3D Roadscans
Our 3D scanning technologies, as used in the 3D Roadscan system, are a central component of modern route planning, route monitoring and infrastructure management.
We rely on LiDAR systems (Light Detection and Ranging), which use laser pulses to capture the environment and create high-precision three-dimensional models.
In addition, we use GPS data to precisely locate the recorded point clouds geographically.
Our benefits at a glance
1. high accuracy
Thanks to the ability to create point clouds with an accuracy of up to 3 cm, we can map road profiles, bridge heights, underpasses and other critical structures in detail. This precise measurement data eliminates the need for time-consuming manual surveying.
2. Time and cost efficiency
With our 3D scans, we can capture road sections within a few hours, whereas conventional methods often take days or weeks. This efficiency leads to significant cost savings and faster project realization.
3. Detection of critical heights
Our system reliably identifies obstacles or problematic height ranges, such as low bridges or tunnels. This data is essential for the safe operation of transportation networks and the use of high-load vehicles.
Further possible applications
Route analysis: Our technology is ideal for analyzing traffic incidents or planning emergency routes.
Conclusion
With our 3D scans, we are making a decisive contribution to the digital transformation of infrastructure planning and maintenance. Our technologies not only improve efficiency and accuracy, but also increase safety in the transportation and heavy-duty industry.
Survey drone
Our surveying drone is an advanced system for the precise recording and analysis of terrain and environmental data. It delivers high-resolution imagery that is ideal for detailed planning and analysis. Thanks to its GPS-controlled network coverage, it can map and document large areas with high accuracy and efficiency.
A key advantage is the ability to display and measure in 3D, allowing precise digital models of landscapes and structures to be created. These models are indispensable for infrastructure projects, construction planning and environmental monitoring.
In addition, the drone can be linked to simulation technologies to develop realistic scenarios, e.g. for traffic or construction site planning.
The drone is particularly valuable for land planning, for example in the areas of wind power, agriculture or when searching for locations for project-related access routes.
With our surveying drone, we offer a pioneering tool that raises precision and efficiency in surveying to a new level.
Feasibility studies
With our feasibility studies, we create clarity about the feasibility of a project, minimize risks, optimize budgets and promote sustainable project development. Should you require further information or specific advice, we are always at your disposal!
Our feasibility studies are an indispensable tool for comprehensively assessing the feasibility of projects, identifying potential challenges at an early stage and enabling well-founded decisions to be made. We use a structured and precise approach that is divided into several important steps:
Careful on-site inspection by our specialists
Our work begins with a detailed analysis on site. Trained specialists evaluate all relevant parameters directly at the project site to ensure realistic and reliable results.
Support through modern technologies
We rely on innovative measuring and recording systems for precise data acquisition. These not only ensure high accuracy, but also maximum efficiency during analysis.
Detailed documentation of all measures
A central component of our feasibility studies is comprehensive logging. All necessary measures, identified challenges and relevant results are precisely recorded. This documentation forms the basis for planning and implementation.
Creation of a comprehensive final report
At the end, we draw up a detailed final report. This summarizes the results, recommended measures and potential risks and serves as a basis for decision-making for all parties involved.
Wide range of applications and advantages
Our feasibility studies cover a wide range of possible applications:
- Construction planning: evaluation of site conditions, structural restrictions and infrastructural requirements
- Logistics: analysis of accessibility and transportation capacities
- Technical feasibility: checking the integration of new systems or facilities
- Cost and risk analysis: identification of potential cost traps or risks to minimize uncertainties
Simulating bottlenecks and pinch points
Our route analysis is an indispensable tool for the modern planning and optimization of traffic routes and infrastructure projects.
With its versatility, it offers numerous application options and advantages that are decisive in project development:
Fields of application
- Traffic planning: The simulator enables the simulation of curve radii and space requirements for vehicles such as trucks or special vehicles. This allows intersections, traffic circles or access routes to be optimally planned and safely navigated
- Bottleneck analysis: Critical bottlenecks and problematic access routes can be identified at an early stage and mitigated in a targeted manner
Advantages for planning
- Early detection of problem areas: Bottlenecks and insufficient space are identified as early as the planning phase, effectively preventing accidents and damage.
- Cost and time savings: Precise simulation minimizes planning errors that could later lead to expensive rework or delays.
- Efficient use of space: Optimum utilization of the available space contributes to the conservation of resources and sustainable infrastructure design.
Functions in detail
- Tracking curve analysis: The bottleneck simulator calculates exactly how vehicles behave with different steering movements and speeds. These analyses provide precise information about the space required for turning maneuvers or passages.
- Integration of maps and aerial images: Map material and high-resolution aerial images can be seamlessly integrated so that simulations are based directly on the real environment. This increases planning accuracy and facilitates visualization.
- Dynamic adaptation: Various parameters such as vehicle types, loading conditions or driving behavior can be flexibly adapted to simulate realistic scenarios.
Summary
The bottleneck simulator offers a comprehensive solution for complex planning tasks in the areas of traffic, logistics and construction planning. It helps to make projects efficient, future-proof and sustainable by reducing risks and increasing planning quality. If you require specific use cases or additional information, we will be happy to advise you!