The current generation of Mobile Mapping Systems (MMSs) capture high density spatial data in a short time-frame. The quantity of data is difficult to predict as there is no concrete understanding of the point density that different scanner configurations and hardware settings will exhibit for objects at specific distances. Obtaining the required point density impacts survey time, processing time, data storage and is also the underlying limit of automated algorithms. This paper details a novel method for calculating point and profile information for terrestrial MMSs which are required for any point density calculation. Through application of algorithms utilising 3D surface normals and 2D geometric formulae, the theoretically optimal profile ...
Mobile mapping systems (MMS) are becoming widely used in standard geodetic tasks more commonly in th...
The use of digital three-dimensional (3D) data has increased over the last two decades as private an...
Abstract: Mobile laser scanning puts high requirements on the accuracy of the positioning systems an...
The current generation of Mobile Mapping Systems (MMSs) capture high density spatial data in a short...
The current generation of Mobile Mapping Systems (MMSs) capture increasingly larger amounts of data...
Understanding how various Mobile Mapping System (MMS) laser hardware configurations and operating p...
When a laser scanner is mounted on a moving platform and combined with a GNSS receiver and inertial ...
A Mobile Mapping System (MMS) equipped with laser scanners can collect large volumes of LiDAR data i...
The LiDAR (Light Detection And Ranging) technology is becoming a more and more popular method to col...
The large volumes of point cloud data collected by a Mobile Mapping System(MMS) equipped with a lase...
A Mobile Mapping System (MMS) equipped with laser scanners can collect large volumes of LiDAR data ...
Multiple laser scanner hardware configurations can be applied to Mobile Mapping Systems. As best pra...
The current generation of Mobile Mapping Systems (MMSs) capture increasingly larger amounts of data ...
Mobile mapping systems (MMS) are becoming widely used in standard geodetic tasks more commonly in th...
The use of digital three-dimensional (3D) data has increased over the last two decades as private an...
Abstract: Mobile laser scanning puts high requirements on the accuracy of the positioning systems an...
The current generation of Mobile Mapping Systems (MMSs) capture high density spatial data in a short...
The current generation of Mobile Mapping Systems (MMSs) capture increasingly larger amounts of data...
Understanding how various Mobile Mapping System (MMS) laser hardware configurations and operating p...
When a laser scanner is mounted on a moving platform and combined with a GNSS receiver and inertial ...
A Mobile Mapping System (MMS) equipped with laser scanners can collect large volumes of LiDAR data i...
The LiDAR (Light Detection And Ranging) technology is becoming a more and more popular method to col...
The large volumes of point cloud data collected by a Mobile Mapping System(MMS) equipped with a lase...
A Mobile Mapping System (MMS) equipped with laser scanners can collect large volumes of LiDAR data ...
Multiple laser scanner hardware configurations can be applied to Mobile Mapping Systems. As best pra...
The current generation of Mobile Mapping Systems (MMSs) capture increasingly larger amounts of data ...
Mobile mapping systems (MMS) are becoming widely used in standard geodetic tasks more commonly in th...
The use of digital three-dimensional (3D) data has increased over the last two decades as private an...
Abstract: Mobile laser scanning puts high requirements on the accuracy of the positioning systems an...