Robotic System Trajectory Planning

Organization Name

ABB Schweiz AG

Inventor(s)

Nima Enayati of Mannheim (DE)

Arne Wahrburg of Weiterstadt (DE)

Debora Clever of Zwingenberg (DE)

[[:Category:Mikael Norrl�f of Norrköping (SE)|Mikael Norrl�f of Norrköping (SE)]][[Category:Mikael Norrl�f of Norrköping (SE)]]

Giacomo Spampinato of Västerås (SE)

[[:Category:Mattias Bj�rkman of Västerås (SE)|Mattias Bj�rkman of Västerås (SE)]][[Category:Mattias Bj�rkman of Västerås (SE)]]

Robotic System Trajectory Planning - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240017410 titled 'Robotic System Trajectory Planning

Simplified Explanation

The abstract describes a method for trajectory planning in a robotic system with multiple robotic units. The method involves determining the motion of the robotic units from an initial state to a final state by minimizing a cost function. The cost function is based on the state vectors of all the robotic units and is minimized under a constraint that defines the difference between the position components of the state vectors at a specific instant of the trajectory.

• The method involves using state vectors to represent the position and velocity components of each robotic unit.
• The state vectors are variable with time and independent from input into other robotic units.
• A trajectory is determined by finding the one that minimizes a predetermined cost function.
• The cost function is a function of the state vectors of all the robotic units.
• The cost function is minimized under a constraint that defines the difference between the position components of the state vectors at a specific instant of the trajectory.

Potential Applications:

• This method can be applied in various robotic systems that involve multiple robotic units, such as multi-robot coordination, swarm robotics, and collaborative tasks.
• It can be used in industrial automation, where multiple robots need to work together to perform complex tasks efficiently.

Problems Solved:

• The method solves the problem of planning trajectories for multiple robotic units in a coordinated manner.
• It addresses the challenge of minimizing the cost function while considering the constraints imposed by the state vectors of all the robotic units.

Benefits:

• The method allows for efficient trajectory planning, optimizing the motion of multiple robotic units.
• It enables better coordination and synchronization between the robotic units, leading to improved performance and productivity.
• The method can potentially reduce the time and energy required for completing tasks by optimizing the trajectories of the robotic units.

Original Abstract Submitted

a method for trajectory planning in a robotic system comprising at least two robotic units includes a state vector of each robotic unit, which comprises position components and velocity components and is variable with time and independently from input into every other robotic unit. a trajectory defines the motion of said robotic units from an initial state to a final state and is determined by finding the trajectory that minimizes a predetermined cost function. the cost function is set to be a function of the state vectors of all robotic units, and is minimized under a constraint which defines a vector difference between at least the position components of the state vectors of said robotic units at an instant of said trajectory.