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Bohn, J S and Teizer, J (2010) Benefits and Barriers of Construction Project Monitoring Using High-Resolution Automated Cameras. Journal of Construction Engineering and Management, 136(06), 632–40.

Chua, D K H, Yeoh, K W and Song, Y (2010) Quantification of Spatial Temporal Congestion in Four-Dimensional Computer-Aided Design. Journal of Construction Engineering and Management, 136(06), 641–9.

Geem, Z W (2010) Multiobjective Optimization of Time-Cost Trade-Off Using Harmony Search. Journal of Construction Engineering and Management, 136(06), 711–6.

Love, P E D, Edwards, D J and Irani, Z (2010) Work Stress, Support, and Mental Health in Construction. Journal of Construction Engineering and Management, 136(06), 650–8.

Marzouk, M, Abdallah, M and El-Said, M (2010) Modeling Microtunneling Projects using Computer Simulation. Journal of Construction Engineering and Management, 136(06), 670–82.

• Type: Journal Article
• Keywords: Planning; Microtunneling; Computer simulation; Costs; Scheduling; Construction management; Planning; Microtunneling; Computer simulation; Cost and scheduling;
• ISBN/ISSN: 0733-9364
• URL: https://doi.org/10.1061/(ASCE)CO.1943-7862.0000169
• Abstract:
  Tunnels projects are constructed to facilitate the execution of underground works with minor disturbance on surface structures and traffic. This is deemed important especially in downtown cities where disturbances should be minimized to assure flowability on surface and underground infrastructures. Microtunneling involves the use of a remotely controlled, guided pipe-jacking process in order to support excavation face. Microtunneling aids in avoiding the need of open trench for pipe laying, which causes extreme disruption to the surrounding. This paper presents a tool for planning microtunnels projects using computer simulation. The proposed tool aids contractors in planning microtunneling by estimating their associated time and cost of construction. There are six models that are coded in the proposed tool in order to capture the construction of microtunnels and shafts. The tool breaks down microtunnels projects into microtunnels segments and shafts which constitute several construction zones. An application example is presented to demonstrate the features of the proposed tool.

Park, M, Lee, M, Lee, H and Hwang, S (2010) Boost, Control, or Both of Korean Housing Market: 831 Countermeasures. Journal of Construction Engineering and Management, 136(06), 693–701.

Sacks, R and Partouche, R (2010) Empire State Building Project: Archetype of “Mass Construction”. Journal of Construction Engineering and Management, 136(06), 702–10.

Sarkar, D and Dutta, G (2010) Design and Application of Risk Adjusted Cumulative Sum for Strength Monitoring of Ready Mixed Concrete. Journal of Construction Engineering and Management, 136(06), 623–31.

Sugimoto, M and Asanprakit, A (2010) Stack Pipe Model for Pipe Jacking Method. Journal of Construction Engineering and Management, 136(06), 683–92.

Zhao, Z Y, Lv, Q L, Zuo, J and Zillante, G (2010) Prediction System for Change Management in Construction Project. Journal of Construction Engineering and Management, 136(06), 659–69.