Carmine Grasso scite author profile

This paper investigated the achievable accuracy from a low-cost RTK (Real Time Kinematic)/PPK (Post Processing Kinematic) GNSS (Global Navigation Satellite Systems) system installed on board a UAV (Unmanned Aerial Vehicle), employing three different types of GNSS Bases (Alloy, RS2 and RING) working in PPK mode. To evaluate the quality of the results, a set of seven GCPs (Ground Control Points) measured by means of the NRTK (Network Real Time Kinematic) technique was used. The outcomes show a RMSE (Root Mean Square Error) of 0.0189 m for an ALLOY Base, 0.0194 m for an RS2 Base and 0.0511 m for RING Base, respectively, on the vertical value of DEMs (Digital Elevation Models) obtained by a photogrammetric process. This indicates that, when changing the Base for the PPK, the solutions are different, but they can still be considered adequate for precision positioning with UAVs, especially when GCPs could be used with some difficulty. Therefore, the integration of a RTK/PPK GNSS module on a UAV allows the reconstruction of a highly detailed and precise DEM without using GCPs and provides the possibility to carry out surveys in inaccessible areas.

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Measuring the alignment between business processes and software systems

Grasso

Tortorella

2010

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A Framework for Measuring the Alignment between Business Processes and Software Systems

Grasso

Tortorella

2009

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Goal-driven Approach for Business/IT Alignment Evaluation

Grasso

Tortorella

2013

Procedia Technology

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Investigating Differences and Commonalities of Software Metric Tools

Grasso

Tortorella

2017

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Carmine Grasso

Managing the alignment between business processes and software systems

A Literature Review of Business/IT Alignment Strategies

A Literature Review of Business/IT Alignment Strategies

A Test on the Potential of a Low Cost Unmanned Aerial Vehicle RTK/PPK Solution for Precision Positioning

Measuring the alignment between business processes and software systems

A Framework for Measuring the Alignment between Business Processes and Software Systems

Goal-driven Approach for Business/IT Alignment Evaluation

Investigating Differences and Commonalities of Software Metric Tools

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