LEED Platinum Certified Building

LEED Benefits are Starting to Materialize

Although LEED has been a little slow getting off the ground, it’s gaining momentum quickly. The increased awareness of the need for sustainability has given a lot of impetus to LEED, both domestically and overseas. All in all, the United States accounts for a little over half of the LEED certified buildings, with the number of buildings that are being built to meet LEED requirements and the number of older buildings being upgraded to meet LEED requirements increasing.

LEED Platinum Certified Building
LEED Platinum Certified Building

This demonstrates an increased awareness in the United States in our responsibility to reduce our resource consumption. As the United States is the world’s number one consumer of electricity, water and other resources, our reductions provide opportunities for emerging countries to have greater access to these resources.

In 2005, green buildings accounted for only two percent of non-residential construction starts. This grew to 12 percent in 2008, and 28 percent in 2010. By 2015, and estimated 40 to 48 percent of non-residential construction starts will be green buildings. These figures include both public and private sector new construction starts. For commercial building projects in excess of 50 million dollars, a whopping 71% make reference to LEED in their specifications.

LEED is not a regional phenomenon either. The leading states for LEED construction and certification are scattered across the country, from New York to California and from Minnesota to Texas. Even Washington, D.C. is listed high amongst the parts of the nation which are focusing on building green.

The Leadership in Energy and Environmental Design (LEED) certification provides a number of benefits to building owners who decide to seek certification. While building a LEED certifiable building adds about two percent to the cost of design and construction, the savings over the building’s life cycle are somewhere between 12.2 and 16.8 times that much.

In addition, property values for LEED certified structures are higher than those which are merely built to meet building code requirements. While this is hard to quantify for commercial buildings, homes that are LEED certified have an average resale value of eight percent higher than comparable homes which do not meet the requirements to receive LEED certification. That’s four times the investment required to make the home LEED compliant.
LEED also provides a healthier work environment for employees. While there hasn’t been any studies done to calculate the savings in lost employee hours, it is obvious that a healthier work environment helps reduce lost time due to sickness. Companies who invest in providing this healthier work environment are rewarded with a happier, healthier workforce, increasing productivity.

By incorporating LEED design requirements into buildings, American companies are becoming more responsible global citizens. This pays benefits in more ways than just the bottom line. With the greater awareness of sustainability in the world today, companies that “go green” are seen as socially conscious members of the community. Those who don’t are seen as being interested in making money. While all companies need to make money in order to survive, public relations have a lot to do with any company’s ability to do so. reference viatechnik



Standardizing BIM coordination process can increase your productivity

Standardizing BIM coordination process can increase your productivity

Warning: You are losing money not implementing BIM coordination Process


BIM is the process that generates and manages building data during its life cycle. Using three dimensional, real-time and dynamic modeling software, the BIM coordination process encompasses building geometry and design data, spatial relationships, geographic information, environmental data, maintenance data, financial data, owner/occupier data and building specification/component data and thereby increases productivity in building design and construction.

BIM holds design and construction together, but there are some steps to be followed by a firm to go from design through construction using BIM. The BIM coordination process is a lengthy one that involves real investment on software and employees.

The BIM coordination process cycle starts with predesign stage, where the architect starts on the schematic model either by using masses or real elements in a BIM environment. After preparing the schematic model, a presentation will be given to the owner with the help of walkthrough or renderings. The owner can offer thoughts on the design and suggest the changes at this stage. Then the model is ready to go to the design phase.

4D helps the project to track the schedule and monitor delays, eradicate sequential issues in construction and streamline the construction process. This is done by working closely with the construction team on site to make use of BIM efficiently. Monitoring the construction progress through BIM (4D) helps the site team to control the delays and work towards a catch plan for the delays.


BIM coordination Process Cycle

Next stage is detailed design, in which collaboration is the key. So, weekly coordination meetings take place in this stage participating architects, engineers, project manager, estimator, scheduler and construction manager. The meeting is to ensure that everybody is on the same page. Interference checks and BIM coordination reviews are done weekly in this phase of design process. As it helps save a lot more time and money for fixing the problems in the field, this is an obvious step to take.

There are some modeling practices that should be followed throughout design. For example, if you are going through the trouble of modeling the project, it is more effective to have the model used for more than just plan work. Sections, elevations and walkthroughs are some of the coordinated process, which make your BIM model more efficient. You can save time and money, if done accurately.

Once the design is completed, construction is ready to start. Estimating and scheduling were updating their respective processes, as discussed throughout design. Also, sight work has already been begun and foundations are ready to be poured. The design models may have been replaced by models from the subcontractors during construction phase. Construction manager and field superintendent work together with design team and ensure that the design intent is followed. As BIM was used in early in the design phase, this process was made easier.

In a project that uses building information modeling (BIM), a BIM map is developed as a pre-cursor, which produces full employer’s information requirements (EIR). It is a helpful format in the earlier stage of a project, as it describes the key decision points, which will be used to structure the project and the queries, which should be answered at those decision points. Then the information, which the employer will need to procure from the suppliers to answer the questions, can be identified.

BIM creates a solid connection between design and construction and make the process of collaboration among architects, engineers and construction managers even faster and more efficient.reference bim forum


Global Steel Consumption and the Largest Steel Structures in the World

Global Steel Consumption and the Largest Steel Structures in the World :

Chicago, IL – Construction is one of the biggest steel consumers on the planet, using about 30 percent of worldwide steel production. With steel consumption forecasted by the World Steel Association to be 1.455 billion metric tons in 2013, that makes for an incredible amount of steel going into some really massive structures.

Part of what makes steel consumption for construction so big is the amount of steel that is used for the construction of huge structures such as bridges, skyscrapers, and other large buildings. A single steel building can use many tons of steel in its design. With the need to make more and more skyscrapers and other large mega-building projects, the amount of steel consumed adds up rather quickly.

There are several ways that the size of structures can be rated, each of which would give us a different idea of what the largest are. If height is used, then some skyscrapers would win. If width is used, then some of the largest suspension bridges would clearly be the winners. On the other hand, if total mass of steel used in the construction were the deciding factor, a third group of structures would be the winners. So, we’re not going to try and decide which are the biggest, just look at some of the biggest.

For a building or other structure to be considered “steel” the Council of Tall Buildings and Urban Habitat says that the main vertical and lateral structural elements along with the floor systems must be constructed of steel. Most buildings don’t qualify as steel buildings by this definition, as the majority of the structure is concrete. Buildings which use a combination of the two are considered composite.


The Beijing National Stadium, commonly referred to as “The Bird’s Nest,” which was built for the 2008 Olympics is considered to be the largest steel structure in the world today. This massive steel structure was originally conceived to support the retractable roof that the design specifications called for. Later revisions removed the retractable roof as a cost savings, leaving the Bird’s Nest in place.

The Bird’s Nest uses a total of 110,000 tons of steel. Three are 24 trussed columns as the main supports, each of which uses 1,000 tons of steel. While there are many interesting things about the design and building of this structure, one of the most interesting is that it serves no purpose other than aesthetics. The steel structure does not support the stands, which are a concrete structure that is 50 feet inside The Bird’s Nest. It was intended to support the roof, which was removed from the design.

Looking at other massive decorative structures, we find the Gateway Arch in St. Louis, Missouri. Completed in 1965, this steel structure is still the largest monument in the United States, standing 192 meters tall. Nine hundred tons of stainless steel was used in its construction.


The tallest steel skyscraper ever built is the Willis Tower, formerly known as the Sears Tower. Completed in 1973, it is still the tallest building in the United States, although it is the seventh tallest free-standing structure in the world. Taller buildings use a composite construction, not qualifying to be considered steel buildings.

The Sears Tower, as it was then known, used a very unique structural design, which has been used in almost all skyscrapers since its construction. Referred to as Khan’s bundled tube structure, the building consists of nine hollow steel tubes, bundled together. All nine tubes rise the first 50 stories, with seven continuing past that point. Pairs of tubes are dropped out of the design at periodic levels, leaving only two tubes to rise the full 108 floors.

The longest all steel suspension bridge ever constructed is the Brooklyn Bridge in New York City. This massive structure has a total length of 1825 meters. It was the first to use steel wires for the suspension part of its structure in 1883. Today, over 100 years later, this iconic bridge still serves its original purpose.


Despite the fact that composite steel and concrete construction has taken over much of the world of massive construction, we can still expect to see steel used as a common building material. Not only does steel provide excellent structural strength, but it provides lasting beauty, as we see in structures like the Gateway Arch. Reference viatechnik, Photos by Ryan Jaffa, Sue Waters, P Schlenker.

BIM Implementation: Problems, Prospects and Strategies

BIM Implementation: Problems, Prospects and Strategies

Computers and technology have so far been used in the BIM industry. Recent developments have put forth the myriad advantages of modeling not only the graphical aspect but also the non-graphical aspect of building design life cycle.

Bim Model Advantages
Bim Model Advantages

Design professionals and firms are now being faced with the exciting and quantifiable advantages of this revolutionary technology. Better known as BIM or Building Information Modeling, it is also known as Simple Building Modeling (SBM) and Virtual Building Modeling (VBM).

Computers and technology have so far been used in the building and design industry . Recent developments have put forth the myriad advantages of modeling not only the graphical aspect but also the non-graphical aspect of building design life cycle.

The objective here seems to be to improve user productivity by making building design and project execution faster, cheaper and more efficient. Implementation of BIM technologies called for a strategic shift in the business functioning model followed so far. Firms have created strategy frameworks that help them to readily adjust to the practical realities of BIM implementation. Most employees within these organizations are accustomed to working around or with familiar touch points such as sheet layout templates and line blocks for printing. Implementation of a radically different comprehensive technology within this environment called for insightful strategy decision making on the part of the management. Most importantly, making use of the available knowledge and experience to execute implementation without disturbing the existing working model formed the core of this strategy.

In addition, dual platforms functioning within the same office pose a staffing challenge. With a single software platform such as CAD, any staff member is available to work on a relevant project. However, in the implementation of BIM software, only a small pool of team members would be available. Therefore, pilot projects of BIM or training in BIM need to be carefully selected according to the size, schedule and team member availability. This division of team member could cost an organization team efficiency and billable time.

Large and medium firms can afford the luxury of aligning teams to BIM, as they would have some supplement workforce at certain points of time. Smaller firms would find this difficult to achieve. As they would be unable to commit an entire team to BIM software at a time or even over a period of time. A viable option for them would be to seek offshore expertise in this regard. Leveraging outside experience and expertise would help them keep their teams intact, facilitate better integration of BIM technologies within their business model and save a whole lot of billable hours.

Though BIM software offers quantifiable advantage, its adoption percentage has been quite low. It is on an accelerating track now – BIM usage grew by three percent in 2003, six percent in 2005 and 11 percent in 2006.* Nevertheless, challenges have been cited in the path of this growing rate of BIM implementation. As opposed to traditional 2D CAD systems, BIM systems are more complex. Existing professionals are well versed with using capable drafting tools such as CAD systems. Absence of industry standards are also considered a hindrance to collaborative construction processes and effective BIM implementation. Along with this, a lack of expertise also poses a challenge to firms who wish to shift to BIM software.

Adopting and implementing BIM software is quite a challenge, but once executed BIM gives a power dose to productivity. BIM facilitates the creation of visualizations, sections and elevation freely and helps incorporate this information further down in the construction process.

Obviously, the challenges arise not regarding the capability of BIM software but in effectively implementing this software within existing systems and training and equipping teams with the necessary skills to leverage its many advantages. BIM is a complex software, design teams seldom have the time to learn and adopt complex systems. Also, most of the new programs are built for people with in-depth knowledge of how buildings are made.

BIM provides certain foundation element opportunities:

  1. Virtually design or edit existing structures/facilities
  2. Eliminate problems and predict performance
  3. Virtually stimulate construction and operation prior to physical execution
  4. Coordinate design documentation
  5. Coordinate construction to reduce construction time and eliminate change orders
  6. Enter one-time data as part of the process and re-use it throughout the lifecycle and beyond
  7. Strategic planning by harvesting business intelligence and operational information
  8. Blend geospatial and building information for planning, development and emergency response
  9. Harvest building information for use in programming and design

BIM assists in significantly reducing lifecycle time by facilitating better communication and management of delivery times. When adopted along with lean concepts, BIM helps reduce lifecycle cost. According to Ghafari Associates Inc., the wastages in construction include:

  1. Correction – Rechecking and redoing errors occurring in design but discovered only at the construction stage
  2. Over-production – Executing task ahead of schedule thus interfering with other practical, scheduled work
  3. Motion – Time and effort lost in transit due to team moving from and to the office picking up plans, tools or materials
  4. Material movement – moving material from one stage to another or from one crew to another
  5. Waiting – Teams waiting for equipment, plans, instruction, materials etc
  6. Processing – Unnecessary reporting, expediting material orders, or excessive coordination
  7. Inventory – Material staged too far in advance on site

Cost savings from BIM implementation

Implementation Strategies

Introducing and implementing BIM can be quick and painless, if preceded with the right amount of planning and preparation. This ‘right amount’ will be decided entirely based on each individual firm’s functioning and objectives. Just like every architect, firm and design are unique and different, BIM implementation for each firm; architect and designer would also be unique and different.

Smaller firms face bigger challenges their larger counterparts as they would find it difficult to shift their production staff to other studios. Therefore, drafters and team members must be amenable to workflow changes. For small firms BIM implementation requires critical planning and dedicated execution of these plans. Also, they must be aware of methods to measure the success and failure of this implementation planning and strategy. This planning requires insight into the short terms project schedules. Measuring the success or failure of the implementation can be judged by recreating a previous design using new technology and procedures.

Budget requirements are also a hindrance for smaller firms. When implementing new software, hardware such as work stations and server might also call for up gradation. In addition, the billable hours lost during system rollout is always a concern, particularly for smaller firms with shorter project timelines.

Smaller firms can therefore, look to leverage offshore expertise and infrastructure investments regarding BIM implementation. As these firms are specialists in BIM technology, they wield fully equipped studios and knowledgeable team of professionals to handle every requirement.

What to do
Step 1

  1. Determine your stake and maximum advantage derivable from
  2. Enhancing value services
  3. Reduce cycle time and improve efficiency
  4. Better coordination between design, construction and operations
  5. Determine cost savings derived by not implementing BIM
  6. Determine how competition is coping with or without BIM
  7. Leverage innovation offered by way of offshoring BIM integration, professional associations and industry organizations

Step 2

  1. Invest in education and training or hiring outside help
  2. Adopt available standards such as National CAD Standard, Omniclass™, UniFormat II etc
  3. Support and participate standard development
  4. Seek contracts that reward value enhancement
  5. Require and support higher functioning facilities

With an intelligent implementation of BIM technology, your team starts to develop skills and techniques, build confidence in the software; reevaluate current projects and judge and pace the future work for potential benefits and added services. This confidence gives your firm the edge needed to survive in an ever changing, ever growing marketplace. Source realtytimes know more contact us.

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Winterize Your Home

Winterize Your Home

You do not neet to consult a professional interior designer for enlivening your home up. Just go with your instinct and exercise what your heart says. Go through some special approaches to decorate your home during winter days.

Winterize Your Home
Winter Decoration

Every season has its own flavor. Seasonal decoration adds charm to the home by giving it a new fresh look. Every season entices us to come up with some innovative decorative ideas. Seasonal decoration is nothing, but experimenting with different colors, fabrics and finishing giving your home as well as surrounding a perfect seasonal look. The mighty rage of North Wind indicates the coming of winter season. Winter is the coldest season of the year, between autumn and spring, marked by the shortest days and longest nights. Noticeably, people spend most of time at home during winter and decorations for winter should permeate into every part of the home from the living room to toilet areas, reflecting the season. Sitting in a bright colored room filled with cinnamon aroma, a soothing music on, a cup of hot beverages or hot chocolate on your table, few scented candles lit around the beautiful flower vases refresh your exhausted mind and liven it up, creating a heavenly atmosphere. Let there be colors and let there be light everywhere. Get ready for the cold days esthetically and celebrate winter! 

You do not need to consult a professional interior designer for enlivening your home up. Just go with your instinct and exercise what your heart says. Go through some special approaches to decorate your home during winter days.

Use Bright Color with Heavy Fabric: As nature goes grey and cold, it’s wise to pick bright colors for your interior. Color has a great impact on human mind. It changes mood. The best way to decorate your home is to play with bright colors in heavy fabric which add warmth and bring coziness. Color can make your small room appear large and large room more cozy. Light colors for summer and bright colors for winter make the place snug and comfortable, adjusting the moods and emotions, and offering a fabulous look to it. While blue, purple and green are considered as cool colors, red, yellow, and orange seem to appear as warm and intimate. Due to some characteristic, these warm colors make small rooms appear smaller and large rooms cozy. Leave the monochromic color and experiment with lots of bright rainbow colors during winter.

Winter Decoration Candles

Add Fragrance and Colors with Flowers: Flowers fill your home, especially living room with heavenly smells. Place bright colored flower vases at different locations in your home. Don’t forget to buy bouquets from florists to make the interior dazzling and cheerful. While purchasing flowers, make sure they could give off sweet fragrance.

Candle can be Kindled: Burning of scented candle will give your home an instantly warm feeling and fill your home with sweet fragrance. Cinnamon is a wonderful aroma to have in your home for winter months. You can purchase candles available in a variety of sizes and shapes made with pine, apple, cinnamon, etc. Burning these candles would make the living room and dinning space dazzling and give off a wonderful aroma, consequently making the house warm also.

And Let There be Light: Lighting should definitely be in sync with the seasonal decor. Winter decor doesn’t mean decorating for Christmas celebration only. Winter decoration starts before Christmas by displaying colorful lights on the front door and surrounding. Highlighting trees and bushes with ambient light or sparkling light adds an enlivening spirit to your place. To get out of winter blues and make your home warm and summery, use attractive light shades made of colored and textured glasses. Golden lighting could give you a pleasing and warm feeling perfect for winter. 

Winter Decorations

Bright Carpet and Colorful Rugs: Rolling out carpet on the floor brings warm and add new fresh look to your living room. While rolling carpet on the floor, make sure carpet are thick and bright colored. You can blanket your furniture with heavy colorful soft rugs and throws. They add a gorgeous look to the attractiveness of furniture. Replacing plastic tablemats with jute tablemats can bring warm to your living room and add a fabulous look to it.

Hang Thick and Colorful Drapes and Curtains Up: The best way to theme a home for winter should begin with the practical aspects of winter decoration. The windows are a source of heat leakage. So, heavy and colorful drapes or curtains should be hung up throughout the home in anticipation of the cold. 

Furniture and Fun: The addition of some extra comfortable furniture makes large room appear cozy while adding some extra advantages during winter. With people spending more time at home during the wintry days, it would be wonderful to have furniture which is comfortable and is fun to laze in.

Pullout and Rollout Attractive Linen at Kitchen: Winter is a time when most of people spend their time at home and feel uneasy to go outside for food. Secondly, as winter is a festive season, so there are lots of party and celebrations organized at home. A lot of food too is prepared and eaten during the winter. Kitchen and dinning space would especially become more attractive with a change in decor. Pullout and roll out attractive linen for any festive celebrations at home.

Making Your Home Inviting: To make your home attractive and comfortable, you can roll out bright colored carpet over the cemented or marvel floor. Red color is always the best choice. Put some extra slippers in a colorful basket by the front door. Let your guests to grab a pair of slippers when they take their shoes off. It would make your guests realize their importance to you. This is especially well-considered when your floor is bare.

Winter is a season of which mighty rage impacts on every aspects of our life. The coldest weather of winter makes people confined in their rooms most of time – the months of December, January and February in the Northern Hemisphere, and June, July and August in the Southern Hemisphere. Keeping in mind, the entire effect should be driven to make home cozy, warm and belonging. Use bright colored curtains, drapes, upholsteries, bedcovers, throws, pillows and vases. There should be colors everywhere. Get a colorful painting for the living room to liven it up. Let’s decorate life with various colors and dip into the spirit of festivity. This is the best way to defeat the winter blues. Reference architectural evangelist know more contact us.


How Builders, Developers and Real Estate Firms benefited with BIM Services

How Builders, Developers and Real Estate Firms benefited with BIM Services

Use of Architectural 3D Rendering and Building Information Modelling (BIM) has seen a tremendous growth in recent years. From large scale projects to even smaller constructions all are reaping the benefits of 3D!


Architectural 3D Rendering and BIM services can help builders, developers and real estate firms by creating the best quality 3D building models complete with realistic rendering and animations.

Design level visualization
3D Rendering makes it easier for architects to attempt different design ideas, even revisions and changes do not take much time. Any change to a design is done in a flexible environment which means changes do not involve having to begin any task from scratch. The architect can thus present a building in the more realistic way possible even before actual construction begins.

Solve design level clashes, quicker!
Architects can now identify and resolve possible design level clashes and construction flaws that are likely to occur during the process of construction. A real environment can be created using 3D visualization and different teams can work together to identify solutions to all the flaws.

Believe it or not, It’s a great Sales & Marketing tool
Stakeholders of a project are presented a concrete understanding of the interiors and exteriors through 3D Rendering. People can inspect the feasibility of the project better and also are able to understand the reflection of the project in real life. Selling and promoting a design idea has never been easier. Reference geoshot know more about BIM then contact us.

Five Reasons you need Architectural 3D Modelling and Visualization

Five Reasons you need Architectural 3D Modelling and Visualization

Five Reasons you need Architectural 3D Modelling and Visualization : 

Five Reasons you need Architectural 3D Modelling and Visualization
Five Reasons you need Architectural 3D Modelling and Visualization


Here are five reasons Architectural 3D Modelling and Visualization can work for you :

1. With 2D floor plans, visualizing elevations can be difficult

Being able to see and experience your design in 3D will help you understand how it is going to work. The more you understand the look and feel of your design, the more comfortable you’ll be at making decisions.

2. Save time and money, change and evolve designs in real time

Get fly-through videos or multiple perspective views of your project. This usually always brings up design questions, and changes can be made to the model during the meeting for instant results.

3. Show 3D illustrations & renderings and get approvals, faster!

Using 3D to show how a building relates to the existing environment or to a neighbor’s home is a very powerful tool when you’re seeking design approval.

4. Cut down costs

Reducing the amount of changes during construction can help save time and money. But it can be hard to do until you really understand what the space will look and feel like, which is where 3D design comes in.

5. It helps you avoid paying for work you don’t want

Having a clear understanding of your project before construction begins is the best method to significantly reduce the problem of unnecessary expenses.

Whether you are a private home owner, architect, or developer, our team is ready to produce your project quickly, easily, and affordable, with the most beautiful, stunning image quality. We enable developers and builders to pre-sell their projects faster, by providing them with powerful marketing tools, renderings, and 3d animations. Refer geoshot for know more contact us.


3D Rendering an Impeccable part in Architecture Industry

3D Rendering an Impeccable part in Architecture Industry

3D Rendering an Impeccable part in Architecture Industry : 3D Visualization and Rendering plays a very important role in Architectural industry in promoting and marketing construction of an architectural projects. 3D Architectural Rendering Service is a vital part which has attained its own perceived importance to fulfill numerous purposes with remarkable results. Architectural Firms use 3D visualization and rendering techniques and Walkthroughs to showcase their projects. 3D rendering is a technique which is used to transform an architectural model into 3D view with photo realistic effects.

3D Rendering an Impeccable part in Architecture Industry
3D Rendering an Impeccable part in Architecture Industry

Architectural rendering is the best way to enhance your home or office interiors, exterior landscape or showing other lighting effects. The architectural rendering technique streamlines the entire manufacturing process and as a result of this the product development is accelerated. With this rendering approach, you will find it easy to share the product information, communicate your requirements, and ensure that the end deliverable are as required.

Benefits of 3D Rendering services:

1. Comprehensive project visualization before project begins

2. Delivers 3D perceptions of the projects

3. Error minimization and better control over projects

4. Global marketing Advantage

Some common areas that are covered in 3D architectural rendering are:

1. Interior and Exterior Visualization of homes, offices and various other real estate projects

2. 3D Animations and Walkthroughs

3. Architecture Mood Shots or Concept Rendering

4. 3D Floor Plans

If you are a Property Developer, Architect or even real estate company, 3D Architectural Rendering Services could prove to be helpful in describing your projects effectively to the customers. Contact us

BIM Lifecycle

Lifecycle of Building Information Modeling (BIM)

Lifecycle of Building Information Modeling (BIM)

Lifecycle of Building information modeling (BIM) is a process that includes creation and management of computational representation of buildings. While traditional way of handling building projects included 2D drafting and drawings, BIM is a modern day technology, where comprehensive information of a project is projected via a 3D model.

BIM Lifecycle
Lifecycle of BIM

Building information models carry all the information pertaining to a building that is exchanged across various operational levels and departments involved in a building and construction project.

It allows higher collaboration between the varied construction processes that result in buildings that are safer, provide better occupant comfort, are environmentally sustainable, energy efficient and have a good waste management system. This means that Building information modeling lends support throughout a buildings lifecycle.

BIM services are outsourced by construction companies and architecture firms across the globe, to design and construct buildings like houses, hospitals, schools, shops, factories etc with diverse physical infrastructures and utility structures like roads bridges airports etc.

We have a dedicated department handling BIM projects for all types of new construction projects as well as retrofits. We have worked for several international retailers, homebuilders, architects, engineers and general contractors.

Significance Of BIM For Civil Engineers In Respect To Road & Highway Design

Significance Of BIM For Civil Engineers In Respect To Road & Highway Design


Building information modeling (BIM) is a unified practice built on synchronized, consistent information pertaining to a project right from design to construction and finally ending with operations.

Significance Of BIM For Civil Engineers In Respect To Road & Highway Design
Significance of BIM for Civil Engineers in respect to road & highway design


Significance Of BIM For Civil Engineers In Respect To Road & Highway Design : It is perceived that BIM has its origin in architecture but the doctrines of BIM can be applied to anything that is being built; in this article they are the roads and highways. With the help of BIM modeling, engineers can easily envision the project performance before they are built. It also helps in retorting to design variations quickly and augmenting design with analysis, simulation & visualization that helps in providing higher quality construction documentation.

BIM services make it possible for  BIM teams to mine cherished data, from  model to enable earlier decision making and more cost-effective project delivery.


Execution of BIM modeling process for road and highway design starts with conception of synchronized, consistent design information about the project. This marks the emergence of an intellectual 3D model of roadway in which elements of the design are related to each other dynamically. The design process helps the civil engineers to leverage information model to conduct recreation and scrutiny to augment the design for objectives including sustainability, road safety, and construct-ability.

Building information modeling process design deliverables can be produced straight from the information model. The most instantaneous benefit of BIM for road and high design comprises of better designs and enhanced efficacy and productivity.  Due to the fact that design and construction documentation are dynamically linked, it reduces the time required to gauge more options, implementation of design vicissitudes, and creation of construction documentation.

This results in shortening of time to contract letting, ensuing projects being completed sooner, and within stipulated time lines for transportation agencies.


BIM modeling offers a visual environment which enables you to get comprehensive view of project area to swiftly make out visual impediments from barriers, surrounding terrain, vegetation, and buildings. This will enable to convey better roadway optimization and improved road safety which includes safety considerations that need to be take care of while designing a roadway encompassing turning radius, signal locations that are tied to roadway speed limitations, and road slope.

This will enable you to identify problems and synchronize design changes with highway plans. BIM modeling helps in developing projected surfaces earthwork volumes, drafted cross sections, material tools and much more. It also helps in assisting conception of design deliverables directly from the information model that can be leveraged for as-built comparisons, quantity take off, construction sequencing and operations and maintenance to attain an ideal roadway design.


BIM modeling has the capability to offer contractors with 3D proposed surfaces for driving machine control grading projects which reduces survey costs, equipment operating costs and saves time and money during construction. By applying BIM services; civil engineers can obtain instantaneous view of project performance. Things like noise, lighting, signage analysis, traffic capacity, drainage are all perceived earlier in the project as a part of the design process which reduces the efforts in construction documentation.


Building information modeling delivers synchronized, consistent design information for designing road & highway projects by creating  smart 3D model of roadway in which elements of  design are shared to each other dynamically. This feature helps transportation agencies to improve their efficacy and productivity in functioning and preserving roads.  BIM modeling also automates the creation of construction document which saves lot of times of civil engineers which they can use of alternate design circumstances and to take feedback from collaborators in the design process. Reference Nikunj Patel

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