Leica XPro

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There is a perception that digital frame cameras produce imagery in much the same way as traditional analog frame cameras. Therefore, it was sometimes thought that the transition from analog photogrammetric processing to digital frame camera workflow would be easy and smooth, while the adaptation to line sensor workflow would involve significant relearning. Recent reports from customers using both frame and line sensor workflow are proof that these perceptions are wrong!
Large-format frame sensor configurations use multiple sensor heads. To produce a final frame requires  several additional processing steps which include compensation of system specific parameters, co-registration of the multiple head patched data and the introduction of so-called "virtual frames".
In comparison, the Leica XPro line sensor workflow is straightforward to implement and easy to use for those familiar with the traditional analog frame processing. Most importantly, it produces the best results.
Performance Indicators:
1. Manage data quality
Quality control tools can indicate a successful data capture mission at the earliest stage of processing
Uniform workflow from download to orthophoto generation
2. Add accuracy
Direct georeferencing from NovAtel SPAN Inertial Position & Attitude System is used and further improved by aerial triangulation
Aerial triangulation step of Leica XPro is simplified to a "black box" level
Deliver at the speed of flight
For stereoviewable images or high resolution orthophotos – Leica XPro is designed to deliver with extreme speed
Products are ready for further handling by a wide range of digital photogrammetry software packages
More matches to win 
Leica XPro DSM pixel matching module delivers high density surface models from ADS images. 
Leica XPro DSM info clouds are:
With pixel level accuracy
100% fitting to triangulated image orientation
From clean and reliable matching quality
RGB- and FCIR coloured
Containing vegetation classification
From scalable matching environment supporting distributed processing

There is a perception that digital frame cameras produce imagery in much the same way as traditional analog frame cameras. Therefore, it was sometimes thought that the transition from analog photogrammetric processing to digital frame camera workflow would be easy and smooth, while the adaptation to line sensor workflow would involve significant relearning. Recent reports from customers using both frame and line sensor workflow are proof that these perceptions are wrong!
Large-format frame sensor configurations use multiple sensor heads. To produce a final frame requires  several additional processing steps which include compensation of system specific parameters, co-registration of the multiple head patched data and the introduction of so-called "virtual frames".
In comparison, the Leica XPro line sensor workflow is straightforward to implement and easy to use for those familiar with the traditional analog frame processing. Most importantly, it produces the best results.
Performance Indicators:

1. Manage data quality
Quality control tools can indicate a successful data capture mission at the earliest stage of processing
Uniform workflow from download to orthophoto generation

2. Add accuracy
Direct georeferencing from NovAtel SPAN Inertial Position & Attitude System is used and further improved by aerial triangulation
Aerial triangulation step of Leica XPro is simplified to a "black box" level
Deliver at the speed of flight
For stereoviewable images or high resolution orthophotos – Leica XPro is designed to deliver with extreme speed
Products are ready for further handling by a wide range of digital photogrammetry software packages
More matches to win 
Leica XPro DSM pixel matching module delivers high density surface models from ADS images. 
Leica XPro DSM info clouds are:
With pixel level accuracy
100% fitting to triangulated image orientation
From clean and reliable matching quality
RGB- and FCIR coloured
Containing vegetation classification
From scalable matching environment supporting distributed processing