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References (54)
-
Sy-Jye Guo (2002)
Identification and Resolution of Work Space Conflicts in Building ConstructionJournal of Construction Engineering and Management-asce, 128
-
B. Vries, Jmj Harink (2007)
Generation of a construction planning from a 3D CAD modelAutomation in Construction, 16
-
P. Sivakumar, K. Varghese, N. Babu (2003)
Automated Path Planning of Cooperative Crane Lifts Using Heuristic SearchJournal of Computing in Civil Engineering, 17
-
Z. Mallasi (2006)
Dynamic quantification and analysis of the construction workspace congestion utilising 4D visualisationAutomation in Construction, 15
-
M. Kassem, N. Dawood, Rajiv Chavada (2015)
Construction workspace management within an Industry Foundation Class-Compliant 4D toolAutomation in Construction, 52
-
Longhui Liao, E. Teo (2019)
Managing critical drivers for building information modelling implementation in the Singapore construction industry: an organizational change perspectiveInternational Journal of Construction Management, 19
-
S. Poku, D. Arditi (2006)
Construction scheduling and progress control using geographical information systemsJournal of Computing in Civil Engineering, 20
-
S. Kumar, Jack Cheng (2015)
A BIM-based automated site layout planning framework for congested construction sitesAutomation in Construction, 59
-
Mohammed Abunemeh, R. Meouche, I. Hijaze, A. Mebarki, I. Shahrour (2016)
Optimal construction site layout based on risk spatial variabilityAutomation in Construction, 70
-
Pierrette Zouein, H. Harmanani, A. Hajar (2002)
Genetic Algorithm for Solving Site Layout Problem with Unequal-Size and Constrained FacilitiesJournal of Computing in Civil Engineering, 16
-
Use of GIS and topology in the identification and resolution of space conflicts
Journal of Construction Engineering and Management, 25
-
Potential application areas of GIS in preconstruction planning
Journal of Construction Engineering and Management, 142
-
J. Irizarry, E. Karan (2012)
Optimizing location of tower cranes on construction sites through GIS and BIM integrationJ. Inf. Technol. Constr., 17
-
H. Safouhi, M. Mouattamid, U. Hermann, A. Hendi (2011)
An algorithm for the calculation of feasible mobile crane position areasAutomation in Construction, 20
-
V. Bansal (2017)
Integrated CAD and GIS–Based Framework to Support Construction Planning: Case StudyJournal of Architectural Engineering, 23
-
Yosoon Choi, A. Nieto (2011)
Optimal haulage routing of off-road dump trucks in construction and mining sites using Google Earth and a modified least-cost path algorithmAutomation in Construction, 20
-
E. Elbeltagi, T. Hegazy, Abdelhady Hosny, Adel Eldosouky (2001)
Schedule-dependent evolution of site layout planningConstruction Management and Economics, 19
-
Sung-Keun Kim, J. Russell, Kyo-Jin Koo (2003)
Construction Robot Path-Planning for Earthwork OperationsJournal of Computing in Civil Engineering, 17
-
A. Retik, A. Shapira (1999)
VR-based planning of construction site activitiesAutomation in Construction, 8
-
Chunlu Liu, Yan Li (2016)
Measuring eco-roof mitigation on flash floods via GIS simulation, 6
-
Z. Lei, SangHyeok Han, A. Bouferguene, H. Taghaddos, U. Hermann, M. Al-Hussein (2015)
Algorithm for Mobile Crane Walking Path Planning in Congested Industrial PlantsJournal of Construction Engineering and Management-asce, 141
-
L. Bernold (2002)
Spatial Integration in ConstructionJournal of Construction Engineering and Management-asce, 128
-
Xun Zhang, S. Azhar, A. Nadeem, M. Khalfan (2018)
Using Building Information Modelling to achieve Lean principles by improving efficiency of work teamsInternational Journal of Construction Management, 18
-
Eugénio Rodrigues, A. Gaspar, Á. Gomes (2013)
An approach to the multi-level space allocation problem in architecture using a hybrid evolutionary techniqueAutomation in Construction, 35
-
V. Bansal (2018)
Use of GIS to consider spatial aspects in construction planning processInternational Journal of Construction Management, 20
-
V. Bansal, M. Pal (2008)
Generating, Evaluating, and Visualizing Construction Schedule with Geographic Information SystemsJournal of Computing in Civil Engineering, 22
-
R. Minchin, Shuai Cui, R. Walters, R. Issa, Jiayi Pan (2013)
Sino-American Opinions and Perceptions of Counterfeiting in the Construction Supply ChainJournal of Construction Engineering and Management-asce, 139
-
V. Bansal (2011)
Use of GIS and Topology in the Identification and Resolution of Space ConflictsJ. Comput. Civ. Eng., 25
-
M. Sutrisna, E. Pellicer, C. Torres-Machí, M. Picornell (2020)
Exploring earned value management in the Spanish construction industry as a pathway to competitive advantageInternational Journal of Construction Management, 20
-
Yunfeng Chen, H. Dib, R. Cox, Mark Shaurette, Mihaela Vorvoreanu (2016)
Structural Equation Model of Building Information Modeling MaturityJournal of Construction Engineering and Management-asce, 142
-
Satish Kumar, V. Bansal (2019)
Use of GIS in locating TFs safely on a construction site in hilly regionsInternational Journal of Construction Management, 19
-
F. Sadeghpour, O. Moselhi, S. Alkass (2006)
Computer-aided site layout planningJournal of Construction Engineering and Management-asce, 132
-
D. Riley, V. Sanvido (1997)
Space Planning Method for Multistory Building ConstructionJournal of Construction Engineering and Management-asce, 123
-
B. Akinci, Martin Fischen, R. Levitt, R. Carlson (2002)
Formalization and Automation of Time-Space Conflict AnalysisJournal of Computing in Civil Engineering, 16
-
M. Cheng, J. O’Connor (1996)
ArcSite: enhanced GIS for construction site layoutJournal of Construction Engineering and Management-asce, 122
-
Mohamed Jeljeli, J. Russell, H. Meyer, A. Vonderohe (1993)
POTENTIAL APPLICATIONS OF GEOGRAPHIC INFORMATION SYSTEMS TO CONSTRUCTION INDUSTRYJournal of Construction Engineering and Management-asce, 119
-
D. Heesom, L. Mahdjoubi (2004)
Trends of 4D CAD applications for construction planningConstruction Management and Economics, 22
-
N. Kavishe, I. Jefferson, N. Chileshe (2019)
Evaluating issues and outcomes associated with public–private partnership housing project delivery: Tanzanian practitioners’ preliminary observationsInternational Journal of Construction Management, 19
-
Z. Lei, H. Taghaddos, J. Olearczyk, M. Al-Hussein, U. Hermann (2013)
Automated Method for Checking Crane Paths for Heavy Lifts in Industrial ProjectsJournal of Construction Engineering and Management-asce, 139
-
M. Goldenberg, A. Shapira (2007)
Systematic Evaluation of Construction Equipment Alternatives: Case StudyJournal of Construction Engineering and Management-asce, 133
-
K. Varghese, J. O’Connor (1995)
Routing large vehicles on industrial construction sitesJournal of Construction Engineering and Management-asce, 121
-
C. Igwe, F. Nasiri, A. Hammad (2020)
Construction workspace management: critical review and roadmapInternational Journal of Construction Management, 22
-
B. Akinci, M. Fischer, J. Kunz (2002)
Automated Generation of Work Spaces Required by Construction ActivitiesJournal of Construction Engineering and Management-asce, 128
-
P. Love, P. Teo, J. Morrison (2018)
Revisiting Quality Failure Costs in ConstructionJournal of Construction Engineering and Management-asce, 144
-
D. Riley, V. Sanvido (1995)
Patterns of Construction-Space Use in Multistory BuildingsJournal of Construction Engineering and Management-asce, 121
-
Rogier Jongeling, Jonghoon Kim, M. Fischer, Claudio Mourgues, T. Olofsson (2008)
Quantitative analysis of workflow, temporary structure usage, and productivity using 4D modelsAutomation in Construction, 17
-
D. Chua, K. Yeoh, Yuanbin Song (2010)
Quantification of Spatial Temporal Congestion in Four-Dimensional Computer-Aided DesignJournal of Construction Engineering and Management-asce, 136
-
M. Kassem, G. Kelly, N. Dawood, M. Serginson, S. Lockley (2015)
BIM in facilities management applications: a case study of a large university complexJournal of Information Technology in Construction, 20
-
Anjul Tomar, V. Bansal (2019)
Generation, visualization, and evaluation schedule of repetitive construction projects using GISInternational Journal of Construction Management, 22
-
P. Bosch-Sijtsema, P. Gluch (2019)
Challenging construction project management institutions: the role and agency of BIM actorsInternational Journal of Construction Management, 21
-
V. Bansal (2016)
Potential Application Areas of GIS in Preconstruction PlanningJournal of Professional Issues in Engineering Education and Practice, 142
-
Ali Mirzaei, F. Nasirzadeh, M. Jalal, Yasin Zamani (2018)
4D-BIM Dynamic Time–Space Conflict Detection and Quantification System for Building Construction ProjectsJournal of Construction Engineering and Management
-
Albert Chen, F. Peña-Mora, Y. Ouyang (2011)
A collaborative GIS framework to support equipment distribution for civil engineering disaster response operationsAutomation in Construction, 20
-
M. Ali, N. Babu, K. Varghese (2005)
COLLISION FREE PATH PLANNING OF COOPERATIVE CRANE MANIPULATORS USING GENETIC ALGORITHMJournal of Computing in Civil Engineering, 19
- Publisher
- Emerald Publishing
- Copyright
- © Emerald Publishing Limited
- ISSN
- 2044-124X
- DOI
- 10.1108/bepam-07-2020-0126
- Publisher site
- See Article on Publisher Site
Abstract
This study aims to develop a framework for optimizing the spatial requirements of the equipment in a construction site using a geographic information system (GIS).Design/methodology/approachAn ongoing construction project, an existing thermal powerplant in India, is considered to be the case study, and the corresponding construction activities were scheduled. The equipment spaces were defined for the scheduled activities in building information modelling (BIM), which was further imported to GIS to define the topology rules, validate and optimize the spatial requirements. The BIM simulates the indoor environment, which includes the actual structure being constructed, and the GIS helps in modelling the outdoor environment, which includes the existing structures, temporary facilitates, topography of the site, etc.; thus, this study incorporates the knowledge of BIM in a geospatial environment to obtain optimized equipment spaces for various activities.FindingsSpace in construction projects is to be considered as a resource as well as a constraint, which is to be modelled and planned according to the requirements. The integration of BIM and GIS for equipment space planning will enable precise identification of the errors in the equipment spaces defined and also result in fewer errors as possible. The integration has also eased the process of assigning the topology rules and validating the same, which otherwise is a tedious process.Originality/valueThe workspace for each activity will include the space of the equipment. But, in most of the previous works of workspace planning, only the labour space is considered, and the conflicts and congestions occurring due to the equipment were neglected. The planning of equipment spaces cannot be done based only on the indoor environment; it has to be carried out by considering the surroundings and topography of the site, which have not been researched extensively despite its importance.
Journal
Built Environment Project and Asset Management – Emerald Publishing
Published: Oct 20, 2021
Keywords: Workspace; Equipment space; Optimization; Construction projects