[ Modélisation de la gouvernance technologique ]
Volume 32, Issue 2, September 2017, Pages 307–316
Majid AJEDDI1
1 Department of management, University Mohammed V, Rabat, Morocco
Original language: French
Copyright © 2017 ISSR Journals. This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
In this paper, we study the technological governance dynamic international within a new frame work which extends models used in the literature. The technological governance is now recipient of the technological projects within the new organizations. Which are the rules of technological governance international like its borders? Which are the methods of its quantification? The objective of our research is then to construct a global model of evaluation of the technological governance dynamic by method of physical science. Firstly, we will try to formulate the equation the technological governance. Secondly, we will borrow the model of dynamic Newtonian. In order to be clarified on the evaluation and measure of the technological governance and to find out the variable upon which it depends. Kinematics and Newtonian dynamics will serve to quantify the technological advance of firm or industry which will make it possible to inform the decision makers about the state of health of their technology and to guide them in their ulterior strategic choices.
Author Keywords: Governance, Technological Dynamics, Physics, Patents, R&D.
Volume 32, Issue 2, September 2017, Pages 307–316
Majid AJEDDI1
1 Department of management, University Mohammed V, Rabat, Morocco
Original language: French
Copyright © 2017 ISSR Journals. This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
Abstract
In this paper, we study the technological governance dynamic international within a new frame work which extends models used in the literature. The technological governance is now recipient of the technological projects within the new organizations. Which are the rules of technological governance international like its borders? Which are the methods of its quantification? The objective of our research is then to construct a global model of evaluation of the technological governance dynamic by method of physical science. Firstly, we will try to formulate the equation the technological governance. Secondly, we will borrow the model of dynamic Newtonian. In order to be clarified on the evaluation and measure of the technological governance and to find out the variable upon which it depends. Kinematics and Newtonian dynamics will serve to quantify the technological advance of firm or industry which will make it possible to inform the decision makers about the state of health of their technology and to guide them in their ulterior strategic choices.
Author Keywords: Governance, Technological Dynamics, Physics, Patents, R&D.
Abstract: (french)
L'objectif de cette recherche est donc la construction d'un modèle global d'évaluation de la gouvernance technologique (GT) par deux méthodes de la science physique. Dans un premier temps, nous allons essayer de formuler l'équation de propagation de la gouvernance technologique et de voir aux quelles variables elle dépend le plus, en nous inspirant du modèle de la physique ondulatoire. Dans un second temps, nous emprunterons le modèle de la dynamique physique (la cinématique et la dynamique Newtonienne) pour nous éclairer sur l'évaluation et la mesure de la GT. Cette dernière serve à quantifier l'avance technologique d'une entreprise ou d’une industrie ou d'un pays, afin de guider les décideurs sur l'état de santé de leur technologie, donc de leur survie.
Author Keywords: Gouvernance, Dynamique technologique, Physique, Brevets, R&D.
How to Cite this Article
Majid AJEDDI, “The modeling of technological governance,” International Journal of Innovation and Scientific Research, vol. 32, no. 2, pp. 307–316, September 2017.
