Project Details

This project involved creating and updating digital spatial 3D maps of road networks across 1135 km and 736 km using mobile LIDAR scanning, orthophoto, and aerial scanning data. The detailed maps support ongoing road monitoring, infrastructure assessment, and project development for road modernization and repair.

Client: A geodetic and engineering company specializing in surveying, property management, and geospatial solutions.

Sector:

  • Geodesy and cartography
    Landscape design
  • Engineering
    LIDAR Data Processing Service

Sub Sector:

  • 3D Mapping
  • Infrastructure Monitoring 

Services:

  • LiDAR Data Processing
  • 3D Mapping
  • Vectorization of Road Networks
  • Infrastructure Monitoring and Modernization Planning

Solution:

  • Creation and update of electronic vector maps for road networks using mobile LIDAR scanning data
  • Utilization of orthophotos with 5 cm precision for detailed object recognition
  • 3D vectorization using X, Y, Z coordinates to accurately represent road and surrounding infrastructure
  • Additional use of aerial scanning and 365-degree photos for comprehensive monitoring and analysis
  • Integration of data for road modernization and redevelopment project planning

Location: Czech Republic

Technology and Software:

  • Marushka 3D Design: Used for 3D vectorization and map creation
  • Mobile LIDAR and Aerial Scanning: Employed for accurate data collection

People:
A dedicated team of specialists from GisPoint, worked on this project. Their expertise in LIDAR scanning, 3D mapping, and infrastructure monitoring ensured high-quality data collection and processing, resulting in an accurate representation of the road networks.

Process & Challenges

Process:

Data Acquisition: LIDAR scanning (mobile and aerial) was performed across large distances, supplemented by high-precision orthophotos and 365-degree images.

3D Mapping: Data was processed and vectorized in 3D (X, Y, Z coordinates) using Marushka 3D Design.

Data Integration: Multiple data sources were combined to create comprehensive and up-to-date road network maps.

Final Adjustments: Quality checks ensured the maps met the requirements for infrastructure monitoring and future project planning.

Challenges:

The complexity of processing and integrating data from different scanning technologies, including mobile and aerial LIDAR.

Ensuring the precision of 3D vectorization for accurate representation of infrastructure elements.

Managing the large volume of data while maintaining consistency and accuracy across the mapped areas.

Result

The project resulted in highly detailed and updated 3D vector maps of road networks and surrounding infrastructure. These maps will be used for monitoring road conditions, planning modernization projects, and facilitating future infrastructure development.

Our Team

Ievgen Lavrishko
CEO & Owner
Khrystyna Bochko
HR Generalist
Alevtyna Kostianchuk
Senior Project Manager
Andriiana Pavlyshyn
Head of Business Development
Roman Nahaiovskyi
Project Manager
Maria Kizim
Lead Generation Specialist
Ivanna Soltys
Tender Manager

Navigating Our Impressive GIS Portfolio

  • Creating a digital spatial 3D map from mobile lidar scanning data

    Location:

    Czech Republic

    The input data is a cloud of Lidar points obtained using mobile Lidar scanning, as well as orthophoto maps, 360 panoramic photos.
  • Creating a digital spatial 3D model of a concrete support

    Location:

    Czech Republic

    A digital spatial 3D model of a concrete support was created in Bentley MicroStation – Terra solid based on laser scanning.
  • Determining the area with snow cover on a mountain range using Lidar data

    Location:

    Poland

    Classification of point clouds for obtaining high-quality digital DEM, DSM, DTM, TIN models and determination of areas with snow cover.
  • Creation of a digital spatial 3D/2D model of the Tunnel

    Location:

    Czech Republic

    To create 3D models of the tunnel and 2D sections based on Laser Scanning.
  • Creation and updating of topographics data and underground communications databases

    Creation and updating of topographics data and underground communications databases on a scale of 1:500.
  • Accurate 3D Vectorization of Mobile Mapping Data

    Project on vectorization of objects obtained from mobile map data

Working on the Project:
A Step-by-Step Journey to Success

01

PREPARATION

You give us a pilot project – set us a
task, provide samples, templates,
instructions.
02

PILOT PROJECT

We carry out this pilot project
for FREE, according to all your
instructions.
03

AGREEMENT

You evaluate our work, we agree on
the cost of further work.
04

LET’S STARTED!

We sign a cooperation agreement and
NDA, after which our team gets to
work.

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    United Kingdom

    Devonshire str., 41, Ground Floor, London W1G 7AJ, UK

    Estonia

    Harju maakond, Tallinn, Kesklinna linnaosa, Kaupmehe tn 7-120, 10114, Estonia

    Ukraine

    Ukraine, Lviv, Sadova street, 2a/1
    +380672088520 Ievgen Lavrishko
info@gis-point.com