The current state of Information and Communication Technologies (ICT)
Introduction
The purpose of our research proposal is to find out the current state of Information and Communication Technologies (ICT) within the Architecture, Engineering and Construction (AEC) sector; with a particular focus on how Virtual Reality and Augmented Reality has impacted on the management of construction projects. Research shows ICT is virtually used across all sectors; however, applications which use Virtual and Augmented Reality are still considered new and are not industry standard as of yet. The issue raised are why are each of these technologies is not yet fully utilised with each industry. As contractors and designers are not willing to share information freely between themselves due to confidentiality.
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The proposal will draw a conclusion based on mixed methodology of qualitative and quantitative data attained from conducting interviews, distributing surveys and a literature-based research. Although, limitations may arise with the personal interviews and distribution of surveys to only a specific target area located throughout South Australia’s AEC sector. However, this ought to provide us with enough information to draw a relative conclusion on the use of applications by each company.
Review of Literature
Introduction
By conducting thorough investigation of documents accessed and information presented to our group from attending meetings with the supervisor. We were able to assess credible sources of published literature that relates to social science research and knowledge of building design and construction processes; with a particular focus on the applications of Building Information Modelling (BIM), Virtual and Augmented Realities.
Virtual Reality
Lipmanfigure 1 (Hardin and McCool, 2015).
Figure 1: Length of Time Contractors Have Using BIM
Nederveen and Hertogh, 2016).
The use of virtual reality programmes is integrating itself into early development of building lifecycle and energy efficiency. This is done firstly by trying to reduce the embodied energy of the materials used within a project, and this is where virtual reality programs which allow for constant changes and the ability to deal with large amounts of input data are changing the way we design a low energy building. The way research was done was but gathering all energy information for many building materials for all types of construction and then by using programs like BIM it allows for different ‘recipes’ to be quickly formed and changed as the design process continues (Shadram, Johansson 2016).
Bryde, Broquetas and Volm, 2013).
The construction industry and process is information intensive it requires large volumes of information and data which all needs to be processed and stored to run a project smoothly. The way that BIM has improved this is by allowing a single place for information storage, which is accessed unanimously by all the participants. In a case study, it was investigated to see the impacts that ‘cloud’ based real time model with all information. This real-time monitoring system changed the way a construction project was run, as seen in figure 2 (Matthews, 2015).
Figure 2: Re-engineering Process of cloud-based BIM in Construction
Information and Communication Technology
Flangan
Figure 3: Issues regarding ICT
Figure 3 identified issues with respect to ICT adoption by SMEs for building project management and required action levels (Egbu, Gaskell, Howes 2001).
Egbu, Gaskell, Howes 2002Broyd 2002)
Computer Aided Design (CAD) technologies. The potential implementation and cross communication between these technologies would be a large technological advancement (Krishnaswamy, 2004). These kinds of technologies allow an industry professional to access anything from emails to architectural specifications but something that is still lacking in terms of transportability is A1 drawings and other documents. These can be accessed via cloud storage or can be carried on tablets or laptops but not in the correct scale and detail (Sreepuram, Rao, 2006).
Augmented Reality
Technology such as Augmented Reality (AR) is used to alter peoples’ sensory perception through a visual device. Mobile Augmented Reality (MAR) applications for devices overlay digital graphics or text onto the users’ view of nearby surroundings and let them interact with that particular environment. AR systems are designed to keep track of the users’ orientation so that information projected can be considered four-dimensional, allowing them to alter/interact with things that they can observe as reality and in real-time. Currently, AR has become a revolutionary tool within the Architecture, Engineering and Construction (AEC) sector; by integrating with three-dimensional programs like Building Information Modelling (BIM), the AR technology can notice real world problems before they exist potentially saving on construction costs and materials.
For example, MAR allows the operator to walk through building site and experience a virtual projection of how the project will be structured in the future, displaying detailed sections of area such as underground utility lines as they would exist based on as-built Geographic Information System data (Behzadan, Dong & Kamat 2012). As the AR business case and technology develops its use in the construction industry, it will become of a standard, comparative to BIM. Field trials of AR equipment are allowing researchers to visualise various modes along the projects timeline, masking virtual models with a real one creating a mobile feedback report. However, some problems posed to the accuracy of the navigational compass and GPS marking prompted developers to include positioning methods as a backup for sensors (Woodward, Mika Hakkarainen 2011). Advancements and further studies will be required before the system will be consistently used on construction sites day to day.
Architecture in an Age of Augmented Reality: Opportunities and Obstacles for Mobile AR in Design, Construction, and Post-Completion (Abboud, 2014),
Secondly, the publication is predominately based on the author’s knowledge of architectural practices, and make reference to literature by professional architecture institutes to establish project stages within architectural practice as design, construction and post-construction. The opportunity to use MAR is appropriate for multiple project phases such as visualising a design at full scale and throughout the construction phase. Although this is new territory for architects now, with the advancement of technology, come new possibilities. Architects already using such technology as Building Imaging Modelling (BIM) may expand their professional services to incorporate MAR offerings by partnering with an AR developer to design custom applications.
Thirdly, the author discussed opportunities and challenges that relate to MAR with various leaders worldwide while on an international tour. Those who were interviewed were industry leaders in the AEC field, AR developers and pioneers of AR in construction applications. The tour uncovered a broad spectrum of use cases and models relevant to architecture across the world. However, the search for use cases in engineering and construction applications proved vague. Given AR’s commercial promise, many pioneers in the field were reluctant to share their research and models with those outside their organisations, fearing loss of competitive advantage. Therefore, direct access to commercial AR developers for this paper was limited to those who were marketing their work to engineering/construction professionals.
Research Aims and Objectives
- – How have these technologies affected the design period of a given project?
The objectives of this research are:
- To identify and critically evaluate technologies that have affect on the design period of a project as reported in literature.
- Investigate and analyse technologies that have affect on the design period of a project as experienced in industry practise.
- Synthesise the evaluated literature and analysed practises to identify correlations and contradictions; and
- Generate a set of management guidelines to decrease project design periods for a given project.
- – How has technology impacted clashes, variations, procurement and electronic correspondence?
This question aims to analyse technology impacting clashes, variations, procurement and electronic correspondence. It also aims to generate a set of management guidelines to assist with efficiency of resolving clashes, variations, procurement and electronic correspondence.
The objectives of this research are:
- To identify and critically evaluate technological impacts on clashes, variations, procurement and electronic correspondence as reported in literature.
- Synthesize the evaluated literature and analysed practises to identify correlations and contradictions; and
- Generate a set of management guidelines to increase productivity within clashes, variations, procurement and electronic correspondence.
- – How much has the use of technology influenced the design in projects over the past decade?
This question aims to analyse technologies influencing the deign differences within projects undertaken over the past decade. It also aims to generate a set of management guidelines to assist with the future development of design and construct technologies.
The objectives of this research are:
- To identify and critically evaluate technologies that have influenced projects specifically over the past decade within the construction industry as reported in literature.
- Investigate and analyse technologies that have influenced projects specifically over the past decade within the construction industry as experienced in industry practise.
- Synthesise the evaluated literature and analysed practises to identify correlations and contradictions; and
- Generate a set of management guidelines to set out future trends with the increase in technological advancements.
- – How can programs like BIM be better-utilised and taken advantage of within the industry from design to decommissioning?
This question aims to analyse the affects BIM has on decommissioning and the design processes within a project. It also aims to generate a set of management guidelines to assist with optimum utilisation of the BIM software to increase productivity within the specified areas.
The objectives of this research are:
- To identify and critically evaluate the uses of BIM and their effects on the construction industry as reported in literature.
- Investigate and analyse the uses of BIM and their effects on the construction industry in industry practise.
- Synthesise the evaluated literature and analysed practises to identify correlations and contradictions; and
- Generate a set of management guidelines aimed at utilising the software more efficiently and effectively across all BIM operators.
Ethics and Workplace Health & Safety
the Framework for the Responsible Conduct of Research and Section A of the Australian Code for the Responsible Conduct of Research.
Budget, Logistics and Timeline
Table 1: Approximate Timeline
| Activity | Milestone | Schedule Dates |
| 1- Create Surveys Template | 13th March – 17th March | |
| 2- Distribute Surveys | 20th March – 7th April | |
| 3- Data Collection | 10th April – 21st April | |
| 4- Documented Results (analysis) | 24th April – 5th May | |
| 5- Formulate discussion based on results | 8th May – 19th May | |
| 6- Compile thesis draft | 22nd May – 2nd June | |
| 6.1- Submit thesis draft to supervisor | Yes | 22nd May – 2nd June |
| 7- Finalize data analysis and related documentation | 5th June – 16th June | |
| 8- Finalise results, discussion, implications and conclusion | 19th June – 30th June | |
| 9- Check/respond to feedback | 3rd July – 7th July | |
| 9.1- Submit final thesis for assessment | Yes | 3rd July – 7th July |
| 10. Distribute thesis | Yes | 10th July – 14th July |
| 11. Project close-out activities | Yes | 17th July – 21st July |
Figure 4: Gantt Chart of Timeline
The above figure displays a Gantt Chart indicating the length of each activity and when various milestones will be reached. The materials required for the proposed research will be computer/internet facilities, either hard photocopies or electronic copies of surveys to distribute to each participant. It is estimated a total of $40.00 @ 20 cents per copy will be sufficient in covering the printing costs for 200 surveys. Pens will be supplied and returned to each participant to fill out the survey. The cost of the binding of the thesis itself will be variable depending on the length.
Methodology – this comes from your Research Proposal but incorporates any changes required during the research.
The description of the methodology is essentially the Research Proposal from ENGG 4005 with any modifications that were found to be necessary as the testing and/or data gathering were underway.
A literature review on the topics of ICT, virtual reality and augmented reality programs used within the construction industry, and the benefits and limitations of these programs have been undertaken. This review of the literature was to discover what kind of affects these programs are having and how they can be better utilisedTherefore surveys will be used to gain a perspective from industry professionals in a qualitative manner; it will be their experiences with these technologies and how it has influenced their jobs and roles within the industry.
The surveys will be prepared to gain knowledge on the research questions that have been stated in the previous section. Which means the main question of the surveys will be about the affect that the technologies have on the design period of a construction project, how they mitigate risks such as variations and clashes. The other questions being how much the use of these technologies has increased over the last decade and how these programs can be better utilised in the industry to promote a greater collaboration within the industry and in the construction projects. The way in which the surveys will be taken is by approaching large construction firms and seeing if site managers, project managers and design teams, architects, and contractors can take part in the surveys. This can be achieved by either talking to people in person or sending emails out to as many people in the industry. The reason behind this is to gain a wide perspective on how these technologies impact the different stages of a construction project such as the design, the construction phase and all the way to decommissioning. Each of these phases will incorporate different teams and industry professionals who need to interact and share information openly to achieve a uniform goal. The surveys are directed to see if this type of open communication is happening and how it is affecting the performance and efficiency of each project, and how much more prevalent the use of these technologies is becoming.
The data received from these surveys will be able to give a qualitative results in the way people perceive the use of these technologies and how they have to change the way people work and interact with other teams within a project, and idea pertaining to how BIM and cad can be further utilised.
The idea of the question pertaining to how long people have been using such programs is to turn this into quantitative data, which can be graph to see the increase in use over the last decade. This is the only quantitative data we will be able to gather from the survey, as the rest of the questions are looking at people’s perspectives about the technologies. These surveys are quite hard to turn into quantitative data set as; it would be hard to gain a good idea of the effectiveness of BIM and other programs. To determine the impact that BIM would have on the design process timescales and cost breakdowns of projects would be needed, this type of information is very hard to gather from companies.
expectedanalysed to prove or disprove the validity of the hypothesis that virtual, augmented and ICT programs are improving the efficiency and cost-effectiveness of construction projects.
Research Question/s
Experimental Work and Techniques/methods used.
Analysis of results.
Compilations of raw test results or computer runs should be kept out of the main body of the report and, if required, are to be contained in the appendices. Summaries of this material in the form of tables and well thought out figures, are essential in the main body of the report.
Discussion about the results and how the results compare with reported information in the Literature Review.
Conclusions.
Recommendations for further research.
References
Abboud B; Architecture in an Age of Augmented Reality: Opportunities and Obstacles for Mobile AR in Design, Construction, and Post-Completion, 2014
Behzadan A, Dong S and Kamat V; Mobile and Pervasive Construction Visualization Using Outdoor Augmented Reality, John Wiley & Sons, Ltd. 2012
Bryde D., Broquetas, M. and Volm, J., 2013. The project benefits of Building Information Modelling (BIM). International Journal of Project Management, 31(7), pp.971-980.
Egbu C, Gaskell C, Howes J. The improvement of teamworking through the exploitation of IT: Lessons from the construction, manufacturing and finance sectors, Proc. ARCOM 18th Annual Conference, vol. 2, University of Northumbria, UK, September 2002, pp. 523–533.
Egbu C, Gaskell C, Howes J. The role of organizational culture and motivation in the effective utilization of Information technology for teamworking in construction, Proc. ARCOM 17th Annual Conference, vol. 1, University of Salford, UK 2001, pp. 91–100
Flangan R & Jewell C. 2003. A Review of Recent Work On Construction Future. Crisp Commission, 02/06.
Gaudiosi, J., 2015. How this 150-year-old company uses virtual reality. [online] Fortune. Available at: <http://fortune.com/2015/08/25/mccarthy-construction-vr/> [Accessed 24th of Oct. 2016].
Hardin, B. and McCool, D. BIM and Construction Management: Proven Tools, Methods, and Workflows (2nd Edition). 2015, Wiley.
Huang C, Fisher N, Broyd T. Development of a triangular TPC model to support adoption of construction integrated system, Proc. ARCOM 18th Annual Conference, vol. 2, University of Northumbria, UK, September 2002, pp. 427–438.
Krishnaswamy, G. Integration as a key concept in information systems management-implications for just in time e-business, Proc. 4th Global Conference on Flexible Systems Management, Mussorie, India, 2004, pp. 446–451.
Lipman, R., 2004. Mobile 3D visualization for steel structures. Automation in Construction, 13(1), pp.119-125.
Liu, Y., van Nederveen, S. and Hertogh, M., 2016. Understanding effects of BIM on collaborative design and construction: An empirical study in China. International Journal of Project Management.
Shadram, F., Johansson, T., Lu, W., Schade, J. and Olofsson, T., 2016. An integrated BIM-based framework for minimizing embodied energy during building design. Energy and Buildings, 128, pp.592-604.
Matthews, J., Love, P., Heinemann, S., Chandler, R., Rumsey, C. and Olatunj, O., 2015. Real time progress management: Re-engineering processes for cloud-based BIM in construction. Automation in Construction, 58, pp.38-47.
Shadram, F., Johansson, T., Lu, W., Schade, J. and Olofsson, T., 2016. An integrated BIM-based framework for minimizing embodied energy during building design. Energy and Buildings, 128, pp.592-604.
Sreepuram P, Rao K, Build organization capabilities to utilize IT, Proc. World Conference for Design and Construction, INCITE/ITCSED 2006, vol. 4, New Delhi, India, November 2006, pp. 72–80.
Woodward C, Hakkarainen M 2011; Mobile Augmented Reality System for Construction Site Visualization. [Accessed 20th of Oct. 2016].
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