Title

Research and Analysis of Human Resource Management in Private Retail Enterprises Based on Double layer game model

DOI

10.6919/ICJE.201908_5(9).0034

Authors

Wang Yu

Key Words

Double-layer game model ; Private retail enterprise ; Human resource management ; Empirical analysis

PublicationName

International Core Journal of Engineering

Volume or Term/Year and Month of Publication

5卷9期(2019 / 08 / 01)

Page #

209 - 220

Content Language

英文

Chinese Abstract

With the entry of human society into the "Internet +" new economic era, private retail enterprises have developed rapidly. As a result, people also feel that the development and utilization of human resources is playing an increasingly important role. Human resource management has evolved from a management function that maintains the normal operation of the organization to a strategic management level of private retail enterprises. The role of human resource management in the improvement of corporate performance has gradually been recognized, and its role at the strategic level has been confirmed by the practice of retail industry. The idea of strengthening the development and management of human resources in retail enterprises has gradually been adopted by major retailers all over the world. More and more enterprises have begun to put human resources management in the strategy of determining the survival and development of enterprises. Highly think, so as to effectively achieve the expected goals, implementation effects and human resources management work evaluation of human resources management activities, and how to improve human resource management, making retail enterprises run more efficiently, many companies have tried various method. At this point, the double-layer game model theory has been developed and widely used in the process of enterprise human resource management. For more in-depth analysis, this paper studies the application of the two-layer game model in private retail enterprises, and carries out empirical analysis, and finds that the theory can effectively improve the efficiency and efficiency of enterprises, and the practical value is very obvious.

Topic Category 工程學 > 工程學綜合
Reference
  1. Wang Q, Tang D, Yin L, et al. Bi-objective optimization for low-carbon product family design . Robotics and Computer-Integrated Manufacturing,Vol. 42 (2016) No. 23, p. 53-65.
    連結:
  2. Yoon S H, Huo K, Paredes L, et al. Integration of Sustainability Into Early Design through the Function Impact Matrix . Journal of Mechanical Design,Vol. 8 (2015) No. 132, p. 1-8.
    連結:
  3. Baud-Lavigne B, Agard B, Penz B. Environmental constraints in joint product and supply chain design optimization . Computers & Industrial Engineering(2015) No. 42, p. 16-22.
    連結:
  4. Madu C N, Kuei C, Madu I E. A hierarchic metric approach for integration of green issues in manufacturing: a paper recycling application . Journal of environmental management,Vol. 6 (2016) No. 23, p.261-272.
    連結:
  5. Tseng H E, Chang C C, Li J D. Modular design to support green life-cycle engineering . Expert Systems with Applications, ,Vol. 4 (2018) No. 34, p.2524-2537.
    連結:
  6. Jeswiet J, Kara S. Carbon emissions and CES in manufacturing . CIRP Annals-Manufacturing Technology, Vol. 1 (2018) No. 57, p.17-20.
    連結:
  7. Fang K, Uhan N, Zhao F, et al. A new approach to scheduling in manufacturing for power consumption and carbon footprint reduction . Journal of Manufacturing Systems, Vol. 4 (2017) No. 30, p. 234-240.
    連結:
  8. Su J C P, Chu C H, Wang Y T. A decision support system to estimate the carbon emission and cost of product designs . International Journal of Precision Engineering and Manufacturing, Vol. 7 (2016) No. 13, p.1037-1045.
    連結:
  9. Ji Y, Jiao R J, Chen L, et al. Green modular design for material efficiency: a leader–follower joint optimization model . Journal of Cleaner Production, Vol. 41 (2018) No. 23, p.187-201.
    連結:
  10. Chang T R, Wang C S, Wang C C. A systematic approach for green design in modular product development . The International Journal of Advanced Manufacturing Technology, Vol. 9 (2018) No. 68, p.2729-2741.
    連結:
  11. Hart S L. A natural-resource-based view of the firm . Academy of management review, Vol. 4 (2015) No. 20, p.986-1014.
    連結:
  12. Ashby A, Leat M, Hudson-Smith M. Making connections: a review of supply chain management and sustainability literature . Supply Chain Management: An International Journal, Vol. 5 (2016) No. 17, p.497-516.
    連結:
  13. Dangelico R M, Pontrandolfo P, Pujari D. Developing sustainable new products in the textile and upholstered furniture industries: role of external integrative capabilities . Journal of Product Innovation Management, Vol. 4 (2016) No. 30, p. 642-658.
    連結:
  14. Sroufe R, Curkovic S, Montabon F, et al. The new product design process and design for environment: “Crossing the chasm” . International Journal of Operations & Production Management, Vol. 2 (2018) No. 20, p.267-291.
    連結:
  15. Tsoulfas G T, Pappis C P. Environmental principles applicable to supply chains design and operation . Journal of Cleaner Production, Vol. 14 (2016) No. 18, p. 1593-1602.
    連結:
  16. Wang X, Chan H K, White L. A comprehensive decision support model for the evaluation of eco-designs . Journal of the Operational Research Society, 2016, 65(6): 917-934.
    連結:
  17. Jeong I T, Lee K M. Assessment of the ecodesign improvement options using the global warming and economic performance indicators . Journal of Cleaner Production, ,Vol. 7 (2018) No. 13, p. 1206-1213.
    連結:
  18. Kuo T C. The construction of a collaborative framework in support of low carbon product design . Robotics and Computer-Integrated Manufacturing, ,Vol. 4 (2018) No. 29, p.174-183.
    連結:
  19. Xu Z Z, Wang Y S, Teng Z R, et al. Low-carbon product multi-objective optimization design for meeting requirements of enterprise, user and government . Journal of Cleaner Production, ,Vol. 6 (2016) No. 103, p. 747-758.
    連結:
  20. Tang D, Wang Q, Ullah I. Optimisation of product configuration in consideration of customer satisfaction and low carbon . International Journal of Production Research, ,Vol. 5 (2017) No. 12 p. 3349-3373.
    連結:
  21. Australian Government. Clean Energy Act 2011. Available at: http:// www. comlaw.gov.au/Details,Vol. 6 (2015) No. 23, p.125-129.
  22. Tischner U, Charter M. Sustainable solutions: developing products and services for the future . Greenleaf, (2016).
  23. International Energy Agency, International Energy Agency. Tracking industrial energy efficiency and CO2 emissions. Organisation for Economic Co-operation and Development, (2017).
  24. Albino V, Balice A, Dangelico R M, et al. The effect of the adoption of environmental strategies on green product development: a study of companies on world sustainability indices . International Journal of Management, Vol. 2 (2016) No. 29, p.525.
  25. Yi-Chan C, Tsai C H. The effect of green design activities on new product strategies and performance: An empirical study among high-tech companies . International Journal of Management, Vol. 2 (2017) No. 24, p.276.
  26. Eichner T, Pethig R. Corrective taxation for curbing pollution and promoting green product design and recycling . Environmental and Resource Economics, Vol. 4 (2016) No. 25, p.477-500.
  27. Kam-Sing Wong S. The influence of green product competitiveness on the success of green
  28. product innovation: Empirical evidence from the Chinese electrical and electronics industry . European Journal of Innovation Management, Vol. 4 (2016) No. 15, p. 468-490.
  29. Jia Liying, analysis of the application of human resource management in China's retail management. Health Economics Research, ,Vol. 6 (2016) No. 9, p. 30-31.
  30. Ye Wei, Ye Ping, et al. Discussion on the application of the two-layer game model mechanism in management work. Gannan Medical College, ,Vol. 5 (2018) No. 22, p. 591-592.