The document provides an overview of BIM fundamentals and uses in construction projects. It discusses key concepts like Level of Development (LOD) and the 5 dimensions of BIM models (3D, 4D, 5D, 6D). Various BIM uses in construction are described, including existing conditions modeling, cost estimation, phase planning, site utilization planning, coordination/clash detection, construction system design, digital fabrication, 3D control/planning, and record modeling. Requirements, benefits, and skills needed for each use are outlined. BIM and procurement in a Design-Bid-Build approach is also briefly covered.
The document defines 21 different BIM uses across project phases from establishment through operation. It provides definitions and descriptions of each use, highlighting potential value, required resources and competencies, and output information. Example uses include existing conditions modeling, cost estimation, phase planning, design authoring, engineering analysis, structural analysis, and more.
BIM Engineering US., L.L.C. – Top Point Cloud Scanning services in the USBIM Engineering LLC U.S.
The document discusses point cloud scanning and modeling in the AEC industry. It explains that 3D laser scanning is increasingly used in engineering firms due to significant time savings and profits. Scan to BIM services allow clear communication through visualization of what was required and what was actually built. Point cloud data can be used in BIM software like Revit and Navisworks to manage the data and provide coordination. Companies opt for point cloud scanning due to benefits like reduced costs, precision results, easy renovation of existing structures, team collaboration and reduced overall construction costs.
Many of us have encountered the term Scan to BIM in the world of construction. Scan to BIM refers to a Building Information Model created from a 3D Scan. The process is not as complicated as it seems. Scan to BIM is essentially a process that creates a digital representation of the building's existing conditions, along with its functional and physical characteristics. For more information, read our blog, https://bit.ly/41uBKcU
Point Cloud to Cad Point Cloud to Bim Modeling Services Rvtcad.pdfRvtcad
Point Cloud to CAD/BIM modeling services are essential for leveraging data in the digital age of design and construction to make well-informed decisions and carry out projects quickly. Enterprises such as Rvtcad are prime examples of how to convert unprocessed data into useful insights that spur innovation and advancement in a variety of sectors. Accepting these services opens up a world of possibilities where creativity and technology come together to create the built environment of the future.
This document outlines 9 best practices for using laser scanning effectively in construction projects based on JE Dunn Construction's experience with 1,450 hours of laser scanning. The best practices are: 1) Identify how scan data will be used; 2) Educate clients on laser scanning limitations; 3) Understand the physical space; 4) Know the project scope; 5) Determine required deliverables; 6) Establish survey control first; 7) Collect more data than needed; 8) Assess time to deliver; 9) Use a dedicated, experienced scanning team. When followed, these practices help maximize the value of laser scanning.
Current practices to capture field conditions are manual and tedious, and often accompanied by inaccurate data. This leads to costly rework and project delays. Whether it is a complex renovation project or a large-scale infrastructure project, traditional surveying and documentation begin with a raster image based on a 2D blueprint that is converted in CAD to an editable file. Surveyors visit the construction site to verify existing conditions with the actual blueprint and check for any inconsistencies in the existing 2D blueprints.
For spaces that cannot be captured efficiently, other processes or tools are required to be used to measure objects through an easy and efficient process. Not only is this process time-consuming, but turns out to be incomplete and inaccurate leading to costly rework, delays, and change orders.
Traditional surveying methods exhibit the following limitations.
• Low reliability
• Limited accuracy and data coverage
• Inadequate As-Built data for 3D models or CAD drawings
• Inconsistent survey information that could lead to higher survey requirements
• Cost-prohibitive based on the need to hire survey experts, multiple site surveys, and costly rework
Ergo, an imperfectly set process often pulls projects into cost and time overruns due to expensive RFI’s and change orders.
Why deploy Reality Capture in Architecture and Design?
Generate precise dimensions for As-Built drawings
Create an accurate visualization of the design based on existing conditions
Validate 3D models with real-time design
Enhance stakeholder coordination and collaboration for the entire project
Reduce project guesswork and mitigate errors
Why deploy Reality Capture in Engineering and Construction?
Begin a project with precise data and problem identification
Avoid rework and costly delays through absolute collaboration
Reduce the number of site visits to save cost and time
Track project progress & identify potential problems
Validate actual work against the proposed design to make sure the project stays within budget
Leverage total collaboration throughout the project by comparing plans with 3D models
Share project progress with various trades and teams
Summary.
Reality Capture processes enable design and construction teams to leverage true confidence in their project. The difference in time, efficiency, and cost are far greater than in traditional surveying. As Reality Capture provides tremendous value at every building stage, its application can be extended to complex and large-scale renovation projects by saving on ROI, reduction in field trips, and better decision making.
Visit Us - https://www.ifieldsmart.com/
Contact Us - +1 (987) 664-32-11
Beyond Blueprints 3D Laser Scanning in ConstructionMichael William
Explore the future of construction with "Beyond Blueprints." Our 3D Laser Scanning services redefine accuracy and efficiency. Uncover detailed site insights, streamline renovations, and seamlessly integrate real-world data into your projects. Transform your construction experience today! #ConstructionInnovation #3DLaserScanning
The document provides an overview of BIM fundamentals and uses in construction projects. It discusses key concepts like Level of Development (LOD) and the 5 dimensions of BIM models (3D, 4D, 5D, 6D). Various BIM uses in construction are described, including existing conditions modeling, cost estimation, phase planning, site utilization planning, coordination/clash detection, construction system design, digital fabrication, 3D control/planning, and record modeling. Requirements, benefits, and skills needed for each use are outlined. BIM and procurement in a Design-Bid-Build approach is also briefly covered.
The document defines 21 different BIM uses across project phases from establishment through operation. It provides definitions and descriptions of each use, highlighting potential value, required resources and competencies, and output information. Example uses include existing conditions modeling, cost estimation, phase planning, design authoring, engineering analysis, structural analysis, and more.
BIM Engineering US., L.L.C. – Top Point Cloud Scanning services in the USBIM Engineering LLC U.S.
The document discusses point cloud scanning and modeling in the AEC industry. It explains that 3D laser scanning is increasingly used in engineering firms due to significant time savings and profits. Scan to BIM services allow clear communication through visualization of what was required and what was actually built. Point cloud data can be used in BIM software like Revit and Navisworks to manage the data and provide coordination. Companies opt for point cloud scanning due to benefits like reduced costs, precision results, easy renovation of existing structures, team collaboration and reduced overall construction costs.
Many of us have encountered the term Scan to BIM in the world of construction. Scan to BIM refers to a Building Information Model created from a 3D Scan. The process is not as complicated as it seems. Scan to BIM is essentially a process that creates a digital representation of the building's existing conditions, along with its functional and physical characteristics. For more information, read our blog, https://bit.ly/41uBKcU
Point Cloud to Cad Point Cloud to Bim Modeling Services Rvtcad.pdfRvtcad
Point Cloud to CAD/BIM modeling services are essential for leveraging data in the digital age of design and construction to make well-informed decisions and carry out projects quickly. Enterprises such as Rvtcad are prime examples of how to convert unprocessed data into useful insights that spur innovation and advancement in a variety of sectors. Accepting these services opens up a world of possibilities where creativity and technology come together to create the built environment of the future.
This document outlines 9 best practices for using laser scanning effectively in construction projects based on JE Dunn Construction's experience with 1,450 hours of laser scanning. The best practices are: 1) Identify how scan data will be used; 2) Educate clients on laser scanning limitations; 3) Understand the physical space; 4) Know the project scope; 5) Determine required deliverables; 6) Establish survey control first; 7) Collect more data than needed; 8) Assess time to deliver; 9) Use a dedicated, experienced scanning team. When followed, these practices help maximize the value of laser scanning.
Current practices to capture field conditions are manual and tedious, and often accompanied by inaccurate data. This leads to costly rework and project delays. Whether it is a complex renovation project or a large-scale infrastructure project, traditional surveying and documentation begin with a raster image based on a 2D blueprint that is converted in CAD to an editable file. Surveyors visit the construction site to verify existing conditions with the actual blueprint and check for any inconsistencies in the existing 2D blueprints.
For spaces that cannot be captured efficiently, other processes or tools are required to be used to measure objects through an easy and efficient process. Not only is this process time-consuming, but turns out to be incomplete and inaccurate leading to costly rework, delays, and change orders.
Traditional surveying methods exhibit the following limitations.
• Low reliability
• Limited accuracy and data coverage
• Inadequate As-Built data for 3D models or CAD drawings
• Inconsistent survey information that could lead to higher survey requirements
• Cost-prohibitive based on the need to hire survey experts, multiple site surveys, and costly rework
Ergo, an imperfectly set process often pulls projects into cost and time overruns due to expensive RFI’s and change orders.
Why deploy Reality Capture in Architecture and Design?
Generate precise dimensions for As-Built drawings
Create an accurate visualization of the design based on existing conditions
Validate 3D models with real-time design
Enhance stakeholder coordination and collaboration for the entire project
Reduce project guesswork and mitigate errors
Why deploy Reality Capture in Engineering and Construction?
Begin a project with precise data and problem identification
Avoid rework and costly delays through absolute collaboration
Reduce the number of site visits to save cost and time
Track project progress & identify potential problems
Validate actual work against the proposed design to make sure the project stays within budget
Leverage total collaboration throughout the project by comparing plans with 3D models
Share project progress with various trades and teams
Summary.
Reality Capture processes enable design and construction teams to leverage true confidence in their project. The difference in time, efficiency, and cost are far greater than in traditional surveying. As Reality Capture provides tremendous value at every building stage, its application can be extended to complex and large-scale renovation projects by saving on ROI, reduction in field trips, and better decision making.
Visit Us - https://www.ifieldsmart.com/
Contact Us - +1 (987) 664-32-11
Beyond Blueprints 3D Laser Scanning in ConstructionMichael William
Explore the future of construction with "Beyond Blueprints." Our 3D Laser Scanning services redefine accuracy and efficiency. Uncover detailed site insights, streamline renovations, and seamlessly integrate real-world data into your projects. Transform your construction experience today! #ConstructionInnovation #3DLaserScanning
Best Converting Point Cloud to BIM and BIM Laser Scanning.pdfRvtcad
In the ever-evolving landscape of construction and design, the integration of cutting-edge technologies has become paramount for achieving efficiency, accuracy, and precision. Among these technologies, Point Cloud to Building Information Modeling (BIM) conversion and BIM Laser Scanning stand out as game-changers in streamlining project workflows and enhancing project outcomes. In this article, we delve into the best practices and strategies for maximizing the potential of these technologies.
This document provides a summary of a group report comparing BIM QS software. It discusses the functions of Vico Office Takeoff Manager including 2D to 3D management, 3D modeling, clash detection, layout, quantity takeoff, 4D scheduling, 5D estimating, and reporting. Limitations include only allowing one model at a time and requiring time to complete 3D models. CostX, Buildsoft, Cubit, and Cubisoft software are also compared in terms of their functions and limitations for quantity surveying. The benefits and constraints of BIM, CAD, and manual measurement are analyzed for different project stages.
This document provides a summary of a group report comparing BIM QS software. It discusses the functions of Vico Office Takeoff Manager including 2D to 3D management, 3D modeling, clash detection, layout, quantity takeoff, 4D scheduling, 5D estimating, and reporting. Limitations include only allowing one model at a time and requiring time to complete 3D models. CostX, Buildsoft, Cubit, and Cubisoft software are also compared in terms of their functions and limitations for quantity surveying. BIM, CAD, and manual measurement techniques are compared at different project stages, outlining benefits and constraints of each.
BIM Dimensions Explained- 3D, 4D, 5D, 6D and 7D- Definition and BenefitsUnited-BIM
A BIM model can be utilized for pre-defined specific purposes, commonly known as use-cases. According to project stage requirements and project complexity, specific parameters are added to the existing information contained in BIM. These additions of pre-defined used cases can be described as BIM dimensions.
These dimensions enhance the data associated with a model to share a greater level of understanding of a construction project.
In the modern era, BIM technology has evolved from basic 3D & 4D dimensions to more sophisticated 5D, 6D & 7D dimensions that are poised to change the future of the AEC industry.
AEC professionals frequently confront particular difficulties in their line of work when working on building rehabilitation projects. The majority of the time, information collecting is done manually, which frequently leads to the collection of inaccurate or missing data, an unnecessary amount of time spent on location, extended turnaround times for projects, and higher expenses for the customer. Point Cloud to BIM Modeling will be used as a delivery platform for data collection and can considerably enhance processes, decision-making, and productivity while carrying out both big and small projects. For more details, read our blog https://www.chudasamaoutsourcing.com/blog/advantages-of-using-point-clouds-in-construction/
Use of BIM in planning and construction and implementation in real projectMANNU KUMAR
This document provides an overview of Building Information Modeling (BIM) including definitions, the evolution of BIM and design processes, different levels of BIM implementation, and the progression of BIM from 3D to 7D. It discusses advantages and uses of BIM such as improved visualization, coordination, productivity and quality. The document also includes case studies on BIM implementation for infrastructure and building projects in India and China, highlighting challenges addressed and outcomes like reduced costs, clashes, and improved planning.
Point Cloud to BIM Services | Silicon Engineering Consultants New Zealand .pptxSiliconecnewzealand
Plunge into the depths of Point Cloud to BIM Services, where laser-sharp 3D scanning transforms workflows. Journey through its role in elevating accuracy, efficiency, and project excellence.
This document summarizes the findings of a research project that used building information modeling (BIM) on a housing development project. Key findings included: establishing time and cost plans using the BIM model; coordinating models in a common data environment; involving suppliers early to develop BIM objects; and lessons around software compatibility, early engagement of facility managers, and contractors' limited BIM capabilities. The summary concludes that BIM has potential benefits but also presents changes that are needed for its successful adoption, like moving construction to an assembly process.
Top Process of Point Cloud to 3D Model BIM Laser Scanning.pdfRvtcad
The process of converting point cloud data to a 3D Building Information Model (BIM) involves several steps and employs various technologies, making it a sophisticated yet highly beneficial practice for the architecture, engineering, and construction (AEC) industries. Here’s a breakdown of this process and its significance:
Laser scanning uses lasers to measure distances to surfaces and capture three-dimensional data that can be converted into point clouds and used with BIM modeling software. It provides accurate as-built representations of structures and has applications in facility management, renovation and restoration planning, scheduling, cost estimation, and ensuring code compliance. While laser scanning captures detailed data quickly, converting point clouds into BIM models remains a challenge requiring both automated processing and manual work. Standards for exchanging laser scanning and BIM data could help combine these technologies.
1) Building surveyors can take advantage of opportunities presented by building information modeling (BIM) by assessing workflows, offering new solutions to clients, and gaining new skills to stay relevant.
2) 3D laser scanning provides an efficient way to capture detailed geometry needed to create accurate BIM models for retrofitting and renovating existing buildings. Scans produce point clouds that can be overlaid on BIMs.
3) When planning scan-to-BIM projects, specifications should address the different needs of stakeholders like engineers, architects, and quantity surveyors. The resulting "BIM-ready" model provides an accurate shell for further development by specialists.
The document discusses the use of Building Information Modeling (BIM) in construction management. It describes how BIM allows for 3D modeling of building components and their properties. It then outlines several key uses of BIM for construction managers, including visualization, coordination, prefabrication, construction planning and monitoring, cost estimation, and generating a record model. The document also presents two case studies, one of the MIT Kochi project, to illustrate real-world examples of how BIM benefits construction projects through improved visualization, coordination, planning and cost control.
The Poster of Application of terrestrial 3D laser scanning in building inform...Martin Ma
The document discusses the methodology used in a project applying terrestrial 3D laser scanning in building information modeling (BIM). It describes using a Leica Scan Station C10 laser scanner to collect point cloud data of a target building. Cyclone software was then used to combine the point cloud data with a 3D BIM. Autodesk Revit, a BIM software, was used to create 3D models from the point cloud data. The project involved laser scanning a ship garage to collect point cloud data, processing the raw data in Cyclone, and creating a 3D BIM of the garage in Revit based on the point cloud.
In this presentation I gave one overall overview about BIM workflow for Construction and D&B companies.
BIM is not a tool, BIM is not a software, BIM is a way of thinking about the project and put together processes to exchange information during the entire lifecycle.
This presentation is mainly focused on Autodesk platform but is applicable to many other solutions.
Software Application Presentation SlideLee Pei Gie
The document provides information on various BIM QS computer software including Glodon, CostX, Vico Office, and Nomitech Costos. It discusses the features, functions, and limitations of each software. It also compares BIM, manual measurement, and CAD measurement in terms of benefits and constraints during various project stages from briefing to post-construction. Overall, the document provides a comprehensive overview and comparison of BIM QS software and measurement methods.
1) BIM software provides benefits throughout the project lifecycle from planning to construction and facility management. It allows for improved visualization, coordination, estimation and resource efficiency.
2) However, BIM also faces limitations such as the need for experienced users, high costs, disruption to traditional processes, and challenges with data sharing between stakeholders.
3) While BIM streamlines tasks like quantity take-off, it cannot account for all construction cost variables and may be time consuming for scheduling. Experienced teams are required to leverage its full capabilities.
Scan to BIM Services Silicon Engineering Consultants New Zeland.pptxSiliconecnewzealand
Explore how Silicon Engineering Consultants Limited is leading the Scan to BIM Services in New Zealand. This presentation delves into the significance of Building Information Models (BIM), the advanced scanning techniques employed, and the resulting benefits. Discover how our Scan to BIM Solutions ensure accuracy in as-built documentation, efficient clash identification, and robust support for remodeling projects in the AEC Industry. Learn how these services translate into improved project coordination, financial advantages, and enhanced decision-making capabilities.
Point cloud modeling is quite a new concept in Architectural, Engineering and Construction industry but irrespective of its being new or old, it has transformed the entire reverse engineering process.
Visit Our website: www.jbhtesla.com
Best Converting Point Cloud to BIM and BIM Laser Scanning.pdfRvtcad
In the ever-evolving landscape of construction and design, the integration of cutting-edge technologies has become paramount for achieving efficiency, accuracy, and precision. Among these technologies, Point Cloud to Building Information Modeling (BIM) conversion and BIM Laser Scanning stand out as game-changers in streamlining project workflows and enhancing project outcomes. In this article, we delve into the best practices and strategies for maximizing the potential of these technologies.
This document provides a summary of a group report comparing BIM QS software. It discusses the functions of Vico Office Takeoff Manager including 2D to 3D management, 3D modeling, clash detection, layout, quantity takeoff, 4D scheduling, 5D estimating, and reporting. Limitations include only allowing one model at a time and requiring time to complete 3D models. CostX, Buildsoft, Cubit, and Cubisoft software are also compared in terms of their functions and limitations for quantity surveying. The benefits and constraints of BIM, CAD, and manual measurement are analyzed for different project stages.
This document provides a summary of a group report comparing BIM QS software. It discusses the functions of Vico Office Takeoff Manager including 2D to 3D management, 3D modeling, clash detection, layout, quantity takeoff, 4D scheduling, 5D estimating, and reporting. Limitations include only allowing one model at a time and requiring time to complete 3D models. CostX, Buildsoft, Cubit, and Cubisoft software are also compared in terms of their functions and limitations for quantity surveying. BIM, CAD, and manual measurement techniques are compared at different project stages, outlining benefits and constraints of each.
BIM Dimensions Explained- 3D, 4D, 5D, 6D and 7D- Definition and BenefitsUnited-BIM
A BIM model can be utilized for pre-defined specific purposes, commonly known as use-cases. According to project stage requirements and project complexity, specific parameters are added to the existing information contained in BIM. These additions of pre-defined used cases can be described as BIM dimensions.
These dimensions enhance the data associated with a model to share a greater level of understanding of a construction project.
In the modern era, BIM technology has evolved from basic 3D & 4D dimensions to more sophisticated 5D, 6D & 7D dimensions that are poised to change the future of the AEC industry.
AEC professionals frequently confront particular difficulties in their line of work when working on building rehabilitation projects. The majority of the time, information collecting is done manually, which frequently leads to the collection of inaccurate or missing data, an unnecessary amount of time spent on location, extended turnaround times for projects, and higher expenses for the customer. Point Cloud to BIM Modeling will be used as a delivery platform for data collection and can considerably enhance processes, decision-making, and productivity while carrying out both big and small projects. For more details, read our blog https://www.chudasamaoutsourcing.com/blog/advantages-of-using-point-clouds-in-construction/
Use of BIM in planning and construction and implementation in real projectMANNU KUMAR
This document provides an overview of Building Information Modeling (BIM) including definitions, the evolution of BIM and design processes, different levels of BIM implementation, and the progression of BIM from 3D to 7D. It discusses advantages and uses of BIM such as improved visualization, coordination, productivity and quality. The document also includes case studies on BIM implementation for infrastructure and building projects in India and China, highlighting challenges addressed and outcomes like reduced costs, clashes, and improved planning.
Point Cloud to BIM Services | Silicon Engineering Consultants New Zealand .pptxSiliconecnewzealand
Plunge into the depths of Point Cloud to BIM Services, where laser-sharp 3D scanning transforms workflows. Journey through its role in elevating accuracy, efficiency, and project excellence.
This document summarizes the findings of a research project that used building information modeling (BIM) on a housing development project. Key findings included: establishing time and cost plans using the BIM model; coordinating models in a common data environment; involving suppliers early to develop BIM objects; and lessons around software compatibility, early engagement of facility managers, and contractors' limited BIM capabilities. The summary concludes that BIM has potential benefits but also presents changes that are needed for its successful adoption, like moving construction to an assembly process.
Top Process of Point Cloud to 3D Model BIM Laser Scanning.pdfRvtcad
The process of converting point cloud data to a 3D Building Information Model (BIM) involves several steps and employs various technologies, making it a sophisticated yet highly beneficial practice for the architecture, engineering, and construction (AEC) industries. Here’s a breakdown of this process and its significance:
Laser scanning uses lasers to measure distances to surfaces and capture three-dimensional data that can be converted into point clouds and used with BIM modeling software. It provides accurate as-built representations of structures and has applications in facility management, renovation and restoration planning, scheduling, cost estimation, and ensuring code compliance. While laser scanning captures detailed data quickly, converting point clouds into BIM models remains a challenge requiring both automated processing and manual work. Standards for exchanging laser scanning and BIM data could help combine these technologies.
1) Building surveyors can take advantage of opportunities presented by building information modeling (BIM) by assessing workflows, offering new solutions to clients, and gaining new skills to stay relevant.
2) 3D laser scanning provides an efficient way to capture detailed geometry needed to create accurate BIM models for retrofitting and renovating existing buildings. Scans produce point clouds that can be overlaid on BIMs.
3) When planning scan-to-BIM projects, specifications should address the different needs of stakeholders like engineers, architects, and quantity surveyors. The resulting "BIM-ready" model provides an accurate shell for further development by specialists.
The document discusses the use of Building Information Modeling (BIM) in construction management. It describes how BIM allows for 3D modeling of building components and their properties. It then outlines several key uses of BIM for construction managers, including visualization, coordination, prefabrication, construction planning and monitoring, cost estimation, and generating a record model. The document also presents two case studies, one of the MIT Kochi project, to illustrate real-world examples of how BIM benefits construction projects through improved visualization, coordination, planning and cost control.
The Poster of Application of terrestrial 3D laser scanning in building inform...Martin Ma
The document discusses the methodology used in a project applying terrestrial 3D laser scanning in building information modeling (BIM). It describes using a Leica Scan Station C10 laser scanner to collect point cloud data of a target building. Cyclone software was then used to combine the point cloud data with a 3D BIM. Autodesk Revit, a BIM software, was used to create 3D models from the point cloud data. The project involved laser scanning a ship garage to collect point cloud data, processing the raw data in Cyclone, and creating a 3D BIM of the garage in Revit based on the point cloud.
In this presentation I gave one overall overview about BIM workflow for Construction and D&B companies.
BIM is not a tool, BIM is not a software, BIM is a way of thinking about the project and put together processes to exchange information during the entire lifecycle.
This presentation is mainly focused on Autodesk platform but is applicable to many other solutions.
Software Application Presentation SlideLee Pei Gie
The document provides information on various BIM QS computer software including Glodon, CostX, Vico Office, and Nomitech Costos. It discusses the features, functions, and limitations of each software. It also compares BIM, manual measurement, and CAD measurement in terms of benefits and constraints during various project stages from briefing to post-construction. Overall, the document provides a comprehensive overview and comparison of BIM QS software and measurement methods.
1) BIM software provides benefits throughout the project lifecycle from planning to construction and facility management. It allows for improved visualization, coordination, estimation and resource efficiency.
2) However, BIM also faces limitations such as the need for experienced users, high costs, disruption to traditional processes, and challenges with data sharing between stakeholders.
3) While BIM streamlines tasks like quantity take-off, it cannot account for all construction cost variables and may be time consuming for scheduling. Experienced teams are required to leverage its full capabilities.
Scan to BIM Services Silicon Engineering Consultants New Zeland.pptxSiliconecnewzealand
Explore how Silicon Engineering Consultants Limited is leading the Scan to BIM Services in New Zealand. This presentation delves into the significance of Building Information Models (BIM), the advanced scanning techniques employed, and the resulting benefits. Discover how our Scan to BIM Solutions ensure accuracy in as-built documentation, efficient clash identification, and robust support for remodeling projects in the AEC Industry. Learn how these services translate into improved project coordination, financial advantages, and enhanced decision-making capabilities.
Point cloud modeling is quite a new concept in Architectural, Engineering and Construction industry but irrespective of its being new or old, it has transformed the entire reverse engineering process.
Visit Our website: www.jbhtesla.com
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Prompting language models is hard, while programming language models is easy. In this talk, I will discuss the state-of-the-art framework DSPy for programming foundation models with its powerful optimizers and runtime constraint system.
Let's Integrate MuleSoft RPA, COMPOSER, APM with AWS IDP along with Slackshyamraj55
Discover the seamless integration of RPA (Robotic Process Automation), COMPOSER, and APM with AWS IDP enhanced with Slack notifications. Explore how these technologies converge to streamline workflows, optimize performance, and ensure secure access, all while leveraging the power of AWS IDP and real-time communication via Slack notifications.
HCL Notes und Domino Lizenzkostenreduzierung in der Welt von DLAUpanagenda
Webinar Recording: https://www.panagenda.com/webinars/hcl-notes-und-domino-lizenzkostenreduzierung-in-der-welt-von-dlau/
DLAU und die Lizenzen nach dem CCB- und CCX-Modell sind für viele in der HCL-Community seit letztem Jahr ein heißes Thema. Als Notes- oder Domino-Kunde haben Sie vielleicht mit unerwartet hohen Benutzerzahlen und Lizenzgebühren zu kämpfen. Sie fragen sich vielleicht, wie diese neue Art der Lizenzierung funktioniert und welchen Nutzen sie Ihnen bringt. Vor allem wollen Sie sicherlich Ihr Budget einhalten und Kosten sparen, wo immer möglich. Das verstehen wir und wir möchten Ihnen dabei helfen!
Wir erklären Ihnen, wie Sie häufige Konfigurationsprobleme lösen können, die dazu führen können, dass mehr Benutzer gezählt werden als nötig, und wie Sie überflüssige oder ungenutzte Konten identifizieren und entfernen können, um Geld zu sparen. Es gibt auch einige Ansätze, die zu unnötigen Ausgaben führen können, z. B. wenn ein Personendokument anstelle eines Mail-Ins für geteilte Mailboxen verwendet wird. Wir zeigen Ihnen solche Fälle und deren Lösungen. Und natürlich erklären wir Ihnen das neue Lizenzmodell.
Nehmen Sie an diesem Webinar teil, bei dem HCL-Ambassador Marc Thomas und Gastredner Franz Walder Ihnen diese neue Welt näherbringen. Es vermittelt Ihnen die Tools und das Know-how, um den Überblick zu bewahren. Sie werden in der Lage sein, Ihre Kosten durch eine optimierte Domino-Konfiguration zu reduzieren und auch in Zukunft gering zu halten.
Diese Themen werden behandelt
- Reduzierung der Lizenzkosten durch Auffinden und Beheben von Fehlkonfigurationen und überflüssigen Konten
- Wie funktionieren CCB- und CCX-Lizenzen wirklich?
- Verstehen des DLAU-Tools und wie man es am besten nutzt
- Tipps für häufige Problembereiche, wie z. B. Team-Postfächer, Funktions-/Testbenutzer usw.
- Praxisbeispiele und Best Practices zum sofortigen Umsetzen
Cosa hanno in comune un mattoncino Lego e la backdoor XZ?Speck&Tech
ABSTRACT: A prima vista, un mattoncino Lego e la backdoor XZ potrebbero avere in comune il fatto di essere entrambi blocchi di costruzione, o dipendenze di progetti creativi e software. La realtà è che un mattoncino Lego e il caso della backdoor XZ hanno molto di più di tutto ciò in comune.
Partecipate alla presentazione per immergervi in una storia di interoperabilità, standard e formati aperti, per poi discutere del ruolo importante che i contributori hanno in una comunità open source sostenibile.
BIO: Sostenitrice del software libero e dei formati standard e aperti. È stata un membro attivo dei progetti Fedora e openSUSE e ha co-fondato l'Associazione LibreItalia dove è stata coinvolta in diversi eventi, migrazioni e formazione relativi a LibreOffice. In precedenza ha lavorato a migrazioni e corsi di formazione su LibreOffice per diverse amministrazioni pubbliche e privati. Da gennaio 2020 lavora in SUSE come Software Release Engineer per Uyuni e SUSE Manager e quando non segue la sua passione per i computer e per Geeko coltiva la sua curiosità per l'astronomia (da cui deriva il suo nickname deneb_alpha).
Salesforce Integration for Bonterra Impact Management (fka Social Solutions A...Jeffrey Haguewood
Sidekick Solutions uses Bonterra Impact Management (fka Social Solutions Apricot) and automation solutions to integrate data for business workflows.
We believe integration and automation are essential to user experience and the promise of efficient work through technology. Automation is the critical ingredient to realizing that full vision. We develop integration products and services for Bonterra Case Management software to support the deployment of automations for a variety of use cases.
This video focuses on integration of Salesforce with Bonterra Impact Management.
Interested in deploying an integration with Salesforce for Bonterra Impact Management? Contact us at sales@sidekicksolutionsllc.com to discuss next steps.
UiPath Test Automation using UiPath Test Suite series, part 6DianaGray10
Welcome to UiPath Test Automation using UiPath Test Suite series part 6. In this session, we will cover Test Automation with generative AI and Open AI.
UiPath Test Automation with generative AI and Open AI webinar offers an in-depth exploration of leveraging cutting-edge technologies for test automation within the UiPath platform. Attendees will delve into the integration of generative AI, a test automation solution, with Open AI advanced natural language processing capabilities.
Throughout the session, participants will discover how this synergy empowers testers to automate repetitive tasks, enhance testing accuracy, and expedite the software testing life cycle. Topics covered include the seamless integration process, practical use cases, and the benefits of harnessing AI-driven automation for UiPath testing initiatives. By attending this webinar, testers, and automation professionals can gain valuable insights into harnessing the power of AI to optimize their test automation workflows within the UiPath ecosystem, ultimately driving efficiency and quality in software development processes.
What will you get from this session?
1. Insights into integrating generative AI.
2. Understanding how this integration enhances test automation within the UiPath platform
3. Practical demonstrations
4. Exploration of real-world use cases illustrating the benefits of AI-driven test automation for UiPath
Topics covered:
What is generative AI
Test Automation with generative AI and Open AI.
UiPath integration with generative AI
Speaker:
Deepak Rai, Automation Practice Lead, Boundaryless Group and UiPath MVP
Driving Business Innovation: Latest Generative AI Advancements & Success StorySafe Software
Are you ready to revolutionize how you handle data? Join us for a webinar where we’ll bring you up to speed with the latest advancements in Generative AI technology and discover how leveraging FME with tools from giants like Google Gemini, Amazon, and Microsoft OpenAI can supercharge your workflow efficiency.
During the hour, we’ll take you through:
Guest Speaker Segment with Hannah Barrington: Dive into the world of dynamic real estate marketing with Hannah, the Marketing Manager at Workspace Group. Hear firsthand how their team generates engaging descriptions for thousands of office units by integrating diverse data sources—from PDF floorplans to web pages—using FME transformers, like OpenAIVisionConnector and AnthropicVisionConnector. This use case will show you how GenAI can streamline content creation for marketing across the board.
Ollama Use Case: Learn how Scenario Specialist Dmitri Bagh has utilized Ollama within FME to input data, create custom models, and enhance security protocols. This segment will include demos to illustrate the full capabilities of FME in AI-driven processes.
Custom AI Models: Discover how to leverage FME to build personalized AI models using your data. Whether it’s populating a model with local data for added security or integrating public AI tools, find out how FME facilitates a versatile and secure approach to AI.
We’ll wrap up with a live Q&A session where you can engage with our experts on your specific use cases, and learn more about optimizing your data workflows with AI.
This webinar is ideal for professionals seeking to harness the power of AI within their data management systems while ensuring high levels of customization and security. Whether you're a novice or an expert, gain actionable insights and strategies to elevate your data processes. Join us to see how FME and AI can revolutionize how you work with data!
Taking AI to the Next Level in Manufacturing.pdfssuserfac0301
Read Taking AI to the Next Level in Manufacturing to gain insights on AI adoption in the manufacturing industry, such as:
1. How quickly AI is being implemented in manufacturing.
2. Which barriers stand in the way of AI adoption.
3. How data quality and governance form the backbone of AI.
4. Organizational processes and structures that may inhibit effective AI adoption.
6. Ideas and approaches to help build your organization's AI strategy.
For the full video of this presentation, please visit: https://www.edge-ai-vision.com/2024/06/building-and-scaling-ai-applications-with-the-nx-ai-manager-a-presentation-from-network-optix/
Robin van Emden, Senior Director of Data Science at Network Optix, presents the “Building and Scaling AI Applications with the Nx AI Manager,” tutorial at the May 2024 Embedded Vision Summit.
In this presentation, van Emden covers the basics of scaling edge AI solutions using the Nx tool kit. He emphasizes the process of developing AI models and deploying them globally. He also showcases the conversion of AI models and the creation of effective edge AI pipelines, with a focus on pre-processing, model conversion, selecting the appropriate inference engine for the target hardware and post-processing.
van Emden shows how Nx can simplify the developer’s life and facilitate a rapid transition from concept to production-ready applications.He provides valuable insights into developing scalable and efficient edge AI solutions, with a strong focus on practical implementation.
Main news related to the CCS TSI 2023 (2023/1695)Jakub Marek
An English 🇬🇧 translation of a presentation to the speech I gave about the main changes brought by CCS TSI 2023 at the biggest Czech conference on Communications and signalling systems on Railways, which was held in Clarion Hotel Olomouc from 7th to 9th November 2023 (konferenceszt.cz). Attended by around 500 participants and 200 on-line followers.
The original Czech 🇨🇿 version of the presentation can be found here: https://www.slideshare.net/slideshow/hlavni-novinky-souvisejici-s-ccs-tsi-2023-2023-1695/269688092 .
The videorecording (in Czech) from the presentation is available here: https://youtu.be/WzjJWm4IyPk?si=SImb06tuXGb30BEH .
Top 8 enablers to optimize laser scanning surveys..pdf
1. Top 8 enablers to optimize laser scanning surveys.
Is there a project in the pipeline to commission Point Cloud Surveys to build a highly
accurate and detailed 3D model?This blog focuses on enablers that help project
stakeholders mitigate project delays or cost overruns. These best practices ensure your
workflows are streamlined for better project performance, deliverables, and handover.
Before getting into the finer details, it is key to understand a few basic terms that will make
this content piece easier to understand.
Point Clouds – Point clouds are made up of millions of precise vector dimensions using
point cloud laser scanners, be it – terrestrial or aerial scanning.
Building Information Modeling Surveys –BIM surveys represent the existing state of a
building or infrastructure through 3D visualization created using BIM authoring software
like Revit, Vectorworks, etc.
2. Several essential aspects need consideration to commission successful laser surveys.
#1. Take into consideration the entire project lifecycle – not just the ad-hoc
needs.
It is key to consider the current status of the project, and the future requirements to author
and adopt a 3D model. Based on a single visit, laser scanners can capture accurate and
high-quality photographic records that are required as per the client. These deliverables
can be leveraged for the design of the existing asset, and even documents.
#2. Analyze existing project data.
To analyze project data, stakeholders need to ask the following questions viz. Does the
existing data support the requirements of the project? Is the data fragmented? Can
existing data assets be reused? Are there any updates or verifications required? Is the
existing survey data helpful in preparing a new survey?
3. #3. Build a clear definition of the elements of the structure that need to be
included in the survey.
In addition to building a clear scope of the survey, a sharp understanding of the objects
and their attributes need to be put forth in the scan. Frequent visits to the site are
expensive and are frequently needed if the elements of the structure are not specified
at the start. For new deliverables to be accurate, specific details about the structure or
surface need to be considered to understand how scanning is performed.
#4.Check the Level of Detail (LOD) necessary to build a 3D BIM model using
Revit.
Define the appropriate LOD level to develop a 3D BIM model or 2D drawings. The specific
level of detail (LOD), needs to be defined at the start of the survey. For in-depth detail
levels, the resolution of laser scanners needs to be augmented. Higher detail levels require
more surveying time,and that raises the surveying costs.It is advised, that surveyors or
project stakeholders take time to review survey requirements to scale LOD requirements
when required.
4. #5. Initiate a clear scope of LOA.
Purpose-fit drawings & models are essential to ensure all the deliverables are met with
the necessary accuracy and requirements for the project. Engineering setouts require a
higher accuracy standard while a general asset model will require lower LOA standards.
For a coordinate system, a geospatial reference needs to be considered.
#6. Establish an accurate understanding of the deliverables.
Although it may seem like a good option to garner a low-resolution scan through cheap
scans, it is not the best selection in the longrun. Flexible point cloud models deliver better
access to data if there is a change in scope. It is always a better option to invest in
high-resolution scans for the future but making an early and accurate decision saves
on time and cost.
5. #7. Consider a staged delivery of your project requirements.
Running feasibility studies for the present and future requirements helps save on survey
time and cost. A staged delivery process cuts down on-site revisits if laser scanning
requires site data at the beginning to produce a complete model.
#8. Select the method of storage, access, and delivery of your 3D model.
It is crucial to use survey technology that is compatible with your software and the clients
as well. High-resolution scans contain large file sizes at different LOD levels. Furthermore,
point cloud files are large, and it overwhelms stakeholders for storage and delivery.
If file size numbers are considered at the outset, various options can be considered.
Fewer parts of the scan can be taken in back and white to reduce the size of the Point
Cloud. For BIM survey models, it is important to set the models in IFC format for Common
Data Environments(CDE).
6. Conclusion:
A successful laser scan survey boils down to accurate communication and planning.
Communicating with surveyors on the requirements defines the viability of the project
and service. Point Cloud scanning requires precision and expertise. Outsourcing or
contracting firms that deliver assets that can’t be used is far more expensive than opting
for premium services. Automated processing helps spin-up scans quicker with better
efficiency while point clouds will continue to disrupt the surveying landscape.
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