Process of sustainable project development with Rubik’s Cube using Game Theory interpretations

Fogarassy, Csaba and Bakosné Böröcz, Mária and Molnár, Sándor (2014) Process of sustainable project development with Rubik’s Cube using Game Theory interpretations. INTERNATIONAL JOURNAL OF ADVANCED AND INNOVATIVE RESEARCH, 3 (10). pp. 1-6. ISSN 2278-7844


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It is very difficult to calculate in advance the positive and negative long-term impacts of an sustainable investment, or a development venture. A serious global problem arises from the fact that numerous environmental-protection oriented private and government ventures are implemented in an incorrect manner significantly impair the conditions of both the environment and the economy (market). There is a high number of innovative energy related investments, waste and water management projects, etc. in Europe, which cause more harmful effects then was earlier. Various sustainability logics can be synchronised with the 3×3×3 Rubik’s Cube’s solution algorithms, and the relations of the cube’s sides define a planning strategy that provides a new scientific approach for investment planning. We theoretically evaluated the various solution processes, and paralell investment planning levels following the solution levels and stages of the cube. After these various level-evaluations, we made „low-carbon interpretation” summaries. According to the hypothesis on the solution algorithms of the Rubik’s Cube, the parts rotated next to each other, meaning the project attributes which have an impact on each other, have a relation system which can be defined in mathematical terms, therefore, their point of balance (e.g. Nash’s) can also be determined by Game Theory models (games of finite kind, zero sum games, oligopolistic games, etc.). In this paper, we would also like to prove that the hypothesis which states that the solution algorithm of Rubik’s Cube, namely the “Layer by layer” method, can be used to model the process of project development. Also, the correspondence system of project attributes can be represented by the proper Game Theory models. This way, the various enviro- and climate-friendly investments can be realized in a well-plannable, low-risk economic environment regarding both human resource planning and the preserving and advancement of environmental criteria.

Item Type: Article
Subjects: H Social Sciences / társadalomtudományok > H Social Sciences (General) / társadalomtudomány általában
Q Science / természettudomány > Q1 Science (General) / természettudomány általában
Q Science / természettudomány > QA Mathematics / matematika
Depositing User: MTMT SWORD
Date Deposited: 03 Apr 2015 08:01
Last Modified: 03 Apr 2015 08:01

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