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지속가능한 BSC를 사용한 그린 IT 전략 실행과제들의 평가

Evaluating Green IT Initiatives Using the Sustainability Balanced Scorecard

  • 박정선 (명지대학교 산업경영공학과)
  • Park, Jeong-Sun (Department of Industrial Engineering Management, MyungGi University)
  • 투고 : 2017.07.21
  • 심사 : 2017.09.11
  • 발행 : 2017.09.30

초록

Performance evaluation has been done using financial indices which are generally regarded as inappropriate for the organizations which are innovative and progressive. Thus, the Balanced Scorecard(BSC) was developed considering long term performance and invisible performance. This BSC has four perspectives of finance, customer, internal operation, and learning. Based on the BSC, a new BSC has been derived with a fifth view of environmental and social perspective, which is now called as a Sustainability BSC. In this study, we evaluated Green IT initiatives using the Sustainability BSC. The initiatives are categorized as RFID, telepresence, paperless office, logistics management etc. The initiatives were evaluated from the view of five perspectives, resulting in high cor relationships among finance, internal operation, and environmental and social perspectives. Namely, good initiatives from the view of environmental/social perspective are also evaluated as good from the view of finance and internal operation perspectives. In this study, we recommend organizations to introduce Green IT initiatives by showing how Green IT initiatives have contributed to the organizations.

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참고문헌

  1. R. Kaplan, D. Norton (1996), The Balanced Scorecard: Translating Strategy into Actions. Harvard Business School Press.
  2. R. P. Jain, R. Benbunan‐Fich, K. Mohan (2011), "Accessing Green IT Initiatives Using the Balanced Scorecard". IEEE Computer Society, IT Profesional, 13:26-32 https://doi.org/10.1109/MITP.2010.139
  3. T. A. Sobotta, N. I. Sobotta, E. J. GOTZ (2009), Greening IT: How Greening IT Can Form a Solid Base For a Low‐Carbon Society. Creative Commons.
  4. Z. Lu, et al. (2007), "RFID‐based Information Management in the Automotive Plastic Recycling Industry", Information Technologies in Environmental Eng, Springer:397-408.
  5. A. Ilic, T. Staake, E. Fleisch (2009), "Using Sensor Information to Reduce the Carbon Footprint of Perishable Goods", IEEE Pervasive Computing, 8(1):22-29. https://doi.org/10.1109/MPRV.2009.20
  6. I. Bose, S. Yan (2011), "The Green Potential of RFID Projects: A Case‐Based Analysis", IEEE Computer Society, IT Professional, 13(1):41-47.
  7. Xerox, Niagara Catholic School District Turns to E‐docs to Cut Paper and Transport Costs, http://docushare.xerox.com/pdf/niagara_infoword_article_08_06_09.pdf.
  8. PNNL, Pacific Northwest National Laboratory, http://www.pnl.gov/topstory.asp?id=285
  9. InfoWorld, HD Supply Achieves Ecodreams through Array of Green‐tech Initiatives, http://www.infoworld.com/d/green‐it/hd‐supplyachieves‐ecodreams‐through‐array‐green‐techinitiatives‐245.
  10. Texas Instrument (2007), Texas Instrument and RecycleBank Make an Environmental Difference-One RFID Tag at a Time, Sep.
  11. InfoWorld, Green IT Starts of 2011. http://www.infoworld.com/d/data‐center/thegreen‐it‐stars‐2011‐549?page=0,0.
  12. InfoWorld, Green IT Leader of 2009. http://www.infoworld.com/d/green‐it/green‐itleaders‐2009‐050?page=0,1.