Verfügbarkeit: Chaos and complexity theory for management

Chaos and complexity theory for management: nonlinear dynamics

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1. Verfasser:	Banerjee, Santo 1976- (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Hershey, PA Business Science Reference 2013
Schriftenreihe:	Premier reference source
Schlagworte:	Organizational behavior Chaotic behavior in systems Management Nonlinear theories Aufsatzsammlung
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	"This book explores the chaos and complexity theory and its relationship with the understanding of the natural chaos in the business environment and utilizing these theories to aid in comprehending the development of businesses as a complex adaptive system"--Provided by publisher. Literaturverz. S. 380 - 413 Index S. 424 - 427
Beschreibung:	XX, 427 S. Ill., zahlr. graph. Darst.
ISBN:	9781466625099 9781466625112

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Datensatz im Suchindex

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adam_text	Titel: Chaos and complexity theory for management Autor: Banerjee, Santo Jahr: 2013 Detailed Table of Contents Foreword.............................................................................................................................................xvi Preface.................................................................................................................................................xix Section 1 Chaos and Complexity in Finance Chapter 1 Chaos and Complexity in Financial Statements ....................................................................................1 Fernando Juarez, Universidad del Rosario, Colombia In this chapter, the author presented an analysis of the use of financial statements, based on chaos and complexity theory. He studied the basic accounting equation from the view of complex logic through the mechanisms of the circumscription. The chaos can be observed in the form of phase space and time series from the relationship between indicators of financial health, such as total assets, stakeholder s equity, profit and loss, or cash flow at end of year. Also, he investigated the relationships among ratios of sustainability, liquidity, and profitability etc. Chapter 2 On Dynamical Behaviors and Chaos Control of the Fractional-Order Financial System ...................34 AhmedSadek Hegazi, Mansoura University, Egypt El-Sayed MohamedAhmed, Mansoura University, Egypt Ahmed Ezzat Matouk, Mansoura University, Egypt Hail University, Saudi Arabia In chapter 2, the authors investigated the nonlinear dynamics and chaos in a fractional-order financial system. For the stability condition, they used fractional Routh-Hurwitz criteria, and also obtained a nec- essary condition for this system to remain chaotic. They found that the chaos exists in the system with order less than three. Finally, it is shown that the fractional-order financial system is controllable just in the fractional-order case when using a specific choice of linear controllers. Numerical simulations are used to verify the analytical results. Chapter 3 Recurrence Quantification Analysis of Financial Markets ..................................................................50 JoaoA. Bastos, Instituto Superior de Economia e Gestao, Technical University of Lisbon, Portugal In this chapter the author illustrated two applications of recurrence quantification analysis to financial data: a set of international stock indices, and zero-coupon yields of US government bonds. The RQA is a nonlinear technique to investigate any time series and very useful since it does not requires assumptions on stationarity, statistical distribution and based on minimum number of observations. Chapter 4 Nonlinear Correlation of Stock and Commodity Indices in Emerging and Developed Market..........63 Kousik Guhathakurta, Indian Institute of Management Kozhikode, India Sharad Nath Bhattacharya, Army Institute of Management, India University of Calcutta, India Santo Banerjee, Institute for Mathematical Research, University Putra Malaysia, Malaysia International Science Association, Turkey Basabi Bhattacharya, Jadavpur University, India Professional Risk Managers International Association Kolkata Chapter, India In this chapter, the authors presented an empirical investigation of the daily movement of stock and commodity index of two different countries to investigate the interrelationship between stock and com- modity market. The uniqueness of this study lies in the choice of markets as the methodology. The authors have chosen a developed market, viz., the US market and an emerging market, viz., the Indian market. This study uses the major stock and commodity indices respectively for both countries for a period of three years. For analysis the authors have used the techniques from nonlinear dynamics like recurrence analysis, power spectrum analysis, delay based cross-correlation functions, et cetera. The investigation revealed that the dynamics of the time path of daily movement of Indian stock and com- modity exchanges are similar in nature while those of the US market are quite different. This chapter also models the respective time series using Geometric Brownian Motion and finds that the Indian data set performed much better than the US ones. This has a strong impact on strategy for designing mixed portfolios in Indian market. Section 2 Complexity in Organization and Leadership Chapter 5 A Multi-Dimensional Approach to Leadership in Chaotic Environments...........................................89 Sefika Sule Ercetin, Hacettepe University, Turkey Suay Nilhan Acikalm, Middle East Technical University, Turkey M. Sahin Btilbul, Middle East Technical University, Turkey In this chapter, the authors studied fundamentally interconnected concepts of chaos and leadership based on theoretical and functional analysis. Building on this analysis, they developed a multi-dimensional approach to the study of leadership in chaotic environments. Chapter 6 Leadership Style and the Management of the Effects of Complexity ...............................................105 Dimitris NAntoniadis, Danton-progm, UK In Chapter 6, the author presents results from a wider research in construction which investigated the effects of socio-organic complexity on project performance adopting the leadership style. The results proved the nonlinearity between performance and complexity and lack of actions that will manage the effects of complexity. A framework was developed, validated, and presented in this chapter, which, by using the characteristics of complexity, allows the measurement of the current level of actions and pro- vides a set of additional actions that will enable management of complexity through the leadership style. Chapter 7 Chaotic Essence inside the Organizational Reality............................................................................145 Ulas Cakar, Dokuz Eylul University Tinaztepe Yerleskesi, Turkey Ozan Nadir Alakavuklar, Dokuz Eylul University Tinaztepe Yerleskesi, Turkey In the human civilizations, more or less every organization faces difficulties to put order in their struc- ture. The extreme case goes to chaos and confusion, and the purpose was to revert back to a steady state. Except in the cases of some extreme sects and marginal crime organizations, almost all organizations strive to bring their own existential definitions of order. In this process, management has been the tool of bringing order to organization. In the organizational theory literature, this chaotic essence is either ignored or it is treated as a problem of good implementation of managerial control. In this chapter, the problem has been treated using non-linear techniques, considering the organizational reality. Chapter 8 Fostering Creative Transformations in Organizations with Chaos ....................................................162 Robert Pryor, Australian Catholic University, Australia Jim Bright, Australian Catholic University, Australia In this chapter, the authors investigated the chaos theory in careers, applied to organizational behav- ior. The organizations and the corresponding people can be considered as a complex dynamical open systems - or strange attractors. From this perspective organizational behavior can be understood in nonlinear dynamics terms such as attractors, fractal patterns, emergence, and phase shifts. A model of organizational and personal creativity is presented and linked to concepts such as fractal behavior, career development, and the re-thinking of traditional goal-centered approaches to management and change. For organizations to thrive in a world that is inevitably complex, uncertain, and changing, the Chaos Theory of Careers provides a coherent management framework and suggests approaches that will foster the development of a creative and flexible organization to meet these contemporary challenges. Chapter 9 To Be on the Edge of Chaos with Organizational Intelligence and Health .......................................182 Sefika Sule Erqetin, Hacettepe University, Turkey Nihan Potas, Gazi University, Turkey Nuray Kisa, Hacettepe University, Turkey Suay Nilhan Acikalm, Middle East Technical University, Turkey The aim of this chapter to make a relationship between organizations and complex systems, and how they manage to creatively maintain their existence on the edge of chaos, foster complexity, and renew themselves. The overall shift in academic thought that has given rise to these theories and this terminol- ogy is also examined, with an emphasis on the ways various terms have been used in previous literature. The authors also presented some literature review on organizational intelligence, organizational stupidity, psychological organizational health, and physical organizational health. Finally, they produced a model that represents how organizations are able to exist on the edge of chaos, based on concrete measurements of the four dimensions mentioned above, taken over certain limited time spans. Chapter 10 Teams and Complexity: Merging Theories towards a Finite Structure .............................................202 Dimitris N Antoniadis, Danton-progm, UK In this chapter, the author proposes a scheme of structuring teams using complex adaptive systems. Therefore, using deductions drawn from research results, regarding the implementation of the process and the effects of complexity, a tentative proposal for a Finite Structural approach is made for setting up and testing the structure of teams. The process integrates a number of progressive theories, not only from the field of organization design, but also from engineering, physics, and psychology, with theories such as Social Network Theory, Actor-Network Theory, Finite Element Analysis, complexity, cluster- ing, and cross functional team behaviors. The author also discusses the improvement of the approach for project managers and the process of structuring of teams. Section 3 Complexity in Risk and Cognitive Management Chapter 11 Drifting into Failure: Complexity Theory and the Management of Risk ..........................................241 Sidney W. A. Dekker, Griffith University, Australia The Gaussian copula, in itsfirst equation, has the intention to price collaterized debt obligations, and work out whether they are moving in the same direction. The copula was an enabler of mortgaging the most hopeless of homeowner prospects. Millions of securities could be traded on the back of a single number (a security is something that shows ownership, or right of ownership of stocks or bonds, or the right to ownership connected with derivatives that get their value from some underlying asset). As more and more webs of interactions and relationships and interdependencies and feedback loops started growing around it, however, it became part of a complex system. It ended up bringing global lending to a virtual standstill, triggering a worldwide financial crisis and a deep recession. This chapter investigates how a once good idea drifted into failure, and how such a risk of collapse can be managed. Chapter 12 Cognition and Complexity: An Agent-Based Model of Cognitive Capital under Stress...................254 L. Douglas Kiel, University of Texas at Dallas, USA John McCaskill, University of Texas at Dallas, USA In this chapter, the authors presented an agent-based model of the dynamics of cognitive capital in a simulated workplace. Factors such as stress, sleep insufficiency, and excessive work function to reduce the cognitive capital among workers. The cognitive capital in this microworld is tracked among agents suffering from stress, sleep insufficiency, and excessive work. They have also investigated how cogni- tive capital changes under varying cognitive enrichment scenarios. Simulation results well support the theoretical analysis. Section 4 Nonlinearity in Water and Land Cover Management Chapter 13 Managing Fisheries in Light of Complexity and Chaos Theories .....................................................270 Manuel Alberto Martins Ferreira, Instituto Universitdrio de Lisboa (ISCTE-IUL), BRU-UNIDE, Portugal Manuel Francisco Pacheco Coelho, SOCIUS/ISEG-UTL, Portugal Maria Isabel Pedro, CEGIST/IST, Portugal Jose Antonio Candeias Bonito Filipe, Instituto Universitdrio de Lisboa (ISCTE-IUL), BRU-UNIDE, Portugal The authors present how nonlinear analysis, applied in the context of ecological systems, especially in the context of fisheries, has allowed the recognition of the relevance of this kind of theories to explain fishing events. It raises new advances in the study of marine systems, contributing to the preservation offish stocks. Chapter 14 A Comparative Study of Four Different Satellite Image Classification Techniques for Geospatial Management.......................................................................................................................................283 Devanjan Bhattacharya, Indian Institute of Science, India University of Pardubice, Czech Republic Santo Banerjee, Institute for Mathematical Research, University Putra Malaysia, Malaysia International Science Association, Turkey Satellite imageries interpretation has become the technology of choice for a host of developmental, sci- entific, and administrative management work. The huge repository of geospatial data and information that are available as satellite imageries datasets from platforms such as Google Earth need to be classified and understood for natural resources management, urban planning, and sustainable development. The classification and analysis procedures involve algorithms like Maximum Likelihood Classifier, Isodata, Fuzzy-logic classifier, and Artificial Neural Network based classifier. Amongst these classifiers, the op- timum has to be selected for classifications which involve multiple features and classes. Herein lies the motivation for the present research, which facilitates the selection of one amongst the many algorithms available to a decision maker/manager. The aforementioned techniques are applied for classification, and the respective accuracies in the classes: forestry, rock, water, built-up area, and dry river bed have been tabulated and verified from ground truth. The comparison is based on time and space complexity of the algorithms considering also the accuracy. It is found that traditional methods like MLC and Iso- data offer good time and space consumption performance over the recent more adaptable algorithms as fuzzy and ANN. But the latter group excels in accuracy of assessment. The study suggests points and cases for ranking the techniques as best, 2nd best, and so on, where each technique could be optimally utilized for a given geospatial dataset based on its contents. Section 5 Chaos in Management and Econo-Physics Chapter 15 Managing Chaos in Nonlinear Economic Systems: Globalization and Destination Tourism ...........297 Sam Cole, University at Buffalo, USA The Lorenz system has been advanced as an explanation of the chaotic growth patterns observed human settlements. It is questioned, however, whether the growth potential in population systems is sufficient for chaos. With the modified logistic equation, the author demonstrates using data from the Caribbean that solutions and trajectories can replicate formal criteria for chaos. Theoretically, the reason for this, in addition to the availability of investment, demand, information, and labor (which alleviate the con- ventional restrictions on growth), is the demand and supply-side synergies between activities within a dynamic market-segmented sector. This chapter presents continuous and discrete solutions to the model and explains key findings for destination take-off, accelerated growth, and economic maturity, with a rule for modulating and managing chaos-prone economic systems. Chapter 16 DemoscopoPhysics: ANew and Interdisciplinary Research Field....................................................315 M.P. Hanias, National and Kapodistrian University of Athens, Greece L.Magafas, Kavala Institute of Technology, Greece The authors introduce the term DemoscopoPhysics, the latest interdisciplinary research field that applies theories and methods originally developed by physicists in order to predict election results by using mainly nonlinear and chaotic dynamics. For this purpose they have applied chaotic analysis on samples from political survey for the Euro election results in Hellas in 2009 , and also for the Hellenic National elections of October 4, 2009 in order to predict election results. Chapter 17 Optimal Variability and Complexity: A Novel Approach for Management Principles......................328 Joshua L Haworth, University of Nebraska at Omaha, USA University of Nebraska Medical Center, USA Srikant Vallabhajosula, Elon University, USA George Tzetzis, Aristotle University ofThessaloniki, Greece Nicholas Stergiou, University of Nebraska at Omaha, USA University of Nebraska Medical Center, USA In this chapter, the authors propose that a dynamical system theoretical approach to the organization of the management system is the ideal scenario. This approach lends well to the inclusion of discovery learning strategies that promote the valuable use of optimal variability in the exploration and self-discovery of optimal solutions to existent and novel problems. They present a brief history of the development of the systems perspective on human movement optimization and extend the related discoveries to applications within management systems. Chapter 18 Nonlinear Dynamics of Voltage Fluctuation in Power Plants for Strategic Decisions......................352 Kousik Guhathakurta, Indian Institute of Management Kozhikode, India Santo Banerjee, Institute for Mathematical Research, University Putra Malaysia, Malaysia International Science Association, Turkey Pranab KDan, West Bengal University of Technology, India The stability of output of a power station is an important criterion for power supply. It is always desired that the voltage and frequency of output of any power plant should be stable. The nature of fluctuations, if any, in the output, needs thorough investigation. If the fluctuation has high degree of chaos as revealed by the time series representing the voltage, then such fluctuation may be controlled by introducing uncon- ventional sources of power like hydro, wind, et cetera in the grid. The authors analyzed the daily voltage output from five different thermal power stations in Eastern India. To analyze the dynamics of the time series, the authors used the techniques from nonlinear dynamics Delay Embedded Phase Reconstruction and Empirical Mode Decomposition. The studies show that the dynamics of the time path of voltage output of Biharshariff, Maithon, and Jeypore power plants are more or less chaotic in nature. Therefore, it may be inferred that in those particular grids, other sources of power generation may be introduced. Chapter 19 Nonparametric Estimation of Nonlinear Dynamics by Local Linear Approximation.......................368 Isao Shoji, University ofTsukuba, Japan This chapter presents a nonparametric estimation of nonlinear dynamical system models by a method of metric-based local linear approximation. By specifying a metric such as the standard metric or the square metric on the Euclidean space and a weighting function based on such as the exponential function or the cut-off function, it is possible to estimate values of an unknown vector field from experimental data. It can be shown the local linear fitting with the Gaussian kernel, or the local polynomial modeling of degree one, is included in the class of the proposed method. In addition, conducting simulation studies for estimating random oscillations, the method works well for numerical results. Compilation of References ..............................................................................................................380 About the Contributors ...................................................................................................................414 Index..................................................................................................................................................424
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spelling	Banerjee, Santo 1976- Verfasser (DE-588)1089844972 aut Chaos and complexity theory for management nonlinear dynamics Santo Banerjee Hershey, PA Business Science Reference 2013 XX, 427 S. Ill., zahlr. graph. Darst. txt rdacontent n rdamedia nc rdacarrier Premier reference source "This book explores the chaos and complexity theory and its relationship with the understanding of the natural chaos in the business environment and utilizing these theories to aid in comprehending the development of businesses as a complex adaptive system"--Provided by publisher. Literaturverz. S. 380 - 413 Index S. 424 - 427 Organizational behavior Chaotic behavior in systems Management Nonlinear theories 1\p (DE-588)4143413-4 Aufsatzsammlung gnd-content Erscheint auch als Online-Ausgabe 978-1-466-62510-5 HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=027512584&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk
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title	Chaos and complexity theory for management nonlinear dynamics
title_auth	Chaos and complexity theory for management nonlinear dynamics
title_exact_search	Chaos and complexity theory for management nonlinear dynamics
title_full	Chaos and complexity theory for management nonlinear dynamics Santo Banerjee
title_fullStr	Chaos and complexity theory for management nonlinear dynamics Santo Banerjee
title_full_unstemmed	Chaos and complexity theory for management nonlinear dynamics Santo Banerjee
title_short	Chaos and complexity theory for management
title_sort	chaos and complexity theory for management nonlinear dynamics
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topic	Organizational behavior Chaotic behavior in systems Management Nonlinear theories
topic_facet	Organizational behavior Chaotic behavior in systems Management Nonlinear theories Aufsatzsammlung
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