On Device Processing and the On Site Scanning Experience

Author : Gary Walton | Published On : 23 Jun 2026

A major challenge with professional 3D scanning workflows has been the reliance on external computers for real-time data processing and model verification. The EinScan Rigil solves this issue by integrating a full data-processing computing platform directly into its handheld chassis. This design turns the device into a self-contained scanning workstation, changing how professionals collect data on-site. Operators no longer need to balance laptops on active factory floors or carry heavy computing equipment into remote outdoor areas.

The internal computing system features an efficient 8-core processor, 32GB of high-speed LPDDR5 RAM, and a spacious 1TB solid-state drive. This hardware configuration enables the scanner to run the embedded EinScan App smoothly, executing complex point-cloud registration and noise-reduction algorithms locally. Users can capture millions of data points per second, and the internal processor tracks, filters, and saves the data in real time. This on-device processing power provides a responsive scanning experience without lag or data bottlenecks.

The central component of the user experience is the integrated 6.4-inch 2K AMOLED touchscreen display on the back of the scanner. This bright, high-resolution screen provides clear visual feedback, displaying the 3D model as it is being built in real time. Operators can use intuitive touch gestures to rotate, zoom, and inspect the captured geometry from various angles. This immediate visual confirmation ensures that shadow zones or missing spots are identified and filled before leaving the site.

The built-in software also includes a multi-project alignment feature that changes how large-scale on-site projects are managed. Instead of capturing a massive object in a single large file, operators can break the task into smaller, manageable sub-projects on the device. For instance, when scanning a large statue or industrial machine, different sections can be captured as separate files and aligned directly on the screen. The intuitive split-screen user interface provides clear indicators to guide the alignment process accurately. what is a 3d scanner

In addition to alignment, the on-board system offers a variety of quick editing tools to clean and optimize data on the spot. Users can delete unwanted background points, filter out flat floor surfaces automatically with the auto-cutting plane tool, and apply advanced noise reduction. These adjustments ensure that the stored data is clean and optimized before export, saving time during final post-processing. Models can be exported directly from the device to a flash drive or shared via integrated cloud systems.

For projects that require advanced processing power, the scanner connects easily to a desktop computer using Wi-Fi 6 or a Type-C cable. The data gathered on-site transfers directly into the EXScan Rigil PC software, which unlocks deeper editing, mesh optimization, and coordinate alignment tools. This flexible workflow combines the speed of mobile on-site capture with the deep editing capabilities of a desktop workstation. It ensures that the transition from physical object to design-ready model is smooth and accurate.

Ultimately, on-device computing sets a new standard for portable professional metrology tools. By moving the processing tasks into the handheld unit, this device provides an efficient, reliable solution for field engineering, heritage documentation, and industrial inspection. Operators work with greater independence, confidence, and speed, knowing that they can capture and verify high-quality 3D data anywhere. This self-contained design marks a significant step forward in the evolution of modern digital modeling workflows.