Author: Sukh Singh

Cloud Laser Scan to BIM Modeling
BIM Service

Point Cloud Laser Scan to BIM Modeling – A Reality Check

Point Cloud Laser Scan to BIM Laser scan to BIM is a Building Information Model, created from a 3D model scan. Detailed elements of an object are captured in physical space, enabling accurate modeling,  clash coordination and quantity takeoff (QTO) or Bill of materials (BOQ). Several construction projects in the renovation and the extension stages are using point cloud scan to BIM process for 3d model creation, 3d visualization, animation and quality inspection. Scan to BIM modeling involves the technique of making a digital representation of an existing building condition with its functional and physical attributes. Laser scanners facilitate in obtaining a perfect 3d scan to BIM, which is then imported into the 3D BIM software. Faro scan to BIM process is designed by architects, engineers and general contractors to process 3D laser scan data quickly and accurately. Revit scan to bim is also popular for creating as-built models for refurbishment and renovation.  Scan to BIM revit facilitates creation of as-built BIM model for renovation work of infrastructure asset including tunnels and bridges. In the AEC sector, laser scan to bim best practices are used by the surveyors, owners, architects, engineers and general contractors for their renovation and refurbishment projects.

What are the laser scan to BIM services?

  • 3d Modeling – 3d models are created from laser scan to BIM process for architectural, structural and MEPFP services for the sake of renovation and extension work. The process of scan to BIM modeling enhances transparency, streamlining communication for quick decision making throughout the project lifecycle. High quality revit scan to bim modeling ensures that the Revit components are built intelligently with the practicality of serving the purpose. Parametric Revit families contain a realistic information about performance models, required for executing calculation analysis and construction simulation. Scan to BIM add-in helps to create and validate model from point cloud with automatic recognition and placement of architectural and MEP elements like walls, columns, pipes, ducts, conduits, etc.

Usually, a data rich 3D scan to BIM model includes:

  • Necessary COBie parameters
  • System connection establishment between source & destination of services
  • Modeling of Asset facilities
  • Comprehensive Connector in equipment families
  • Linking COBie extension sheet in the model

 

  • As Built Drawing Preparation – The purpose behind Scan to BIM applications is capturing the actual as-built conditions of buildings. BIM serves as a knowledge repository coordinating building facilities throughout the project lifecycle. As-built drawings from laser scan facilitates planning, elevations and formation of section sheets for architectural, structural and MEP services. The construction drawings serve as a comprehensive reference tool enabling future project planning, through renovation, extension and redevelopment from point cloud scan to bim. As details related to building dimensions, erection, fabrication, material location, elevation, etc. are obtained from as-built drawings, they could be used for resolving disputes regarding insurance claims.

 

  • 4D Construction Scheduling – Implementing scan to BIM Revit software platform, point cloud scan to BIM enables old building renovation for gaining momentum and creating interest among architects. The construction schedule or the 4d sequence of the project is related to the point cloud scan data. Users click on building objects in 4D visual environments, viewing associated tasks in the Gantt chart.

 

  • Facilities Management Integrating COBie Data Integration – Facility management is one of the best scan to bim best practices, where scan to bim companies support AEC project stakeholders to organize approved submittals from laser scan point cloud data during renovation and extension. A comprehensive contact data has the records of all construction projects. The BIM modeling drawings and models could be easily accessed through server directories. BIM consultants follow COBie process for asset facility management.

How scan to bim companies work with point cloud laser scan to BIM?

Point Cloud Laser Scan to BIM

  1.  Identifying Information Requirement:
  • Building elements, Level of Detail (LOD) and non-geometric attributes
  1. Setting parameters for Scan to BIM Process:
  • Accuracy, resolution of space, coverage and other attributes such as location, resolution, etc.
  1. Capturing Reality with 3D laser scanner:
  • Collecting data with high speed and accuracy, represents an accurate digital picture of 3d mapping of sites through multiple point cloud scans using popular laser scanning tools like Faro, Trimble, Riegl and Leica.

Types of scan to bim process:

Scanning process gets executed in several ways including:

  • 360 Degree Scan, providing a complete 360 degree view of the construction site
  • Time-of-Flight Scan, measuring distance between horizontal and vertical angles, in order that the scanner head occupies all grid positions for scans.
  • Phase-based Scans, calculating the phase shift of returning laser energy for gauging distances.

Point Cloud Revit Scan to BIM workflow

  • Input requirements for Scan to BIM modeling & construction drawings
  • Scan data from RCS/RCP with asset tag and bubble view
  • As Built Drawings
  • O & M manual
  • Statement installation methodology
  • Material Submittal
  • List of Spare Parts
  • Project stakeholder information for contact sheet
  • A Complete List of Equipment
  • Request for Information (RFIs) pertaining to all services

If there is a mismatch in the point cloud, due to insufficient scan data, RFIs need to be prepared:

  • Discrepancies between two or more point clouds
  • Areas concealed by the equipment
  • Trouble to measure the diameter of insulated pipes and ducts
  • Presence of inconsistency between point cloud and as built drawings
  • Software Support for Laser Scan to BIM

Various software applications support laser scan to BIM modeling for visualizing and navigating point cloud files. The software usage helps to compress the files and acquiring the dimensions easily from the BIM model. Popular software platforms include True View, FLS Viewer, Autodesk ReCap, Leica-JetStream-Viewer, etc.

  • 3D Laser Scan to Revit BIM Work Process
  • Conducting 3d laser scan of a specific area
  • Producing scanned 3d database files
  • Using Leica’s Cyclone to export
  • Importing scanned data (RCS file) into Revit
  • Using Recap software tools with added features including color, density, and slicing options to view the point cloud file
  • Importing PTG and PTS files along with PCG
  • Capturing photo-metric images of the defined area, attaching them to the scanned data
  • Digitizing BIM model in Revit through point cloud files and photo-metric data
  • Creating a complete Revit BIM model, depending on the proficiency of the modeler
  • Quality Control

Scan to bim revit plugins or model review add-ins are followed for checking the project standards. A checklist is followed for the quality control or quality analysis of 3d model. Section views made within Revit help to check the deviations. As a result clash detection and coordination amongst trades become easy and scan to BIM could be applied for measuring deviations.

Benefits of point cloud laser scan to BIM at different stages of construction

  1. Design Build Phase– During the design-build phase, the as built model of the construction site and the surrounding buildings allow the designers to comprehend site conditions better, enabling improved design decisions regarding the construction facility.
  2. Construction Stage – At the time construction, point cloud laser scan to BIM helps to locate any discrepancies between as-built BIM model and as-designed BIM model. This is further compared to the tolerance values as per relevant building codes and guidelines. Different aspects are considered in the construction phase, including Virtual Installation, Construction Safety Management, and Digital Reproduction.
  • Virtual Installation for Clash Resolution: Through accurate as-built BIM models, virtual installation and assemblies help scan to BIM to identify potential problems before actual installation. Clashes get resolved, resulting in significant time and cost savings.
  • Building Safety Management: Point cloud scan to BIM model improves construction safety management, identifying safety hazards, suggesting measures to ensure project safety.
  • Digital Reproduction: Scan to BIM replaces several drawings, providing a comprehensive 3D model on a digital platform. The technique also provides the ability to visualize design and make necessary design modifications.
  1. Facility Operations – Building facility operations and facility management stages also reap the benefits of scan to bim modeling. Point cloud Laser scanning enables better design documentation and functionality. Complex geometrics along with the building texture constitute to be the most fundamental application of Scan to BIM. Further performance analysis of the building can be executed to improve building performance, energy consumption and structural reliability. 3D visualization capability helps to organize multiple functionalities, like facility operations and management, space management, renovation planning, emergency management and resource development.

So, are you willing to invest in point cloud scan to bim? You will get several advantages from point cloud scan to BIM including assured construction quality and time saving, eliminating frequent site visits. This enhances time accessibility with the contractors to initiate the planning process, evaluating project risk. BIM adoption facilitates every construction process to have improved project sustainability, saving costs, and fostering collaboration. To know about scan to bim cost or scan to bim jobs, get in touch with Tejjy Inc. BIM service provider in USA. Contact 202-465-4830 or send mails to info@tejjy.com. The BIM engineers having 14+ years of experience in the construction workflow are proficient with scan to bim best practices. Discuss your project today with the BIM consultants of Tejjy Inc. and plan your BIM execution with laser scanning.

BIM Service

Importance of Scan to BIM in 2021

Point Cloud Laser Scan to BIM Modeling – A Reality Check

Laser scan to BIM is a Building Information Model, created from a 3D model scan. Detailed elements of an object are captured in physical space, enabling accurate modeling,  clash coordination and quantity takeoff (QTO) or Bill of materials (BOQ). Several construction projects in the renovation and the extension stages are using point cloud scan to BIM process for 3d model creation, 3d visualization, animation and quality inspection. Scan to BIM modeling involves the technique of making a digital representation of an existing building condition with its functional and physical attributes. Laser scanners facilitate in obtaining a perfect 3d scan to BIM, which is then imported into the 3D BIM software. Faro scan to BIM process is designed by architects, engineers and general contractors to process 3D laser scan data quickly and accurately. Revit scan to bim is also popular for creating as-built models for refurbishment and renovation.  Scan to BIM revit facilitates creation of as-built BIM model for renovation work of infrastructure asset including tunnels and bridges. In the AEC sector, laser scan to bim best practices are used by the surveyors, owners, architects, engineers and general contractors for their renovation and refurbishment projects.

What are the laser scan to BIM services?

  • 3d Modeling – 3d models are created from laser scan to BIM process for architectural, structural and MEPFP services for the sake of renovation and extension work. The process of scan to BIM modeling enhances transparency, streamlining communication for quick decision making throughout the project lifecycle. High quality Revit scan to BIM modeling ensures that the Revit components are built intelligently with the practicality of serving the purpose. Parametric Revit families contain a realistic information about performance models, required for executing calculation analysis and construction simulation. Scan to BIM add-in helps to create and validate model from point cloud with automatic recognition and placement of architectural and MEP elements like walls, columns, pipes, ducts, conduits, etc.

Usually, a data rich 3D scan to BIM model includes:

  • Necessary Cobie parameters
  • System connection establishment between source & destination of services
  • Modeling of Asset facilities
  • Comprehensive Connector in equipment families
  • Linking Cobie extension sheet in the mode
  • 4D Construction Scheduling – Implementing scan to BIM Revit software platform, point cloud scan to BIM enables old building renovation for gaining momentum and creating interest among architects. The construction schedule or the 4d sequence of the project is related to the point cloud scan data. Users click on building objects in 4D visual environments, viewing associated tasks in the Gantt chart.
  • Facilities Management Integrating Cobie Data Integration – Facility management is one of the best scan to BIM best practices, where scan to BIM companies support AEC project stakeholders to organize approved submittals from laser scan point cloud data during renovation and extension. A comprehensive contact data has the records of all construction projects. The BIM modeling drawings and models could be easily accessed through server directories. BIM consultants follow Cobie process for asset facility management.

How scan to BIM companies work with point cloud laser scan to BIM?

  1. Identifying Information Requirement:
  • Building elements, Level of Detail (LOD) and non-geometric attributes
  1. Setting parameters for Scan to BIM Process:
  • Accuracy, resolution of space, coverage and other attributes such as location, resolution, etc.
  1. Capturing Reality with 3D laser scanner:
  • Collecting data with high speed and accuracy, represents an accurate digital picture of 3d mapping of sites through multiple point cloud scans using popular laser scanning tools like Faro, Trimble, Riegl and Leica. 

Types of scan to BIM process:

Scanning process gets executed in several ways including:

  • 360 Degree Scan, providing a complete 360 degree view of the construction site
  • Time-of-Flight Scan, measuring distance between horizontal and vertical angles, in order that the scanner head occupies all grid positions for scans.
  • Phase-based Scans, calculating the phase shift of returning laser energy for gauging distances.

Point Cloud Revit Scan to BIM workflow

  • Input requirements for Scan to BIM modeling & construction drawings
  • Scan data from RCS/RCP with asset tag and bubble view
  • As Built Drawings
  • O & M manual
  • Statement installation methodology
  • Material Submittal
  • List of Spare Parts
  • Project stakeholder information for contact sheet
  • A Complete List of Equipment
  • Request for Information (RFIs) pertaining to all services

If there is a mismatch in the point cloud, due to insufficient scan data, RFIs need to be prepared:

  • Discrepancies between two or more point clouds
  • Areas concealed by the equipment
  • Trouble to measure the diameter of insulated pipes and ducts
  • Presence of inconsistency between point cloud and as built drawings
  • Software Support for Laser Scan to BIM

Various software applications support laser scan to BIM modeling for visualizing and navigating point cloud files. The software usage helps to compress the files and acquiring the dimensions easily from the BIM model. Popular software platforms include True View, FLS Viewer, Autodesk Recap, Leica-Jetstream-Viewer, etc.

  • 3D Laser Scan to Revit BIM Work Process
  • Conducting 3d laser scan of a specific area
  • Producing scanned 3d database files
  • Using Leica’s Cyclone to export
  • Importing scanned data (RCS file) into Revit
  • Using Recap software tools with added features including color, density, and slicing options to view the point cloud file
  • Importing PTG and PTS files along with PCG
  • Capturing photo-metric images of the defined area, attaching them to the scanned data
  • Digitizing BIM model in Revit through point cloud files and photo-metric data
  • Creating a complete Revit BIM model, depending on the proficiency of the modeler
  • Quality Control

Scan to BIM Revit plugins or model review add-ins are followed for checking the project standards. A checklist is followed for the quality control or quality analysis of 3d model. Section views made within Revit help to check the deviations. As a result clash detection and coordination amongst trades become easy and scan to BIM could be applied for measuring deviations. 

Benefits of Point Cloud Laser Scan to BIM in Construction Life Cycle Stages:

  1. Design Build PhaseDuring the design-build phase, the as built model of the construction site and the surrounding buildings allow the designers to comprehend site conditions better, enabling improved design decisions regarding the construction facility.
  2. Construction Stage – At the time construction, point cloud laser scan to BIM helps to locate any discrepancies between as-built BIM model and as-designed BIM model. This is further compared to the tolerance values as per relevant building codes and guidelines. Different aspects are considered in the construction phase, including Virtual Installation, Construction Safety Management, and Digital Reproduction. 
  • Virtual Installation for Clash Resolution: Through accurate as-built BIM models, virtual installation and assemblies help scan to BIM to identify potential problems before actual installation. Clashes get resolved, resulting in significant time and cost savings.
  • Building Safety Management:  Point cloud scan to BIM model improves construction safety management, identifying safety hazards, suggesting measures to ensure project safety.
  • Digital Reproduction: Scan to BIM replaces several drawings, providing a comprehensive 3D model on a digital platform. The technique also provides the ability to visualize design and make necessary design modifications.
  1. Facility Operations – Building facility operations and facility management stages also reap the benefits of scan to bim modeling. Point cloud Laser scanning enables better design documentation  and functionality. Complex geometrics along with the building texture constitute to be the most fundamental application of Scan to BIM. Further performance analysis of the building can be executed to improve building performance, energy consumption and structural reliability. 3D visualization capability helps to organize multiple functionalities, like facility operations and management, space management, renovation planning, emergency management and resource development.

So, are you willing to invest in Laser Scan to Building Information Modeling? You will get several advantages from point cloud scan to BIM including assured construction quality and time saving, eliminating frequent site visits. This enhances time accessibility with the contractors to initiate the planning process, evaluating project risk. BIM adoption facilitates every construction process to have improved project sustainability, saving costs, and fostering collaboration. To know about Laser scanning or Scan to BIM jobs, get in touch with Tejjy Inc. BIM service provider in USA. BIM engineers having 14+ years of experience in the construction workflow are proficient with scan to bim best practices. Discuss your project today with the BIM consultants of Tejjy Inc. and plan your BIM execution with laser scanning.

Architectural Engineering & Construction Planning with BIM & Drone
Architectural Services

Architectural Engineering & Construction Planning with BIM & Drone

Architectural Engineering & Construction Planning with BIM & Drone

Architectural, engineering and construction professionals are integrating Building Information Modeling and Drone technologies for capturing the real-world environment. Residential and commercial architecture firms use drones and laser scanning technology for capturing information about real-world environments. Top architectural design firms in USA are obtaining detailed interior and exterior views of a construction site, enabling significant design decisions. Combining the power of laser scan technology and Building Information Modeling software enables competent architecture engineering service providers to analyze data in real time and make the right decisions for meeting client goals.

How BIM & Drone facilitate effective construction management?

Drones are used for analyzing photographs, videos, and laser scanning of a construction site through reality capture technique. Top construction company and residential architecture firms ensure that a building gets perfectly fitted into the contextual environment with BIM and drone technologies. As soon as the drone images and scans from a construction site are analyzed, Building Information Modeling provides an improved understanding of the project scope. Whether it’s home remodeling, bathroom remodeling or commercial kitchen renovation, drones play a significant role in providing data for the accurate creation of 3d digital models.

commercial architecture firm

Potential construction issues get identified, tracking the construction project progress. Commercial construction professionals using BIM software create accurate 3D models of buildings from reality-capture data. As a result of which, the architects can effectively plan home remodeling projects from conception to demolition. Building Information Modeling reinforces architectural, engineering and construction planning by collaborating with AEC project stakeholders on the cloud, creating precise construction documentation, integrating Virtual Reality (VR).  Using the two technologies helps to ensure a perfect match for streamlining the architectural, structural and MEPF design process and visualize exactly what a building would appear after completion.

Why BIM & Drone should be used in tandem for building planners?

  • Saving time & money – Residential and commercial architecture firm should use Building Information Modeling and drone technologies for carving out a detailed information from a construction site. This eliminates the time-consuming and expensive method of traditional construction. Currently, there’s no requirement to rent a pilot or appoint competent site photographers who would have to meticulously capture photographs of existing conditions for 3d modeling. Drones executes the same work easily with improved accuracy in less time. Automated 3D modeling technique helps to produce accurate 3d models directly from the photographs. Moreover, drones and laser scanners are small and flexible and so after importing data to a BIM software an operational 3D model can be obtained within a few days.

 

  • Reducing errors – Commercial construction site can be scanned after every few weeks as the project progresses, ensuring that you’re on the right track. Fixing minor changes here and there, often add up to become larger issues in due course of time. Integrating Building Information Modeling and drone technologies facilitate design build team to be proactively engaged in resolving problems, saving money in the long run.

So, the benefits of Building Information Modeling and drones help architectural design firms to streamline construction projects and strikingly enhance the design of completed buildings. Leisure Travel Tips Construction Management Company in USA collaborates with AEC project stakeholders during all stages of design development with drones and laser scanning for reality capture. Expert BIM consultants of Tejjy Inc. guide clients to make the best design choices and turn their visions into realities. To get drone-integrated BIM solution, talk to the BIM modelers of Tejjy Inc. at 202-465-4830 or info@tejjy.com. The BIM service provider in USA facilitates AEC professionals in USA to get a reliable BIM engineering service, minimizing construction time, improving productivity and maximizing return on investment from BIM and drone techniques.

Architectural Engineering & Construction Planning with BIM & Drone
BIM Service

How Structural Engineers Resolve Construction Challenges with Revit BIM?

How Structural Engineers Resolve Construction Challenges with Revit BIM

Building Information Modeling technology is transforming the way of structural engineering firms throughout the world. Proficient structural engineers implement BIM for estimating sea levels, improving disaster management through infrastructure resilience, decreasing soil erosion and enhancing energy efficiency of buildings. Further, many of the BIM modeling service providers in USA are managing groundwater, reducing traffic congestion on construction sites and augmenting construction productivity through Revit models.

Here’s an account of how the structural engineers of design build firms work with Revit BIM Services, resolving construction project challenges.

  1. Collaboration Challenge – Top structural engineering firms often face the challenge of collaborating amongst various project stakeholders.

Solution through Revit Model – Autodesk Revit BIM Model facilitates structural engineers to efficiently collaborate with other project stakeholders, including architects, contractors, design build firms, home builders, etc.  Using BIM modeling services, they could progress through every phase of the construction process, starting from the day of floor setup to structural and MEP clash detection. Structural BIM consultants review critical building areas in 3D and assess space constraint in a competent manner. Building Information Modeling facilitates numerous design disciplines to collaborate in a flawless way, as a single information platform. The technique improves work efficacy, minimizes errors, verifies building aesthetics and augments building performance.

2.  Difficulty in Project VisualizationStructural modelers also face difficulty in effectively visualizing a construction project in terms of working of various services including architecture, structure and MEPFP trades.

Solution through BIM Modeling Services – Using Revit Building Information Modeling software platform for 3D modelings, design build firms could easily produce construction drawings with elevations and sections through 3D animations, bringing the project to life. BIM service providers in USA are blending Revit design and fabrication models in Navisworks software platform for project coordination, thus avoiding the cost of rework from the clashes. A virtual tour of building (360 degree view) produced, through comprehensive 3D renderings and walk throughs on the fly, support project visualization before construction.

3. Inaccurate Structural Analysis – Structural engineering firms in USA often require technical support for design optimization, coordination and construction management.

Solution through Building Information Modeling – Taking the help of Building Information Model, structural engineering firms undertake various structural analysis in a detailed manner, accomplishing the project on time. Some of the structural building analysis includes structural load calculation, design validation, quantity takeoff, energy analysis and planning facility operations.

Detailed Structural Analysis with Revit BIM Modeling Services

  • Load Calculation BIM Revit Model facilitates in making comprehensive structural analysis of structural load, wind load simulation and live load calculation, verifying building code acquiescence with BIM. Structural engineers undertake comprehensive analysis of structural elements for beams, columns and floors for risk-free delivery with Building Information Modeling.
  • Structural Design Validation – Structural engineering firms make accurate design validation through Revit Model for constructability review, building performance and maintenance of steel, wood and concrete structures like structural openings, beam depths and clashes. BIM services facilitate structural design support from inception to the stage of construction detailing & prefabrication. The technique helps to calculate accurate Bill of Materials and Quantity Takeoff for enhanced productivity.
  • Energy Analysis Benchmarking energy usage across the residential and commercial buildings with Revit Building Information Modeling for energy efficiency, aids cost saving & enhanced building performance. Performing thermal analysis with Revit model enables the building to obtain LEED (Leadership in Energy and Environmental Design) certifications in the category of gold, silver and platinum. Equipment capacity of HVAC systems, airflows, etc. could be efficiently modeled in consistent way with relevant plans. Hence, an accurate energy consumption simulation could be conducted, reducing the electrical expenditure of the building in the long run.

It is evident that Revit BIM modeling plays a significant role in construction planning, construction schedule update and building management. To enhance facility design, construction management and life-cycle performance of buildings, BIM modeling service is a must for the project stakeholders, who derive the benefits through document management, cost control, project management, energy analysis, budget assessment & risk mitigation. Consult with one of the top structural BIM modeling companies in USA – Tejjy Inc. at 202-465-4830 or info@tejjy.com and remove all complexities involved in your construction project. Obtain fast project execution at the lowest operational cost from Leisure travel packages and accomplish your project on time in a coordinated manner.

 

Architectural Engineering BIM
BIM Service

How Information Flows in BIM Throughout Facility Operations?

BIM throughout facility operations

Building Information Model is the storehouse of information about numerous services and project participants starting from the design build stage to the operation phase. The information in the BIM model keeps on updating as per the changes made by the stakeholders. As a result of which, it is essential to know how the information flows in the building information model and is exchanged in BIM.

Let’s now have a look at how the information flows in BIM throughout the project facility operations:

Flow of Information during the design-build phase: Usually, the design build process is divided into architectural, structural and facility engineering. The facility operations encompass designs of electrical, water supply, drainage, HVAC and thermal power.

  • Architectural Design encompasses graphic design, shape, façade, etc.
  • Structural design delivers the structural scheme of architectural building design to get unified construction structure.
  • Electrical design provides solutions for the constructing electrical equipment and lighting power, along with the design of lightning protection grounding and weak current provision.
  • Water supply and drainage design include the water supply system of building, internal drainage and rainwater drainage system.
  • HVAC embraces heating system design, air conditioning together with ventilation and smoke control system.
  • Thermal power design for residential building consists of gas system design, pipe network layout and hydraulic calculation of the gas pipe network.

Building design gets constantly enriched through coordinating amongst the architectural, structural, electrical, plumbing and mechanical professionals.

Flow of Information during the construction phase

  • The architectural along with structural engineering stage gets divided into four segments, including foundation, structure, waterproof and building decoration engineering. Foundation engineering for architectural and structural services encompass the relative elevation of 0.000 mm underneath the building foundation, waterproofing and protection of foundation pit engineering. Constructability analysis through Building Information Modeling facilitates in drawing an information flow model for structural foundation.

Flow of Information during the operational phase

  • The operational phase of a building facility includes reception, usage, maintenance and demolition. During this phase, the asset management right gets transferred from a construction company to a property management firm. The primary task of the operation phase includes property reception. As per the property management regulations, a firm arranges reception work. All information pertaining to the work is obtained from the BIM model at the construction stage. This encompasses project approval documentation, contracts, agreements, facilities operations, as well as property management information. Asset usage constitutes to be another most important task during the operational phase for managing the property in a normal way. Property demolition is the last stage that complies with the laws of the building regulations.

Integrating facility lifecycle information

  • After analyzing the flow of information in various stages, information exchange takes place amongst various project stakeholders. This embraces volume, varied sources, storage and dynamic process of information. The information system in construction gets designed for a specific phase. Building Information Modeling caters facility operations and maintenance, by integrating information from varied stages to facilitate communication and reuse. Further, it is the primary element of understanding lifecycle management in construction. So, the different portions of the BIM include Design BIM, Construction BIM and Operation BIM, though the information within the BIM model is not isolated.

So, Building Information Modeling integrates the entire workflow, starting from the design build stage, to construction and operation. BIM integrates facility operations, establishing an engineering information set, describing the whole building life-cycle. It is the intelligent BIM modeling that realizes the integration and data by extracting and integrating various sub-models. To take an instance, while conducting the building designs of architecture, structure, electric, water supply, HVAC and thermal power as per design stage information, several geometrical data get produced along with the existing requirement for collaborative data access. It’s the construction phase that can extract information from the design build stage and apply it to BIM software applications. Likewise, the operation phase could also extract part of the information from the design build phase and construction stage, and apply that to operational software. Owing to the information preservation and BIM integration, the problems of information loss and errors get resolved. To seek BIM implementation, talk to the BIM consultants of Tejjy Inc. BIM service provider in USA at 202-6465-4830 or info@tejjy.com.

What does the future hold for 3d Laser Scanning?
Revit BIM Modeling Services

What does the future hold for 3d Laser Scanning?

Laser scanning is becoming more powerful,  useful, and affordable, impacting several industries. The technique of laser scans to BIM technology follows a trajectory to compute and it is smaller, cheaper and easy to use. Now, how the laser scanners are advancing in recent times? What are the areas of future investment? What’s the ways the 3D laser scan to BIM technology will change? How the changes could be used for future benefits?  Scan to BIM process is mainly used by the surveyors. Point cloud scan to BIM data have become significantly vital to the construction industry.

Let’s take a look at how the scan to BIM technology will be used and how the laser scan to BIM services would be adopted for the future.

How the scan to BIM technology will be used?

  • LiDAR or mobile LiDAR – LiDAR stands for Light Detection and Ranging and it constitutes to be the leading technique behind laser scanning. The technique of scan to bim services works through dominant laser pulses moving towards the target and gathering backscattering signal. They are current mainstream, using a set of spectral wavelengths for collecting data. Mobile scanning also uses the same technique effectively and it is poised to change the way of scanning.
  • SLAM or Simultaneous Localisation & Mapping – SLAM constitutes the algorithmic process of creating a map of a strange setup while circumnavigating that environment using a map. It’s critical for developing autonomous robotics to make mobile scanning simple and easy. SLAM scanners establish a wide array of sensor types such as audio rangefinders, visual cameras and inertial sensors. Nevertheless, LiDAR and laser scanners are crucial for producing accurate SLAM scans, and would enhance deployment in near future. The  scan to bim process allows surveyors walk through a site and collect significant data. This is possible with a range of technologies like sensors, LiDAR Odometry and mapping in real time.
  • Drones – Currently, drones are gaining significance in point cloud scan to bim. These unmanned aerial systems  are often used  with SLAM scanners, together with conventional LiDAR and GPS improved LiDAR. Mapping and surveying through drones deliver an easy-to-deploy podium for capturing aerial views. At present, some factors are restricting the use of drones about the time of operation and the development of regulations in several countries.  Drones help to produce valuable 3d laser scan to BIM process, which is essential for various engineering projects and undertaking scientific tasks

How  laser scan to bim services  would be adopted for the future?

Point clouds would be spreading into the clouds. BIM companies in USA seek data availability, accuracy, density, and forecast 3D point clouds for growing rapidly within the subsequent years. The enhancing usage of point cloud scan to bim would see an explosion to manage data in the cloud, cloud-based data processing and direct upload of point cloud data to cloud services.

The cloud would bring diverse advantages to point clouds. The conventional benefit hovers around the storage and distribution of information and models. Instead of sending output to relevant stakeholders, access could be provided and all relevant parties could view the files. Further, cloud storage could be dynamically scaled, providing an inexpensive method of enhancing capacity for large projects. This is similar to how Bim companies in USA improves collaboration in construction.

Benefits of point cloud scan to bim process are strikingly changing this reality. Robust, vector-based and multi-stage processing allows automated processing. The perfect 3d laser scan to BIM software allows you to take the benefits of computing by registering multiple scans at the same time using manifold processors. However, the cloud provides limitless scalability, delivering faster registration and robust outcomes.

BIM Companies in USA modeling the future of construction

Laser scan to bim process is maturing for easy accessibility and capturing new methods to become viable. Driven by smaller and cheaper scanners and well equipped with improvements in point cloud registration, laser scan to bim technology is becoming an integrated part of several architectural, engineering and construction projects. So, the AEC professionals need to look at the potentials of point cloud scan to bim. To implement the technique, opt for Tejjy Inc. – one of the top design build firms and BIM service providers in USA and get an edge over  your competitors. Contact the BIM automation company at 202-465-4830 or info@tejjy.com and get improved BIM execution planning with laser scan to BIM.

bim execution plan
BIM Service

Top Benefits of BIM Execution Plan

bim execution plan

It’s significant to create a BIM Execution Plan (BEP) before the  onset of a construction project.  This helps to analyze the different phases of the building project lifecycle. As a comprehensive documentation, BEP  facilitates project team members to execute the role played by BIM (Building Information Modeling) in construction management.  It if often found during a construction project that BIM plan execution gets buried in mundane aspects, making it hard to identify significant data to move forward the projects,  producing timely deliverables. An accurate BEP facilitates in keeping track of the project teams, emphasizing on the significant aspects, saving time and money.

Here are the significant benefits of BIM execution plan in a construction project:

  • Clear Communication – A proper BEP supports communication amongst project stakeholders from the onset of the construction project. This facilitates project team members to manage responsibilities and ensure clear communications about the project.

 

  • Improved Collaboration – Each project is different from the other and has diverse requirements, regulations as well as the internal standards. Since, a BIM execution plan is considered to be a breathing document, the project team members collaborate in real time on different project phases, preventing silos among project tasks and allowing proper attention to the significant tasks.

 

  • Saving Construction Time – An obstacle that often arrives in a construction project is a compressed schedule. A well structured BEP emphasizes on the benefits of the project.  None is bogged down with the provisions that may cause delay to the project deliverables. As an alternative, the vital aspects are executed, maintaining deliverable schedule throughout the project.

 

  • Fast Data Sharing – Transparency is a great advantage of the BIM execution plan, as it is instantly available to all the project stakeholders from the very beginning of the construction project. As a result of which, contractors, owners and others get the direct access to BIM data like file formats, dimensions and other details in a way that could be easily shared and updated.

 

  • Robust Project Execution – An effective BIM Execution Plan focuses on the project rather than every standard. Construction team members are able to communicate and collaborate better from the initial stage, ensuring a robust project execution, facilitating all the project owners and shareholders. Accomplishing this plan helps to keep the building items accountable, ensuring completion on time and as per budget.

Tejjy Inc. – one of the Top BIM service providers in USA, delivers the right guide to BIM execution plan for residential, commercial, infrastructural, educational and mixed use projects.  Leveraging a BIM execution plan, AEC team members could start any major construction project, ensuring proper communication among stakeholders and fast data sharing. So, if you want stronger project execution, improved timelines and happy project owners, contact Tejjy Inc. BIM consultants at 202-465-4830 or info@tejjy.com. Along with the BIM execution plan, Tejjy Inc. BIM engineers are competent in delivering other BIM consulting services like BIM strategy preparation, BIM deployment and resource sharing, logistics planning and BIM infrastructure planning.  Appoint the BIM outsourcing company in USA and execute your BIM project in an effective way, saving time and money for your construction.

architecture engineering firm
Structural Engineering Services

What Does a Structural Engineer Do?

structural Engineer

Construction structures like Empire State Building in New York City, White House in Washington, Washington National Cathedral and Jefferson Memorial, Washington are some of the instances of varied historical structures of the earlier days to modern time. The credit of building these structures goes to the top structural engineer consultants, who push their structures to a higher level for construction, operational efficiency, sustainability and energy usage. Structural engineering firms create efficient designs, reducing construction wastage and streamlining construction documentation through BIM (Building Information Modeling).

What is structural engineering?

What is structural engineering

Structural engineering constitutes to be a sub-discipline of civil engineering wherein structural engineers are skilled to design the bones and muscles of the building structure. This creates the form as well as the shape of man-made structures. Several structural engineering consultants of design build firms use a wide array of relatively simple concepts for building complex structures. Top structural engineer in Maryland efficiently work with load calculations, comprising wind load, snow load, foundation design, retaining wall, beams, columns, roofs, slabs and more for RCC structure, concrete and wood structures. Structural drafters and BIM structural engineer develop information rich intelligent BIM 3D models for extracting design and information related to construction management. Structural engineer inpections are aligned for enhancing the construction efficacy and keeping project stakeholder informed about the design decisions taken. AEC professionals are outsourcing design build services for construction projects for saving time and costs.

What are the design deliverables from residential structural engineers?

  • Structural sheet metal product design
  • Structural analysis for various loads
  • Retaining wall, slab, frame & lintel design drawings
  • Stacks, steel angle & channel & plant structure designs

How structural engineering firms support design build work?

Structural engineering firms develop competent 3D structural detailing plans for assisting contractors, EPC (Engineering, Procurement and Construction) firms and steel fabricators to construct facilities. They support sheet metal fabricators as well as plant owners  to develop 2D drafting and 3D modeling services for elements such as glazing, cladding and the enclosures. BIM designers and steel detailers provide steel detailing and rebar detailing plans for various angular sections, trusses, roofs, columns, foundation and other crucial building components. Their expertise with comprehensive structural design and 3D modeling in Revit help to deliver flawless design build solutions. Structural design build services consist of structural drafting, 3D model creation, load calculation, foundation and roof designs. The components encompass plates, arches, shells, etc.  The design build support solutions are extended towards bridges, dams, power plants, hospitals, educational institutions, tunnels and port.

1. Structural Drafting Services

Competent structural drafters produce Revit 2d drafting and 3D drawings for steel, pre-cast and prefabricated structures, as well as pre-stressed components. The drafters provide comprehensive structural steel drafting for residential structural engineers, architects, engineering firms, contractors and steel detailers. The services allow collaboration, facilitating engineers to execute modular construction and enhancing site safety. Whether’s it’s design development and coordination, schematic structural design, or shop drawing creation, structural engineers support clients throughout project lifecycle.

Structural drafting services encompass:

  • Member schedule creation
  • Drafting of connection details
  • Sheet layouts
  • Design review with structural engineers
  • Space analysis
  • Structural drawing creation from design & sketches
  • Clash detection & coordination
  • Resolving RFIs
  • Architectural model placement
  • 3d IFC model creation for validation from architects
  • Standard checking for precast panels, including lifting, panel breaks, etc.

2. Structural Steel Detailing Services

structural steel detailing

Structural steel  detailing team consults with contractors, structural firms and fabricators to create structural steel detailing services for buildings, industrial plants, steel structures and steel framing. Top structural consultants provide steel detailing, rebar drawings along with shop drawings for collaborating amongst structural engineers, architects, fabricators and other AEC project stakeholders.  Expert steel detailers create steel detailing drawings to support structural erection for educational institutions and infrastructural facilities.

Structural steel detailing services include:

  • Steel detailing for beam, column, deck, fence & industry piping
  • Gravity module calculation, Bill of Materials/Quantity Takeoff
  • Post-tension, concrete-steel detailing, precast & prefabrication joint detailing
  • Metal roofs, canopy & pipe rack detailing
  • Bar joists design drawings

3. Structural drawings

Structural engineering consultants have proficiency in drafting shop drawings and fabrication drawings for sheet metal as well as woodwork shop drawings. Working in collaboration with fabricators facilitates in maintaining tight construction schedules and extensive material lead times.  Structural steel detailing experts produce a wide array of structural shop drawings for steel components, pre-cast, reinforcement concrete, etc.

Steel shop drawings include:

  • Cabinet & Handrail Shop Drawing
  • Erection, Fabrication & Millwork Drawings
  • BOQ for steel shop drawings
  • Precast, Rebar & Sheet metal shop drawings
  • Connection steel detailing

4. Rebar Detailing Services

Competent 3D rebar detailers produce reinforcement 3d models for structural engineering projects. The information rich rebar documentation facilitates a wide array of industry verticals including educational institutions, residential buildings, commercial complexes, infrastructural facilities and many more. Information gets easily exchanged amongst various project stakeholders, leading to substantial cost savings.

Rebar detailing services include:

  • Rebar 3d modeling
  • Rebar Shop Drawings & Detailing (Roof truss, joints)
  • Bar Bending Schedule (BBS)
  • Concrete masonry & wall detailing
  • Quantity takeoffs & Cost Estimation
  • As-built drawings

Through analysis of Revit structure services, structural engineers in Maryland benefit from structural analysis model improvement and get support for structural aspect. Tejjy Inc. specializes in providing Revit BIM services that enable models to develop quickly, leadIng to improved construction models. The structural engineering consultants undertake projects for creating Revit family components like beams, columns, retaining walls, foundation, joints, trusses, etc. to easily reproduce them, saving valuable project time. Consult expert structural engineers, drafters & BIM modelers of Tejjy Inc. for getting quick turnaround of Revit structural services. Consult Tejjy Inc. BIM consultants at 202-465-4830 or info@tejjy.com.

 

Design Build VS Design Bid Build
Architectural Services

Design Build VS Design Bid Build

Design build VS Design bid build

There are various modes of Construction that are being used by the Design Build construction companies in the AEC industry. But the top two methods which have captured the market are Design bid Build and Design-Build. While it seems there is only word of difference but the design process and planning involved with each method vary tremendously.

What is Design Bid Build?

Since inception of construction industry design-build firms have been adopting design-bid-build methodology for building designs. That’s the reason design-bid-build is also referred as traditional project delivery method or design-tender or hardbid. Being simplest technique used for building construction, it encapsulates three stages. Design phase, bidding/tender phase , construction phase. 

Architects in coordination with owner understands client requirement and create schematic design. During design phase, construction drawings and bid documents are prepared. Construction drawings involve the coordination of architect with structural engineer, MEP engineer, civil engineer. Finally, Bid documents are prepared in design phase are used by general contractor for bidding phase. 

General contractors further involves subcontractors for bidding on sub components under bidding/tender phase. Subcomponents include structural steel frame, electrical, HVAC, plumbing and many more. The bidding price includes bills of quantities or quantity takeoff in construction project. 

After the bid is allotted entire building design is executed in construction phase . Building designs require permit approval. The responsibility of architect in construction phase is to monitor the progress of building projects.

What is Design-Build Service in Construction Management?

design-build method of construction

The design-build service in Construction Management is also known as the Integrated Project Delivery. It is the method in which the project is being contracted by the design-builder and is subdivided into architect-led-design and contractor-led-design. In this, the design-build contractor is wholesale responsible for all project works as well as legal remedies. A design-build firm collaborates with various subcontractors, design consultants as per the need of the project to deliver a quality project on time within budget.D/B approach is being compared to the master-builder approach which reduces risks and overall cost of the project. 

Impact of Design/Build services on Building Designs

Even though hardbid and D/B methods would result only in excellent building design . Still, the key differences between the two methodologies would help you to decide and choose the best method construction technique for your project.  The Pros and Cons of Design-build and Design-bid-build are discussed below.

Advantages of Design-Build in Construction Management:

  1. Reduced Risk

As the building design and construction both are performed by a single team it reduces the risk involved in construction. In this method team due to teamwork, the construction team give their input throughout the design process on the other hand the design team is available to solve any issues arising at the time of construction

2. Shorter Timeline

As both the design and construction team works collaboratively to achieve a common goal there is no timeline gap between the two phases of building construction. Work is completed out seamlessly in a very efficient and effective manner

3. Budget-Friendly 

Earlier the design-build method of construction can be easily formulated as per the owner’s budget and needs. The design-build firm selected or the manager who is responsible for the whole project formulate the team members as per the budget of the project owner 

Design-Build Disadvantages 

  1. Higher Price 

As there is no bidding process involved the owner can not select the d/b firm as per their own price. Hence the price tends to be higher in this. Additionally, no Design-build firm began their work unless and until they are under contract thus making it tough for the owner to compare.

  1. Creativity 

The design-build firms have various 3D models that they tweak and use as per the Building owner’s request. The owner doesn’t have a choice of a personalized design when considering the Design-build method of Construction

  1. Less owner Involvement 

There is very little or no involvement of the owner with the team members being selected for project completion. Earlier every design-build guarantee of the owner involvement but once  construction process get started at its full pace the owner is being consulted only on as need basis and major decision are being made by the commercial design-Build firm or the project manager

Designer-Bid-Build Advantages 

  1. Cost can be managed

As designer and contractor are hired separately, the owner has to control the project pricing. The designer for home building design is being selected as per the price range of the owner. The owner has complete control over the project from start to finish in the Design Bid build method of construction

2. Better Project Clarity 

 In the Design Bid Build method of construction, the project needs to completed in a certain period of timeline. Hence there is no overlapping of the phases and it becomes easier to find out where the project is going at every phase. Thus giving you a better project clarity 

3. More Control

Both the design bid build as well as design-build rely entirely on the input from the owner but the difference is design bid build gives you more control and thus gives you the freedom to make changes on the design-build model as per your need at any time of the Project 

Designer Bid Build Disadvantages 

  1. Increase in Cost 

In Design bid build the designer and contractor are not working in tandem and that’s the reason there is an increase in complications during the time of project execution. Whether it is the design aspect or documentation at every phase some or other issues arises which leads to an increase in the cost of making the project.

2. Time taking 

Since the designer as well as the builder both need to be appointed at various time intervals thus by default it takes time. The timeline gets exceed further if any complication arises in the middle of the project and both are finger pointing each other. Thus leading to project stoppage or extra time for complete project completion

3. Communication Issues

As the builder is not involved in the designing process there is a surety of miscommunication between the designer and the builder. This no involvement of the contractor at the earlier stage would lead to various issues being found at the later stage which need to be identified and work on earlier only. Thus there is a lack of communication which overall effect the quality of the project 

Difference between Design-Build and Design-Bid-Build

The basic difference to begin the journey is that design-bid-build process is traditional construction technique incomparison to design build process. The traditional talks about having a contractor and a designer whereas the other overlaps designing phase and construction phase emphasizing on single entity role termed as design-builder or design-build-contractor. Whereas the debate on design-build and design-bid-build is still on-going. A set of critics believe that architect/designer plays a pivotal role in the early design drawing phase. They support by stating that a contractor and architect has different perspectives about construction drawings. Design-build supporting critics answer back by stating ” Value engineering is brought in the initial stage of design drawing to reduce design errors”. Adding to the 

In the end, it can be said that both method of construction management  is being used. Lastly all it depends on what is most important to you as owner:

  • Control over the project?
  • Strong Cash flow and communication throughout?
  • Or something completed quicker, but at a higher price?

Once you get the answer to these questions you would have an idea to select the best method of construction as per your needs and desires.

 

difference between BIM and CAD
BIM Service, Blog

Building Information Modeling BIM vs. Computer-aided Design CAD

BIM vs CAD is a much discussed topic in the construction domain. Building Information Modeling constitutes an integrated workflow built as per coordinated and reliable information about a project. BIM modeling services start from the stage of design through construction and operation.  CAD stands for Computer Aided Design and is used for drafting programs. Before checking out BIM vs CAD or the difference between BIM and CAD, let’s have a look at the specific aspects of BIM and CAD.

difference between BIM and CAD

What is BIM?

BIM Building Information Modeling technique collaborates amongst engineers, architects and contractors for building designs. Competent BIM service providers help to analyze & visualize construction design at the pre-construction stage before the beginning of the construction process. Using BIM engineering services, AEC clients get a digital representation of an actual facility, comprising mechanical, HVAC, structural, architectural, electrical and plumbing services. BIM enables resource sharing from inception to completion across various design build stages. Proficient BIM service providers are creating a communication channel to push a project efficiently.

Who uses Building Information Modeling?

  • Architects for 3D Visualization & Design Development, Coordination and architectural drawing services
  • MEP Designers for 3D BIM Modeling Services, Clash Coordination, Design Validation, Shop Drawing creation
  • Structural Engineers for Structural Steel Detailing, Analysis & Quantity Takeoff 
  • MEPFP Contractors for BIM Modeling, Clash Coordination, Shop Drawings & 5D Cost Estimation
  • Home Owners for availing BIM Modeling & Drawings
  • General Contractors for 3d Modeling, 3D visualization, clash detection, 4d BIM scheduling services, BOQ

BIM Modeling Services

Who is a BIM manager or BIM coordinator?

BIM managers are engaged in coordination of architectural, structural and engineering services. They are responsible for coordinating the various stages of designing to final construction of BIM modeling services. Since Revit BIM engineering services are developing at a fast pace in BIM, it’s difficult to work without a BIM coordinator for supporting a project team. The process of coordination depends to a great extent on the nature of projects managed by the BIM service providers. The key roles of a BIM coordinator encompass the duties of an educator, planner, innovator as well as a coordinator.

  • Duties of BIM coordinator as an educator: 

As a BIM coordinator, BIM engineering services support team clarify project requirements in the process of BIM implementation. They coordinate the training courses for the project group and co-create knowledge exchange. They explain the process of construction documentation or  architectural drawing services using specific tools for teaching new techniques of automated working with Revit BIM models.

  • Role of a BIM Coordinator as a planner:

Automated solutions are selected by BIM coordinators, though Dynamo, Revit Model and Robot Processing Automation for creating BIM execution plan. BIM service providers take part in industry events for getting acquainted with the latest developments. They test new practices for pilot projects and apply VDC, Laser scan to BIM, etc.  Using 3d models for BIM engineering services, they visualize projects with Virtual or Augmented Reality.

  • Responsibilities undertaken for BIM Coordination:

BIM managers undertake the responsibilities of assigning geometric collisions to project stakeholders for a specific model. Grouping and identification of clashes helps them view and update collision reports and send them to clients. The clash free BIM model helps to provide 4D BIM scheduling services, 5d BIM cost estimation and 6d facilities management solution. The BIM coordinators verify information accuracy and export data from the 3D BIM model, ensuring that the model parameters are accustomed with the BIM Execution Plan. They work with Revit to AutoCAD converter online. Further, BIM coordinators arrange 3D models in Revit, Tekla and All plan for ensuring an apt coordination amongst architectural, structural and MEP services. They adjust design templates in modeling to enhance workflow with models and establishing agenda for coordination meetings.

What are the  benefits of BIM?

  • BIM engineering services provide a comprehensive representation of building design,  considering building components of electrical, HVAC services, space and resources.
  • BIM pulls documents into a common database, where AEC project stakeholders collaborate on the same model, saving to the cloud. This helps BIM service providers to give instant updates, without wasting time for making modifications to the documentation.
  • BIM modeling services allow prefabrication of components much ahead of time. As a result of which, there is no requirement to make adjustment as per building design.
  • BIM engineering services provide options to clients to update model constantly while working on projects, checking at point of time, leading to quicker approval & efficient project development.
  • BIM modeling services help resource tracking to figure out the resource requirement during the design stage, improving the flow & construction efficacy.

What is a CAD system?

CAD or computer-aided design enables design & documentation through computer technology. Washington DC CAD engineers use CAD for diverse components to fit in a large assemblage. CAD users adeptly create 2D drawings & 3D models for manufacturing of materials. It’s a fact that 3D CAD has transformed the manufacturing sector over the past few years for designing complex products faster.

Who uses CAD?

Manufacturers work with CAD systems for aerospace & automotive manufacturing. CAD is also used in an industrial market for creating quality products faster. Engineers from industrial to civil engineering & plant design use CAD programs. 2D drawing formats consist of DXF & AutoCAD DWG, while 3D formats comprise SolidWorks, Creo, IGES, STEP & SAT.

What are the Benefits of CAD?

CAD provides all tools to create basic 2D & 3D models. Washington DC CAD users include a number of features for creating error-free complex models. CAD system helps to spot errors for the architects and engineers for complex projects.

What is the difference between BIM and CAD? / BIM vs CAD

BIM vs CAD can be evaluated on the basis of Design Visualization, Work Process and Value of Lifecycle.

Design Visualization

CAD

  • Conventional CAD is restricted to visualize project design features and the way they fit together.

BIM

  • Building Information Modeling provides improved visualization, facilitating AEC stakeholders in planning a building life cycle with cost management, project management and construction management & facility operation from one BIM model. 

Work Process

CAD

  • Communication amongst stakeholders is fragmented in conventional CAD

BIM

  • BIM Modeling services enable shared knowledge resource for facility information, providing transparency amongst AEC stakeholders, to detect conflicts and avoid rework

Lifecycle  Value

CAD

  • CAD Drawings are utilized throughout the facility lifecycle of a building, without detailed product information
  • BIM Model acts as digital twins for real-life structure

Should you Convert from CAD to BIM?

After evaluating  BIM vs CAD, the right decision is to opt for BIM. If you switch to BIM services, you can  make the best use of current and emerging technology. You are able to collaborate on a 3D BIM model on a cloud platform and build it accurately, consulting with all project stakeholders. There is no denial about the fact that converting from CAD to BIM will provide you an edge over your competitors and help you survive in the future. To get 3d modeling, clash detection, 4D BIM scheduling services or shop drawing services, contact BIM modelers of Tejjy Inc. at 202-465-4830 or info@tejjy.com.