Title :
On Synchronous Robotic Networks—Part II: Time Complexity of Rendezvous and Deployment Algorithms
Author :
Martínez, Sonia ; Bullo, Francesco ; Cortés, Jorge ; Frazzoli, Emilio
Author_Institution :
California Univ., San Diego
Abstract :
This paper analyzes a number of basic coordination algorithms running on synchronous robotic networks. We provide upper and lower bounds on the time complexity of the move-toward-average and circumcenter laws, both achieving rendezvous, and of the centroid law, achieving deployment over a region of interest. The results are derived via novel analysis methods, including a set of results on the convergence rates of linear dynamical systems defined by tridiagonal Toeplitz and circulant matrices.
Keywords :
Toeplitz matrices; computational complexity; convergence; mobile agents; mobile robots; circulant matrices; circumcenter law; convergence rates; coordination algorithms; deployment algorithms; linear dynamical systems; lower bounds; mobile agents; mobile robots; move-toward-average law; rendezvous algorithms; synchronous robotic networks; time complexity; tridiagonal Toeplitz matrices; upper bounds; Algorithm design and analysis; Communication system control; Convergence; Energy consumption; Mechanical sensors; Mobile agents; Mobile communication; Performance analysis; Robot kinematics; Robot sensing systems; Circumcenter and centroid laws; coordination algorithms; deployment; rendezvous; robotic networks; time complexity;
Journal_Title :
Automatic Control, IEEE Transactions on
DOI :
10.1109/TAC.2007.908304
