Velocity obstacle

In robotics and motion planning, a velocity obstacle, commonly abbreviated VO, is the set of all velocities of a robot that will result in a collision with another robot at some moment in time, assuming that the other robot maintains its current velocity.^[1] If the robot chooses a velocity inside the velocity obstacle then the two robots will eventually collide, if it chooses a velocity outside the velocity obstacle, such a collision is guaranteed not to occur.^[1]

This algorithm for robot collision avoidance has been repeatedly rediscovered and published under different names: in 1989 as a maneuvering board approach,^[2] in 1993 it was first introduced as the "velocity obstacle",^[3] in 1998 as collision cones,^[4] and in 2009 as forbidden velocity maps.^[5] The same algorithm has been used in maritime port navigation since at least 1903.^[6]

The velocity obstacle for a robot ${\displaystyle A}$ induced by a robot ${\displaystyle B}$ may be formally written as

${\displaystyle V{O}_{A|B}=\{\mathbf{𝐯}|\mathrm{\exists }t>0:(\mathbf{𝐯}-{\mathbf{𝐯}}_B)t\in D({\mathbf{𝐱}}_B-{\mathbf{𝐱}}_A,r_A+r_B)\}}$

where ${\displaystyle A}$ has position ${\displaystyle {\mathbf{𝐱}}_A}$ and radius ${\displaystyle r_A}$, and ${\displaystyle B}$ has position ${\displaystyle {\mathbf{𝐱}}_B}$, radius ${\displaystyle r_B}$, and velocity ${\displaystyle {\mathbf{𝐯}}_B}$. The notation ${\displaystyle D(\mathbf{𝐱},r)}$ represents a disc with center ${\displaystyle \mathbf{𝐱}}$ and radius ${\displaystyle r}$.

Variations include common velocity obstacles (CVO),^[7] finite-time-interval velocity obstacles (FVO),^[8] generalized velocity obstacles (GVO),^[9] hybrid reciprocal velocity obstacles (HRVO),^[10] nonlinear velocity obstacles (NLVO),^[11] reciprocal velocity obstacles (RVO),^[12] and recursive probabilistic velocity obstacles (PVO).^[13]

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