Surface network extraction from high resolution digital terrain models

AbstractBepiColombo mission will provide Digital Terrain Models of the surface of Mercury by means of the stereo channel of the SIMBIO-SYS (Spectrometer and Imaging for MPO BepiColombo Integrated Observatory SYStem) imaging package onboard. The work here described presents a novel approach for the creation of higher resolution stereo products using the high-resolution channel of SIMBIO-SYS. Being the camera rigidly integrated with the spacecraft, this latter must be tilted to acquire stereo pairs necessary for the 3D reconstruction. A new method for image simulation and stereo reconstruction is presented in this work, where the input data are chosen as closely as possible to the real mission parameters. Different simulations are executed changing the illumination conditions and the stereo angles. The Digital Terrain Models obtained are evaluated and an analysis of the best acquisition conditions is performed, helping to improve the image acquisition strategy of BepiColombo mission. In addition, a strategy for the creation of a mosaic from different images acquired with the high-resolution channel of SIMBIO-SYS is explained, giving the possibility to obtain tridimensional products of extended targets.

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Identification and visualisation of possible ancient ocean shoreline on Mars using submeter-resolution Digital Terrain Models

Geologos ◽

10.2478/logos-2014-0017 ◽

2014 ◽

Vol 20 (4) ◽

pp. 289-301 ◽

Cited By ~ 4

Author(s):

Andrzej Świąder

Keyword(s):

High Resolution ◽

Good Alternative ◽

Digital Terrain Models ◽

Digital Terrain ◽

Terrain Models ◽

Morphometric Analyses ◽

Geological Past ◽

Imaging Science ◽

Resolution Imaging ◽

Effective Use

Abstract Digital Terrain Models (DTMs) produced from stereoscopic, submeter-resolution High Resolution Imaging Science Experiment (HiRISE) imagery provide a solid basis for all morphometric analyses of the surface of Mars. In view of the fact that a more effective use of DTMs is hindered by complicated and time-consuming manual handling, the automated process provided by specialists of the Ames Intelligent Robotics Group (NASA), Ames Stereo Pipeline, constitutes a good alternative. Four DTMs, covering the global dichotomy boundary between the southern highlands and northern lowlands along the line of the presumable Arabia shoreline, were produced and analysed. One of them included forms that are likely to be indicative of an oceanic basin that extended across the lowland northern hemisphere of Mars in the geological past. The high resolution DTMs obtained were used in the process of landscape visualisation.

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A Methodological Framework for Free and Open-Source UAV-Based Archaeological Research

Advances in Archaeological Practice ◽

10.1017/aap.2021.27 ◽

2021 ◽

pp. 1-8

Author(s):

Kelsey M. Reese ◽

Sean Field

Keyword(s):

High Resolution ◽

Open Source ◽

Cultural Landscapes ◽

Analytical Framework ◽

Archaeological Survey ◽

Digital Terrain Models ◽

Digital Terrain ◽

Terrain Models ◽

Processing Power ◽

Uav Images

Abstract Full-coverage pedestrian survey to record cultural features on unexplored archaeological landscapes is costly in terms of time, money, and personnel. Over the past two decades, researchers have implemented remote sensing and landscape data collection techniques using unmanned aerial vehicles (UAVs) to combat some of these burdens, but the initial cost of equipment, software, and processing power has hindered the ubiquitous implementation of UAV technology as an accessible companion tool to traditional archaeological survey. This article presents a free and open-source, technology-independent analytical framework for the collection and processing of UAV images to produce high-resolution digital terrain models limited only by the equipment available to the researcher. Results from the free and open-source protocol are directly compared to those produced using proprietary software to illustrate the capabilities of freely available data processing tools for UAV-collected images. By replicating the methods outlined here, researchers should be able to identify and target areas of interest to increase fieldwork efficiency, decrease costs of implementing this technology, and produce high-resolution digital terrain models to conduct spatial analyses that pursue a deeper understanding of cultural landscapes.

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