Abstracts – Browse Results

Search or browse again.

Click on the titles below to expand the information about each abstract.
Viewing 46 results ...

Agyefi-Mensah, S, Post, J, van Egmond, E E L C, Badu, E and Mohammadi, M (2015) A typological analysis of public apartment buildings in Ghana. Architectural Engineering and Design Management, 11(05), 376-89.

Ahankoob, A, Manley, K, Hon, C and Drogemuller, R (2018) The impact of building information modelling (BIM) maturity and experience on contractor absorptive capacity. Architectural Engineering and Design Management, 14(05), 363–80.

AL Mousli, M H and El-Sayegh, S M (2016) Assessment of the design–construction interface problems in the UAE. Architectural Engineering and Design Management, 12(05), 353–66.

Al-Saggaf, A, Hegazy, T, Nasir, H and Taha, M (2022) Computerized DSS for evaluating design performance of residential buildings using additive weighting approach. Architectural Engineering and Design Management, 18(05), 631–51.

Ataman, C and Dino, & G (2022) Performative design processes in architectural practices in Turkey: architects’ perception. Architectural Engineering and Design Management, 18(05), 690–704.

Azzouz, A and Papadonikolaki, E (2020) Boundary-spanning for managing digital innovation in the AEC sector. Architectural Engineering and Design Management, 16(05), 356–73.

Bueno, C, Pereira, L M and Fabricio, M M (2018) Life cycle assessment and environmental-based choices at the early design stages: an application using building information modelling. Architectural Engineering and Design Management, 14(05), 332–46.

Choi, J, Hong, D H, Lee, S H, Lee, H Y, Hong, T, Lee, D and Park, H S (2023) Multi-objective green design model for prestressed concrete slabs in long-span buildings. Architectural Engineering and Design Management, 19(05), 531–49.

Chun, S and Nam, K (2022) Analyzation and prioritization of healthcare environment criteria for designing geriatric long-term care private hospitals in South Korea using an analytic hierarchy process. Architectural Engineering and Design Management, 18(05), 723–38.

Diker, F and Erkan, & (2022) Fuzzy logic method in the design of elementary school classrooms. Architectural Engineering and Design Management, 18(05), 739–58.

Emmitt, S (2017) Editorial. Architectural Engineering and Design Management, 13(05), 325.

Emmitt, S (2016) Editorial. Architectural Engineering and Design Management, 12(05), 331–2.

Fernando, S, Hansen, E, Kozak, R and Sinha, A (2018) Organizational cultural compatibility of engineered wood products manufacturers and building specifiers in the Pacific Northwest. Architectural Engineering and Design Management, 14(05), 398–410.

França, A J G L and Ornstein, S W (2022) The role of the built environment in updating design requirements in the post-pandemic scenario: a case study of selected diagnostic facilities in Brazil. Architectural Engineering and Design Management, 18(05), 671–89.

Haidar, A, Underwood, J and Coates, P (2019) Smart processes for smart buildings: ‘sustainable processes’, ‘recyclable processes’ and ‘building seeds’ in parametric design. Architectural Engineering and Design Management, 15(05), 402–29.

Haller, M, Lu, W, Stehn, L and Jansson, G (2015) An indicator for superfluous iteration in offsite building design processes. Architectural Engineering and Design Management, 11(05), 360-75.

Hariyadi, A, Fukuda, H and Ma, Q (2017) The effectiveness of the parametric design ‘Sudare’ blind as external shading for energy efficiency and visibility quality in Jakarta. Architectural Engineering and Design Management, 13(05), 384–403.

Henriksen, T, Lo, S, Knaack, U and Kirkegaard, P H (2023) Developing and testing a novel manufacturing method for complex geometry thin-walled GFRC panels by fabricating a 10 m high, self-supporting GFRC hyperbolic shell. Architectural Engineering and Design Management, 19(05), 480–510.

Hopkin, C, Spearpoint, M, Hopkin, D and Wang, Y (2020) Fire safety design of open plan apartments in England. Architectural Engineering and Design Management, 16(05), 391–410.

Hu, M and Skibniewski, M (2022) The impact of the design team characteristics on the sustainable building construction cost: structural equation model analysis. Architectural Engineering and Design Management, 18(05), 614–30.

Jalilzadehazhari, E, Johansson, J and Mahapatra, K (2019) Applying a decision-making framework for resolving conflicts when selecting windows and blinds. Architectural Engineering and Design Management, 15(05), 382–401.

Jalilzadehazhari, E, Johansson, P, Johansson, J and Mahapatra, K (2019) Developing a decision-making framework for resolving conflicts when selecting windows and blinds. Architectural Engineering and Design Management, 15(05), 357–81.

Lindgren, J and Widén, K (2018) Diffusing building information management – knowledge integration, mechanisms and knowledge development. Architectural Engineering and Design Management, 14(05), 347–62.

Maali, M, Orhan, S N, Sagiroglu, M and Cirpici, B K (2023) Analyzing of bolted joints for connecting rectangular hollow sections in reticulated shells. Architectural Engineering and Design Management, 19(05), 550–66.

Mahamadu, A, Mahdjoubi, L and Booth, C A (2017) Critical BIM qualification criteria for construction pre-qualification and selection. Architectural Engineering and Design Management, 13(05), 326–43.

Mignone, G, Hosseini, M R, Chileshe, N and Arashpour, M (2016) Enhancing collaboration in BIM-based construction networks through organisational discontinuity theory: a case study of the new Royal Adelaide Hospital. Architectural Engineering and Design Management, 12(05), 333–52.

Molaei, P, Hashempour, P and Tang, L M (2022) Semi-open spaces of apartments considering COVID-19 pandemic: General expectations of balcony design in the post-pandemic world. Architectural Engineering and Design Management, 18(05), 705–22.

Moloney, J, Globa, A, Wang, R, Khoo, C K and Tokede, O (2019) Hybrid environmental-media facades: rationale and feasibility. Architectural Engineering and Design Management, 15(05), 313–33.

Morrow, S, Cameron, I and Hare, B (2015) The effects of framing on the development of the design engineer: framing health and safety in design. Architectural Engineering and Design Management, 11(05), 338-59.

Mushtaha, E, Alsyouf, I, Hamad, R, Elmualim, A, Maksoud, A and Yahia, M W (2022) Developing design guidelines for university campus in hot climate using Quality Function Deployment (QFD): the case of the University of Sharjah, UAE. Architectural Engineering and Design Management, 18(05), 593–613.

Mushtaha, E, Shamsuzzaman, M, Abdouli, S A, Hamdan, S and Soares, T G (2020) Application of the analytic hierarchy process to developing sustainability criteria and assessing heritage and modern buildings in the UAE. Architectural Engineering and Design Management, 16(05), 329–55.

Noorifard, A, Mehdizadeh Saradj, F and Tabeshpour, M R (2023) A model for determining the arrangement and geometric specifications of infill walls in the architectural design to improve the seismic behavior of buildings. Architectural Engineering and Design Management, 19(05), 439–62.

Nyongesa, H O, Musumba, G W and Chileshe, N (2017) Partner selection and performance evaluation framework for a construction-related virtual enterprise: a multi-agent systems approach. Architectural Engineering and Design Management, 13(05), 344–64.

Oliveira, L A, Burattino Melhado, S and Vittorino, F (2015) Selection of building technology based on sustainability requirements – Brazilian context. Architectural Engineering and Design Management, 11(05), 390-404.

Oney-Yazici, E and Dulaimi, M F (2015) Understanding designing for construction safety: the interaction between confidence and attitude of designers and safety culture. Architectural Engineering and Design Management, 11(05), 325-37.

Petrova, E, Pauwels, P, Svidt, K and Jensen, R L (2019) Towards data-driven sustainable design: decision support based on knowledge discovery in disparate building data. Architectural Engineering and Design Management, 15(05), 334–56.

Postnikova, O, Bamgbade, J A and Wong, N H (2022) Performance index for public housing in East Malaysia. Architectural Engineering and Design Management, 18(05), 652–70.

Rasmussen, F N, Birkved, M and Birgisdóttir, H (2020) Low- carbon design strategies for new residential buildings – lessons from architectural practice. Architectural Engineering and Design Management, 16(05), 374–90.

Ruge, G and McCormack, C (2017) Building and construction students’ skills development for employability – reframing assessment for learning in discipline-specific contexts. Architectural Engineering and Design Management, 13(05), 365–83.

Sanni-Anibire, M O and Hassanain, M A (2016) Quality assessment of student housing facilities through post-occupancy evaluation. Architectural Engineering and Design Management, 12(05), 367–80.

Shan, B, Chen, B, Wen, J and Xiao, Y (2023) Thermal performance of cross-laminated timber (CLT) and cross-laminated bamboo and timber (CLBT) panels. Architectural Engineering and Design Management, 19(05), 511–30.

Stals, A, Elsen, C and Jancart, S (2022) Integration of parametric modeling tools in small architectural offices – between constraints and organizational strategies. Architectural Engineering and Design Management, 18(05), 759–73.

Sutrisna, M, Ramanayaka, C D and Goulding, J S (2018) Developing work breakdown structure matrix for managing offsite construction projects. Architectural Engineering and Design Management, 14(05), 381–97.

  • Type: Journal Article
  • Keywords: Matrix; offsite construction; process; work breakdown structure;
  • ISBN/ISSN: 1745-2007
  • URL: https://doi.org/10.1080/17452007.2018.1477728
  • Abstract:
    Offsite construction techniques continue to receive considerable attention in academic/research discourse. Whilst discourse in seminal literature critique the positive and negative aspects of offsite; on balance, the benefits outweigh the barriers, especially when fully integrated and managed. From a project management perspective, the techniques applied to construction projects typically commence in determining the project’s work breakdown structure (WBS). Whilst the WBS is applicable to offsite deliverables, reflecting site-based construction activities and concomitant dependencies with the manufacturing processes, there are slight discrepancies in processes, and equally, some areas of repetition and duplication. This mismatch has a fundamental impact on integration, creating pockets of confusion, where less seamless (sub-optimal) synergy between offsite and onsite works is lost. This is an acknowledged challenge. There is, therefore, a real need to retain the product breakdown structure, whilst ensuring a seamless interface with the onsite works is maintained. This is a challenge. Whilst the WBS-matrix has been implemented in the project management domain to bridge the ‘products’ and ‘activities’, this arrangement has not yet been developed for offsite building construction projects. This paper reports an on-going research project set up to implement WBS-matrix for offsite construction projects. Two cases of recently completed offsite construction building projects were studied to analyse current practices – to inform the way forward to further develop the WBS-matrix. Findings from this research provide clear guidance for practitioners involved in offsite construction projects; particularly on the development of the WBS-matrix for manufacturing deliverables/activities in order to more effectively manage offsite construction projects.

Xu, Y and Juan, Y (2022) Optimal decision-making model for outdoor environment renovation of old residential communities based on WELL Community Standards in China. Architectural Engineering and Design Management, 18(05), 571–92.

Yalçınkaya Çalışkan, F and Acar, E (2016) An exploratory analysis of continuing professional development perspectives of Turkish architects according to career stages. Architectural Engineering and Design Management, 12(05), 381–406.

Yusoff, W F M, Shaharil, M I, Mohamed, M F, Rasani, M R M, Sapian, A R and Dahlan, N D (2023) Review of openings with shading devices at naturally ventilated buildings. Architectural Engineering and Design Management, 19(05), 463–79.