Teknoloji, Şantiyelerde İş Sağlığı ve Güvenliğinin Kaderini Değiştirebilecek mi? Literatür ve Endüstriyel Uygulamalar Üzerinden Bir İnceleme

Year 2022, Volume: 6 Issue: 2, 107 - 130, 31.08.2022

Serkan Yıldız , Mustafa Yılmaz

https://doi.org/10.33720/kisgd.1059695

Cited By: 1

Abstract

Hayatımızın her alanına giren elektronik ve bilgisayar teknolojilerinden diğer tüm sektörlerde olduğu gibi inşaat sektöründe de İş Sağlığı ve Güvenliği (İSG) ’nin sağlanmasına yönelik yararlanma çabaları, son yıllarda başta gelişmiş ülkelerde olmak üzere tüm dünyada artış göstermektedir. İnşaat sektörü, ülkemizde iş kazası sonucu yaralanma ve ölümlerin en sık yaşandığı sektörlerin başında gelmektedir. Bu açıdan sektörde İSG’nin sağlanması için diğer her türlü imkânın yanında teknolojik yeniliklerin de devreye sokulması önemlidir. Bu noktadan hareketle gerçekleştirilen bu çalışmada, çeşitli veri tabanları üzerinden “teknoloji” “inşaat sektörü” ve “iş sağlığı ve güvenliği” anahtar kelimeleri kullanılarak kapsamlı bir tarama yapılmış ve inşaat sektörüne yönelik İSG teknolojileri belirlenmiştir. Belirlenen bu teknolojiler, kullanım alanlarına göre gruplandırılarak literatürdeki uygulamaların yanı sıra, sahada kullanılan ticari uygulamalar da incelenmiştir. Çalışma, inşaat sektöründe İSG’nin sağlanmasına yönelik olarak geniş bir yelpazede birçok teknolojik uygulama bulunduğunu ortaya koymuştur. Çalışmanın bazen çok küçük maliyetlerle ölüm ile hayatta kalma arasındaki farkı yaratan İSG teknolojilerinin Türk inşaat sektörü paydaşlarına tanıtılmasına ve bu sayede bu teknolojilerin kullanımının yaygınlaştırılmasına katkı sağlayacağı değerlendirilmektedir.

Keywords

İnşaat Sektörü, İş Sağlığı ve Güvenliği, Teknoloji

Can Technology Change the Destiny of Occupational Health and Safety on Construction Sites? A Review on Literature and Industrial Applications

Abstract

In the construction sector, as in all other sectors, the efforts to benefit from electronic and computer technologies, which enter in every field of our lives, to ensure Occupational Health and Safety (OHS) have been increasing in recent years, especially in developed countries, all over the world. The construction sector is one of the leading sectors also in our country in terms of injuries and deaths as a result of work accidents. In this respect, besides other facilities, it is important to use technological innovations in order to ensure OHS in the sector. In this study, carried out from this point of view, a comprehensive review was made using the keywords "technology", "construction sector" and "occupational health and safety" through various databases and OHS technologies for the construction sector were determined. These technologies are grouped according to their areas of use, and the studies in the literature, as well as their industrial applications in the field have been examined. The study revealed that there are many technological applications in a wide range for ensuring OHS in the construction sector. It is considered that the study will contribute to the introduction of OHS technologies that make the difference between death and survival, sometimes with very small costs, to the stakeholders of the Turkish construction sector and thus to the widespread use of such technologies.

Keywords

Construction Sector, Occupational Health and Safety, Technology

References

• A. G. Şat Sezgin ve A. Aşarkaya. “İnşaat Sektörü” Türkiye İş Bankası İktisadi Araştırmalar Bölümü, 2017.
• ÇSGB, T.C. İş Sağlığı ve Güvenliği Genel Müdürlüğü, “İnşaat Sektöründe İş Sağlığı Gözetim Rehberi,” 2018.
• SGK “İstatistik Yıllıkları,” http://www.sgk. gov.tr/wps/portal/sgk/tr/ kurumsal/istatistik/sgk_ istatistik_ yilliklari (erişim tarihi 10 Şubat 2021)
• B.Y. Jeong, “Occupational deaths and injuries in the construction industry,” Applied Ergonomics, vol. 29, no. 5, pp. 355-360, 1998.
• P, Kines, “Construction workers' falls through roofs: Fatal versus serious injuries,” Journal of Safety Research, vol. 33, no. 2, pp. 195-208, 2002.
• C. W. Liao ve Y. H. Perng, “Data mining for occupational injuries in the Taiwan construction industry,” Safety Science, vol. 46, no.7, pp. 1091-1102, 2008.
• M. E. Öcal, “İnşaat sektöründe görülen iş kazaları,” İnşaat Sektöründe İş Sağlığı ve Güvenliği Sempozyumu, 14, 2006.
• T., Cheng, G. C Migliaccio, J. Teizer ve U. C. Gatti, “Data fusion of real-time location sensing and physiological status monitoring for ergonomics analysis of construction workers,” Journal of Computing in Civil Engineering, vol. 27, no. 3, pp. 320-335, 2013.
• “Using Technology to Improve Safety in the Workplace” https://jesi.io/using-technology-improve-safety-workplace/, (erişim tarihi 25 Şubat 2021)
• G.T.A. Kovacs, Micromachined Transducers Sourcebook. WCB/McGraw-Hill, 1998.
• R. Frank, Understanding Smart Sensors. 2nd Edition. Norwood, MA: Artech House, Inc., 2000.
• R. U. Sonje ve S.V. Borde, “Micro-electromechanical systems (Mems),” International Journal of Modern Engineering Research (IJMER), pp. 102-105, 2014.
• K. Bremer, F. Weigand, Y. Zheng, L. S. Alwis, R. Helbig ve B. Roth, “Structural health monitoring using textile reinforcement structures with integrated optical fiber sensors,” Sensors (Switzerland), vol. 17, no. 2, pp. 1-11, 2017.
• M.,Zhang, T. Cao ve X. Zhao, “Applying Sensor-Based Technology to Improve Construction Safety Management,” Sensors, vol. 17 no. 8, pp. 1-24, 2017.
• S. Ahsan, A. El-Hamalawi, D. Bouchlaghem ve S. Ahmad, “Mobile technologies for improved collaboration on construction sites,” Architectural Engineering and Design Management, vol. 3 no. 4, pp. 257-272. 2007.
• “10 Types of Technology That Make Construction Sites Safer,” https://mobilevideoguard.com/10-types-of-technology-that-make-construction-sites-safer/ (erişim tarihi 21 Ocak 2021)
• K. Jones, “How Technology is Improving Construction Site Safety,” 2017. https://www.constructconnect.com/blog/how-technology-is-improving-construction-sites-safety (erişim tarihi 20 Ocak 2021)
• P. Bonato, “Advances in wearable technology for rehabilitation,” Stud Health Technol Inform, no. 145, pp. 145-159, 2009.
• S. Hiremath, G. Yang ve K. Mankodiya, “Wearable Internet of Things: Concept, architectural components and promises for person-centered healthcare,” In 2014 4th International Conference on Wireless Mobile Communication and Healthcare-Transforming Healthcare Through Innovations in Mobile and Wireless Technologies (MOBIHEALTH), pp. 304-307, 2014.
• M. Sung, C. Marci ve A. Pentland, “Wearable feedback systems for rehabilitation,” Journal of Neuroengineering and Rehabilitation, vol. 2, no. 1, pp. 1-12, 2005.
• I. Awolusi, E. Marks ve M. Hallowell, “Wearable technology for personalized construction safety monitoring and trending: Review of applicable devices.” Automation in Construction, no. 85, pp. 96-106, 2018.
• I. Awolusi, C. Nnaji, E. Marks ve M. Hallowell, “Enhancing construction safety monitoring through the application of internet of things and wearable sensing devices: A review.” Computing in civil engineering : Data, Sensing, and Analytics, pp. 530-538, 2019.
• U. C. Gatti, G. C. Migliaccio, ve S. Schneider, “Wearable physiological status monitors for measuring and evaluating workers' physical strain: Preliminary validation,” In Computing in Civil Engineering, pp. 194-201, 2011.
• X. Shen, I. Awolusi ve E. Marks, “Construction equipment operator physiological data assessment and tracking,” Practice Periodical on Structural Design and Construction, vol. 22, no. 4, 04017006, 2017.
• C. R. Ahn, S. Lee, C. Sun, H. Jebelli, K. Yang ve B. Choi, “Wearable sensing technology applications in construction safety and health,” Journal of Construction Engineering and Management, vol. 145, no. 11, 03119007, 2019.
• R. Edirisinghe, “Digital skin of the construction site. Engineering,” Construction and Architectural Management, 2019.
• H. Guo, Y. Yu ve M. Skitmore, “Visualization technology-based construction safety management: a review,” Automation in Construction, no. 73, 135-144, 2017.
• M. K. Tsai, “Applying physiological status monitoring in improving construction safety management,” KSCE Journal of Civil Engineering, pp. 2061–2066, 2017.
• “Top 5 construction technologies to keep you safe,” https://www.letsbuild.com/blog/top-5-construction-technologies-to-keep-you-safe (erişim tarihi 12 Şubat 2021)
• E. Marks ve J. Teizer, “Proximity sensing and warning technology for heavy construction equipment operation,” In Construction research congress 2012: Construction challenges in a flat World, pp. 981-990, 2012.
• S. Choe, F. Leite, D. Seedah ve C. Caldas, “Evaluation of sensing technology for the prevention of backover accidents in construction work zones,” Journal of Information Technology in Construction (ITcon), vol. 19, no. 1, pp. 1-19, 2014.
• J. Park, K. Kim ve Y. K. Cho, Framework of automated construction-safety monitoring using cloud-enabled BIM and BLE mobile tracking sensors. Journal of Construction Engineering and Management, vol. 143, no. 2, 2017.
• J. Wang ve S. N. Razavi, “Low false alarm rate model for unsafe-proximity detection in construction,” Journal of Computing in Civil Engineering, vol. 30, no. 2, 04015005, 2016.
• J. Li, J. Carr ve C. Jobes, “A shell-based magnetic field model for magnetic proximity detection systems,” Safety Science, vol. 50, no. 3, pp. 463-471, 2012.
• “Inside Construction” https://www. insideconstruction.com.au/section/industry-news/ visibility-on-construction-sites-equals-safety/ (erişim tarihi 12 Ocak 2021)
• J. S. Lim, K. I. Song ve H. L. Lee, “Real-Time Location Tracking of Multiple Construction Laborers,” Sensors (Switzerland), vol. 16, no. 11, 1869, 2016.
• A. Papostolou ve H. Chaouchi, “RFID-assisted indoor localization and the impact of interference on its performance,” Journal of Network and Computer Applications, vol. 34, no. 3, pp. 902-913, 2011.
• W. Zhou, J. Whyte ve R. Sacks, “Construction safety and digital design: A review,” Automation in Construction, no. 22, pp. 102–111, 2012.
• A. Shahi, A. Aryan, J. S. West, C. T. Haas ve R. C. G. Haas, “Deterioration of UWB positioning during construction,” Automation in Construction, no. 24, pp. 72–80, 2012.
• C. E. Fullerton, B. S. Allread ve J. Teizer, “Pro-Active-Real-Time personnel warning system,” Construction Research Congress, pp. 31–40, 2009.
• M. R. Hallowell, J. Teizer ve W.Blaney, “Application of sensing technology to safety management,” Construction Research Congress, pp. 31–40, 2010.
• Occupational Safety and Health Adminisration (OSHA), “Worker safety series: construction, United States department of labor 2017,” https://www.osha.gov/ Publications/OSHA3252 /3252.html. (erişim tarihi 23 Ocak 2021)
• J. Teizer, B. S. Allread ve U. Mantripragada, “Automating the blind spot measurement of construction equipment,” Automation in Construction, vol. 19, no. 4, pp. 491-501, 2010.
• “Smart Vests Keep Construction Workers Safe,” https://www.femoran.com/hvac-plumbing-construction-blog/smart-vests-keep-construction-workers-safe (erişim tarihi 11 Şubat 2021)
• Y. Jin, S. A. Naeem ve H. E. Shumway, “Fall Detection and Posture Monitoring System” (Doctoral dissertation, Worcester Polytechnic Institute), 2019.
• S. Y. Yin, H. P. Tserng, J. C. Wang ve S. C. Tsai, “Developing a precast production management system using RFID technology,” Automation in Construction, vol. 18, no. 5, pp. 677-691, 2009.
• R. Lia ve T. H. Leung, “Leading safety indicators and automated tools in the construction industry,” In ISARC. Proceedings of the International Symposium on Automation and Robotics in Construction (Vol. 34). IAARC Publications, 2017.
• Y. Zhou, L. Y. Ding ve L. J. Chen, “Application of 4D visualization technology for safety management in metro construction,” Automation in Construction, no. 34, pp. 25-36, 2013.
• W. Wu, H. Yang, D. A. Chew, S. H. Yang, A. G Gibb ve Q. Li, “Towards an autonomous real-time tracking system of near-miss accidents on construction sites,” Automation in Construction, vol. 19, no. 2, pp. 134-141, 2010.
• M. Abderrahim, E. Garcia, R. Diez ve C. Balaguer, “A mechatronics security system for the construction site,” Automation in Construction, vol. 14, no. 4, pp. 460-466, 2005.
• S. O. Cheung, K. K. Cheung ve H. C. Suen, CSHM: “Web-based safety and health monitoring system for construction management,” Journal of Safety Research, vol. 35, no. 2, pp. 159-170, 2004.
• D. Niewolny, “How the Internet of Things Is Revolutionizing Healthcare,” White Pap., pp. 3–5, 2013.
• Q. Jing, A. Vasilakos, J. Wan, J. Lu ve D. Qiu, “Security of the Internet of Things: Perspectives and challenges,” Wireless Networks, no. 20, pp. 2481-2501, 2014.
• E. Hopah ve O. Vayvay, “Internet of Things (IoT) and its Challenges for Usability in Developing Countries,” International Journal of Innovation Engineering and Science Research, vol. 2, no. 1, pp. 1-9, 2018.
• N. Azmy ve A. Zain, “The applications of technology in enhancing safety and health aspects on Malaysian construction projects,” ARPN Journal of Engineering and Applied Sciences, no. 11, pp. 7209-7213, 2016.
• B. Chu, K. Jung, M.T. Lim ve D. Hong, “Robot-based construction automation: An application to steel beam assembly (Part I),” Automation in Construction, no. 32, pp. 46-61, 2013.
• T. Bock, T. Linner ve W. Ikeda, “Exoskeleton and humanoid robotic technology in construction and built environment, the future of humanoid robots - research and applications,” Intechopen, 2012.
• Y, Niu, W. Lu ve D. Liu, “The application scenarios of smart construction objects (SCOs) in Construction,” Proceedings of the 20th International Symposium on Advancement of Construction Management and Real Estate, pp. 969–980, 2017.
• H. A. Yu, Knowledge-based system for construction health and safety competence assessment, University of Wolverhampton. United Kingdom, 2009.
• Construction Robotics, https://www.construction-robotics.com/sam100/ (erişim tarihi 5 Ocak 2021)
• K. Hooker, “Advantages of Demolition Robots,” https://www.concreteconstruction.net/how-to/ repair/advantages-of-demolition-robots_o (erişim tarihi 14 Ocak 2021)
• C. Balaguer ve M. Abderrahim, “Trends in Robotics and Automation in Construction Robotics,” Intechopen, 2008
• J. Howard, V. Murashov, ve C. M. Branche, “Unmanned aerial vehicles in construction and worker safety,” American Journal of Industrial Medicine, pp. 3-10, 2017.
• C. Nnaji, J. Gambatese, H. W. Lee ve F. Zhang, “Improving construction work zone safety using technology: A systematic review of applicable Technologies,” Journal of Traffic and Transportation Engineering, vol. 7, no. 1, pp. 61-75, 2020.
• Royal Truck ve Equipment, “Attenuator Truck - What is it?” https://royaltruckandequipment. com/attenuator-truck/ (erişim tarihi 14 Ocak 2021)
• Businesswire, “Komatsu First to Operate Autonomous Haulage System over Dedicated Private LTE Network,” https://www.businesswire. com/news/home/20190120005012/ (erişim tarihi 21 Şubat 2021)
• J. Park, E. Marks, Y. K.. Cho ve W. Suryanto, “Performance test of wireless technologies for personnel and equipment proximity sensing in work zones,” Journal of Construction Engineering and Management, vol. 142, no. 1, 04015049, 2016.
• B. W. Jo, Y. S. Lee, J. H. Kim, D. K., Kim ve P. H. Choi, “Proximity warning and excavator control system for prevention of collision accidents,” Sustainability, vol. 9, no. 8, 1488, 2017.
• J. Teizer, B. S. Allread, C. E. Fullerton ve J. Hinze, “Autonomous pro-active realtime construction worker and equipment operator proximity safety alert system,” Automation in Construction, vol. 19, no. 5, pp. 630–640, 2010.
• X. Yang, J. Park, ve Y. K. Cho, “Adaptive signal-processing for BLE sensors for dynamic construction proximity safety applications,” In Construction Research Congress., March, 2018.
• NSW, https://www.rms.nsw.gov.au/business-industry/partnerssuppliers/documents/technical-manuals/delineation/delineationsect1v11_i.pdf (erişim tarihi 19 Ocak 2021)
• D. Bouchlaghem, H. Shang, J. Whyte ve A. Ganah, “Visualisation in architecture, engineering and construction (AEC),” Automation in Construction, vol. 14, no. 3, pp. 287-295, 2005.
• Q. T. Le, A. Pedro ve C. S. Park, “A social virtual reality-based construction safety education system for experiential learning,” Journal of Intelligent ve Robotic Systems, vol. 79, no. 3, pp. 487-506, 2015.
• Z. Zhou, J. Irizarry ve Q. Li, “Applying advanced technology to improve safety management in the construction industry: a literature review,” Construction Management and Economics, vol. 31, no. 6, pp. 606-622, 2013.
• M. A. Froehlich ve S. Azhar, “Investigating virtual reality headset applications in construction,” In Proceedings of the 52nd Associated Schools of Construction Annual International Conference, 13-16, Nisan, 2016.
• A. Agrawal, G. Acharya, K. Balasubramanian, N. Agrawa ve R. Chaturvedi, “A review on the use of augmented reality to generate safety awareness and enhance emergency response,” International Journal of Current Engineering and Technology, vol. 6, no. 3, pp. 813-820, 2016.
• J. Akyeampong, S. J. Udoka ve E. H. Park, “A hydraulic excavator augmented reality simulator for operator training, In Proceedings of the 2012 International Conference on Industrial Engineering and Operations Management, pp. 1511-1518, 2012.
• M., Golparvar-Fard, F. Pena-Mora ve S. Savarese, “D4AR–a 4-dimensional augmented reality model for automating construction progress monitoring data collection, processing and communication,” Journal of Information Technology in Construction, vol. 14, no. 13, pp. 129-153, 2009.
• S. Rajendran ve B. Clarke, “Building Information Modeling: Safety benefits and opportunities,” Professional Safety, pp. 44-51, 2011.
• S. Azhar, A. Bahringer, M. Khalfan, A. Sattineni ve T. Maqsood, “BIM for Facilitating Construction Safety Planning and Management at Jobsite,” Proceeding of the CIB W099 International Conference on Modelling and Building Health and Safety, pp. 82-92, 2012.
• R. Rwamamara, H. Noreberg, T. Olofson ve O. Lagerqvist, “Using visualization technologies for design and planning of a healthy construction,” Workplace, Construction Innovation, no. 10, pp. 248-266, 2010.
• Mallasi, Z. “Dynamic quantification and analysis of the construction workspace congestion utilizing 4D visualization,” Automation in Construction, no. 15, pp. 640–655, 2006.
• V Benjaoran ve S Bhokha, “Enhancing visualization of 4D CAD model compared to conventional methods,” Engineering, Construction and Architectural Management, vol. 16, no. 4, pp. 392-408, 2009.
• X. Zhu, S. K. Mukhopadhyay ve H. A. Kurata, “Review of RFID technology and its managerial applications in different industries,” Journal of Engineering and Technology Management, vol. 29, no. 1, pp. 152-167, 2012.
• UK Connect, 10 Construction Technology Trends Impacting the Industry in 2022https://ukconnect.com/construction-technology-trends/ (erişim tarihi 8 Nisan 2021)
• K. Ku ve T. Miles, “Research needs for Building Information Modelling for Construction Safety,” International Proceedings of Associated Schools of Construction 45th Annual Conference, Boston, MA. 2010.
• J. Qi, R. Issa, J. Hinze ve S. Olbina, “Integration of safety in design through the use of building information modeling,” International Conference on Computing in Civil Engineering, Miami, U.S., pp. 698–705, 2011.
• S. A. Talmaki, S. Dong ve V. R. Kamat, “Geospatial databases and augmented reality visualization for improving safety in urban excavation operations,” In Construction Research Congress 2010: Innovation for Reshaping Construction Practice, 91-101, 2010.
• American Academy of Orthopaedic Surgeons (AAOS). U.S. Bone and Joint Initiative. The Burden of Musculoskeletal Diseases in the United States. 3rd Ed. Rosemont, Illinois: U.S., 2016.
• E. Yelin, S. Weistein ve T. King, “The burden of musculoskeletal diseases in the United States,” In Seminars in arthritis and rheumatism, vol. 46, no. 3, pp. 259-260, Aralık 2016.
• R., Bostelman, E., Messina, ve S. Foufou, “Cross-industry standard test method developments: from manufacturing to wearable robots,” Frontiers of Information Technology & Electronic Engineering, vol. 18, no. 10, 1447-1457, 2017.
• B. Marinov, “Types and classifications of exoskeletons. Exoskeleton Report,” 2015.
• M. P. De Looze, T. Bosch, F. Krause, K. Stadler ve L. O'sullivan, “Industrial applications of exoskeletons and their impact on physical loads,” Ergonomics, vol. 59, no. 5, pp. 671‐681, 2015.
• T. Bosch, J. Van Eck, K. Knitel ve M. De Looze, “The effects of a passive exoskeleton on muscle activity, discomfort and endurance time in forward bending work,” Applied Ergonomics, no. 54, pp. 212-217, 2016.
• Y. K. Cho, K. Kim, S. Ma ve J. A Ueda, “Robotic wearable exoskeleton for construction worker’s safety and health,” In ASCE Construction Research Congress, pp. 19-28, 2018.
• T. Butler ve D. Wisner, “Exoskeleton technology: Making workers safer and more productive,” In ASSE Professional Development Conference and Exposition. American Society of Safety Engineers. Ocak, 2017.
• E. Rashedi, S. Kim, M. A. Nussbaum ve M. J. Agnew, “Ergonomic evaluation of a wearable assistive device for overhead work,” Ergonomics, vol. 57, no. 12, pp. 1864-1874, 2014.
• S. Kim, M. A. Nussbaum, M. I. M. Esfahani, M. M. Alemi, S. Abdulkarim ve E. Rashedi, “Assessing the influence of a passive, upper extremity exoskeletal vest for tasks requiring arm elevation: Part I– “Expected” effects on discomfort, shoulder muscle activity, and work task performance,” Applied Ergonomics, no. 70, pp. 315-322, 2018.
• M. A Smets, “Field evaluation of arm-support exoskeletons for overhead work applications in automotive assembly,” IISE Transactions on Occupational Ergonomics and Human Factors, vol. 7, no. 3-4, pp. 192-198, 2019.
• Consumer Product Safety Commission, Potential hazards associated with emerging and future Technologies, Staff Report, 2017.
• “Exoskeleton set to take the strain for construction workers” https://www.thenbs.com/knowledge/ exoskeleton-set-to-take-the-strain-for-construction-workers (erişim tarihi 11 Şubat 2021)
• J. Howard, V. V. Murashov, B. D. Lowe ve M. L. Lu, “Industrial exoskeletons: Need for intervention effectiveness research,” American Journal of Industrial Medicine, vol. 63, no. 3, pp. 201-208, 2020.
• IBM Digital Twin: Helping Machines Tell Their Story. (2019). https://www.maximo.ae/news/news-insights-3/ (erişim tarihi 11 Ocak 2021)
• M Grieves, “Origin of The Digital Twin Concept,” Florida Institute of Tecnology. NASA, Working Paper, 2016.
• Dodge Data and Analytics Safety Management in the Construction Industry, “Smart Market Report,” Bedford, MA, 2017.
• R. Chakkravarthy, “Artificial intelligence for construction safety,” Professional Safety, vol. 64, no. 1, 46, 2019.
• V. K. Reja ve K. Varghese, “Impact of 5G technology on IoT applications in construction project management,” In ISARC. Proc. Int. Symp. Autom. Robot. Constr, vol. 36, pp. 209-217, Mayıs 2019.
• Y. W. D. Tay, B. Panda, S. C. Paul, N. A. Noor Mohamed, M. J. Tan ve K. F. Leong, “3D printing trends in building and construction industry: a review.” Virtual and Physical Prototyping, vol. 12, no. 3, 261-276, 2017.
• Archdaily, “Dubai Municipality to Become the World's Largest 3D-Printed Building” https://www.archdaily.com/930857/dubai-municipality-to-become-the-worlds-largest-3d-printed-building, (erişim tarihi 10 Şubat 2021)
• J. Wong, X. Wang, H. Li ve G. A. Chan, “Review of cloud-based BIM technology in the construction sector,” Journal of Information Technology in Construction, no. 19, pp. 281-291, 2014.
• G. E. Gürcanlı, U. Müngen ve M. Akad, “Construction Equipment and Motor Vehicle Related Injuries on Construction Sites in Turkey,” Industrial Health, vol. 46, no. 4, pp. 375-388, 2008.