Science Journal of Business and Management
Volume 6, Issue 2, April 2018, Pages: 38-44
Received: Jul. 31, 2018;
Published: Aug. 1, 2018
Views 830 Downloads 82
Kumchol Ri, School of Management, Harbin Institute of Technology, Harbin, China; Life Science Department, University of Science, Pyongyang, Democratic People’s Republic of Korea
Yanqing Wang, School of Management, Harbin Institute of Technology, Harbin, China
Xiran Zhang, School of Computer Science and Technology, Harbin Institute of Technology, Harbin, China
While scientific theories such as genetic engineering and gene editing technology have an impact on the biological field, researchers have gradually been applied the theory of biological genetics to specific fields such as computers, knowledge innovation, and design innovation. Many researchers have shown that innovators have specific characteristics that differ from those of the general population and reported on these factors extensively. However, few studies have been reported to consider these innovator-specific factors as innovative genes and to evaluate innovators. In this study, these characteristics specific to the innovator were considered as the human social genes equivalent to human biological genes and the relevance between them was examined. As results, the biological genetic theory was integrated with the innovative theory and a theoretical model of innovative genetics was proposed based on the concepts of innovative genes and innovative chromosomes. Their roles were also pointed out in the innovative process, along with a model of innovation genes, innovative chromosomes, and innovative education that promote innovators' innovation.
Innovator’s Innovative Genetic Model: From Biological to Social Perspective, Science Journal of Business and Management.
Vol. 6, No. 2,
2018, pp. 38-44.
K. Z. Chen, X. A. Feng, and X. C. Chen, Reverse deduction of virtual chromosomes of manufactured products for their gene-engineering-based innovative design. CAD Computer Aided Design, 2005, 37 (11), 1191-1203.
Y. T. Fu and S. J. Luo, Style perception-oriented product family shape gene design. Computer Integrated Manufacturing System, 2012, 18 (3), 449-457.
C. Jiang, Y. L. Yu, and Y. S. Huai, Product innovation design method based on pan-ethnic group design gene. Applied mechanics and Materials, 2013, 365-366, 1251-1254.
Z. Y. Wang, S. F. Wu, and H. B. Qin, Research on stacker’s variant design based on gene model. Advanced Materials Research, 2011, 215, 351-355.
Y. X. Feng, Y. C. Gao, and Z. Y. Mai, Assembly model and design thinking: A study of assembly scheme based on gene model. Assembly Automation, 2013, 33 (3), 272-281.
X. J. Liu, Y. Sun, and J. F. Wu, Product’s gene regulatory network model and its aiding to design process. Computer Integrated Manufacturing Systems, 2013, 19 (7), 1463-1471.
D. J. Teece, Profiting from technological innovation: implications for integration, collaboration, licensing and public policy, Research Policy, 2014, 15 (6), 285-305.
P. S. Aithal, An innovative education model to realize ideal education system, international journal of scientific research and management, 2015, 3 (3), 2464-2469.
J. Pereira and T. Murzyn, Integrating the “new” with the “traditional”: An innovative education model, Journal of Palliative medicine, 2001, 4 (1), 31.
C. Freeman, L. Soete, The economics of industrial innovation, MIT Press, 1997, 7 (2), 215-219.
A. R. Boyatzis, The competent manager：A model for effective performance. New York, John Wiley, 1982, 20–21.
L. M. Spencer Jr. and S. M. Spencer, Competence at work: Model for performance. New York: John Wiley and Sons, 1993, 132–133.
F. Galton, Hereditary genius: An inquiry into the consequences. New York, Appleton, 1869.
M. K. Cattell, Statistics of American psychologists, American Journal of Psychology, 1903, 14 (6), 310-328.
L. M. Chassell, Tests for originality, Journal of Educational Psychology, 1916, 7 (6), 317-328.
R. Joseph, The psychology of inventor: A study of the patentee. Washington, DC: Inventor press, 1931.
W. Graham, The art of thought. London, C. A. Watts, 1945.
R. Anne, The making of a scientist. New York: Dodd Mead, 1952.
J. P. Guilford, Three faces of intellect. American Psychologist, 1959, 14 (8), 469-479.
M. V. Klarin, Conceptual challenges in understanding innovative education in organizational context, International Journal of Cognitive Research in science, Engineering and Education, 2010, 4 (1), 67-71.
J. J. Yue and L. J. Feng, The empirical research for taking technology innovation genes and forming chromosomes based on coal-bed gas mining, 2016 Global Congress on Manufacturing and Management, Procedia Engineering 174 (2017), 227-231.
X. J. Liu, Y. Sun, and J. F. Wu, Gene regulatory network model for product industrial design, Journal of Theoretical and Applied Information Technology, 3013, 48 (3), 1606-1611.
H, James. J. Donnelly, and M. John, A methodology for identifying innovator characteristics of new brand purchasers, Journal of Marketing Research, 1974, 11 (3), 331-334.
H. Katharina, N. Martina, and G. G. Han, Motivation and commitment in innovation management-personal characteristics of innovators, International Journal of Innovation Management, 2011, 12-34.
A. Griffin, R. Price, M. Maloney, and B. Vojak, Voices from the field: How exceptional electronic industrial innovator, Journal of product Innovation management, 2009, 26, 222-240.
M. A. Glynn, Innovative genius: a framework for relating individual and organizational intelligences to innovation. Academy of management Review, 1996, 21, 4, 1081-1111.
H. G. Gemunden, S. Salomo, and K. holzle, Role models for radical innovations in times of open innovation. Creativity and Innovation Management, 2007, 16, 408-421.
W. John and J. Loy, Social psychological characteristics of innovators, American Sociological Review, 1969, 34 (1), 73-82.
N. Martina and H. Katharina, Personal characteristics of innovators: An empirical study of roles in innovation management, International Journal of innovation management, 2010, 14 (6), 1129-1147.
J. M. Howell, C. M. Shea, and C. A. Higgins, Champions of product innovation: defining, developing, and validating a measure of champion behavior. Journal of Business Venturing, 2005, 20, 641-661.