DOI QR코드

DOI QR Code

Establishment of Risk Database and Development of Risk Classification System for NATM Tunnel

NATM 터널 공정리스크 데이터베이스 구축 및 리스크 분류체계 개발

  • Received : 2023.08.10
  • Accepted : 2023.11.15
  • Published : 2024.01.31

Abstract

In the construction industry, not only safety accidents, but also various complex risks such as construction delays, cost increases, and environmental pollution occur, and management technologies are needed to solve them. Among them, process risk management, which directly affects the project, lacks related information compared to its importance. This study tried to develop a MATM tunnel process risk classification system to solve the difficulty of risk information retrieval due to the use of different classification systems for each project. Risk collection used existing literature review and experience mining techniques, and DB construction utilized the concept of natural language processing. For the structure of the classification system, the existing WBS structure was adopted in consideration of compatibility of data, and an RBS linked to the work species of the WBS was established. As a result of the research, a risk classification system was completed that easily identifies risks by work type and intuitively reveals risk characteristics and risk factors linked to risks. As a result of verifying the usability of the established classification system, it was found that the classification system was effective as risks and risk factors for each work type were easily identified by user input of keywords. Through this study, it is expected to contribute to preventing an increase in cost and construction period by identifying risks according to work types in advance when planning and designing NATM tunnels and establishing countermeasures suitable for those factors.

건설산업은 안전사고뿐 아니라 공기지연, 원가상승, 환경오염 등의 여러 복합적인 리스크가 발생하며 이를 해결하기 위한 관리기술이 필요하다. 그 중에서 프로젝트에 직접적인 영향을 미치는 공정리스크의 관리는 그 중요성에 비해 관련정보가 부족한 실정이다. 본 연구는 각 프로젝트마다 상이한 분류체계 사용으로 인한 리스크 정보검색의 어려움을 해소하기 위하여 MATM 터널 공정리스크분류체계를 개발하고자 하였다. 리스크수집은 기존 문헌검토와 Experience Mining 기법을 사용하였고 DB구축은 자연어처리 개념을 활용하였다. 분류체계의 구조는 자료의 호환성을 고려하여 기존 WBS 구조를 채택하였고, WBS의 공종과 연결된 RBS를 구축하였다. 연구결과 공종별 리스크를 쉽게 파악하고 리스크에 연결된 리스크특성과 리스크요인이 직관적으로 드러나는 리스크분류체계가 완성되었다. 구축된 분류체계의 활용성 검증결과 사용자의 키워드 입력으로 공종별 리스크와 리스크요인이 쉽게 식별되어 분류체계는 유효한 것으로 나타났다. 본 연구를 통해 NATM터널 계획 및 설계 시 작업공종에 따르는 리스크를 미리 식별하고 그 요인에 맞는 대응방안을 수립하여 비용과 공사기간의 증가를 방지하는데 기여할 수 있을 것으로 기대된다.

Keywords

Acknowledgement

본 연구는 과학기술정보통신부의 재원으로 한국연구재단의 지원을 받아 수행된 연구입니다. (NRF-2021R1A2C1014267)

References

  1. Cho, J.K. (2012). Risk Factor Classification and Weight Estimation for Urban Regeneration Project, Master's thesis, University of Seoul.
  2. Chung, H., Lee, K.H., Kim, B.K., Lee, I.M., and Choi, H. (2020). "A risk management system applicable to NATM tunnels: methodology development and application." Journal of Korean Tunnelling and Underground Space Association, 22(2), pp. 155-170.
  3. Hong, S.W., Kim. H.I., and Ahn. Y.S. (2003). "A Study on Development and Real Situation Analysis for the Risk Management of Domestic Construction Companies." Journal of the Architectural Institute of Korea Structure & Construction, 19(5), pp. 153-160.
  4. Hwang, J.S., and Lee. C.S. (2004). "Weight Evaluation of Risk Factors for Early Construction Stage." Korean Journal of Construction Engineering and Management, KICEM, 5(2), pp, 115-122.
  5. Jeong, J., and Jeong, J. (2020). "Development of Framework for Integrated Work-Risk Breakdown Structurebased on Fatal Incident Cases in Construction Industry." Korean Journal of Construction Engineering and Management, KICEM, 21(3), pp. 11-19.
  6. Karunarathne, B.V.G. (2021). GRMM application methodology for risk management level assessment of construction company. Master's thesis, Kyungpook National University.
  7. Kim, B.S. (2003). Comparative analysis of construction information classification systems, Doctoral thesis, Chung-Ang University.
  8. Kim, E.S., Song, B.J., and Lee, J.Y. (2012). "A Study on Risk Classification System in Supply Chain." The KIPS Transactions: PartD, 19(3), pp. 257-262.
  9. Kim, M., and Jung, Y.S. (2014). "Assessment of Risk Impact in International Power Plant Construction Projects." Architectural Institute of Korea Conference Papers , 34(2), pp. 671-672.
  10. Kim, H.B. (2023). Construction project risk database establishment and classification system development, Master's thesis, Kyungpook National University.
  11. Korea Infrastructure Safety Corporation (2018). Standardization of facility code system for safety management and establishment of integrated information system establishment and operation plan.
  12. Korea University Ethnic Culture Research Institute (2009). Korea University Korean Language Dictionary, Korea University Ethnic Culture Research Institute.
  13. Lee, K.W., Hong, H.U., Park, H.D., and Han, S.H. (2011). "Developing a program performance management framework for mixed-use development in urban regeneration projects." Korean Journal of Construction Engineering and Management, KICEM, 12(1), pp. 141-152. https://doi.org/10.6106/KJCEM.2011.12.1.141
  14. Lee, T.W., Park, N.S., and Kim, S.C.(2014), "Research on the Importance and the Impacts of Risk Factors for Project Performance in Construction Industry." ex-Project Management Review, 4(1), pp. 1-11.
  15. Lyons, T., and Skitmore, M. (2004). "Project risk management in the Queensland engineering construction industry: a survey." International journal of project management, 22(1), pp. 51-61. https://doi.org/10.1016/S0263-7863(03)00005-X
  16. Yoon Y.S. (2005), Development of the schedule risk management system for building construction processes, Doctoral thesis, Gachon University.