Collective frequencies and metastability in networks of limit-cycle oscillators with time delay

Creators: Niebur, Ernst; Schuster, Heinz G.; Kammen, Daniel M.

Abstract

We analyze the dynamic behavior of large two-dimensional systems of limit-cycle oscillators with random intrinsic frequencies that interact via time-delayed nearest-neighbor coupling. We find that even small delay times lead to a novel form of frequency depression where the system decays to stable states which oscillate at a delay and interaction-dependent reduced collective frequency. For greater delay or tighter coupling between oscillators we find metastable synchronized states that we describe analytically and numerically.

Additional Information

Received 20 March 1991; published in the issue dated 11 November 1991. © 1991 The American Physical Society. We are grateful to D. Ruderman for writing part of the Connection Machine code. We would like to thank B. Ermentrout and H. Sompolinsky for stimulating conversations and C. Koch for his continuing support and encouragement. Part of the computations have been performed on the Caltech/ Argonne Connection Machine. E.N. is supported by the Swiss National Science Foundation through Grant No. 8220-25941. H.G.S. is supported by the Volkswagen Foundation, and D.M.K. by the Division of Biology and grants from the Air Force Office of Scientific Research and a NSF Presidential Young Investigator Award (both to C. Koch).

Attached Files

Published - p2753_1.pdf

Files

p2753_1.pdf

Files (734.5 kB)

Name	Size	Download all
p2753_1.pdf md5:a08e56c87fe8c63ec8bc54e116bb8b57	734.5 kB	Preview Download

Additional details

	All versions	This version
Views	0	0
Downloads	0	0
Data volume	0 Bytes	0 Bytes