Controlling chaos (OGY) implemented on a reconstructed ecological two-dimensional map

We numerically demonstrate a way to stabilize an unstable equilibrium in the ecological dynamics reconstructed from real-world time series data, namely, alternate bearing of citrus trees. The reconstruction of deterministic dynamics from short and noisy ecological time series has been a crucial issu...

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Main Authors: Sakai, Kenshi, Noguchi, Yuko
Format: Article in Journal/Newspaper
Language:unknown
Subjects:
Fennoscandian
Online Access:http://www.sciencedirect.com/science/article/pii/S0960077908000933
id ftrepec:oai:RePEc:eee:chsofr:v:41:y:2009:i:2:p:630-641
record_format openpolar
spelling ftrepec:oai:RePEc:eee:chsofr:v:41:y:2009:i:2:p:630-641 2024-04-14T08:11:30+00:00 Controlling chaos (OGY) implemented on a reconstructed ecological two-dimensional map Sakai, Kenshi Noguchi, Yuko http://www.sciencedirect.com/science/article/pii/S0960077908000933 unknown http://www.sciencedirect.com/science/article/pii/S0960077908000933 article ftrepec 2024-03-19T10:34:39Z We numerically demonstrate a way to stabilize an unstable equilibrium in the ecological dynamics reconstructed from real-world time series data, namely, alternate bearing of citrus trees. The reconstruction of deterministic dynamics from short and noisy ecological time series has been a crucial issue since May’s historical work [May RM. Biological populations with nonoverlapping generations: stable points, stable cycles and chaos. Science 1974;186:645–7; Hassell MP, Lawton JH, May RM. Patterns of dynamical behavior in single species populations. J Anim Ecol 1976;45:471–86]. Response surface methodology, followed by the differential equation approach is recognized as a promising method of reconstruction [Turchin P. Rarity of density dependence or population with lags? Nature 1990;344:660–3; Turchin P, Taylor AD. Complex dynamics in ecological time series. Ecology 1992;73:289–305; Ellner S, Turchin P. Chaos in a noisy world: new method and evidence from time series analysis. Am Nat 1995;145(3):343–75; Turchin P, Ellner S. Living on the edge of chaos: population dynamics of fennoscandian voles. Ecology 2000;8(11):3116]. Here, the reconstructed ecological dynamics was described by a two-dimensional map derived from the response surface created by the data. The response surface created was experimentally validated in four one-year forward predictions in 2001, 2002, 2003 and 2004. Controlling chaos is very important when applying chaos theory to solving real-world problems. The OGY method is the first and most popular methodology for controlling chaos and can be used as an algorithm to stabilize an unstable fixed point by putting the state on a stable manifold [Ott E, Grebogi C, York JA. Controlling chaos. Phys Rev Lett 1990;64:1996–9]. We applied the OGY method to our reconstructed two-dimensional map and as a result were able to control alternate bearing in numerical simulations. Article in Journal/Newspaper Fennoscandian RePEc (Research Papers in Economics)
institution Open Polar
collection RePEc (Research Papers in Economics)
op_collection_id ftrepec
language unknown
description We numerically demonstrate a way to stabilize an unstable equilibrium in the ecological dynamics reconstructed from real-world time series data, namely, alternate bearing of citrus trees. The reconstruction of deterministic dynamics from short and noisy ecological time series has been a crucial issue since May’s historical work [May RM. Biological populations with nonoverlapping generations: stable points, stable cycles and chaos. Science 1974;186:645–7; Hassell MP, Lawton JH, May RM. Patterns of dynamical behavior in single species populations. J Anim Ecol 1976;45:471–86]. Response surface methodology, followed by the differential equation approach is recognized as a promising method of reconstruction [Turchin P. Rarity of density dependence or population with lags? Nature 1990;344:660–3; Turchin P, Taylor AD. Complex dynamics in ecological time series. Ecology 1992;73:289–305; Ellner S, Turchin P. Chaos in a noisy world: new method and evidence from time series analysis. Am Nat 1995;145(3):343–75; Turchin P, Ellner S. Living on the edge of chaos: population dynamics of fennoscandian voles. Ecology 2000;8(11):3116]. Here, the reconstructed ecological dynamics was described by a two-dimensional map derived from the response surface created by the data. The response surface created was experimentally validated in four one-year forward predictions in 2001, 2002, 2003 and 2004. Controlling chaos is very important when applying chaos theory to solving real-world problems. The OGY method is the first and most popular methodology for controlling chaos and can be used as an algorithm to stabilize an unstable fixed point by putting the state on a stable manifold [Ott E, Grebogi C, York JA. Controlling chaos. Phys Rev Lett 1990;64:1996–9]. We applied the OGY method to our reconstructed two-dimensional map and as a result were able to control alternate bearing in numerical simulations.
format Article in Journal/Newspaper
author Sakai, Kenshi
Noguchi, Yuko
spellingShingle Sakai, Kenshi
Noguchi, Yuko
Controlling chaos (OGY) implemented on a reconstructed ecological two-dimensional map
author_facet Sakai, Kenshi
Noguchi, Yuko
author_sort Sakai, Kenshi
title Controlling chaos (OGY) implemented on a reconstructed ecological two-dimensional map
title_short Controlling chaos (OGY) implemented on a reconstructed ecological two-dimensional map
title_full Controlling chaos (OGY) implemented on a reconstructed ecological two-dimensional map
title_fullStr Controlling chaos (OGY) implemented on a reconstructed ecological two-dimensional map
title_full_unstemmed Controlling chaos (OGY) implemented on a reconstructed ecological two-dimensional map
title_sort controlling chaos (ogy) implemented on a reconstructed ecological two-dimensional map
url http://www.sciencedirect.com/science/article/pii/S0960077908000933
genre Fennoscandian
genre_facet Fennoscandian
op_relation http://www.sciencedirect.com/science/article/pii/S0960077908000933
_version_ 1796309202010898432

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