In today's fast-paced geospatial industry, the need for accurate, high-quality data is paramount. Enter the UltraCam Dragon 4.1—a revolutionary hybrid aerial mapping system that combines advanced oblique imaging and Lidar scanning from RIEGL into a single, integrated device. Designed to meet the demands of a wide range of applications, from city modeling to corridor mapping, the UltraCam Dragon offers unique flexibility and precision.
This blog post delves into its versatile operating modes and the powerful software that supports it, solidifying its position as the premier solution for achieving top-tier data accuracy in airborne urban mapping.
The UltraCam Dragon integrates nadir and oblique cameras with a sophisticated RIEGLVQ-680 OEM LiDAR Scanner in a single device. Leveraging Vexcel technology, the camera system includes a high-resolution nadir image frame and four oblique cameras positioned at 45° in the cardinal directions. It captures RGB imagery using Bayer-pattern sensors and a near-infrared band in the nadir direction. The LiDAR Scanner features a unique scan line pattern specifically designed to match the camera concept with five viewing angles—nadir, two forward at 10° and 20°, and two backward at the same angles—achieved through a rotating mirror wheel, offering versatile capabilities for various applications.
The UltraCam Dragon is a highly flexible device that can be utilized in a variety of ways to suit different project requirements.
Corridor Mapping with the UltraCam Dragon 4.1.
All of these variations are well-supported by the software ecosystem that comes with the Dragon. For the image components, UltraMap is used while the LiDAR processing relies on RiPROCESS from RIEGL. Postprocessing of the raw data in these software packages is required and then depending on the use case, optional modules or combination with 3rd party software can be utilized. All processing is based on trajectory data, which results on postprocessing in Applanix PosPac.
UltraMap offers a number of modules for photogrammetric image processing and includes tools for all of these steps:
RIEGL’s RiPROCESS can be seen as the equivalent for the first few steps of above workflow for the lidar world, it provides:
You are currently viewing a placeholder content from Facebook. To access the actual content, click the button below. Please note that doing so will share data with third-party providers.
More InformationYou are currently viewing a placeholder content from Instagram. To access the actual content, click the button below. Please note that doing so will share data with third-party providers.
More InformationYou are currently viewing a placeholder content from X. To access the actual content, click the button below. Please note that doing so will share data with third-party providers.
More Information