
A Practical and Online Trajectory Planner for Autonomous Ships' Berthing, Incorporating Speed Control0
A Real-time Spatio-Temporal Trajectory Planner for Autonomous Vehicles with Semantic Graph Optimization0
A Robust Super-resolution Gridless Imaging Framework for UAV-borne SAR Tomography0
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All datasetsnuScenesToolBench

Benchmark Results

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