Published in 2008, the Building Information Modeling Protocol Exhibit by the American Institute of Architects was developed in order to establish guidelines on the use of BIM throughout a project. This is important in that it has addressed several outstanding questions such as, the responsibilities for each element of the model, the authorized uses for the model, the extent to which users can rely on the model, the management of the model, and who takes ownership of the model. After developing a model for a dormitory building that belongs to the Polytechnic Institute of New York University, several examples can be shown that help support the compliance of the Building Information Protocol Exhibit. The responsibility of each individual element of a Building Information Model has been addressed in General Provision 1.1 of the Protocol Exhibit, which states that specific responsibilities are assigned according to the development of each model element “at each project phase.” The model element, defined as an aspect of the BIM model which “represents a system or component within the building,” is created by an individual author who assumed the responsibility of that element. Within a project, there are various different phases that range from initial conceptual phase to a start up and turn over phase. These different phases within construction have been defined within the Protocol Exhibit as “Levels of Development.” For example, Level of Development 1 is equivalent to a pre-conceptual phase in construction, while Level of Development 5 is considered an as built phase after construction has been completed. These levels help describe the overall development of an element within the model itself. For practicality purposes, a table format... ... middle of paper ... ...e granted ownership in case he would like to use the model for operating and maintaining the dormitory, such as with the mechanical operating systems and controls. The question as to who owns the model is likely to cause controversy and lead to further questions due to the legal nature of ownership rights. It is possible that additional contracts and documents will be needed in order to supplement the Protocol Exhibit. When the initial development of a model is done incorrectly or poorly, than there is a possibility that future users such as, contractors or even construction managers might create their own model with the intention to not integrate that model with that of the Architects. However, it is assumed that the model of the dormitory was in full compliance with the Protocol Exhibit, and therefore minimizing the risk of future users not participating.
James F. O'Gorman, Dennis E. McGrath. ABC of Architecture. Philadelphia: University of Pennsylvania Press, 1998. Document. October 2013.
Stage 3 involves creating an Architectural Model version of the whole system including sub systems. A Viewpoint Hierarchy shows a skeleton version of the system which can be ins...
1. Johnson, J. A., H. Gitlow, S. Widener, and E. Popovich. "Designing New Housing At The University Of Miami: A "Six Sigma"DMADV/DFSS Case Study." Quality Engineering 18.3 (2006): 299-323. Print.
However, the success of the building schemes relied on the construction methods and innovations that are now attributed as bei...
The paper presents a detailed discussion on implementation of BIM in a construction project by defining a BIM team in the various phases of construction i.e. from conception to commissioning. Also, the paper presents a brief discussion on processing the information utilizing the i-rooms.
Building codes are rules for the contractors, architects, and for the owner. Basically the codes are for to protect public safety, health, and welfare in construction and buildings. The building is a law that is amendments to the builders. With out the building codes we won’t be protected in buildings. Here are some of the buildings codes.
Building Construction procedures involve the erection of various types of structures. The major trend in present-day construction continues away from handcrafting at the building site and toward on-site assembly of even larger, more integrated subassemblies manufactured away from the site. Construction in the United States is the product of a diverse group of subindistries, with many individuals and organizations involved in the construction of a single structure, from the manufacture of necessary components to final assembly. The major elements of a building are as follows: (1) the foundation, which supports the building and provides stability; (2) the structure, which supports all the imposed loads and transmits them to the foundation; (3) the exterior walls, which may or may not be part of the primary supporting structure; (4) the interior partitions, which also may or may not be part of the primary structure; (5) the environmental- control systems, including the heating, ventilating, air-conditioning, lighting, and acoustical systems; (6) the vertical transportation systems, including elevators, escalators, and stairways; (7) communications, which may include such subsystems as intercommunications, public address , and closed-circuit television, as well as the more usual telephone wiring systems; and (8) the power, water supply, and waste disposal systems.
are used as the integral components of the architectural design, this reflecting a conceptual cohesion that is missed in previous architecture.
Epstein, E. (2012). Implementing successful building information modeling. (1st ed., pp. 3-10). Norwood, MA: Artech House.
In developing this contemporary and iconic building, the design focuses on practical attributes and optimises energy efficiency. The design strategy encapsulates four key aspects:
Checktec has one common goal of bringing a new software product to the architecture market that will change the process of designing buildings. A current problem that architects and other building designers have is ensuring that all of their designs are up to code. The code that is used for all buildings is the International Building Code (IBC). Currently all designs have to be checked by hand and by multiple workers to ensure that the codes meet the IBC standards. With our new code checking technology this process will be forever improved. Our software allows for a designer to ensure that he is building up to code before he ever breaks ground on the actual site. This cutting edge software will allow architects the peace of mind in knowing that they meet code specifications, without having to spend countless hours doing so by hand, which is inefficient and costly.
With the help of architectural engineers, our world has become very civilized and advanced over the past decades. Like all other engineers, architectural engineers use logic and creativity to solve problems. They come up with effective designs to assist people in their everyday tasks. In our daily lives we are surrounded by buildings. Places that were once a dessert are turned into cities that now hold amazing buildings. Houses, schools, shopping centers, offices, apartments, airports, etc. are very essential in our society. These buildings do not only please the eye, but they also provide us with shelter and are made to withstand hurricanes, earthquakes, snow storms, and strong winds. Would these buildings still function efficiently and provide us with a stable shelter if it were not for architectural engineers? There are different engineers with each their own expertise, but for buildings in particular, architectural engineers are needed. Architectural engineering, also known as building engineering, is an interdisciplinary program that integrates important knowledge from different disciplines such as civil engineering, mechanical engineering, electrical engineering , architecture, physics, chemistry, biology, and economics (“Building Engineering”). An architectural engineering professional has to master all the different disciplines because the design of building systems often requires the application of the disciplines. Architectural engineers are important in today’s society because they possess the knowledge and qualifications to work on complex buildings, lead project teams, and most importantly, to provide us with a safe environment.
Constantly judged and evolving, the practice of architecture is forever plagued by the future. The future of people, of culture, technology and its resulting implications on the built environment that more often than not, outlives their creators. Much of the conversation surrounding this future architecture currently hinges itself on the creation of new experiences, forms and spatial relationships brought about by technological innovation.
As an architect it is important to understand that creating a building is not only a reflection on the skills we have on creating a building but the understanding of an individual and the work of creating a house that is unique to that person or their family. Thus, is needed the quality of good communication skills. Not only do architects work with other contractors and construction workers but they work with individuals, they should have a close relationship to the client so that the client’s needs are
There are 25 major specialties in engineering that are recognized by professional societies. In any one of those 25 specialties, the goal of the engineer is the same. The goal is to be able to come up with a cost effective design that aids people in the tasks they face each day. Whether it be the coffee machine in the morning or the roads and highways we travel, or even the cars we travel in, it was all an idea that started with an engineer. Someone engineered each idea to make it the best solution to a problem. Even though engineer’s goals are similar, there are many different things that engineers do within their selected field of engineering. This paper will focus on the architectural field of engineering.