1 |
Afsari, K., Eastman, C. M., Shelden, D. R. (2016). Cloud-based BIM data t ransmission: current status and challenges. In ISARC. Proceedings of the International Symposium on Automation and Robotics in Construction, 33, pp. 1-7. IAARC Publications.
|
2 |
BIM Cloud (2020). https://graphisoft.com/solutions/products/bimcloud (Aug. 03, 2020)
|
3 |
BIMserver.center (2020). https://bimserver.center (Aug. 03, 2020).
|
4 |
BIM360(2020). https://www.autodesk.com/bim-360 (Aug. 03, 2020)
|
5 |
Chen, H. M., Chang, K. C., Lin, T. H. (2016). A cloud-based system framework for performing online viewing, storage, and analysis on big data of massive BIMs. Automation in Construction, 71, pp. 34-48.
DOI
|
6 |
Chien, S. C., Chuang, T. C., Yu, H. S., Han, Y., Soong, B. H., Tseng, K. J. (2017). Implementation of cloud BIM-based platform towards high-performance building services. Procedia environmental sciences, 38, pp. 436-444.
DOI
|
7 |
Choi, J. H., Suh, J. H. (2019). Exploring the 4th Industrial Revolution Technology from the Landscape Industry Perspective. Journal of the Korean Institute of Landscape Architecture, 47(2), pp. 59-75.
DOI
|
8 |
Costache, S., Dib, D., Parlavantzas, N., Morin, C. (2017). Resource management in cloud platform as a service systems: Analysis and opportunities. Journal of Systems and Software, 132, pp. 98-118.
DOI
|
9 |
Das, M., Cheng, J. C., Shiv Kumar, S. (2014). BIMCloud: a distributed cloud-based social BIM framework for project collaboration. International Conference on Computing in Civil and Building Engineering (2014), pp. 41-48.
|
10 |
Endo, P. T., de Almeida Palhares, A. V., Pereira, N. N., Goncalves, G. E., Sadok, D., Kelner, J., ... Mangs, J. E. (2011). Resource allocation for distributed cloud: concepts and research challenges. IEEE network, 25(4), pp. 42-46.
DOI
|
11 |
Firozbakht, F., Obidallah, W. J., Raahemi, B. (2017, March). Cloud computing service discovery framework for IaaS and PaaS models. In Proceedings of the Second International Conference on Internet of things, Data and Cloud Computing, pp. 1-6.
|
12 |
Hamledari, H., Rezazadeh Azar, E., McCabe, B. (2018). IFC-based development of as-built and as-is BIMs using construction and facility inspection data: Site-to-BIM data transfer automation. Journal of Computing in Civil Engineering, 32(2), pp. 1-15.
|
13 |
Li, C., Zhang, J., Ma, T., Tang, H., Zhang, L., Luo, Y. (2019). Data locality optimization based on data migration and hotspots prediction in geo-distributed cloud environment. Knowledge-Based Systems, 165, pp. 321-334.
DOI
|
14 |
Park, J., Kim, K., Cho, Y. K. (2017). Framework of automated construction-safety monitoring using cloud-enabled BIM and BLE mobile tracking sensors. Journal of Construction Engineering and Management, 143(2), pp. 1-12.
|
15 |
Ma, L., Sacks, R. (2016, October). A cloud-based BIM platform for information collaboration. In ISARC 2016-33rd International Symposium on Automation and Robotics in Construction, 33, pp. 581-589. IAARC (The International Association for Automation and Robotics in Construction).
|
16 |
Moon, H. S., Won, J. S., Shin, J. Y. (2018). A Standardized BIM Framework for Supporting Life-cycle Business Process for Port & Harbour Facilities. Journal of KIBIM, 8(4), pp. 49-59.
DOI
|
17 |
Onuma System (2020). http://onuma-bim.com/ (Aug. 03, 2020)
|
18 |
Patil, M. (2019). Enhancing Static Auto-scaling Approach to Mitigate Resource Over-Provisioning in Cloud Computing (Doctoral dissertation, Dublin, National College of Ireland).
|
19 |
Shahinmoghadam, M., Motamedi, A. (2019). Review of BIM-centred IoT deployment: state of the art, opportunities, and challenges. In ISARC. Proceedings of the International Symposium on Automation and Robotics in Construction 36, pp. 1268-1275. IAARC Publications.
|
20 |
Sun, A., Ji, T., Wang, J. (2016). Cloud platform scheduling strategy based on virtual machine resource behaviour analysis. International Journal of High Performance Computing and Networking, 9(1-2), pp. 61-69.
DOI
|