Discover Smart Cities & Smart Transportation Services with GIS!

Across the globe, cities and transportation administrators are witnessing a destructive transformation—as they are becoming “smart.” The AEG industry is ready to earn a good market share of the duties required to support on the smart road and infrastructure mapping and also inventory.

Demystifying Smart Cities: Check How GIS Base Mapping Will Improve Navigate Your Future-

Technological advancements appear to take place in leaps and bounds, as the news gets out on innovations like the introduction of autonomous vehicles or the accessibility of statewide base mapping or the idea or application of a smart city. Those innovative explications mostly depended on the merging of incremental advancements. Many of these occur over the years and for a variety of technological restraints.

The idea and application of a smart city is an excellent case of how many advancements are coming collectively to produce a unified, constructive leap ahead in technology. Also in both in generation and application.

GIS Base mapping is necessary for the approachability and the proper organization of these components, and the linkage it provides forms the template required for the smart city.

Let’s Check How Connectivity Provides Baseline-

The Smart Cities Council recognizes that there isn’t a stringent description of what constitutes a smart city, but data on its website that one consistently accepted upon feature is that it has “digital technology installed across all city functions.” Thus this linked technology is what creates the demand for base mapping and following work of a smart city. It can be like planting a garden.

Furthermore, for a smart city to work, you have to systematize the technology utilized across all the town departments and correctly analyze each data field. The connectivity theory required for smart cities has been verified by various geospatial companies that optimize location-based assistance to produce geographic insights. These companies work with associated workplaces to automate, monitor and command products and help while engaging and connecting customers and also the marketplace.

In other words, they interpret managed data to form citywide GIS base mapping.

CHECK CREATING BASE MAPPING

Geography / Geology has grown the new alphabet for the organization of data; it provides people an authentic place to begin and significance for investment in that information.

Cities have to interpret what level of efficiency is adequate to satisfy these connectivity requirements. They must address the varying data information demands across a municipality while maintaining the strength to standardize the data across the municipality’s departments. Hence, it needs the variety of accuracy produced by 3D technology.

Produced from underground, indoor, road level, aerial / airborne and satellite metaphors, 3D data builds a basis for an asset registry. Through this registry, assets can transpire maintained as a component of a combined GIS data frame within whatever scope is essential. From a national prospect down to a particular property.

Asset management traditionally managed in a document or A CAD-based process is advancing toward the use of high-accuracy base mapping in a GIS environment. Thus, it is a modern way of thinking that implements to every municipality. By recognizing and precisely locating the assets (light poles, roadway paint, signage, etc.) over the districts, cities can entirely handle.

Hence, At the core of this framework is GIS base mapping and topology, which is an outcome of infrastructure inventory from planning to design, and also from inventory to estimation, and from implementation to managing. Also read Build up smart cities through positive urbanization & Geographic Information Systems (GIS)

Source: https://blog.nibt.education/2018/07/smart-cities-smart-transportation-services-with-gis/

Know What Is 3D MEP Coordination Services For Your Project!

In the AEC industry, there is an expectation to complete projects faster and at a lower expense to clients. Thus, this pressure turns into challenges at the design stage of the process. It gives no buffer for errors, rework and clashes, which turn to precious loss of time, money and resources.

AEC plan outputs are similar to the pillars of a building project. If one falters, it results in an imbalance of the entire project. To enhance the productivity and save expenses. An integrated design strategy is essential also here’s where MEP coordination plays a vital role.

What is MEP Coordination Services?

MEP coordination works as a connection between the architectural design, the engineering system, and the construction process. MEP modeling leads in developing 3D models of mechanical, electrical and plumbing outline details utilizing software technology like Revit MEP.

Construction projects which limit many of the in-field conflicts are the projects that are Finished on time. And also within the given budget. The impact of structural or equipment clashes with installed building components like the mechanical HVAC duct-work systems, the electrical panels, and cable routing, and the plumbing pipes for building water supply and drainage – can immediately eat up profit increases and place your project back schedule.

Check more about MEP Coordination and its Outsourcing-

You can also do outsourcing for MEP coordination service for your projects. The advantage of utilizing an outsourced MEP coordination service is the competing benefit your project gains above the competition. You Not only grow access to experienced drafters that are dedicated to producing top-quality 2D and 3D coordination drawings – but also you receive the MEP documentation quicker than in-house personnel that may be confused with other project works.

Any Associate with an organization that utilizes a combination of strategies and technical expertise which use full benefit of the power of CAD(computer-aided drafting) technology to produce quality MEP coordination drawings. With the correct use of CAD software, the implementation of clash detection systems can be virtually automatic.

Thus, in this way, your project is subject to limited human error. It relies somewhat on the strength of the CAD software to manage the following:

• when two entities hold the same X, Y, and Z coordinate space
• Also, when devices violate a secured clearance criterion for “clear space” mounting
• when an installation check may occur (not sufficient place to install)
• Or when dedicated space kept for one system that has to violate

In many organizations, people work directly with the engineering staff to apply the relevant level of accuracy for MEP coordination drawings. Many CAD engineers are highly skillful in not only the master use of CAD technology but also they trained architectural and engineering drafters that are familiar with all aspects of architectural and systems installations. You can also demand a team of productive technicians that will consistently deliver high-quality solutions to mechanical, electrical, and plumbing installations. click here to know more..

Source: https://blog.nibt.education/2018/07/what-is-3d-mep-coordination-services-for-your-project/

Explore The Importance Of MEP Shop Drawings In Building Construction

Let’s check the Definition of MEP Shop drawings-

MEP stands for Mechanical/Electrical/Plumbing. The Term MEP Shop Drawing is a combination of the 3D rendering of construction drawings/ designs that is the outcome of the amalgamation of architectural, structural and civil shop drawings is known as MEP shop drawing. You can Apply MEP Shop Drawing for coordination process in electrical, plumbing, piping, and duct-work layout. It also facilitates the engineers to design better fabrication, schedule trades, installation and other similar activities with steel and installation fabrication.

Now check What is MEP Shop Drawing?

MEP Shop Drawing is the primary step towards the MEP structure creation. MEP Shop Drawing is the focus area for MEP Engineers because it is the stepping stone to the entire structure. The primary goal of performing MEP Shop Drawing is to suggest growth in building quality and output facility that is brought by addition off-site fabrication, confirmed plan, and well-informed trade teams. The MEP Shop Drawing Services are systematically well-organized and entirely in coordination accompanied including the fact that faults identified before the actual construction. It provides exhibiting the structure as a complete than as individual drawings.

The most significant benefit of using MEP Shop Drawings is that it reduces the time for engineers and contractors. Hence, it updates the final results. Before viewing ahead to other features of MEP Shop Drawing, first, we need to know the essential of MEP Shop Drawing. Mostly, it is a drawing or a set of drawing that, i.e., employed for the prefabrication of elements like structural steel, furniture, windows, supporters, elevators, and appliances. It highlights more on the installation than the real construction.

The shop drawings for MEP- mechanical, electrical, and plumbing operations of new building construction are unique. In that, they present the most important details of these operations as compared to other documentation coteries. Usually, the architectural and engineering firm worked with outlining commercial or industrial tools can assign the MEP shop drawings to another client. Thus, total focus and a rapid turn-around can give precise drafting of assemblies and elements which need fabrication versus purchase only.

Check more about MEP Shop Drawings in Mechanical-

MEP shop drawings also give an enhanced level of specification for fabrication and installation. HVAC, i.e., Heating, ventilation, & air conditioning or any mechanical elements which may need for prefabrication includes duct-work, air-handling units, and also custom piping connections within the facilities and construction services. However, even elevators and cabinet systems are mechanical elements which involve fabrication or shop drawings.

The ultimate dimensional precision of fabricated building elements is chosen from shop drawings, rather than the plan detail and layout drawings made by an architect or an engineer. Therefore, MEP shop drawings work as another set of eyes to find flaws before the field installation. While, when you utilize any third-party engineering design service for making shop drawing of MEP systems, you can free your in-house team from these duties which are incredibly detailed and need a practical understanding of machine shop processes.

Electrical associates and the housing for great electrical devices will usually need shop drawings. Floor area is generally at a premium, and an authentic layout of the exact dimensions of electrical tools can also make installations execute smoothly.

Furthermore, cable services which provide hundreds of connections over multiple floors must coordinate with plumbing and HVAC methods. Here is a different area for shop drawings which necessitate a careful measurement of space needed for electrical devices, plumbing systems, and also mechanical equipment.

Source: https://blog.nibt.education/2018/07/importance-of-mep-shop-drawings-in-building-construction/

Best Practices for Agriculture using GIS

GIS has been playing an important role in agriculture development around the globe.  It helps farmers elevate crop production, reduce raw material cost, and manage land resources very efficiently through the integration of GIS technology. Agriculture mapping plays a crucial role in management of soil types and irrigation methodologies for any farm area. This helps farmers, especially in India control and manage agricultural resources. Geographic Information System allows clear understanding and interpretation of visual data through understanding of relationships and patterns for maps, globes, charts, and more. This information can be easily used by farmers through geographically referenced information.

Applications of GIS in Agriculture

Why is GIS so important for Agriculture?

The basic principle of a farm works on the quantity of input and output, that means demand and supply.  Farmers need to balance both, the input and output for maximum crop yield and profitability. GIS has the ability to analyze and visualize agricultural areas and workflows, this makes it beneficial for farmers in the farming industry.  Positive farming is dependent on making informed decisions on where, what, and when – spatial phenomenon through GIS.

Benefits of GIS for Agriculture

Some of the benefits using GIS for agriculture are listed below –

• Crop mapping
• Crop analysis
• Landscape Mapping for Irrigation
• Soil Analysis
• Soil Erosion Analysis
• Studying various crop models
• Drainage systems through elevation models

The end of guess work in Agriculture

From the dawn of time, farming or agriculture has always been carried out through rough calculations and guesswork. The integration of GIS in crop planning management takes the guessing or human interference out of the picture and provides precise data in terms of soil analysis, erosion in the area, seasonal topography, and more. This makes it easier for farmers to understand what kind of crop can be grown on a specific piece of land.

Natural Factors

What was discussed above was the impact of soil on the quality of the crop, but there are other factors wherein agriculture and crops can suffer an impact if not analyzed completely.  Ground below the soil can have slopes that can affect drainage and water access to the crops, this means it can either deliver excess water to the crops or dehydrate the soil due to less water. Other factors include the intensity of sunlight, the amount of rainfall, man-made structures, industries around the field, pollution levels and more. All these factors can be taken into account through GIS for agricultural planning, as these factors can affect the quality of crops to a large extent.

Mapping and Identification

Geographic Information System plays a crucial role in identification and mapping of fields for archaeological features or optimizing the crop yield in other areas.  Increasing crop yield is one of the most important aspects and requirements of agriculture, GIS can be used to reorder crops patterns to manage food security, or even ensure maximum productivity from various soil types. Mapping is also used to trace areas that are vulnerable to drought and flood. This valuable information can be used by farmers to prepare contingency plans or even take informed decisions to grow the right crops.

Climate Change

Having an idea about weather patterns, temperature changes, etc. through robust information gives farmers an idea on what needs to be done to maximize productivity and efficiency. Climate changes can significantly affect soil erosion, soil quality, and in-turn damage crops. These are disasters that can be avoided through the application of GIS, change in weather patterns can cause –

• Changes in precipitation
• Changes in temperature
• Increase in crop pricing & more

Closing on a polite note

The future implications of GIS are immense and exceptional. But this technology needs to be available for rural farmers in India as they form the backbone of maximum food production in India. The big part of the revenue for the Indian government comes from the Agricultural sector, and technology needs to be incorporated for these people to enhance their yield. Global food crisis can be mitigated through the application of GIS. Check More…

Source: https://blog.nibt.education/2018/07/best-practices-for-agriculture-using-gis/

What is BIM, Building Information Modeling

Industry professionals see BIM or Building Information Modeling as an essential collaboration and construction project development platform with various tools and resources that can be used for the complete project lifecycle. In the construction industry, positive urbanization is a need of the hour. Many construction companies and owners have adopted the BIM process in their construction projects, but India still needs to work up on this process and technology as there is a huge growth market for construction and civil engineering projects in India. Many enterprises around the globe have understood and adopted the robust power of BIM to accomplish their project through quick turnaround times, and on budget.

The core definition of Building Information Modeling (BIM)

Building Information Modeling or BIM is a series of processes that are adopted through digital depiction of physical and working characteristics of an infrastructure. It is an ecosystem wherein all the parties involved in a construction project can collaborate on a single platform through well-defined processes, and software automation to devise strategies, plan the complete building process behind the desk, handle design operations, pre-fabricate & fabricate precise building assets, manage the project life cycle, and more.  In simplicity, Building Information Modeling (BIM) is constructability backed by digital intelligence in the AEC(Architecture, Engineering, Construction) industry. BIM has influenced many companies worldwide due its influence on the overall building process. Read More…

Why BIM?

BIM has been used as a mandate in many countries for construction projects for its ability to execute construction projects easily through 3D visualizations, and connecting the dots from design to construction.  BIM has the ability to visualize a project from the ground up, and it helps every member of the team viz. project managers, contractors, and developers save on time and money. There are many countries that are using the BIM methodology, and more are soon to adopt it. Some of the countries that have deployed, and soon to deploy BIM are – Austria, Belgium, Brazil, Canada, China, Germany, USA, UK, Germany, Singapore, and more.

BIM Construction

As an example –

The 400K street NW project had design deficiencies for duct, duct passing, that were completely clashing with the plumbing design.  With the help of BIM, the project engineers and BIM experts were able to solve this issue before it went for fabrication. This, in turn enhanced productivity, and reduced scrap and rework.

BIM as Multi layered Process

5 Benefits of Building Information Modeling (BIM), you should absolutely consider

The benefits of BIM are easy to understand as they have been mentioned below –

BIM Benefits

1.Exceptional Collaboration & Team Work  

As BIM exemplifies team work, teams can easily rely on BIM functionality to work on the cloud, and collaborate efficiently through all the stages of the project lifecycle. Managing your project behind the desk, and analyzing various vital information through collaboration before even going onsite is what Building Information Modeling delivers for your team members and project. It deeply penetrates every piece of vital information, and brings it out on the table for team members to review, enhance, and deploy through constant streamlining.

2.Enhanced Workflow Visualization

BIM as a process,  when integrated with state-of-the-art software leverages clients and construction professionals to design detailed 3D models with precise information intelligence, that helps users to quantify all the necessary facets, and visualize their project in real-time. All this is achieved before going in to the actual construction phase.

3.Extremely cost-productive

For budget-centric projects, it is absolutely imperative that every team member stays focused to complete a project on budget. The demerits of old-fashioned planning can lead to vulnerabilities and clashes onsite. These clashes can occur for building assets, wherein multiple assets can occupy the same space, and cause a lot rework onsite, or it can actually cause clashes between various departments or team members in the project. This  can create serious delays in project time-lines. BIM mitigates all these complications through transparent information interchange across all the departments. Building Information Modeling has become cost productive in the sense that it completely mitigates the need of extra assets or assets that are not required like doors, windows, building material, and more. Thus, there is no material wastage whatsoever.

4.Enhanced Productivity

Time is of the essence when it comes to the AEC industry and building complex infrastructure. Thus, productivity of every single department and individual is to be assessed and evaluated for the project to complete on time. With BIM, construction personnel have the flexibility to plan each step in a condensed manner for others to view and understand. Any changes made in the model, drawings, or documents are reflected in real-time for others to approve and improve on. This is applicable for every phase of the project life-cycle, thus contributing to greater productivity amongst various teams.

5. Green-building & reduced carbon foot-print

The need for positive urbanization through green building technology reduces the carbon foot-print on the environment. Energy efficiency is key to building modern structures through early-stage environmental analysis for energy consumption, lighting requirements, plumbing systems, daylight improvement, and more. Through BIM, owners and construction companies can deploy sustainable design processes, and optimize energy efficiency, water and waste management, and even create a paper-free AEC ecosystem through the cloud.

BIM Dimensions

Towards the end

BIM penetration in the AEC industry has seen an up-curve through technology advancements, and the flexibility it offers through various processes for along the building life-cycle. Extensive use of BIM around the globe will necessarily create sustainable urbanization, and take the construction industry to a sophisticated level of advancements through precise data mining and information interchange. Check More…

Source: https://blog.nibt.education/2018/07/what-is-bim-building-information-modeling/

Top 5 Trends Reshaping the Process Of Building Information Modeling

In the recent scenario, BIM- Building Information Modeling has started to develop as a more great alternative to 3D CAD modeling. The process enables teams particularly on huge projects to work collectively in building a whole, digital design of a building before the first stone sets.

Engineers, Architects, structural designers, and many of other stakeholders in the process can take advantage of, and collaborate on, the same method to develop a comprehensive design of your building-to-be. The complete building information model then operates as the blueprint for anyone engaged in delivering the project from an idea to its completion.

Past research has bestowed the success of BIM across the AEC industry.

To remain successful, BIM depends on leveraging current technology to model the project. Because that technology continues to include, the process already seems very different now than it did a few years ago. And Of course, as you plan, design, and develop your project, you must be aware of certain trends to establish the best model possible.

Here are 5 trends, which will only extend to rise in importance as they enter and grow the AEC outlining process.

1) 3D Printing

A few years ago, 3D Printing was just a curiosity, especially for Small AEC firms. Today, it’s a progressively affordable opportunity to intensify your design and modeling with a real representation of the digital ideas.

Globally, Forbes demands the 3D printing market to expand to more than $12 billion by this year, i.e., 2018. The same Forbes announced the single most significant industry use case to be prototyping, making it a perfect fit for the real representation of a BIM outline.

Thus, at its core, BIM is virtual. It enables a complete view of a building project, but it needs to conceptually digital. Uniting 3D printing abilities to that model provides companies to produce that practical idea into reality.

3D Printing

2) Prefabrication

Prefabrication is a core benefit of Building Information Modeling (BIM), as discussed above, is its comprehensive nature. In addition to contributing engineers, architects, and construction professionals with the necessary building materials required to recognize a concept.

That comprehensive nature, while follows BIM perfectly with different construction trend: prefabrication. In the matter of lowering costs and increasing the speed of construction, both individuals and companies are frequently turning toward modular, prefabricated options. Throughout the world, the ready-made (prefabricated ) housing market is evolving fast, and the same continues right in the commercial space.

Hence, utilizing BIM systems, AEC firms can use prefabrication more efficiently and successfully. Eliminating waste from processes has long been a directing principle of active organizations, and prefabrication optimized by BIM can succeed just that. Its accurate modeling abilities enable companies to construct building components without the required on-site confirmations.

 

Prefabrication

3) Mobile Accessibility

Expanding mobile internet usage is not a phenomenon confined to AEC industry. But rapidly, it’s proceeding and making its impression in the AEC industry as well. Expecting any digital solutions to be transferable enough to satisfy its users and their needs.

A comprehensive BIM model on which engineers, architects, and the construction experts work and are all connected will require to be accessible from multiple locations. Ideally, that accessibility should be transferable, supporting to record and perform improvements even on the construction site or from a conference/meeting room.

Nowadays Some BIM software can pass that capability. With the help of cloud and mobile features, BIM models can more efficiently be shared with the stakeholders and also can access it from any endpoint required. Thus, the results are increasing and the user-friendliness that in turn maximizes productivity and collaboration on the project.

Mobile Accessibility

In the future, the trend of mobile accessibility will only be expanding its Importance. Architects will not stop designing their initial ideas on office desktops. Engineers will extend to compile necessary calculations from their desk itself. However, BIM proceeds to matter beyond project fulfillment, as it associates to maintenance and small updates. In achieving each goal, mobile accessibility is a vital key.

4) Green Buildings

Several AEC expert knows about the continued and still-growing necessity of Green Construction. Certifications like LEED gives plenty of advantages, from tax expense deductions to many marketing opportunities. These also motivates companies of all the industries to demand green buildings as part of their construction project.

Designing and constructing sustainably, depends on several factors. Steadily BIM- Building Information Modeling can identify these factors and streamline the design and construction process to increased its impact.

Hence, BIM, in other words, is remarkably beneficial and essential to design and develop green construction.

Green building

5) Government Regulations

Governments across the world is already rising to understand the potential and capabilities of BIM. As a result, they are beginning to explore it for public projects, in some cases even expecting BIM models for any construction and infrastructure project.

At its core, BIM is in itself a significant trend within the AEC industry. 2D models of idea visualizations and projects are growing less desirable. And also 3D CAD modeling may not hold the full advantages that Building Information Modeling (BIM) produces. As a result, projects as important as significant infrastructure developments and as comfortable as existing building maintenance are taking benefits of BIM.

Simultaneously, the effectiveness of doing so can maximize if AEC experts understand and leverage the above trends currently developing the present and future of the concept. Like 3D printing, mobile accessibility, and the other trends has begun to shape the future of the BIM. Working with an organization that can leverage the advantages of BIM to its fullest is vital.

Source:https://blog.nibt.education/2018/07/top-5-trends-reshaping-process-of-building-information-modeling/

Discover the essential Factors of Success in BIM Implementation

In this past years, BIM- building information modeling has progressed from the new, shiny toy in architecture and engineering to a vital ingredient of construction industry success. BIM is a more extensive modeling option nowadays compare to CAD and other types of architectural drawings, it enables almost everyone associated in the process to get a complete picture of the project to be finished.

However, getting into any new concept is just a part of the equation. Anyone who is looking to take advantage of the idea first needs to understand the variables involved in it,  mainly of the individuals and the companies that are new to the concept.

More particularly, below are the few factors tend to be important in a successful BIM implementation project.

1. The Right Vision

The variables serving into a successful BIM building information model are difficult. So, it is the concept that enables companies to stand up this type of complete model, to get started with. As a result, a necessary framework is vital to assure an accurate, consistent, and essential BIM implementation.

Thus, a vision is more important than just a statement; it’s a story of the results of the idea of BIM.

An essential part to the success of executing BIM is a concise and well-articulated vision from executive leadership of what the BIM business transformation will achieve for the organization.

Hence, this vision requires to be both inspirational and aspirational, able to be communicated throughout the entire organization easily. Thus, its required to answer the Five Ws of BIM: who, what, when, where, and why.

2. The Strategic Goals

Based on the still almost overall vision, an industry embracing BIM requires to explain, exactly what it seems to achieve by embracing not just the technological concept, but also its underlying building and planning philosophy. Establishing strategic goals can be challenging, notably considering the necessity to be at once aspirational and realistic.

The implementation of BIM- Building information modeling in your organization, will produce significant change, and be staying realistic about that change is essential to success. Strategic goals must outline the advantages, but also the difficulties of getting to the final point of an implementation project.

BIM requires precise planning, as the mere presence of the seven success factors outlined in this article shows. Without both overarching imperative aims and particular milestones to get to that point, successful BIM implementation will be challenging.

3. The Leadership Buy-In

BIM, especially when considered as the organizational conception that the complexity of the process needs it to be, involves buy-in throughout your organization. Leadership needs to be on board to accumulate the resources required for long-term, sustainable success.

The chances are that your team can straight impacted by a BIM approach will most clearly see its advantages. Leadership, however, might notice and prioritize possible challenges, like resource limitations. However, without buy-in at that level, even small problems can be challenging to overcome.

4. The Data Input

Possibly the most significant benefit of BIM is the complexity of a building or any infrastructure model that appears from a successful implementation. The variety of variables accessible for evaluation and the actual construction process far exceed other, earlier ways of planning and executing any building and construction project.

That complexity requires precise data input from a wide range of sources. Successful BIM implementation requires the data to converge to build a more comprehensive and realistic model.

5. The Necessity of Collaboration

Make no mistake: It is the crucial part for implementation cycle. BIM cannot be successful as an isolated method, developed by an engineer at their desk. Collaboration is essential to success, which is nowhere more obvious than in the data requirements mentioned in the previous section.

No particular individual can obtain data from such a wide range of sources. Even the traditional association between architect and engineer is not sufficient to achieve that feat. Success needs each level of the organization to develop together and collaborate on an individual model that encapsulates the whole of the variables involved in the process.

Thus, it means bridging the gap within experts who might not otherwise communicate. It also means assembling a team with representatives from each affected area. But most importantly, it means harmonious and strategic interaction between all stakeholders to assure a successful implementation.

6. The Human Factor

It’s fascinating to think about BIM as a direct process that runs from the planning and goal setting stage strategically toward implementation.

Success, in other words, needs more than merely the technical collaboration mentioned above. It requires a good team that works well together, can understand and succeed initial objection to change, and can take benefit of its strengths to develop a more harmonious modeling process.

Hence, the human factor is a vital part of any BIM implementation. Understanding the strengths and weaknesses of the team members involved can be the key to success.

7. The Right Partner

Finally, it’s challenging to undergo a successful BIM implementation without a firm partner on your side. If nothing else, this blog must have conveyed a pure truth about the concept: it’s complicated. Understanding indeed with all of the above variables, you still must possess in-depth understanding and expertise in constructing the actual model.

Depending on the extent of your operation, BIM can be a completely internal process. But in most situations, it makes sense to see to an outside partner that can take supervision of the technical aspects and build-out of the process.

The accurate BIM implementation partner must have both experience and expertise in the concept as it pertains to your industry and application variants. They must also assist you to move through some of the essential elements mentioned above, primarily as they associate to interact and goal-setting. Add some software information to the equation, and your BIM implementation process will be on the best path to long-term sustainable success.

Define & Design positive urbanization for complex infrastructure with MEP engineering

Various stakeholders like contractors, builders, and architects depend on consulting engineers with Mechanical, Electrical and Plumbing (MEP) expertise to optimize the process of urbanization, building performance, and stay on budget through quick turnaround times. The act of MEP engineers or MEP consultants lies in their constant effort from the beginning of the project through design, operations, fabrication, and evaluating the entire project lifecycle for performance design.  These individuals strive to deliver sustainable design integrated with Leadership in Energy and Environmental Design(LEED) accreditations through enhanced coordination of building assets, stakeholders, and operational processes.

MEP Engineering

Various Factors wherein MEP engineers could provide significant impact on new construction or renovation projects

Large projects are vulnerable to costing problems, onsite clashes, errors in the required modeling systems. Infinitesimal errors in construction building can cause heavy losses for owners and companies at the last moment. The addition of MEP engineers mitigates these bottlenecks through accurate cost estimation, precise 3D models and drawings, prefabrication runs, operations and more.

There are various lifecycle points, and assets that require skilled expertise for various construction verticals.

Lighting and energy systems

Lighting and energy systems are crucial for buildings as they inject life in to a building through various electrical sources and energy systems that are required to run the building efficiently. Construction professionals and MEP consultants are looking at alternate sources of energy to provide natural daylight, energy efficient systems, IoT, and more, to reduce the burden on existing energy sources. Energy conservation is a crucial part of the building process, and MEP engineers can provide significant positives to enhance design and operational command over these verticals.

Electrical and Lighting Systems

HVAC design and conservation

HVAC and plumbing is another crucial part of the building design process, whether it is air distribution under the floor, or an HAVC system, MEP consultants need to identify the best possible solution to design and install energy efficient systems in accordance with various building standards that are environment friendly. Plumbing deals with various systems like sewage, water pipelines, natural gas lines, and more. The role of an engineer is making sure, every system works as required, and also ensure there are no clashes onsite. Hiring companies specializing in MEP work can streamline the complete process for HVAC design and asset conservation.

HVAC Design

Fire Systems

Designing and installing fire systems for a building is key to avoiding disasters caused by fire. Fire suppression devices and systems require exceptional expertise to deploy various systems around various assets that are already installed during construction. Errors in a model(s) can cause serious problems if both the assets occupy the same space, this would create delays in project completion, as well as create the need to re-build or reinstall new plumbing assets. This would again lead to increased cost & reduced performance levels. MEP engineers can mitigate all these errors through deep insight and project analysis.

Fire Systems

Okay, so now we need to know the importance of Revit for MEP professionals             

For a person who is unaware of what Revit MEP is, let’s understand Revit, and its advantages

Autodesk Revit is a cutting-edge software designed for BIM professionals who are, or want to engage in MEP engineering. Integrating BIM with Revit MEP makes it all the more easier for designer, modelers, and other team members to understand the entire project in detail through intelligent models, as opposed to legacy CAD software. It provides users the leverage to access crucial information from a single repository that can be shared on the cloud. This enhances the workflow for Revit MEP users.

MEP professionals use Revit as a means to produce better designs, reduce risk, and accelerate project delivery through automated software algorithms, and provide exceptional flexibility to explore and understand the consequences in the earliest stages of the project. It primarily serves as a tool or platform to streamline the entire building process for all the people involved in the building process.

Revit

How would a Revit MEP course, or learning benefit users?

As mentioned above, there are various factors on how Revit MEP can be used to build efficient building, there are some technical parameters that can help MEP engineers enhance their workflow viz. performance calculation and analysis, integration with other software, building documentation, flow and pressure reports, and more. A Revit MEP course can be a bit expensive, as it provides comprehensive training, and the ability to work on various tools and live projects. Visit

So what can you do with Revit?

• Streamline the entire design layout before actual construction
• Create simulations in real-time for lighting and energy analysis
• Prepare precise documentation with drawings and components
• Fabricate clear-cut assets based on 3D models and data

Benefits of Revit MEP

Ending on an inspirational note

So, what’s included in my Revit MEP course?

I’ll be listing things that students or individuals would actually learn in a Revit MEP Course and also Visit.

• Features & tools including – Mechanical, Electrical, and Plumbing
• Fire system installation
• Prepare detailed views
• Import details or data from other software or format
• MEP fabrication tools and parts
• Create sheets and control various revisions

These are some of the things an individual would learn, for a detailed understanding of what Revit MEP is, you would actually have to  move in for a course from a good training institute.