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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

A mathematical model to determine strategic options for a firm using time based financial accounting and physics equations

Carias, Rui Manuel Roteiro January 2007 (has links)
Executive Summary This report uses modified physics and the basic business relationship equations to describe the business system. The physics - business equations are derived using conformal mapping, while thermodynamic and kinematic relationships are further developed and related before being applied to a business situation. The system developed has general applicability to business and can be used for strategic competitive positioning, amongst other postulated uses. The main purpose of this project is to build on existing work in the area of process modeling and strategy formulation to define a quantitative management tool that will effectively enable the formulation of a generic framework, to measure the effects of various strategic options using time based financial management and physics models. The main aims of this research project are to provide an evaluative summary of the existing literature on the applications of process modeling and physics to business limited in scope to competitive strategic planning through a literature review of existing business models and the subsequent development of a mathematical model based on kinematics and thermodynamics for strategic formulation. From the literature review derive a mathematical framework relating business and physics based on an indirect relationship of physical laws to business models based on existing knowledge. Further explain why the derived model has applications to business, and derive a non-rigorous mathematical proof thereof. From these equations make recommendations on how this model can be utilised as a tool to assist in strategy formulation. Thereafter provide statistical proof that the model is applicable to a defined set of companies and show by means of applications how to determine optimal strategies using the model. The main objectives of the research project are to utilise the quantitative tool to determine where a company is, and where it should position itself in future to optimise its competitive position. Further, the framework must be developed into a strategic tool that would allow for the fast turnaround in the implementation of strategy, and the ability to quickly predict necessary changes in direction. The statistical hypothesis tested asks if it is possible to relate the laws of physics to business and use the resultant mathematical framework to analyse a firm’s competitive position in an industry and position it accordingly. From the derived equations a mathematical model to determine strategic options for a firm using time based financial accounting principles and physics equations can be formulated and used to find profitable options for a firm. By implication the model can be applied to strategic positioning of the firm. Unfortunately there is no work in the literature reviews to build this study on and much of it is built from first principles. This leads to complex mathematical relationships, which may prove difficult to follow. .
2

A mathematical model to determine strategic options for a firm using time based financial accounting and physics equations

Carias, Rui Manuel Roteiro January 2007 (has links)
Executive Summary This report uses modified physics and the basic business relationship equations to describe the business system. The physics - business equations are derived using conformal mapping, while thermodynamic and kinematic relationships are further developed and related before being applied to a business situation. The system developed has general applicability to business and can be used for strategic competitive positioning, amongst other postulated uses. The main purpose of this project is to build on existing work in the area of process modeling and strategy formulation to define a quantitative management tool that will effectively enable the formulation of a generic framework, to measure the effects of various strategic options using time based financial management and physics models. The main aims of this research project are to provide an evaluative summary of the existing literature on the applications of process modeling and physics to business limited in scope to competitive strategic planning through a literature review of existing business models and the subsequent development of a mathematical model based on kinematics and thermodynamics for strategic formulation. From the literature review derive a mathematical framework relating business and physics based on an indirect relationship of physical laws to business models based on existing knowledge. Further explain why the derived model has applications to business, and derive a non-rigorous mathematical proof thereof. From these equations make recommendations on how this model can be utilised as a tool to assist in strategy formulation. Thereafter provide statistical proof that the model is applicable to a defined set of companies and show by means of applications how to determine optimal strategies using the model. The main objectives of the research project are to utilise the quantitative tool to determine where a company is, and where it should position itself in future to optimise its competitive position. Further, the framework must be developed into a strategic tool that would allow for the fast turnaround in the implementation of strategy, and the ability to quickly predict necessary changes in direction. The statistical hypothesis tested asks if it is possible to relate the laws of physics to business and use the resultant mathematical framework to analyse a firm’s competitive position in an industry and position it accordingly. From the derived equations a mathematical model to determine strategic options for a firm using time based financial accounting principles and physics equations can be formulated and used to find profitable options for a firm. By implication the model can be applied to strategic positioning of the firm. Unfortunately there is no work in the literature reviews to build this study on and much of it is built from first principles. This leads to complex mathematical relationships, which may prove difficult to follow. .

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