I. Toschi scite author profile

ABSTRACT:The paper reports some comparisons between commercial software able to automatically process image datasets for 3D reconstruction purposes. The main aspects investigated in the work are the capability to correctly orient large sets of image of complex environments, the metric quality of the results, replicability and redundancy. Different datasets are employed, each one featuring a diverse number of images, GSDs at cm and mm resolutions, and ground truth information to perform statistical analyses of the 3D results. A summary of (photogrammetric) terms is also provided, in order to provide rigorous terms of reference for comparisons and critical analyses.

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Investigation of indoor and outdoor performance of two portable mobile mapping systems

Nocerino

Menna

Remondino

et al. 2017

105

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Aerial multi-camera systems: Accuracy and block triangulation issues

Rupnik

Nex

Toschi

et al. 2015

ISPRS Journal of Photogrammetry and Remote Sensing

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GRAPHOS – open‐source software for photogrammetric applications

Aguilera

López-Fernández

Rodríguez‐Gonzálvez

et al. 2018

The Photogrammetric Record

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This paper reports the latest developments for the photogrammetric open‐source tool called GRAPHOS (inteGRAted PHOtogrammetric Suite). GRAPHOS includes some recent innovations in the image‐based 3D reconstruction pipeline, from automatic feature detection/description and network orientation to dense image matching and quality control. GRAPHOS also has a strong educational component beyond its automated processing functions, reinforced with tutorials and didactic explanations about algorithms and performance. The paper highlights recent developments carried out at different levels: graphical user interface (GUI), didactic simulators for image processing, photogrammetric processing with weight parameters, dataset creation and system evaluation.

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Accuracy Evaluation of a Mobile Mapping System With Advanced Statistical Methods

Toschi

Rodríguez‐Gonzálvez

Remondino

et al. 2015

Int. Arch. Photogramm. Remote Sens. Spatial Inf. Sci.

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ABSTRACT:This paper discusses a methodology to evaluate the precision and the accuracy of a commercial Mobile Mapping System (MMS) with advanced statistical methods. So far, the metric potentialities of this emerging mapping technology have been studied in few papers, where generally the assumption that errors follow a normal distribution is made. In fact, this hypothesis should be carefully verified in advance, in order to test how well the Gaussian classic statistics can adapt to datasets that are usually affected by asymmetrical gross errors. The workflow adopted in this study relies on a Gaussian assessment, followed by an outlier filtering process. Finally, non-parametric statistical models are applied, in order to achieve a robust estimation of the error dispersion. Among the different MMSs available on the market, the latest solution provided by RIEGL is here tested, i.e. the VMX-450 Mobile Laser Scanning System. The test-area is the historic city centre of Trento (Italy), selected in order to assess the system performance in dealing with a challenging and historic urban scenario. Reference measures are derived from photogrammetric and Terrestrial Laser Scanning (TLS) surveys. All datasets show a large lack of symmetry that leads to the conclusion that the standard normal parameters are not adequate to assess this type of data. The use of non-normal statistics gives thus a more appropriate description of the data and yields results that meet the quoted a-priori errors.

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I. Toschi

A Critical Review of Automated Photogrammetric Processing of Large Datasets

Investigation of indoor and outdoor performance of two portable mobile mapping systems

Aerial multi-camera systems: Accuracy and block triangulation issues

GRAPHOS – open‐source software for photogrammetric applications

Accuracy Evaluation of a Mobile Mapping System With Advanced Statistical Methods

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