Thematische Bibliographien / AEC industry in Germany / Zeitschriftenartikel
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Zeitschriftenartikel zum Thema „AEC industry in Germany“

Autor: Grafiati
Veröffentlicht am 24. Juni 2021
Zuletzt aktualisiert am 17. Februar 2022

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Patel, Tirth, Hirakraj Bapat, Daksh Patel und Jacobus Daniel van der Walt. „Identification of Critical Success Factors (CSFs) of BIM Software Selection: A Combined Approach of FCM and Fuzzy DEMATEL“. Buildings 11, Nr. 7 (19.07.2021): 311. http://dx.doi.org/10.3390/buildings11070311.

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The architecture, engineering, and construction (AEC) industry has seen a significant rise in the adoption of Building Information Modeling (BIM) in the last few years. BIM software have launched with numerous robust capabilities and features to satisfy the ever-demanding needs of the AEC industry. Various factors are associated with the selection of BIM software depending on a company’s requirements and constraints. BIM software selection is a daunting process as most AEC industries are unaware of the factors to consider when making this important decision. This study focuses on identifying the critical success factors (CSFs) and their interrelationship for efficient BIM software selection. For this research, a questionnaire was developed and disseminated in two stages in India, the United States of America (U.S.A.), Germany, and the United Kingdom (U.K.). In the first stage, a total of twenty-six identified CSFs were analyzed with the factor comparison method (FCM) to identify the top fifteen CSFs. Subsequently, the identified top fifteen CSFs were further assessed by implementing Fuzzy DEMATEL to categorize them into cause-and-effect groups based on respective influence strength, depicted with a causal diagram. Out of fifteen CSFs, five and ten factors were grouped into the cause group and effect group for BIM software selection, respectively. The most important factors were identified as software functionality, BIM adoption strategies and processes, interoperability, staff competencies, BIM standards and regional regulations. The outcome of this research can help BIM user companies improve their BIM software selection framework and decision-making process during purchasing software.
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HIRASAWA, Gakuhito. „Mixed Reality in AEC Industry“. Journal of the Japan Society for Precision Engineering 83, Nr. 6 (2017): 509–13. http://dx.doi.org/10.2493/jjspe.83.509.

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Ediae, O. J., und E. P. Enoma. „Level of Awareness and Use of the Different BIM Software Packages in the Nigerian AEC Industry“. October 2018 2, Nr. 2 (Oktober 2018): 137–47. http://dx.doi.org/10.36263/nijest.2018.02.0070.

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This study considered the extent of use of Building Information Modelling (BIM), in the Architecture, Engineering and Construction Industry (AEC) in Nigeria. The factors influencing the level of adoption of BIM and the barriers to the adoption of BIM in the AEC industry in Nigeria was investigated. The data collection technique used was the survey method, which involved the administration of structured questionnaires to 100 professionals in the AEC industry in Nigeria in the three main cities of Lagos, Port Harcourt, and Abuja. The data was analysed using Statistical Package for the Social Sciences (SPSS). The result shows that most professionals in the AEC Industry are aware of the use of BIM in the AEC Industry and a lot of professionals have also engaged in the use of BIM tools. It also shows that the BIM tools are mostly used for activities in the design stage such as design, visualization and drafting but, are least used for maintenance activities. The major barriers to the adoption of BIM in the AEC Industry in the study include, lack of training and education on BIM use, technical challenges associated with adoption of BIM, the complicated nature and processes involved in BIM use, inadequate government support for BIM use in the AEC Industry and general resistance to change by people in the AEC Industry. The study recommends that in order to achieve critical mass adoption of BIM and its benefits maximized in the AEC Industry in Nigeria there is a need for sensitization on the benefits of BIM and training of students and professionals in the industry on the use of BIM.
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Manzoor, Bilal, Idris Othman und Juan Carlos Pomares. „Digital Technologies in the Architecture, Engineering and Construction (AEC) Industry—A Bibliometric—Qualitative Literature Review of Research Activities“. International Journal of Environmental Research and Public Health 18, Nr. 11 (06.06.2021): 6135. http://dx.doi.org/10.3390/ijerph18116135.

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Digital technologies (DTs) are proven helpful in the Architecture, Engineering and Construction (AEC) industry due to their varied benefits to project stakeholders, such as enhanced visualization, better data sharing, reduction in building waste, increased productivity, sustainable performance and safety improvement. Therefore, researchers have conducted various studies on DTs in the AEC industry over the year; however, this study explores the state-of-the-art research on DTs in the AEC industry by means of a bibliometric-qualitative review method. This research would uncover new knowledge gaps and practical needs in the domain of DTs in the AEC industry. In addition, bibliometric analysis was carried out by utilizing academic publications from Scopus (i.e., 11,047 publications for the AEC industry, 1956 for DTs and 1778 for DTs in the AEC industry). Furthermore, a qualitative review was further conducted on 200 screened selected research publications in the domain of DTs. This study brings attention to the body of knowledge by envisioning trends and patterns by defining key research interests, journals, countries, new advancements, challenges, negative attitudes and future directions towards DTs in the AEC industry. However, this study is the first in its vital importance and uniqueness by providing a broad updated review of DTs in the AEC literature. Furthermore, this research laid a foundation for future researchers, policy makers and practitioners to explore the limitations in future research.
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Ahmed, Vian, Algan Tezel, Zeeshan Aziz und Magda Sibley. „The future of Big Data in facilities management: opportunities and challenges“. Facilities 35, Nr. 13/14 (03.10.2017): 725–45. http://dx.doi.org/10.1108/f-06-2016-0064.

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Purpose This paper aims to explore the current condition of the Big Data concept with its related barriers, drivers, opportunities and perceptions in the architecture, engineering and construction (AEC) industry with an emphasis on facilities management (FM). Design/methodology/approach Following a comprehensive literature review, the Big Data concept was investigated through two scoping workshops with industry experts and academics. Findings The value in data analytics and Big Data is perceived by the industry, yet the industry needs guidance and leadership. Also, the industry recognises the imbalance between data capturing and data analytics. Large IT vendors’ developing AEC industry-focused analytics solutions and better interoperability among different vendors are needed. The general concerns for Big Data analytics mostly apply to the AEC industry as well. Additionally, however, the industry suffers from a structural fragmentation for data integration with many small-sized companies operating in its supply chains. This paper also identifies a number of drivers, challenges and way-forwards that calls for future actions for Big Data in FM in the AEC industry. Originality/value The nature of data in the business world has dramatically changed over the past 20 years. This phenomenon is often broadly dubbed as “Big Data” with its distinctive characteristics, opportunities and challenges. Some industries have already started to effectively exploit “Big Data” in their business operations. However, despite many perceived benefits, the AEC industry has been slow in discussing and adopting the Big Data concept. Empirical research efforts investigating Big Data for the AEC industry are also scarce. This paper aims at outlining the benefits, challenges and future directions (what to do) for Big Data in the AEC industry with an FM focus.
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Alizadehsalehi, Sepehr, Ahmad Hadavi und Joseph Chuenhuei Huang. „Assessment of AEC Students’ Performance Using BIM-into-VR“. Applied Sciences 11, Nr. 7 (03.04.2021): 3225. http://dx.doi.org/10.3390/app11073225.

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Building Information Modeling (BIM) and Virtual reality (VR) have attracted growing attention within the architecture, engineering, and construction (AEC) industry in recent years. Integration of BIM and VR technology can develop workflow efficiency through enhanced common understanding and prepare students in architecture and engineering programs to become leaders of the AEC industry. However, the current shortage of AEC professionals trained in BIM and VR is still a barrier to collaborative working practice in this industry. This paper reviews previous work on the BIM, VR, and BIM-into-VR in AEC education/training to bridge this gap. It also presents an advanced framework to clarify creating and using the BIM model into VR workflow in the AEC industry through the integrated definition function (IDEF0) model. The authors further evaluated the BIM-into-VR applications in literature and real-life by surveying students’ learning performance in terms of eight characteristics relevant to the VR environment and students’ performance within two projects, one involving the “NASA Mars Habitat Project” and the other involving the “Norris Center Project” at Northwestern University. The results confirmed that BIM-into-VR usability and efficiency in improving students’ main learning performance characteristics: Learnability, Interoperability, Visualization, Real-world, Interaction, Creativity, Motivation, and Comfort. This study addresses the advantages of using BIM-into-VR in AEC programs. It also offers suggestions to AEC educators and students in implementing BIM-into-VR in different courses and creating a roadmap for their future as professionals in the AEC industry.
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Howard, H. C., R. E. Levitt, B. C. Paulson, J. G. Pohl und C. B. Tatum. „Computer Integration: Reducing Fragmentation in AEC Industry“. Journal of Computing in Civil Engineering 3, Nr. 1 (Januar 1989): 18–32. http://dx.doi.org/10.1061/(asce)0887-3801(1989)3:1(18).

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Howard, H. Craig. „Project‐Specific Knowledge Bases in AEC Industry“. Journal of Computing in Civil Engineering 5, Nr. 1 (Januar 1991): 25–41. http://dx.doi.org/10.1061/(asce)0887-3801(1991)5:1(25).

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Cho, Young Sang, Sung Chul Hong, Je Hyuk Lee und Hyun Suk Jang. „Higher Education Program Development for Structural Building Information Modeling(S-BIM)“. Advanced Materials Research 838-841 (November 2013): 3176–79. http://dx.doi.org/10.4028/www.scientific.net/amr.838-841.3176.

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AEC (Architecture, Engineering, and Construction) industries are in the process of paradigm shift on the performance of practice, particularly in the fields of architects, consulting engineers such as structural engineers for structural BIM, civil engineers, MEP engineers, and contractors led by Building Information Modeling (BIM). Overall adoption of BIM in the AEC industries of North America has increased from 17% in 2007 to 71% in 2012 which is over 400% growth over last 5 years. This study analyzes and examines the BIM adoption status of AEC industry in the world including the North America and in the R.O. Korea through the literature survey. This study also examines how academic community is preparing for the drastic cultural change of work process in the construction industry due to BIM adoption in the foreign and domestic AEC industry. This paper presents the case study of BIM education including Capstone Design in the R.O. Korea. This study is to propose that academia needs to establish the appropriate educational curriculum and implementation to enhance, improve and research the state of art BIM technology together with AEC industry.
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Wong, Yvonne Yu Bing, Sam Conrad Joyce und Lucienne Blessing. „A REVIEW OF DESIGN RESEARCH IN ENGINEERING PRODUCTIVITY IN THE ARCHITECTURE, ENGINEERING AND CONSTRUCTION (AEC) INDUSTRY“. Proceedings of the Design Society 1 (27.07.2021): 201–10. http://dx.doi.org/10.1017/pds.2021.21.

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AbstractProductivity studies in the AEC industry has gained significant attention in the past decade, however the impact from actual industry application has not kept up. This could be attributed to the focus on construction productivity instead of engineering productivity. This paper presents a systematic literature review on engineering design productivity in AEC industry focusing on design research method applications.
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Rostam, Dilan M. „Education Needs to Support Architecture, Engineering, and Construction Collaboration Using Building Information Modeling“. ARO-THE SCIENTIFIC JOURNAL OF KOYA UNIVERSITY 7, Nr. 2 (20.12.2019): 53–62. http://dx.doi.org/10.14500/aro.10604.

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Projects in the construction industry involve multidisciplinary collaboration between the disciplines of architecture, engineering, and construction (AEC), and others. Conventionally, the collaboration between these disciplines relied on the recurrent exchange of relevant drawings and documents. Building information modeling (BIM) as a model-based process has given AEC professionals the tools to more efficiently plan, design, construct, and manage buildings and infrastructure. Yet the AEC industry has been reluctant in fully adopting the BIM as a single standard. This study explores and identifies the bottlenecks in adopting BIM as a single product lifecycle standard in the construction industry and advise on educating new engineers to become the generation to use a virtual collaborative working space covering the entire building lifecycle. Two conducted surveys targeting the AEC academia and industry revealed the needs for multilevel cross-disciplinary interactive collaborative BIM process modeling, and skilled workforce to increase the graduates’ marketability and BIM adaptability. It is concluded that the new age collaborative culture requires new generation of AEC players that are enabled to work on a shared virtual product model supported by proactive BIM skills learned through undergraduate programs.
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Agirachman, Fauzan Alfi, Ilham Fajar Putra und Adam Angkawijaya. „Initial Study on Building Information Modeling Adoption Urgency for Architecture Engineering and Construction Industry in Indonesia“. MATEC Web of Conferences 147 (2018): 06002. http://dx.doi.org/10.1051/matecconf/201814706002.

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This paper presents our initial study on Building Information Modeling (BIM) adoption urgency for architecture, engineering and construction (AEC) industry in Indonesia. Currently, BIM is being adopted by many countries around the world because of its’ efficiency and other benefits. Meanwhile, most of AEC industries in Indonesia still using the conventional method and there are no regulations from Indonesian AEC authority for adopting BIM. With that situation, a study of BIM adoption in Indonesian AEC industries is important. This study uses a qualitative approach with explorative type. Input from the survey is evaluated qualitatively using content analysis, distribution analysis and correspondence analysis method. Based on analysis result, it shows that BIM as a mean to encourage a more sustainable approach in AEC industry is still in its development phase but it shows great potentials and it gives stakeholders a better way to achieve sustainable built environment. Current lack of awareness and understanding of BIM in Indonesia, particularly in the education sector, is a key factor that impedes BIM adoption and one that can be addressed by integrating BIM into AEC curriculum. Government and practitioners alike need to develop a strategic roadmap to pave way for successful BIM implementation.
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Sujan, Sujesh Francis, Steve Wynford Jones, Arto Kiviniemi, Jacqueline Mary Wheatcroft und Bwalimu Mwiya. „Holistically assessing collaborative culture in the AEC industry“. Journal of Information Technology in Construction 25 (01.04.2020): 272–86. http://dx.doi.org/10.36680/j.itcon.2020.016.

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The insufficient understanding and literature on people collaborating in the Architectural-Engineering-Construction (AEC) industry has prompted researchers to investigate this by conducting project-to-project comparisons. A mixed method-based comparison of two construction projects’ design teams was made in order to present factors to be considered in fostering a positive collaborative culture. Client knowledge and involvement, existing relationships between teams, stronger informal collaboration, a decentralised leadership style and the adequate monetary motivation to a firm were found to be most critical. The study also assessed whether the use of holistic analysis methods can quantitatively show the differences between the projects; in particular, which project had a more positive collaborative culture. The perception based method used correlated the variance of perception of the teamwork environment and systemic risk to the projects with a more positive collaborative culture; 80% of constructs (some postulated attribute of people assumed, to reflect in test performance) supported the qualitative data. Additionally, assessments of the personalities of respondents from the project with a more collaborative culture also showed higher collective agreeableness. Findings suggest that projects with more changes, more assumptions made and uncertainty in requirements affect the collaborative culture negatively.
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Alizadehsalehi, Sepehr, Ahmad Hadavi und Joseph Chuenhuei Huang. „From BIM to extended reality in AEC industry“. Automation in Construction 116 (August 2020): 103254. http://dx.doi.org/10.1016/j.autcon.2020.103254.

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Lindfors, C., P. Chang und W. Stone. „Survey of Construction Metrology Options for AEC Industry“. Journal of Aerospace Engineering 12, Nr. 2 (April 1999): 58–64. http://dx.doi.org/10.1061/(asce)0893-1321(1999)12:2(58).

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Cárcamo, Juan Gonzalo, Helmuth Trefftz, Diego Andrés Acosta und Luis Fernando Botero. „Collaborative design model review in the AEC industry“. International Journal on Interactive Design and Manufacturing (IJIDeM) 11, Nr. 4 (16.01.2016): 931–47. http://dx.doi.org/10.1007/s12008-016-0301-z.

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Eastman, C., F. Wang, S. J. You und D. Yang. „Deployment of an AEC industry sector product model“. Computer-Aided Design 37, Nr. 12 (Oktober 2005): 1214–28. http://dx.doi.org/10.1016/j.cad.2004.11.007.

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Noghabaei, Mojtaba, Arsalan Heydarian, Vahid Balali und Kevin Han. „Trend Analysis on Adoption of Virtual and Augmented Reality in the Architecture, Engineering, and Construction Industry“. Data 5, Nr. 1 (13.03.2020): 26. http://dx.doi.org/10.3390/data5010026.

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With advances in Building Information Modeling (BIM), Virtual Reality (VR) and Augmented Reality (AR) technologies have many potential applications in the Architecture, Engineering, and Construction (AEC) industry. However, the AEC industry, relative to other industries, has been slow in adopting AR/VR technologies, partly due to lack of feasibility studies examining the actual cost of implementation versus an increase in profit. The main objectives of this paper are to understand the industry trends in adopting AR/VR technologies and identifying gaps within the industry. The identified gaps can lead to opportunities for developing new tools and finding new use cases. To achieve these goals, two rounds of a survey at two different time periods (a year apart) were conducted. Responses from 158 industry experts and researchers were analyzed to assess the current state, growth, and saving opportunities for AR/VR technologies for the AEC industry. The findings demonstrate that older generations are significantly more confident about the future of AR/VR technologies and they see more benefits in AR/VR utilization. Furthermore, the research results indicate that Residential and commercial sectors have adopted these tools the most, compared to other sectors and institutional and transportation sectors had the highest growth from 2017 to 2018. Industry experts anticipated a solid growth in the use of AR/VR technologies in 5 to 10 years, with the highest expectations towards healthcare. Ultimately, the findings show a significant increase in AR/VR utilization in the AEC industry from 2017 to 2018.
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Wen, Jing, und Masoud Gheisari. „Using virtual reality to facilitate communication in the AEC domain: a systematic review“. Construction Innovation 20, Nr. 3 (11.06.2020): 509–42. http://dx.doi.org/10.1108/ci-11-2019-0122.

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Purpose The architecture, engineering and construction (AEC) industry exists in a dynamic environment and requires several stakeholders to communicate regularly. However, evidence indicates current communication practices fail to meet the requirements of increasingly complex projects. With the advent of Industry 4.0, a trend is noted to create a digital communication environment between stakeholders. Identified as a central technology in Industry 4.0, virtual reality (VR) has the potential to supplement current communication and facilitate the digitization of the AEC industry. This paper aims to explore how VR has been applied and future research directions for communication purpose. Design/methodology/approach This research follows a systematic literature assessment methodology to summarize the results of 41 research articles in the last 15 years and outlines the applications of VR in facilitating communication in the AEC domain. Findings Relevant VR applications are mainly found in building inspection, facility management, safety training, construction education and design and review. Communication tools and affordance are provided or built in several forms: text-based tools, voice chat tool, visual sharing affordance and avatars. Objective and subjective communication assessments are observed from those publications. Originality/value This review contributes to identifying the recent employment areas and future research directions of VR to facilitate communication in the AEC domain. The outcome can be a practical resource to guide both industry professionals and researchers to recognize the potentials of VR and will ultimately facilitate the creation of digital construction environments.
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Saka und Chan. „A Scientometric Review and Metasynthesis of Building Information Modelling (BIM) Research in Africa“. Buildings 9, Nr. 4 (16.04.2019): 85. http://dx.doi.org/10.3390/buildings9040085.

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Building Information Modelling (BIM) has been gaining widespread adoption in the Architecture, Engineering, and Construction (AEC) industry across the globe. Consequently, several research studies have attempted to construct a holistic review of the increasing BIM publications to identify the development trend using manual review, scientometric review, bibliometric review, or latent semantic review. These extant studies have often adopted a global view of the development despite the adoption of BIM varying across firms, countries, and continents. This approach is often regarded as not representative of the BIM development in countries and continents at the infancy stage. As BIM is still at the germinating stage of development in Africa and previous reviews are unrepresentative of BIM development in the AEC industry of Africa. This paper aims to present a scientometric review and metasynthesis of BIM development in the African AEC industry to explore the intellectual evolution of BIM, the status quo of BIM across the regions, and any potential barriers hindering BIM proliferation. The review findings revealed a varying level of BIM growth, with North Africa, West Africa, and Southern Africa leading the research development, whilst East Africa and Central Africa are slightly lagging behind. Additionally, the major challenges facing BIM adoption was found as people/process-related barriers. This study has provided valuable insights into BIM development and application in the growing African AEC industry.
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Liu, Shijing, Benzheng Xie, Linda Tivendal und Chunlu Liu. „Critical Barriers to BIM Implementation in the AEC Industry“. International Journal of Marketing Studies 7, Nr. 6 (30.11.2015): 162. http://dx.doi.org/10.5539/ijms.v7n6p162.

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<p>Building Information Modelling (BIM) is one of the most significant technological advances in the building design and construction industry to date. Implementation of BIM has increased significantly over the past decade; and it enables the different stakeholders of a construction project to collaborate better throughout its lifecycle, and improves the opportunities to share data and decrease consumption. However, the implementation of BIM lags far behind its potential due to the existence of various barriers. This paper aims at identifying, classifying, and prioritising these barriers to BIM implementation through a survey. The research findings are expected to assist major stakeholders in the construction industry to promote BIM implementation.</p>
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Gu, Ning, und Kerry London. „Understanding and facilitating BIM adoption in the AEC industry“. Automation in Construction 19, Nr. 8 (Dezember 2010): 988–99. http://dx.doi.org/10.1016/j.autcon.2010.09.002.

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Pauwels, Pieter, Sijie Zhang und Yong-Cheol Lee. „Semantic web technologies in AEC industry: A literature overview“. Automation in Construction 73 (Januar 2017): 145–65. http://dx.doi.org/10.1016/j.autcon.2016.10.003.

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Lohne, Jardar, Nina Eklo Kjesbu, Atle Engebø, Brendan Young und Ola Lædre. „Scoping Literature Review of Crime in the AEC Industry“. Journal of Construction Engineering and Management 145, Nr. 6 (Juni 2019): 03119002. http://dx.doi.org/10.1061/(asce)co.1943-7862.0001648.

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Zhang, Jisong, Lihua Zhao, Guoqian Ren, Haijiang Li und Xiaofei Li. „Special Issue “Digital Twin Technology in the AEC Industry”“. Advances in Civil Engineering 2020 (27.11.2020): 1–18. http://dx.doi.org/10.1155/2020/8842113.

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Sustainable building design has become a hot topic over the past decades. Many standards, databases, and tools have been developed for achieving a sustainable building. Not until recently have the importance of structural engineering and its contribution to sustainable building design been full recognised. However, due to the highly fragmented and diversity of knowledge across building and infrastructure domains, there is a lack of approach that can address all the sustainable issues within the structural design. This paper reviews the sustainable design from the perspective of structural engineering: (1) reviewing the current situation; (2) identifying the gaps and difficulties; and (3) making recommendations for future improvements. The strategies and indicators, as well as BIM-enabled methodology, for sustainable structural design (SSD) are also discussed in a holistic way. The results of this investigation show that most of the methods are not doing well in terms of delivering a successful sustainable structural design. It is expected that the future BIM could probably provide such a platform to address these issues.
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Shafiee, Sara, Poorang Piroozfar, Lars Hvam, Eric R. P. Farr, George Q. Huang, Wei Pan, Anders Kudsk, Jeppe Bredahl Rasmussen und Manuel Korell. „Modularisation strategies in the AEC industry: a comparative analysis“. Architectural Engineering and Design Management 16, Nr. 4 (05.03.2020): 270–92. http://dx.doi.org/10.1080/17452007.2020.1735291.

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Tchouanguem Djuedja, Justine Flore, Fonbeyin Henry Abanda, Bernard Kamsu-Foguem, Pieter Pauwels, Camille Magniont und Mohamed Hedi Karray. „An integrated Linked Building Data system: AEC industry case“. Advances in Engineering Software 152 (Februar 2021): 102930. http://dx.doi.org/10.1016/j.advengsoft.2020.102930.

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Zheng, Zhou, Bi Zhong Xia, Zhong Dong Ouyang und Yi Ran Liu. „Structure and Development Trend of the Typical Aluminum Electrolytic Capacitor Assembling Machine“. Applied Mechanics and Materials 341-342 (Juli 2013): 472–77. http://dx.doi.org/10.4028/www.scientific.net/amm.341-342.472.

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Aluminum electrolytic capacitor (AEC) is widely applied in many fields, but also it plays an important role in the capacitor industry. The assembling machine is the key equipment in the AEC production, whose performance determines the quality of capacitors. This paper introduces the working process and system structure of the typical AEC assembling machine, and analyses some problems of assembling machines in our China. Combined with these problems, the paper brings forward the prospective development direction, which provides the reference for the design and manufacturing of assembling machines.
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Ghazaryan, Marine. „Pecularities of BIM adoption in Armenia“. E3S Web of Conferences 97 (2019): 01025. http://dx.doi.org/10.1051/e3sconf/20199701025.

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The progressive penetration of Building Information Modelling (BIM) into the Architecture, Engineering and Construction (AEC) Industry varies in pace and profoundness from country to country depending on level of country development, industry maturity, scale of penetration, willingness of adoption in the institutional and political levels. This article is an attempt to reveal peculiarities and degree of BIM diffusion in developed and developing countries with the focus on case of Armenia. As methods of research was chosen literature review and questionnaire based survey among Industry companies of Armenia. Data collected using interviews and questionnaire surveys among construction and architectural enterprises, managers, owners, NGOs and regulating bodies of AEC industry were analysed. The development directions of the BIM implementation, industry efficiency enhancement issues, BIM related scientific research areas and more were reflected in structured study for Armenia.
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Rinawati, Herrukmi Septa. „Government policy in developing social capital of small industry in facing ASEAN Economy Community era“. RUDN Journal of Economics 27, Nr. 2 (15.12.2019): 249–58. http://dx.doi.org/10.22363/2313-2329-2019-27-2-249-258.

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This study aimed to know the obstacles and the government policy in developing the social capital of small industry in facing competition in ASEAN Economy Community (AEC) period. Using quantitative and qualitative as the methodology, this study obtained the data through interview and focus group discussion. The result showed that the development of social capital that not maximum enough was becoming the obstacle for small industry. The connection between the businessman association with other party, such as big industry, civil society organization, banking and other stake holders should be expanded. Meanwhile the government had done some policy in developing the social capital of small industry by holding a training and competition, increasing the access and relation of small industry with foreign and national company, also helping on the social capital. Therefore, small industry still can survive in facing the AEC era.
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Herr, Christiane M., und Thomas Fischer. „BIM adoption across the Chinese AEC industries: An extended BIM adoption model“. Journal of Computational Design and Engineering 6, Nr. 2 (11.06.2018): 173–78. http://dx.doi.org/10.1016/j.jcde.2018.06.001.

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Abstract Despite strong encouragement by government guidelines and promoting efforts by the software industry, BIM is adopted at relatively slow speeds in construction industries across the world. The study presented in this paper examines the challenges to BIM adoption faced specifically in the Chinese construction industry across architecture, engineering and construction. We review recent literature addressing BIM adoption in the international context and develop a critique of common approaches to describe processes of BIM adoption. Substantiated with the analysis of detailed survey data obtained from AEC professionals in the greater Shanghai area, we propose a new, extended model to describe and assess processes of BIM adoption. Utilising this model, we evaluate temporal and collaborative dimensions of BIM adoption, and present results from detailed survey data. We further discuss how current Chinese BIM adoption in practice diverges from overseas BIM adoption strategies and examine how the extended BIM adoption model can provide a more accurate representation of BIM adoption processes observed in practice in and beyond the context of the Chinese AEC industries. Highlights BIM adoption across the Chinese AEC industries is still uneven and over reported. Chinese AEC industries' BIM adoption differs from overseas models. An extended BIM adoption model allows charting BIM adoption along AEC workflows. BIM is adapted for linear Chinese workflows rather than collaborative work.
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Rankin, Jeff H., und Irina Kondratova. „Mobile multimodal extensions to collaborative Web-based systems“. Canadian Journal of Civil Engineering 33, Nr. 12 (01.12.2006): 1470–79. http://dx.doi.org/10.1139/l06-096.

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The development of leading-edge multimodal (e.g., concurrent text, voice, and video capabilities) mobile applications as a technology that holds promise for the construction industry is described. Because of the complexity of the products, the relatively short execution time frame, and the number of parties involved, the information exchanged throughout an architectural, engineering, and construction (AEC) project is extensive. Efficiently managing this information exchange is a significant impediment to increasing the overall productivity of the industry. The technology focus of this paper extends today's tools by addressing one of the unique characteristics of the industry: the need for mobility of real-time information in an integrated and collaborative environment. Mobile computing devices have the capabilities and characteristics for wide use in real-time communication of project information to project repositories or between project participants. As the industry moves away from the desktop and laptop Web paradigms toward the mobile Web paradigm, the availability of real-time complete information exchange with the project information repository presents new opportunities for decision-making in the AEC industry. To facilitate more widespread use of the solution applications described, extensive usability research in light of the various processes in the AEC industry is needed; a preliminary framework for this purpose is presented.Key words: project information management, collaborative information systems, mobile computing, multimodal functionality.
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Khan, Ayaz, Samad Sepasgozar, Tingting Liu und Rongrong Yu. „Integration of BIM and Immersive Technologies for AEC: A Scientometric-SWOT Analysis and Critical Content Review“. Buildings 11, Nr. 3 (19.03.2021): 126. http://dx.doi.org/10.3390/buildings11030126.

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With the outset of Industrial Revolution 4.0 (IR 4.0), every sector is escalating to get enrichment out of it, whether they are research- or industry-oriented. The Architecture Engineering and Construction (AEC) industry lags a bit in adopting it because of its multi-faceted dependencies and unique nature of work. Despite this, a trend has been seen recently to hone the IR 4.0 multitudes in the AEC industry. The upsurge has been seen in the usage of Immersive Technologies (ImTs) as one of the disruptive techniques. This paper studies the literature based on ImTs, which are Virtual Reality (VR), Augmented Reality (AR), and Mixed Reality (MR) integrating with Building Information Modelling (BIM) in the AEC sector. A total number of 444 articles were selected from Scopus following the preferred reporting items for systematic reviews and meta-analysis (PRISMA) protocol of reviewing the literature. Among the selected database, 64 papers are identified as the result of following the protocol, and the articles are divided into eight domains relevant to the AEC industry, namely client/stakeholder, design exploration, design analysis, construction planning, construction monitoring, construction health/safety, facility/management, and education/training. This study adopts both a scientometric analysis for bibliometrics visualization and a critical review using Strength Weakness Opportunity Threat (SWOT) analysis for finding gaps and state of play. The novelty of this paper lies in the analysis techniques used in the literature to provide an insight into the literature, and it provides directions for the future with an emphasis on developing sustainable development goals (SDGs). In addition, research directions for the future growth on the adoption of ImTs are identified and presented based on categorization in immersive devices, graphical/non-graphical data and, responsive/integrative processes. In addition, five subcategories for each direction are listed, citing the limitations and future/needs. This study presents the roadmap for the successful adoption of ImTs for industry practitioners and stakeholders in the AEC industry for various domains. The paper shows that there are studies on ImTs with or without BIM; however, future studies should focus on the usage of ImTs in various sectors such as modular integrated construction (MiC) or emerging needs such as SDGs.
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Maliha, Mohammed N., Yazan I. Abu Aisheh, Bassam A. Tayeh und Ali Almalki. „Safety Barriers Identification, Classification, and Ways to Improve Safety Performance in the Architecture, Engineering, and Construction (AEC) Industry: Review Study“. Sustainability 13, Nr. 6 (17.03.2021): 3316. http://dx.doi.org/10.3390/su13063316.

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The Architecture, Engineering, and Construction (AEC) industry is one of the most dangerous industries due to its unique nature. Safety is a critical issue in developed and developing countries. The main objective of this paper was to identify and classify the barriers that hinder the implementation of safety in projects and ways to improve safety performance. The method used in this paper includes a heavy review of many sources related to the safety barriers in the AEC industry, including a process of identification and classification of these barriers, after which we discuss the most popular methods between them, based on the appearance of it in the sources which were reviewed. Then, the ways to improve safety performance were viewed in AEC industry. Based on that, it was found that there are the following 4 categories associated with safety barriers: (1) Behavior Barriers; (2) Management Barriers; (3) Awareness Barriers; and (4) Culture Barriers. At the same time, the most popular barriers are based on appearance in sources: lack of safety training, lack of commitment, work pressure is high when deadlines are approaching, and low level education, lack of experience, and lack of knowledge. The many ways to improve safety performance are illustrated in the end of this paper. The results of this paper show the importance of safety and that the actual safety of the projects should be focused on in order to reduce injuries, accidents, and reduce barriers of applying safety, which will enhance the sustainability and development of safe environments within in AEC industry.
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Haryati, Vivi Regina, Marieska Lupikawaty und Yahya Yahya. „Implementasi Masyarakat Ekonomi ASEAN terhadap Elemen Tenaga Kerja Terdidik di Indonesia“. Jurnal Ekonomi Pembangunan 17, Nr. 2 (26.12.2019): 99–108. http://dx.doi.org/10.29259/jep.v17i2.9508.

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AEC implementation, it was expected that economic growth in the ASEAN region will be evenly distributed and transformed into a world market. The main characteristics of AEC were five elements such as the free flow of goods, services, investment, capital, and educated labor. The purpose of this study was to determine the benefits of implementing ASEAN Economic Community (AEC) in the educated workforce in Indonesia. The data analysis technique was descriptive qualitative and the data source were used secondary data from national and international publication data such as Badan Pusat Statistik, International Labour Organization, and United Nations Development Programme. The results of this study indicate that the implementation of AEC has not provided benefits yet for the Indonesian state, especially in educated workforce. Some results from the analysis of other data also showed that AEC has not been able to provide benefits because in terms of the quantity of Indonesian educated workers before the implementation AEC were actually better than after the implementation AEC. The author also suggested that in the future the implementation of AEC can provide benefits for educated workers in Indonesia, namely Indonesia need to improve the quality of human resources through educations, as well as the role of universities in contributing to improve the quality of human resources supported by the government and industry.
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Karampour, Behzad, Sherif Mohamed, Hassan Karampour und Sonia Lupica Spagnolo. „Formulating a Strategic Plan for BIM Diffusion within the AEC Italian Industry: The Application of Diffusion of Innovation Theory“. Journal of Construction in Developing Countries 26, Nr. 1 (30.07.2021): 161–84. http://dx.doi.org/10.21315/jcdc2021.26.1.8.

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The importance of digital skills diffusion in fostering the architecture, engineering and construction (AEC) industry has been highlighted for more than a decade. The extent to which this objective can be achieved depends on several factors. An augmented building information modelling (BIM) adoption stems from, but is not restricted to, government policies and initiatives. This study aims to assess the diffusion of digital skills, specifically through BIM adoption and to establish feasible strategies for such adoption within the Italian AEC industry, taking into account institutional, organisational and project-related factors. This purpose is achieved through an initial investigation of the most significant hurdles in BIM uptake and various BIM-promoting policies adopted at an international level. Moreover, a rigorous review of recent developments in the diffusion of innovation theory is presented. Based on findings and combining the experiences of various authors in BIM-related research an exploratory online survey was conducted, resulting in identification of the clients' lack of knowledge as the most critical challenge to BIM adoption in the Italian AEC industry. Following this finding, the study suggests five strategies to leverage BIM benefits to their full extent, to increase the perception of BIM benefits and to bridge the current gap between the industry and academia.
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Engebø, Atle, Marie Hammer Iversen, Leif Daniel Houck, Ola Lædre und Jardar Lohne. „Reputation Management in the AEC-industry after Work-related Crime“. Periodica Polytechnica Architecture 49, Nr. 2 (22.11.2018): 176–84. http://dx.doi.org/10.3311/ppar.12696.

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Construction companies can be difficult to manage because of complex supply chains, autonomous project managers aiming to maximize net profit, heavy emphasis on price, etc. Another particularity, namely the construction companies' vulnerability for work-related crime, does not receive sufficient attention in the project management literature. In order to study how two major Norwegian contractors managed to safeguard their reputation in the aftermath of the discovery of tax crime and money laundering within their projects, this paper investigates the following research questions: 1) What are the main challenges regarding work-related crime? and 2) How do contractors manage their professional reputation and public image in the aftermath of exposed work-related crime?This is an exploratory study starting with a literature review, followed by a case study consisting of a document study and 12 semi-structured in-depth interviews with representatives on the strategic level. Work-related crime could have a devastating effect on a contractor's reputation. Reputation is perceived to be a vital catalyst for contractors that want to continue in business and conduct projects for reputable clients. Therefore, the most important measure will be to deliver projects according to the agreed price and quality, within the scheduled time, while not compromising either the contract, all the legal jurisdictions aspects or ethical standards. In these particular cases, the contractors perceived their reputation as remaining untarnished due to their successful ad-hoc reputation management. However, the contractors have to do more than just distancing themselves. They must actively prevent criminal actors from entering their projects. This paper is a revised version of the paper (study) published earlier in the proceedings of the Creative Construction Conference 2018 (Engebø et al., 2018).
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Richani, Yara Louisa, Ole Jonny Klakegg und Jardar Lohne. „Drivers and consequences of identity abuse in the AEC-industry“. Procedia Computer Science 121 (2017): 337–44. http://dx.doi.org/10.1016/j.procs.2017.11.046.

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Sultana, Dr (Mrs) Muneer, und Khairul Amilin Ibrahim. „Creation of ASEAN Economic Community (AEC) For Future Automotive Industry“. IOSR Journal of Business and Management 16, Nr. 4 (2014): 61–65. http://dx.doi.org/10.9790/487x-16466165.

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Mason, Charles F. „Exploration information and AEC regulation of the domestic uranium industry“. Journal of Economic Dynamics and Control 13, Nr. 3 (Juli 1989): 421–48. http://dx.doi.org/10.1016/0165-1889(89)90031-6.

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Cheng, Mengyuan, Guoliang Liu, Yongshun Xu und Ming Chi. „When Blockchain Meets the AEC Industry: Present Status, Benefits, Challenges, and Future Research Opportunities“. Buildings 11, Nr. 8 (06.08.2021): 340. http://dx.doi.org/10.3390/buildings11080340.

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Blockchain is regarded as a potential technology for transforming the architecture, engineering, and construction (AEC) industry, and the number of related publications is increasing rapidly. However, a systematic review of blockchain applications in the AEC industry is lacking. The objective of this study was to review the current status of blockchain applications via a bibliometric analysis combined with a systematic literature review. According to related articles collected from databases, the present status of blockchain was analysed with regard to the distribution of articles over publication years, journals, institutions, countries, cooperation networks between authors, keyword co-occurrence networks, and research methodologies. The results indicated that research on blockchain applications is still relatively new and fragmented with regard to several topics. Five areas of benefit were identified: (i) supply chain management, (ii) contract management, (iii) information management, (iv) stakeholder management, and (v) integration management. On the basis of the technology–organisation–environment framework, nine types of challenges were identified. Future research opportunities were proposed according to the research findings. This study contributes to the current body of knowledge and provides guidelines for further research on blockchain applications in the AEC industry.
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42

Sietmann, Richard. „Industry: Germany rethinks IT“. Physics World 7, Nr. 10 (Oktober 1994): 7. http://dx.doi.org/10.1088/2058-7058/7/10/5.

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Poetschke-Langer, M. „Germany: tobacco industry paradise“. Tobacco Control 10, Nr. 4 (01.12.2001): 300–303. http://dx.doi.org/10.1136/tc.10.4.300.

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Lo, Jacqueline Tsz Yin, und Calvin Kam. „Innovation Performance Indicators for Architecture, Engineering and Construction Organization“. Sustainability 13, Nr. 16 (12.08.2021): 9038. http://dx.doi.org/10.3390/su13169038.

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It is known that organizations can gain a competitive advantage only by managing effectively for today, while simultaneously creating innovation for tomorrow, and sustainability is one of the innovative strategies in major architecture, engineering, and construction (AEC) organizations. Innovation is vital to AEC organizations’ growth, yet most do not have a comprehensive measurement of innovation performance. Similar to the balanced scorecard approach, key indicators should be identified for the measuring of innovation performance to facilitate management. This article presents a study by using a triangulation approach that integrates systematic literature reviews and two-step consultations with experienced senior professionals to compile a set of key indicators for innovation performance measures for the AEC Industry.
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Jin, Ruoyu, Tong Yang, Poorang Piroozfar, Byung-Gyoo Kang, Dariusz Wanatowski, Craig Matthew Hancock und Llewellyn Tang. „Project-based pedagogy in interdisciplinary building design adopting BIM“. Engineering, Construction and Architectural Management 25, Nr. 10 (19.11.2018): 1376–97. http://dx.doi.org/10.1108/ecam-07-2017-0119.

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Purpose The purpose of this paper is to present a pedagogical practice in the project-based assessment of architectural, engineering and construction (AEC) students’ interdisciplinary building design work adopting BIM. This pedagogical practice emphasizes the impacts of BIM, as the digital collaboration platform, on the cross-disciplinary teamwork design through information sharing. This study also focuses on collecting students’ perceptions of building information modeling (BIM) effects in integrated project design. Challenges in BIM adoption from AEC students’ perspective were identified and discussed, and could spark further research needs. Design/methodology/approach Based on a thorough review of previous pedagogical practices of applying BIM in multiple AEC disciplines, this study adopted a case study of the Solar Decathlon (SD) residential building design as the group project for AEC students to deliver the design work and construction planning. In total 13 different teams within the University of Nottingham Ningbo China, each group consisting of final year undergraduate students with backgrounds in architecture, civil engineering, and architectural environmental engineering, worked to deliver the detailed design of the solar-powered residential house meeting pre-specified project objectives in terms of architectural esthetics, structural integrity, energy efficiency, prefabrication construction techniques and other issues such as budget and scheduling. Each team presented the cross-disciplinary design plan with cost estimate and construction scheduling together within group reports. This pedagogical study collected students’ reflective thinking on how BIM affected their design work, and compared their feedback on BIM to that from AEC industry professionals in previous studies. Findings The case study of the SD building project showed the capacity of BIM in enabling interdisciplinary collaboration through information exchange and in enhancing communication across different AEC fields. More sustainable design options were considered in the early architectural design stages through the cross-disciplinary cooperation between architecture and building services engineering. BIM motivated AEC student teams to have a more comprehensive design and construction plan by considering multiple criteria including energy efficiency, budget, and construction activities. Students’ reflections indicated both positive effects of BIM (e.g. facilitating information sharing) as well as challenges for further BIM implementation, for example, such as some architecture students’ resistance to BIM, and the lack of existing family types in the BIM library, etc. Research limitations/implications Some limitations of the current BIM pedagogy were identified through the student group work. For example, students revealed the problem of interoperability between BIM (i.e. Autodesk Revit) and building energy simulation tools. To further integrate the university education and AEC industry practice, future BIM pedagogical work could recruit professionals and project stakeholders in the adopted case studies, for the purpose of providing professional advice on improving the constructability of the BIM-based design from student work. Practical implications To further integrate the university education and AEC industry practice, future BIM pedagogical work could recruit professionals and project stakeholders in the adopted case study, for the purpose of providing professional advice in improving the constructability of the BIM-based design from student work. Originality/value This work provides insights into the information technology applied in the AEC interdisciplinary pedagogy. Students gained the experience of a project-based collaboration and were equipped with BIM capabilities for future employment within the AEC job market. The integrated design approach was embedded throughout the team project process. Overall, this BIM pedagogical practice emphasized the link between academic activities and real-world industrial practice. The pedagogical experience gained in this BIM course could be expanded to future BIM education and research in other themes such as interoperability of building information exchange among different digital tools.
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Yang, Yingnan, Yidan Zhang und Hongming Xie. „Exploring Cultivation Path of Building Information Modelling in China: An Analysis from the Perspective of an Innovation Ecosystem“. Sustainability 12, Nr. 17 (25.08.2020): 6902. http://dx.doi.org/10.3390/su12176902.

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Ecosystem theory provides a new perspective for studying the development of the architecture engineering and construction (AEC) industry in the age of information and communication technology (ICT). As an extremely ICT innovation, building information modelling (BIM) not only brings technical benefits to the AEC industry, but changes the innovation paradigm of the AEC industry towards an innovation ecosystem, which improve productivity and sustainability throughout the project life cycle. This article contributes to innovation ecosystem theory by exploring the structure of the BIM ecosystem and deriving its cultivation path. Then, as the leading city in China for developing BIM technologies, Shanghai was selected as the case study to elaborate on the cultivation path of the BIM ecosystem. The results indicate that three layers identified in the structure contribute to the understanding of the boundaries, units, and analytical focus of the BIM ecosystem, with the BIM platform being the core layer. This topology structure, with the BIM platform as the hub, promotes interdependency and symbiosis among participants in the cultivation of the BIM ecosystem, supporting the birth, expansion, maturity, re-innovation (or extinction), and sustainable development of the BIM ecosystem. This research complements and extends literature on the BIM ecosystem, and provides implications as to the construction, cultivation, and sustainability of BIM ecosystems for emerging economy firms.
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Mansour, Osama E., und Omar O. Elrawy. „The Impact of Enhanced Commissioning Process on AEC Professionals - A Case Study of LEED New Construction in Egypt“. Energy and Environment Research 9, Nr. 2 (09.08.2019): 36. http://dx.doi.org/10.5539/eer.v9n2p36.

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In this study, the authors explore the impact of the enhanced commissioning process required by LEED certification on the Architecture, Engineering and Construction (AEC) professionals through a case study of a (LEED) New Construction in New Cairo, Egypt. While research has consistently shown the positive impact of green-rated buildings on building occupants, little research discusses the impact of green building rating on AEC professionals. Observation, document analysis, and interview of AEC professionals were used throughout the course of design and construction to identify the impact of the enhanced commissioning process on the quality of Project delivery and experience of AEC professionals. All technical and managerial issues of the entire enhanced commissioning process were recorded and thoroughly analyzed. As a result, a comprehensive comparison between mainstream projects and the current LEED-certified building is established. The study introduces a novel insight on green building design and construction practice as a potential culture of quality for the building industry in developing countries.
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Miyasaka, Elza Luli, Márcio Minto Fabricio und Ingrid Paoletti. „4th Industrial Revolution in Brazil: Architecture, Engineering and Civil Construction“. arq.urb, Nr. 25 (25.05.2019): 1–14. http://dx.doi.org/10.37916/arq.urb.vi25.11.

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This paper aims to conduct exploratory research into dissemination of the purpose of the Industry 4.0 concept in Brazil, especially in the Architecture, Engineering and Civil Construction (AEC) sector. For this aim, a survey was conducted in on line magazines. In Brazilian territory the theme arises since 2016 in traditional manufacturing sector. In AEC the papers on these organizational mechanisms are incipient, especially when talking about possible networks of connections between clients, production, machines with data feedback and specialized programming.
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Jacobsson, Mattias, Henrik C. J. Linderoth und Steve Rowlinson. „The role of industry: an analytical framework to understand ICT transformation within the AEC industry“. Construction Management and Economics 35, Nr. 10 (19.04.2017): 611–26. http://dx.doi.org/10.1080/01446193.2017.1315148.

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Elabd, Nouran, und Laila Khodeir. „Towards Enhancing Building Information Modeling Implementation in the Egyptian AEC Industry“. Academic Research Community publication 2, Nr. 3 (18.12.2018): 209. http://dx.doi.org/10.21625/archive.v2i3.360.

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Since the expression "Building Information Modeling" (BIM) was initially presented in the Engineering and Construction AEC industry in the most recent decade; it has changed numerous parts of the design, construction, and operation of a building. BIM is a middleware connector that represents the advancement and utilization of PC. BIM has various frameworks which have been conducted by the pioneers in the BIM industry to enhance the BIM process. There is a study of the reflection of those frameworks on the Egyptian AEC industry to overcome the threats that prevent Egypt from applying BIM technology more broadly. In addition, a comparison is conducted between the successful countries which implemented BIM in their projects and managed to enhance their adoption by examining the local challenges and targets. The countries then made strategies and standards to overcome the aforementioned obstacles. Furthermore, successful actions were applied that can match with the Egyptian industrial requirements. This paper is expected to define the challenges which are facing the Egyptian industry to apply BIM and the potential capabilities of solving those problems. To acquire the vital information to carry on this paper, a questionnaire was created and distributed in the AEC community. The reason for the study was to see how experts consider BIM as a device in the fields of design and construction in general and in the Egyptian industry particularly. The aim of this paper is to propose a framework through several case studies which are discussed, analyzed and compared. The purpose of the analysis is to explore the importance of using BIM. Additionally, exploring the effect of different parameters on implementing BIM helped significantly during the process. It starts with proposing its framework with evaluating matrix that contains attributes to measure its success, moreover, it serves as a great help to the Egyptian companies that make real business decisions about enhancing BIM implementation through this framework.
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