Collaborative metrology
Discover why
our technology
is different
Key features:
- Simultaneous (multi point / multi frame 6DOF)
- Continuous measurements (40Hz / dynamic tracking)
- Large volume accuracy (uniform metrological grade accuracy)
- Scalable (expandable / adaptable)
- Dependable measurements (drift compensation)
- Collaborative measurements (track device / other metrology systems)
No other system offers all those features at once! This unique combination makes iGPS it truly industrial friendly!
- Multiple technicians can measure parts simultaneously. - Our dynamic referencial for manufacturing and metrology processes to be carried out simultaneously. - Not affected by component displacement. - Same system can be scaled to measure different volumes. - Real time monitoring helps assure that measurements are always valid.
Real-time motion tracking
Enables fast Automated Assembly with simultaneous multi-point measurements.
Components can be positioned very accurately to a pre-define position and NOT ONLY put into tolerance, enabling: predictive shimming; symmetry optimisation, flush and gap optimisation; bolt length prediction and much more! Enables easy in process-automated inspection.
X, Y, Z axes
Three-dimensional measurements refer to the process of determining the dimensions, volume, and spatial properties of an object or space within three axes—length, width, and height. Unlike two-dimensional measurements, which capture only flat surface dimensions, three-dimensional measurements allow for a more complete representation of an object’s physical characteristics.
These measurements are used in various fields, including engineering, architecture, manufacturing, and medicine. Technologies such as laser scanning, photogrammetry, and 3D modeling software help capture and analyze three-dimensional data with high precision. In everyday applications, 3D measurement is essential for tasks like designing objects, constructing buildings, and even medical imaging.
Measurements
Three-dimensional measurements play a crucial role across many industries and fields. Here are some key applications:
- Engineering and Manufacturing – Used for precision in product design, quality control, and assembly processes. Technologies like 3D scanning and coordinate measuring machines (CMM) ensure accurate dimensions.
- Architecture and Construction – Helps create detailed building plans, verify structural integrity, and improve spatial planning through 3D modeling and scanning.
- Medical Imaging and Healthcare – Used in CT scans, MRIs, and 3D ultrasounds to provide detailed anatomical views, aiding in diagnosis, treatment planning, and prosthetic design.
- Geospatial Mapping and Surveying – Essential for land surveys, topographical mapping, and urban planning using LiDAR and photogrammetry.
- Virtual and Augmented Reality (VR/AR) – Enables realistic virtual environments by capturing detailed three-dimensional data for gaming, simulations, and interactive experiences.
- Forensics and Crime Scene Analysis – Helps reconstruct crime scenes, analyze evidence, and improve investigative accuracy.
- Robotics and Automation – Supports navigation, object recognition, and interaction with the environment in autonomous systems and robotic arms.
Measurement without interruption
iGPS system is designed to provide continuous and precise measurement capabilities in various environments.
The system utilizes advanced sensors to gather data continuously. With ist high accuracy and resolution, iGPS ensures that even the smallest changes can be detected, reducing likelihood of measurement errors. It can also be integrated with other systems and technologies, allowing for a seamless flow of information and continuous data collection.
This technology offers great opportunities in several industries
This technology offers great opportunities in several industries
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and even more...
All of us are more accurate than one of us!
Teamwork in measurement: Just as a team can achieve more than an individual by combining skills and knowledge, the collaborative nature of the iGPS allows for more robust and accurate measurements through the synergy of its components and complementary measurement systems.
The great collaborative aspects of the iGPS exemplify the principle that collective efforts yield greater accuracy and reliability compared to isolated measurements, making it a powerful tool for large precision applications.
Unlock the power of precision. Reach out to us today!
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