[[abstract]]In this paper, we develop themes from complexity and chaos theory that help to explain the technological change process. We apply two quantifiers, correlation dimensions and Lyapunov exponents, to examine the signs and degrees of chaotic technological dynamics. To illustrate our ideas, we study the development of electronic displays from 1976 to 2010, using patent data. The results of the chaos model are matched against the profiles of patent citations. Our analysis contributes to the development of a chaotic model of technological change.[[notice]]補正完畢[[journaltype]]國外[[incitationindex]]SSCI[[ispeerreviewed]]Y[[booktype]]紙本[[booktype]]電子版[[countrycodes]]NL
We study a simple model for the evolution of the cost (or more generally the performance) of a techn...
Increasingly, economists concur that innovation processes are far from equilibrium phenomena. Indee...
Sensitive dependence on initial conditions is a major characteristic of chaotic systems. This articl...
[[abstract]]In this paper, we draw upon the concepts of chaos theory to examine technological change...
Strategy formulation for high-technology products is very difficult. The short life cycles, and rapi...
Strategy formulation for high-technology products is very difficult. The short life cycles, and rapi...
A recurrent refrain among technology management researchers and practitioners is the need to adapt t...
International audienceObjective - This article aims at showing that management control should drop c...
A long tradition explains technological change as recombination. Within this tradition, this Element...
The timeline of the history of computing machines can probably be traced back to early calculation a...
Unlike more stable industries, high-tech firms must constantly be in a strategy development phase. T...
Most of the recent literature on chaos and nonlinear dynamics is written either for popular scienc...
This Handbook presents a systematic attempt to show how building upon the achievements of the econom...
Unlike more stable industries, high-tech firms must constantly be in a strategy development phase. T...
Between the 1760s and 1980s, we have experienced at least three industrial revolutions. We explain s...
We study a simple model for the evolution of the cost (or more generally the performance) of a techn...
Increasingly, economists concur that innovation processes are far from equilibrium phenomena. Indee...
Sensitive dependence on initial conditions is a major characteristic of chaotic systems. This articl...
[[abstract]]In this paper, we draw upon the concepts of chaos theory to examine technological change...
Strategy formulation for high-technology products is very difficult. The short life cycles, and rapi...
Strategy formulation for high-technology products is very difficult. The short life cycles, and rapi...
A recurrent refrain among technology management researchers and practitioners is the need to adapt t...
International audienceObjective - This article aims at showing that management control should drop c...
A long tradition explains technological change as recombination. Within this tradition, this Element...
The timeline of the history of computing machines can probably be traced back to early calculation a...
Unlike more stable industries, high-tech firms must constantly be in a strategy development phase. T...
Most of the recent literature on chaos and nonlinear dynamics is written either for popular scienc...
This Handbook presents a systematic attempt to show how building upon the achievements of the econom...
Unlike more stable industries, high-tech firms must constantly be in a strategy development phase. T...
Between the 1760s and 1980s, we have experienced at least three industrial revolutions. We explain s...
We study a simple model for the evolution of the cost (or more generally the performance) of a techn...
Increasingly, economists concur that innovation processes are far from equilibrium phenomena. Indee...
Sensitive dependence on initial conditions is a major characteristic of chaotic systems. This articl...