In the era of Industry 4.0, the traditional TPM approach is gaining a new dimension through digital tools. One of them is WebPano Visual Plant — a platform acting as a digital twin of the facility, integrating 3D views, 360° panoramas, P&ID diagrams, 3D models, and data from external systems. For Maintenance teams, this means moving from reactive maintenance to data-driven, spatially contextualized decision-making.

TPM Pillar 1: Autonomous Maintenance

Visual support for operators

WebPano Visual Plant provides operators with clear, visual work instructions. Instead of relying on paper documentation, operators can virtually walk through the installation, locate specific equipment, and see how to perform basic inspections, cleaning, or lubrication tasks.

This approach:

• increases operator competence,

• standardizes maintenance activities,

• strengthens the culture of autonomous maintenance.

Standardization of procedures

Information points (Notes) can be placed directly on the 3D model or panorama, containing:

• checklists,

• instructions,

• reference images,

• video materials.

This ensures that all employees follow the same procedures, directly improving the quality and consistency of autonomous maintenance activities.

Image 1 – Video instruction linked to equipment in WebPano Visual Plant

TPM Pillar 2: Planned Maintenance

Virtual asset inventory

WebPano allows Maintenance teams to virtually explore the entire facility, locate assets, and tag and categorize them. Equipment can be filtered by:

• name,

• type,

• location,

• assigned tags.

Such an inventory can be easily integrated with CMMS systems.

Image 2 – Asset location within the facility using tag and asset name filtering in WebPano Visual Plant

Centralized equipment data

Each installation component (e.g., pump, valve, motor) can be linked to databases or CMMS/ERP systems via an open API (Application Programming Interface). In this way, WebPano Visual Plant acts as a digital twin interface, integrating data from multiple sources, including:

• failure history,

• technical specifications,

• manuals,

• maintenance history.

Access to this information directly from the 3D view significantly shortens maintenance decision-making time.

Image 3 – Equipment location within the facility using tag and asset name filtering in WebPano Visual Plant

Route and work time optimization

With an accurate digital representation of the facility, Maintenance planners can:

• optimize inspection routes,

• reduce travel time,

• improve preventive maintenance planning.

Maintenance becomes less reactive and more predictive.

TPM Pillar 3: Quality Maintenance

Fault localization in spatial context

WebPano Visual Plant enables visualization of data from IoT sensors, monitoring systems, or CML directly at their physical locations. Parameters such as:

• temperature,

• pressure,

• vibration,

• wall thickness

are displayed exactly where they are measured. This makes it easier to identify correlations between failures and specific areas of the installation.

Image 4 – Identification of equipment location with a potential fault to be checked in WebPano Visual Plant. Information routed to the appropriate teams using tags.

Virtual inspections and data integration

Instead of relying solely on tabular data, engineers can perform remote virtual inspections by viewing sensor readings directly on the digital representation of the facility, in the context of their actual geolocation. The open WebPano API enables integration with various external monitoring systems, allowing the platform to serve as a unified interface for spatial data visualization. This significantly improves the effectiveness of TPM management.

For example, data from pipeline corrosion monitoring systems can be transmitted to WebPano Visual Plant to indicate locations where degradation progresses most rapidly. An external Corrosion Monitoring system updates information such as pipe wall thickness, enabling precise infrastructure condition monitoring. The WebPano graphical interface clearly highlights specific locations requiring preventive action, facilitating accurate task assignment before issues occur.

Image 5 – Identification of a corrosion-affected area with precise location on an overview map for the appropriate teams.

Visualization of equipment and pipeline condition

Thanks to the open API, condition data from external monitoring systems (e.g., CML, IoT) can be transmitted and visualized directly on the 3D installation view. Maintenance teams can use: status colors (green / yellow / red), heatmaps, to quickly identify problem areas.

WebPano can visualize, among others:

• Technical condition (CML): location and severity of degradation, such as corrosion, enabling preventive action before failures occur.

• Energy losses: identification of areas with high energy loss (e.g., damaged insulation) using heatmaps based on sensor or inspection data.

Routing and preparation for modernization

WebPano enables marking pipeline routes on point clouds and panoramas, supporting:

• replacement planning,

• preparation for 3D modeling,

• modernization projects.

Image 6 – Pipeline routing on a point cloud using CML descriptions for subsequent 3D modeling.

Data-driven predictive maintenance

Maintenance teams do not wait for failures to occur. By analyzing trends such as wall thickness loss, increasing vibration levels, or other sensor data tied to specific locations, they can plan preventive replacements or repairs. With proper configuration, WebPano Visual Plant enables spatial identification and visualization of areas where undesirable events occur most frequently.

Integration with asset management systems allows data from WebPano Visual Plant to be exported to existing CMMS or ERP systems via API.

Summary

Applying WebPano Visual Plant within a TPM framework offers more than visualization alone. It becomes a key decision-support tool for Maintenance teams, providing comprehensive capabilities for asset visualization, maintenance planning, and fault localization. Integration with CMMS systems, historical data, and sensor data enables advanced strategies such as Condition-Based Maintenance, reducing costs and increasing equipment availability.

Through its API capabilities and integration with monitoring systems such as CML, WebPano Visual Plant plays a crucial role in preventive maintenance by visualizing data in spatial context, significantly enhancing safety and infrastructure reliability.

The post Using WebPano Visual Plant in Total Productive Maintenance (TPM) appeared first on 3Deling - Experts in 3D Laser Scanning and Point Cloud Processing.

This approach requires only limited organizational resources while providing a reliable way to assess Webpano’s functionality, the quality of 3D data, and the overall applicability of the technology.

3D scan data and panoramic imagery presented in Webpano as part of the pilot project.

Why the Mini Pilot Program is the best starting point for digitalization

The Mini Pilot enables an objective evaluation of spatial data and Webpano tools used in daily plant operations. It offers:

• reduced investment risk,

• the ability to test the operational platform using real plant data,

• multi-user access and collaboration,

• direct support from the 3Deling team,

• an intelligent 3D model of a selected element, complete with attributes demonstrating the potential of information-rich modeling,

• optional P&ID integration – a diagram can be incorporated into Webpano and linked to model elements or point cloud data. This makes it possible to assess how full integration of process documentation with 3D data improves analysis and verification of the plant’s actual condition,

• minimal organizational and financial effort required to evaluate the feasibility of a full implementation.

How the pilot program works

1. Consultation and selection of the pilot area

Analysis of organizational needs and identification of a plant area that best illustrates the value of the technology.

2. Site assessment and planning

Initial evaluation of site conditions, safety and logistical factors, followed by preparation of a scanning plan.

3. 3D laser scanning and 360° panoramas

Execution of 3D measurements and panoramic documentation of the selected area.

4. Data processing and 3D modeling

Point cloud processing of the scanned pilot area, along with the creation of a single selected 3D element enriched with technical attributes.

5. Data deployment in Webpano

System configuration, user registration, role assignment and a brief training session. The 3D data becomes available online to operational, engineering and maintenance teams.

6. Results review

Discussion of the pilot outcomes, identification of possible use cases, and evaluation of how digitalization can support technical and business processes.

7. Decision on continuation

After the pilot period, the Webpano license is activated only if a full implementation is selected; otherwise, it expires without any charges.

Pilot program – small scope, significant value

Thanks to its low entry threshold, the pilot program enables:

• assessment of measurable digitalization benefits,

• verification and validation of technical documentation,

• improved planning of maintenance and modernization activities,

• preparation of the organization for further digitalization,

• establishing foundations for a future digital twin of the facility.

The Webpano Mini Pilot Program is a small investment that allows a reliable assessment of how digitalization can improve safety, operational efficiency and CAPEX/OPEX management.

We invite you to contact us to discuss the possibilities of conducting a pilot program at your facility.

The post Webpano Mini Pilot Program – a safe and efficient path toward plant digitalization appeared first on 3Deling - Experts in 3D Laser Scanning and Point Cloud Processing.

Traditional internal elevation drawing autocad example

Internal elevations are scaled, two-dimensional drawings that represents a wall within a space. As an orthographic projection, it strips away perspective to provide a clear view of vertical surfaces, with a level of detail that can be tailored to the project phase. The design of both commercial and residential projects frequently depended on detailed interior elevations. These drawings have, up until now, been essential during the planning phase, enabling teams to precisely situate objects and architectural elements. This process was critical for visualising the complete spatial experience of a building or home. In some cases, internal elevations may still be required for certain planning applications.

What are Internal Elevations used for?

Architectural Renovations – In residential buildings, these measured drawings provide essential data for renovation planning, including critical details like sill heights, beam elevations, and door widths. They are also invaluable for clarifying complex floor level variations in buildings that have been modified over time. By delivering precise internal layouts, these drawings give clients the confidence to move forward with their projects

Industrial Structure and MEPs – In commercial buildings and warehouses, these drawings reveal the position and heights for critical structural elements like steel beams, columns, and pipes. This information is essential for architects, enabling them to design a viable structure and develop detailed construction phase plans.

Internal elevation drawing detailed autocad example

Problems with Internal Elevations

Traditional Internal Elevations are costly and time-consuming to produce in AutoCAD, often doubling the total survey cost for a project. This makes them cost-ineffective, as the expense frequently outweighs the informational value. Consequently, clients often prefer sending contractors for additional site visits to take required measurements—a less efficient alternative that further slows the planning process. Furthermore, Internal Elevations in DWG formats require AutoCAD Viewing software to access the drawings and be able to take measurements, not all contractors have access to such software. Collaboration also becomes an issue as screenshots need to be taken with notes added.

Solution: WebPano

On-site visits allow for the direct verification of interior details such as electrical outlets, switches, and lighting fixtures. However, this approach can be logistically inefficient for projects with significant travel distances. Alternatively, photographic documentation can provide a preliminary overview, though it may lack the precision and comprehensive detail required for accurate elevation development.

Webpano effectively integrates these two approaches into a single, comprehensive solution that mitigates their individual limitations. The platform’s immersive 360-degree panoramas provide a contextual, on-site perspective, while its integrated measurement tools deliver the precise dimensional data required for the accurate placement of architectural details.

Renovations – Clients enjoy a 360-degree view of each room and can take accurate measurements on demand, drastically cutting down on site visits and making renovations far more efficient. Best of all, Webpano runs in any web browser, enabling seamless collaboration. Teams can leave notes and share direct links to specific areas within the scan data, allowing electricians and carpenters to coordinate on electrical changes with perfect clarity, eliminating the delays and miscommunication of traditional drawings and on-site meetings.

Structure and MEPs – Clients can confidently plan the installation of new MEP systems and industrial plant equipment. By overlaying proposed 3D models onto the precise point cloud of their existing space, the software facilitates immediate clash detection. This proactive approach ensures optimal placement and makes the entire planning process far more efficient by identifying conflicts before they reach the construction phase.

A 360-degree interior elevation panorama displayed in Webpano’s browser-based viewer, combining spatial context with precise dimensional data for architectural coordination.

This screenshot presents the comprehensive 360-degree panorama of the interior elevations within Webpano’s in-browser software, providing context of the space. Integrated within the view are precise measurements, detailing key dimensions essential for the coordination of architectural elements, fixtures, and millwork which would be found in traditional elevation drawings.

Webpano visualisation showing a digital twin model overlaid on the captured point cloud, enabling quick comparison between design intent and actual site conditions.

This visualisation presents the same 360-degree panoramic, however, this time the proposed digital twin model is superimposed over the captured point cloud data. This direct juxtaposition allows for efficient analysis, enabling the team to identify and rectify discrepancies between the model and actual site conditions, ensuring a higher degree of accuracy. It also allows the team to add proposed designs and view them along with the existing building.

A 360-degree Webpano view showing the digital twin model with the point cloud hidden, providing a focused evaluation of geometry and design intent without background noise.

This view presents the digital twin within its 360-degree context, with the underlying point cloud data deactivated. This allows for a focused and clear evaluation of the model’s intrinsic geometry, design intent, and materiality, free from the visual noise of the as-built data.

Conclusion

With Webpano, our clients can skip the time-consuming step of creating internal elevations. They get instant, direct access to all the measurement data they need—from window dimensions to electrical fixture locations—right from the original scan. Our web-based platform eliminates the need for specialised software like AutoCAD Viewer. Since it runs entirely in a standard web browser, it removes the dependency on high-performance hardware, making powerful 3D visualisation accessible on any device.

The post Beyond the Drawing: Is the Internal Elevation Obsolete in the Age of the Point Cloud? appeared first on 3Deling - Experts in 3D Laser Scanning and Point Cloud Processing.

Creative 3D solutions have revolutionized building, engineering, design, and heritage protection in recent years.  Point cloud scanning is a major one.  This technique may seem complicated to digital design, surveying, and modeling beginners.  However, knowing how and when it applies might greatly impact project management in 2025.  This article clarifies point cloud scanning, how it is utilized, and why it is essential for proper data collecting.

How Point Cloud Laser Scanners Work

In a point cloud laser scanner, a laser beam is directed at a surface and measured for its return.  The scanner records the surroundings in three dimensions by repeating this operation millions of times per second.  Laser scanning can quickly capture complicated structures and wide regions, unlike human surveying.

Laser point cloud scanning enables reliable documentation of complicated elements, including architectural features and industrial machines.  Projects that require precise measurements and verification benefit from this degree of detail.

2025 Laser Point Cloud Scanning

Laser point cloud scanning is one of the most dependable and effective methods for gathering spatial data as of 2025.  The technology is now available to many professionals due to faster scanners, a wider range, and better software integration.  Laser scanning is the industry standard for reliable and consistent data acquisition by municipal planners and engineers undertaking volume surveys.

Laser scanning has minimized inaccuracy due to its efficiency.  Construction and history preservation require precision, which makes results safer, quicker, and cheaper.

Applications of Point Cloud Scanning

The uses of point cloud scanning are vast. Popular usage includes:

• As-built surveys – Checking existing buildings against design plans.
• Construction verification – Ensuring current work meets project standards.
• Digitising historical –  structures and places is heritage preservation.
• Clash detection – finding conflicts between new designs and old structures.
• Urban and architectural planning – Creating realistic 3D project foundation models.
• Volume surveys –  measure stockpiles, earthworks, and excavation progress.

Due to its broad uses, more businesses are embracing this technology each year.

Point Clouds to Usable Models

Point clouds supply raw data, but point cloud modeling is needed to turn them into models.  This procedure interprets the scanned dataset and creates CAD drawings, 3D models, or other visual outputs for design and analysis.

A raw point cloud may be transformed into a comprehensive 3D model for architectural design planning.  Data may be processed into engineering CAD documentation.  The system is remarkable because it easily transitions from scanned points to digital models.

Advantages of Point Cloud Modeling Services

Not all companies have the resources or skills to handle point cloud data.  This is where point cloud modeling services help.  Professionals utilize these services to create models, drawings, and documentation from scan data.  Benefits include:

• Accuracy—Representing scanned surroundings precisely.
• Outsourcing difficult data processing saves time.
• Provide models in industry-standard software formats for flexibility.
• Scalability—Easy handling of massive datasets and complicated tasks.

For minor renovations or huge industrial projects, these services let experts focus on design and decision-making rather than technical processing.

Why Point Cloud Scanning Matters Now

Point cloud scanning is now more significant than ever due to the advent of digital building and better visualisation tools.  Point clouds give detailed information that fills gaps in traditional measuring methods.  This avoids expensive mistakes, promotes teamwork, and keeps projects on pace.

Cloud-based software allows point cloud datasets to be viewed and collaborated on from anywhere in 2025.  This streamlines architect-engineer-client collaboration.

Point Cloud Modeling Future

Artificial intelligence and automation will shape point cloud modeling in the future.  Object classification in point clouds is getting easier with software, speeding up modeling.

Point clouds will underpin digital twins and virtual reality as sectors embrace more powerful visualization technologies.  Beginners in this discipline are entering a technology that will shape digital design.

Point Cloud Scanning with 3Deling

For professionals seeking precise and efficient solutions, point cloud scanning is a trustworthy tool.  Advanced point cloud laser scanners and point cloud modeling services can document, analyze, and process complicated settings.

Point cloud scanning captures every detail.  In 2025, organizations and professionals may improve accuracy, cooperation, and creativity by adopting this technology.

The post What Is Point Cloud Scanning? A Complete Guide for Beginners in 2025 appeared first on 3Deling - Experts in 3D Laser Scanning and Point Cloud Processing.

P&ID integration with 3D model and point cloud

The Importance of P&IDs in Industrial Plants

P&IDs (Piping and Instrumentation Diagrams) are among the most critical technical documents in industry. They are used in the design, construction, and maintenance of industrial installations – refineries, chemical plants, and other industrial facilities.

These diagrams illustrate pipelines, valves, process equipment, and control and measurement systems. They act as a roadmap of the facility, allowing engineers and operators to understand the operation of the entire system. P&IDs are essential for planning upgrades, conducting maintenance, and ensuring safety.

P&IDs serve as a common language for engineers across disciplines. They enable designers, contractors, and maintenance teams to work from a single, consistent set of information.

The Problem: P&IDs Often Do Not Reflect Reality

In practice, P&ID documentation is rarely fully up-to-date. Changes in the installation – valve replacements, added pipeline sections, or modifications to control systems – are not always reflected in the diagrams.

Common causes include:

• limited time and resources,

• dispersed responsibility across teams,

• documentation maintained on paper or in inflexible PDF/CAD files.

As a result, there are significant discrepancies between the diagrams and the actual state of the facility, increasing the risk of errors, delays, and issues during audits and compliance checks – particularly in critical situations, when a component needs to be redesigned quickly due to a failure.

Solution: P&ID Integration in WebPano

The new P&ID integration feature in WebPano allows P&ID diagrams to be linked with spatial data – either a 3D model or a point cloud.
Additionally, P&IDs can be updated based on 3D scanner data, ensuring that the documentation always reflects the real state of the plant.

How It Works in Practice

1. 3D Laser Scanning – the installation is measured using laser scanning technology, creating a detailed point cloud.

2. Data Import to WebPano – the data is uploaded to the online platform, where it can be viewed and analyzed.

3. P&ID Updates – diagrams are recreated or corrected based on the point cloud.

4. Integration – P&ID elements are linked to the corresponding parts of the 3D model or point cloud. Users can perform this linking themselves in WebPano or order it as a service from 3Deling, depending on their team’s needs and resources.

This allows a valve or pump symbol on the diagram to serve as a direct reference to the real object in the plant.
Integration also works when only a point cloud is available, which is significantly less expensive than a full 3D model, while scanning the facility in advance provides data for rapid design in emergency situations.

Why P&ID Integration with 3D Data in WebPano Is Better Than Traditional Methods

Traditional P&ID updates are done manually in CAD or PDF files. This process is time-consuming, prone to errors, and difficult to verify.

The WebPano approach combined with 3D scanning offers:

• Data Objectivity – the scan reflects the actual state of the installation.

• Centralized Online Access – all team members work from the same data.

• Information Integration – schematic documentation is directly linked to the 3D model or point cloud

• Change Transparency – every update is visible and easy to document.

• Remote Updates –thanks to 3D scan data and the WebPano platform, diagrams can be updated without physical presence on-site.

Business Benefits

• Safety – up-to-date P&IDs reduce the risk of accidents and operational errors.

• Reduced Downtime – planning upgrades and maintenance is easier with reliable data.

• Better Cost Management – accurate information supports CAPEX and OPEX planning.

• Audit and Compliance Support – documentation meets regulatory requirements.

• Clear Communication – designers, contractors, and operators work from a single, consistent dataset.

P&ID Integration in Practice

The benefits of P&ID integration in WebPano can be seen in the following video, which demonstrates both scenarios – using a 3D model first, followed by a point cloud only:

Watch the video

Moving Towards Digital Twins

P&ID integration in WebPano is a step toward building full digital twins of industrial installations. Up-to-date diagrams linked with spatial data provide a solid foundation for implementing monitoring, predictive maintenance, and process optimization.

Conclusion

P&ID integration in WebPano solves a key industry problem – outdated P&ID documentation. Linking P&IDs with 3D models and point clouds creates accurate, interactive, and easily accessible documentation.

This solution supports daily engineering work and business processes: from safety, through cost management, to regulatory compliance. Industrial facilities gain confidence that their documentation keeps pace with reality and supports informed decision-making.

The post P&ID Integration in WebPano – Updating Technical Documentation with 3D Models and Point Clouds appeared first on 3Deling - Experts in 3D Laser Scanning and Point Cloud Processing.

Construction projects today require precision, speed, and teamwork like never before.  Businesses today seek smart solutions that cut errors, save time, and optimise workflows.  Innovative tools like Revit modelling services and 3D BIM modeling are having a big effect here.  At 3Deling, experts are changing how they handle complex building data, coordinate teams, and provide high-quality outputs.

These innovative methods let project managers and architects manage precise data, visualise designs in real time, and expedite procedures.  Let’s examine how these tools are influencing teams’ approach to building information management and how they help modern projects.

Revit modeling Services Improve Efficiency.

Teams can generate precise digital models of buildings using Revit modeling services.  These models store project-lifecycle essentials.  We use these models early in the design process at 3Deling to avoid costly mistakes.

Professionals may confidently manage structural details and interior treatments.  This precision guarantees that all stakeholders use the same data.  It speeds decision-making and improves architect-engineer-contractor collaboration.

Enhancing Data Accuracy with Revit As-Build modelling

Construction sites are dynamic and updated often.  Revit As-build modelling lets teams document post-construction site conditions.  This data is useful for future upgrades and upkeep.

We build real-time models that capture every detail at 3Deling.  These models help clients avoid costly rework and improve long-term asset management.  These models provide crucial accuracy.

Building Information Management Improves Collaboration

Successful projects require good communication.  Building information management lets stakeholders rapidly access and exchange updated data.  Because everyone uses the latest model, teams avoid disagreements.

Management is smooth and transparent with 3Deling.  Clear workflows help organisations manage complex schedules and prevent delays.  This method builds client and contractor trust and reduces site surprises.

Advanced Planning with BIM

Using BIM building information modeling methodologies benefits design and construction teams greatly.  These models let professionals simulate construction sequences before starting.  We assist clients in visualising every project stage at 3Deling to best allocate resources. Early exploration helps teams resolve disagreements before they reach the construction site.  This proactive strategy keeps projects on track and avoids surprises.

Building Information modeling Services Simplify Workflows.

Data management becomes difficult with larger projects.  BIM services integrate all project aspects onto one platform, simplifying this complexity.  Design, construction, and maintenance data are smoothly integrated in 3Deling models.

Centralisation simplifies progress tracking and resource allocation for decision-makers.  Teams spend less time researching and more time doing outstanding work.

Visual Precision with 3D BIM modeling

Visualisation, and 3D BIM modeling provides unparalleled clarity is core step of Planning.  Project teams can find design flaws before construction by producing detailed three-dimensional models.  Models from 3Deling help stakeholders see ideas.

3D models help clients and contractors comprehend designs.  This reduces miscommunication and streamlines approvals.  So, initiatives move forward with confidence and less risk.

Conclusion

Revit modeling services and 3D BIM modeling are changing construction management.  We’ve seen these solutions increase collaboration, accuracy, and project outcomes at 3Deling.  Building information management, Revit As-build modeling, and BIM building information modeling help teams plan and deliver better.

More and more organisations are using building information modeling services. Industry is always looking for solutions that are better for the environment and work better.    When project managers and designers apply these tools, they may build structures that are not only long-lasting but also on schedule and within budget.

The post How Revit & 3D BIM Modeling Are Transforming BIM Management appeared first on 3Deling - Experts in 3D Laser Scanning and Point Cloud Processing.

Condition Monitoring Location point cloud

Do you manage critical Condition Monitoring Locations (CMLs) on your industrial assets in line with API inspection standards? Are you looking for a way to monitor pipeline integrity, prevent corrosion, and plan retrofits more effectively—including estimating the time and cost of scaffold installations? Your answer might be WebPano Visual Plant from 3Deling.

Visual Plant platforms like WebPano are redefining how CML management and pipeline modernization planning are done. Whether you’re working with a full 3D model or only point cloud data, WebPano allows you to locate, annotate, edit, and manage these crucial inspection points while staying fully compliant with industry codes.

What Are CMLs in API Standards?

CMLs (Condition Monitoring Locations) are strategically selected points on industrial systems—especially piping (API 570) and pressure vessels (API 510)—designated for regular monitoring. These locations are used to assess material loss due to corrosion (uniform, localized, or under insulation/CUI), erosion, wear, or other forms of degradation.

Ultrasonic thickness readings are often taken at CMLs during inspections. API 570 and API 510 recommend tracking the lowest or average readings from these points to calculate corrosion rates and remaining life. Accurate spatial placement of these locations is critical for mechanical integrity, failure prevention, and long-term maintenance planning—especially within Risk-Based Inspection (RBI) frameworks based on API RP 580.

Two Scenarios: Managing CMLs with and without a 3D Model

Scenario 1: CML Management with a 3D Model

Condition Monitoring Location with WebPano Visual Plant 3d model

WebPano enables CML workflows that integrate directly with a 3D model:

• Object Search & Navigation: Easily locate CML points via the search function in the LISTS panel.
• Pinpoint Accuracy: The target icon helps pinpoint specific CMLs directly on the 3D model in the viewport.
• Visibility: CML markers are clearly visible on the model, facilitating rapid inspection planning.
• Real-Time Measurement: Use the measurement tool to check distances, access routes, or clearance.
• Import Custom Geometry: Upload your own .obj files—such as scaffolding models—to simulate real-world interventions.
• Adjust for Reality: Move and rotate imported objects to test for fit within tight spaces.
• Editable Interface: Add, organize, and edit CML points through an intuitive browser-based interface.

Scenario 2: CML Management Using Only Point Cloud Data

Condition Monitoring Location with WebPano Visual Plant point cloud

Even without a full 3D model, WebPano delivers full CML functionality:

• Visual Identification: Locate and mark inspection points directly within the point cloud.
• Contextual Measurements: Check reach, clearance, and positioning using the built-in measurement tool.
• CML Editing: Create and manage points dynamically within the cloud viewer.
• Scaffold Simulation: Import 3D scaffolding models to assess space and access routes.
• Flexible Application: Ideal for brownfield sites, remote facilities, or assets lacking up-to-date 3D documentation.

Why Is This a Game-Changer for API Compliance and Maintenance Planning?

WebPano Visual Plant provides an API-compliant foundation for your inspection and maintenance workflows:

• Speeds up CML inspections in accordance with API 510/570 by making all data visible, traceable, and spatially accurate.
• Improves retrofit planning by virtually placing scaffolding or maintenance equipment to assess feasibility and risk.
• Supports smart location-based monitoring, empowering inspectors and engineers with instant visual data.
• Adaptable to your data: Whether you use BIM models, point clouds, or both, WebPano fits into your process.

From Compliance to Confidence

With WebPano, inspection teams, asset managers, and plant engineers can confidently manage their API-based maintenance programs. The platform offers more than compliance—it offers clarity, safety, and efficiency.

See WebPano in action: Watch our video:

CML Management with 3D Model

CML Management with Point Cloud

Learn more: https://3deling.pl/webpano/index.html
Have a project in mind? Contact us at: mail@3deling.com

Want to dive deeper into API inspection strategies and how they influence digital workflows?
Read our related post:
How API 510, 570, and 653 Standards Shape Asset Integrity in the Petrochemical Industry — and How WebPano Visual Plant Helps

The post Revolutionizing CML (Condition Monitoring Location) Management and Pipeline Retrofit Planning with WebPano Visual Plant appeared first on 3Deling - Experts in 3D Laser Scanning and Point Cloud Processing.