Major advances in smartphones and tablets in terms of their built-in sensors (esp. cameras),
available computational power and on-board memory are transforming the role of such …

Capturing and quantifying the world in three dimensions (x, y, z) using light detection and
ranging (lidar) technology drives fundamental advances in the Earth and Ecological …

Photogrammetry and geosciences have been closely linked since the late 19th century due
to the acquisition of high-quality 3-D data sets of the environment, but it has so far been …

Abstract Structure from motion (SfM) with multiview stereo, a technique from photogrammetry
and computer vision that uses overlap** images to reconstruct 3D surface models, is a …

In the last two decades, airborne laser scanning (ALS) has found widespread application
and driven fundamental advances in the Earth sciences. With increasing availability and …

Rockfall inventories are essential to quantify a rockfall activity and characterize the hazard.
Terrestrial laser scanning and advancements in processing algorithms have resulted in …

We present a monitoring technique tailored to analysing change from near-continuously
collected, high-resolution 3-D data. Our aim is to fully characterise geomorphological …

The analysis of topographic time series is often based on bitemporal change detection and
quantification. For 3D point clouds, acquired using laser scanning or photogrammetry …

We present an automated terrestrial laser scanning (ATLS) system with automatic near-real-
time change detection processing. The ATLS system was tested on the Séchilienne …

Slope instabilities adjacent to transportation corridors require timely and precise assessment
to determine the risk to road users, particularly when weather changes trigger these …