LiDAR Scanner Pricing

Get connected with a specialist today.

Joe Trujillo, President

phone: 720-464-9969

Joe has worked in the construction industry for over 30 years and knows what matters the most when it comes to measurements. We specialize in empowering our clients with 3d laser scanning technology and providing the most precise measurements for your next construction, flooring, interior design, or architecture project.

Interested in learning more about how 3D LiDAR Scanning technology can provide value to your project? Check out our laser scanner 3D resources.

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We look forward to learning about your project and how we can help advance it with Precision 3D Scanning.


LiDAR 3D Scanning Services

We are based in Colorado, and we serve the AEC Industry with 3D LiDAR Scanning to all western states. We also offer midwest laser scanning services and can travel nationwide.

  • 3D Point Cloud
  • Point Cloud to BIM
  • Scan to BIM revit
  • As built 3d
  • 3D Laser Scans for Buildings
  • Concrete ADA compliance
  • Floor flatness testing equipment
  • Digital Twins
  • Real Estate 3D Scanning
  • Laser Scanning Construction
  • FF/FL
  • Flat and level
  • Floor flatness and levelness

What our clients say about our services

LiDAR scanner pricing FAQs

How is the size of a project factored into cost?

The pricing for 3D LiDAR scanning can be influenced by several factors, including:

1. Scanning Scope and Complexity: The size and complexity of the scanning area can significantly impact pricing. Larger or more intricate environments may require more time and resources to scan, process, and analyze the data, leading to higher costs.

2. Resolution and Detail Requirements: The level of detail and resolution needed for the project can also affect pricing. Higher resolution scans with greater detail will typically require more time and specialized equipment, resulting in higher costs.

3. Accessibility and Site Conditions: The accessibility of the scanning site and the presence of obstacles or challenging conditions can impact pricing. Difficult-to-reach areas may require additional setup time or equipment, leading to increased costs.

4. Additional Services: Additional services such as point cloud processing, data analysis, and visualization may incur extra charges. These services are often tailored to the specific needs of the project and can add value by providing actionable insights and deliverables.

5. Timeline and Urgency: Project timelines and turnaround times can influence pricing. Rush orders or projects with tight deadlines may require expedited processing and dedicated resources, resulting in higher costs to accommodate the accelerated schedule.

6. Experience and Expertise: The experience and expertise of the scanning provider can also affect pricing. Providers with a proven track record, specialized knowledge, and advanced technology may command higher rates due to the added value they bring to the project.

Overall, pricing for 3D LiDAR scanning is determined by a combination of factors, and it’s essential for clients to communicate their specific requirements and objectives to the scanning provider to receive an accurate quote tailored to their needs.

Learn more about what factors into cost by reading this resource: Navigating the Cost Variables of 3D Scanning a Construction Site.

What 3d scanning services do I need for my project?

Determining the 3D scanning services you need for your project depends on various factors, including the project’s scope, objectives, and requirements. Here are some common 3D scanning services that may be applicable to your project:

1. Site Surveys: If your project involves capturing accurate as-built information of existing structures or terrain, site surveys are essential. This service provides a comprehensive 3D representation of the site, including buildings, landscapes, and infrastructure.

2. Building Information Modeling (BIM) Integration: For architectural or construction projects, integrating 3D scanning data with BIM software can streamline design and construction processes. This service enables architects, engineers, and contractors to work from a unified digital model, improving coordination and reducing conflicts.

3. Interior Scanning: Interior scanning services capture detailed 3D representations of interior spaces, including rooms, hallways, and facilities. This service is valuable for renovation projects, facility management, and interior design planning.

4. Structural Analysis: 3D scanning data can be used for structural analysis and assessment, helping engineers identify defects, measure dimensions, and evaluate structural integrity. This service is crucial for infrastructure projects, building assessments, and forensic investigations.

5. Custom Solutions: Depending on the unique requirements of your project, you may need custom 3D scanning solutions tailored to your specific needs. Whether it’s specialized equipment, advanced data processing techniques, or custom software development, custom solutions can address specific challenges and deliver actionable insights.

Before selecting 3D scanning services for your project, it’s essential to clearly define your objectives, timeline, and budget. Consulting with experienced 3D scanning professionals can help identify the most suitable services and ensure the successful execution of your project.

What industries benefit from 3d LiDAR Scanning?

Several industries benefit from 3D LiDAR scanning due to its ability to capture highly accurate and detailed spatial data. Some of the key industries include:

1. Architecture, Engineering, and Construction (AEC): 3D LiDAR scanning revolutionizes the AEC industry by providing architects, engineers, and construction professionals with precise as-built documentation, streamlined site surveys, clash detection, and construction progress monitoring.

2. Urban Planning and Development: Urban planners utilize 3D LiDAR scanning to assess existing infrastructure, analyze land use patterns, model urban environments, and plan for future development projects with greater accuracy and efficiency.

3. Surveying and Mapping: Surveyors and cartographers leverage 3D LiDAR scanning to create detailed topographic maps, survey land parcels, and monitor changes in the natural environment. LiDAR data enhances traditional surveying methods by providing a comprehensive and highly accurate representation of the terrain.

4. Transportation and Infrastructure: Transportation agencies use 3D LiDAR scanning for infrastructure inspection, asset management, and planning transportation projects such as roadways, railways, bridges, and tunnels. LiDAR data enables engineers to assess the condition of infrastructure assets and plan for maintenance and upgrades.

5. Environmental Monitoring and Conservation: Environmental scientists utilize 3D LiDAR scanning to monitor changes in ecosystems, assess habitat health, and manage natural resources. LiDAR data facilitates the identification of vegetation, terrain, and water features, supporting conservation efforts and ecological research.

6. Forestry and Agriculture: Forestry and agricultural professionals employ 3D LiDAR scanning for forest inventory, crop monitoring, and precision agriculture. LiDAR data enables the measurement of tree height, canopy density, and biomass, leading to more efficient forest management and crop yield optimization.

7. Mining and Natural Resources: Mining companies use 3D LiDAR scanning for geological mapping, volumetric analysis, and mine planning. LiDAR data aids in the identification of ore deposits, terrain analysis, and slope stability assessments, improving safety and efficiency in mining operations.

8. Energy and Utilities: Energy and utility companies utilize 3D LiDAR scanning for infrastructure inspection, asset management, and planning energy projects such as power plants, transmission lines, and substations. LiDAR data facilitates the identification of utility assets, vegetation encroachment, and corridor analysis.

Overall, 3D LiDAR scanning has broad applications across various industries, providing valuable insights, enhancing decision-making processes, and driving innovation in diverse fields.