Complexity in Designing Energy Efficient Buildings: Towards Understanding Decision Networks in Design

Most important decisions for designing energy efficient buildings are made in the early stages of design. Designing is a complex interdisciplinary task, and energy efficiency requirements are pushing boundaries even further. This study analyzes the level of complexity for energy efficient building design and possible remedies for managing or reducing the complexity. Methodologically, we used the design structure matrix for mapping the current design tasks and hierarchical decomposition of lifecycle analysis for visualizing the interdependency of the design tasks and design disciplines and how changes propagate throughout the system, tasks and disciplines. We have visualized the interdependency of design tasks and design disciplines and how changes propagate throughout the system. Current design of energy efficiency building is a linear and one-shot approach without iterations planned into the process. Broken management techniques do not help to reduce the complexit

Data Visualization as a Means of Optimizing Control Systems Model in Project Management.

Annotation- The article addresses current issues concerning the utilization of data visualization in project management within the project context It delves into the characteristics and principles of implementing projects within the project management framework of business entities The classification of processes within the project management system is outlined The study examines the significance of data visualization as a prerequisite for decision-making highlighting the traits of visual project management The tools employed for crafting visual representations of project data derived from project implementation outcomes are investigated Various types of infographics intended for monitoring the execution of project-related business tasks encompassing factors such as sequence resources and commencement and culmination dates are identified The article concludes by presenting the outcomes of generating visualizations using MS Project and MS Power BI within the realm of project management business processes in the project are

An Interactive Visual Approach to Construction Project Scheduling

Sound project management is an important pillar of success for a construction company. Project schedules are the primary tools for communicating the thinking and planning by the management team to all the stakeholders in a construction project. Traditional project scheduling software have become an indispensable tool for managers in various project oriented industries for tracking the schedule, the budget and resource requirements of a project as well as for preparing reports, providing on-line access to project information and communication with the members of the project team. However, these benefits are realized only after the project information is entered into the computer and updated periodically. Setting up a computer schedule for a construction project requires entering into the computer not only all project activities and their durations and resource requirements but also organizing and sequencing of project activities. This requires considerable time and effort and consequently a full-scale time study is not usually performed for all projects. New parametric CAD software is revolutionizing the way architects, engineers and contractors work and can significantly increase construction management productivity by substantially reducing the manual work necessary for computerized construction scheduling. The data model of new parametric CAD software allows easy exchange of building design information among various software systems during design, construction and service life of projects. Research is underway at Marquette University to investigate how new parametric CAD software such as Autodesk Revit can improve construction scheduling and project control functions. The main objective of the research is to find a simple and intuitive way for transferring the necessary project information from an architectural CAD model to scheduling software and streamlining sequencing and organizing project activities. Achieving this objective will eliminate one of the most tedious and time consuming steps in creating a construction project schedule. The study proposes a visual approach to extracting project information and transferring them to scheduling software. In this approach, first a 3D model of the project is created using project\u27s digital Revit CAD files. Extraction, organizing, sequencing and transferring of project elements to scheduling software is performed during a walkthrough of the 3D model. During a walkthrough, the user can select a building element by pointing to the element. This capability allows the user to select both an element and its predecessors before executing a command that sends the information to the scheduling program. This approach reduces the tedious task of listing, organizing, sequencing, and transferring construction project information to scheduling software to a simple expedition inside the building

A Review of Building Information Modeling and Simulation as Virtual Representations Under the Digital Twin Concept

Building Information Modeling (BIM) is a highly promising technique for achieving digitalization in the construction industry, widely used in modern construction projects for digitally representing facilities. Nevertheless, retains limitations in terms of representing construction operations. The digital twin concept may potentially overcome these limitations and initiate advanced digital transformation in the construction industry as it has revolutionized the product lifecycle management in the manufacturing industry. This research provides a critical review of applying digital twin in the construction industry. Altogether, 140 papers from related journals and databases were reviewed. The digital aspect of twinning consists of BIM and simulation modeling. These two techniques have been used to create virtual or digital representations of actual buildings and real-world construction processes. However, integrating and applying BIM and simulation modeling according to the digital twin concept remains to be fully studied. Comprehensive evaluations of BIM, simulation modeling, and digital twin will provide a well-defined framework for this research, to identify direction and potential for digital twin in the construction industry, thereby progressing to the next level of digitalization and improvement in construction management practice

Automated Generation and Visualization of Initial Construction Schedules from Building Information Models

Recent advances in digital technology have had a significant influence on the quality and speed of sharing and communicating project information in the architecture, engineering, and construction (AEC) industry. The process of acquiring the design intent in order to develop and communicate project schedules, as critical components of project delivery, have similarly been benefitting from such progress. With the relatively recent techniques of Building Information Modeling (BIM) and its capability to integrate the facility design with its construction schedule, meaningul strides have been made in improving the information flow and eventually visualizing the final schedule in 4D. However, the need for faster and more efficient ways of generating both the schedule and its 4D visualization has been growing as it directly impacts the overhead cost, and hence the bottomline, of projects. Lack of direct integration and logical interoperability between the various computer systems used for these processes deprives the industry of the power of synergy that could have resulted from such explicit assimilation of the product and process models and their respective sub-processes. This research develops an approach that interprets 3D building information models into a source of direct input information to generate initial construction schedules for commercial building projects, which ultimately leads to automated visualization of the produced schedule in 4D BIM. By integrating an intermediate product model and generically predefined activities at domains level, it generates initial activities that capture the scope of the work in the design. The method also incorporates semi-automated sequencing algorithms that take into account the logic of support in structural construction and other factors related to work access and user preferences. The methodology has been implemented in a computer application built to substantiate its feasibility and then evaluated with the help of volunteer professionals in the industry by using test cases. The implementation and the tests conducted demonstrated that the developed methodology is feasible and can be considered as a step forward towards complete automation in the industry, while there are still various aspects open for improvement

Towards an Improved Software Project Monitoring Task Model of Agile Kanban Method

Agile Kanban method recently is gaining increasing attention and popularity in software development organizations (SDOs). This method has numerous advantages that make it performs better than other Agile methods in terms of managing software projects. However, different studies revealed that this method has significant challenges that negatively impact the scheduling of the development process. Therefore, late delivery of software projects may occur, thus the rate of projects failures will be increased. In response, this paper aims to explicate the current challenges in progress monitoring task of Agile Kanban method. Accordingly, the results gave insights to bridge that gap by developing an improved software project monitoring task model of Agile Kanban method. To do so, we identified the components and criteria that affect software project monitoring task, and then an initial model has proposed. The initial model consists of three main components, which are (1) extending progress tracking, (2) generating optimum WIP limits, and (3) visualizing useful insights for workflow. Further research can be focused on developing and evaluating the proposed model through discussion with the knowledge and domain experts

Vu: Integrating AR Technology and Interaction into an Event Planning App

Planning a social event can be expensive and time consuming. To minimalize the risk of event problems, the organizer can consult professional event planners. However, a consultant can also be costly. Therefore, purchasing decor, food, and other items, without knowing if they look right or fit the venue, is a guessing game, and the game could be an expensive one. If the original plan cannot be completed efficiently, then modifying or improving these works are likely to cost extra time and funds. However, testing the revised plan may also increase the likelihood of risk in future. By integrating Augmented Reality (AR) into an event planning App, the App will allow users to arrange virtual items onto environment captured by the device. Thus, users can envision their plan and make changes before actually making purchases, calling in construction teams and doing the decorations. The goal of this thesis is to integrate AR into an App design that allows users to design, view, and make budgets for their event plan in advance, optimizing their design beforehand

The role of linked building data (LBD) in aligning augmented reality (AR) with sustainable construction

Over the years, the construction industry has been evolving to embrace the delicate balance between buildings and a sustainable environment by optimizing resource use to create greener and more energy efficient constructions. Sustainable building design and optimization is a highly iterative and complicated process. This is mainly attributed to the complex interaction between the different heterogenous but heuristic construction processes, building systems and workflows involved in achieving this goal. Augmented Reality (AR) has rapidly emerged as a revolutionary technology that could play a key role towards improving coordination of sustainable design processes. AR makes possible the real-time visualization of a three-dimensional (3D) building prototype with linked design information in a real-world environment based on a two-dimensional drawing. From past research, it is evident that this technology relies heavily on a common data environment (CDE) that syncs all construction processes with their related building information in one central model. However, due to the fragmented nature of the construction industry, different domain experts generate and exchange vast amounts of heterogenous information using different software tools outside a CDE. This paper therefore investigates the performance gap that exists within Malaysia’s construction industry towards using linked building data (LBD) with AR to improve the lifecycle sustainability of buildings. The results of this study clearly delineate how current construction practices in Malaysia do not favor the use of AR however, stakeholder perception is positive towards adoption of workflows that link heterogenous building data to streamline AR with sustainable building design and construction