GNGTS 2015 - Atti del 34° Convegno Nazionale

visualize the gathered data in real time, and compels to walk quite slowly when performing a measurement campaign. Moreover, such a long integration time would constitute an even worse technological problem for a system equipped with an array of antennas. Therefore, indeed commercial stepped frequency systems usually works with meaningfully shorter integration times. This makes consistent a question about the investigation of the possibilities offered by a reconfiguration of the integration time starting from a shorter default basic integration time. At the conference, some results also in this sense will be shown. Acknowledgements. The authors mentions with gratitude the Puglia Region, that funded the Aitech Project and the TUcost Action 1208, that funded two Short Term Scientific Missions (STMS) in Norway and in Malta, that allowed us the understand, implement and test the reconfiguration of the integration times. References Castaldo R., Crocco L., Fedi M., Garofalo B., Persico R., Rossi A. and Soldovieri F.; 2009: GPR Microwave Tomography for Diagnostic of Archaeological Sites: the Case of a high-way construction in Pontecagnano (Southern Italy) , Archaeological Prospection, 16 , 203-217. Daniels D. J; 2004: Ground penetrating radar 2 nd edition , IEE press. Jol H.; 2009: Ground Penetrating Radar: Theory and applications , Elsevier. Goodman D. and Piro S.; 2013: GPR Remote Sensing in Archaeology , Springer-Verlag ed.. Masini N, Persico R., Rizzo E, Calia A, Giannotta M. T., Quarta G. and Pagliuca A.; 2010: Integrated Techniques for Analysis and Monitoring of Historical Monuments: the case of S.Giovanni al Sepolcro in Brindisi (Southern Italy) , Near Surface Geophysics, 8 , 423-432. Matera L. , Noviello M., Ciminale M. and Persico R.; 2015: Integration of multisensor data: an experiment in the archaeological park of Egnazia (Apulia, Southern Italy) , accepted for publication on Near Surface Geophysics. Noon D. A.; 1996: Stepped-Frequency Radar Design and Signal Processing Enhances Ground Penetrating Radar Performance , Ph.D. Thesis, Department of Electrical & Computer Engineering, University of Queensland, Australia. Ouadfeul S. A. and Aliouane L.; 2014: Noise Attenuation from GPR Data Using avelet Transform and Artificial Neural Network, IJAPM , 4 , 426-433. Persico R.; 2014: Introduction to Ground Penetrating Radar: Inverse Scattering and data processing , Wiley. Persico R., Ciminale M. and Matera L.; 2014: A new reconfigurable stepped frequency GPR system, possibilities and issues; applications to two different Cultural Heritage Resources , Near Surface Geophysics, 12 , 793-801. Persico R., D’Amico S. and Matera L.; 2015: Report for the Scientific Short Term Mission “Use of GPR and standard geophysical methods to explore the subsurface” granted by the Europen Cost Action TU1208. Persico R., Prisco G.; 2008: A Reconfigurative Approach for SF-GPR Prospecting, IEEE Trans. on Antennas and Propagation, 56 , 2673-2680. Persico R., Soldovieri F., Pierri R.; 2002: Convergence Properties of a Quadratic Approach to the Inverse Scattering Problem , Journal of Optical Society of America Part A, 19 , 2424-2428. Pieraccini M., Noferini L., Mecatti D., Atzeni C., Persico R. and Soldovieri F.; 2006: Advanced Processing Techniques for Step-frequency Continuous- ave Penetrating Radar: the Case Study of “Palazzo Vecchio” alls (Firenze, Italy), Research on Nondestructive Evaluation, 17 , 71-83. Pierri R., Leone G., Soldovieri F. and Persico R.; 2001: Electromagnetic inversion for subsurface applications under the distorted Born approximation , Nuovo Cimento, 24C , 245-261. Piscitelli S., Rizzo E., Cristallo F., Lapenna V, Crocco L., Persico R. and Soldovieri F.; 2007: GPR and Microwave Tomography for Detecting shallow Cavities in the Historical Area of Sassi of Matera (Southern Italy) , Near Surface Geophysics, 5 , 275-285. Ranieri G., TroguA., Loddo F., Piroddi L. and Zucca R.; 2015: Geophysics - An Essential Tool for Modern Archaeology. A Case from Monte Prama (Sardinia, Italy) , Proc. 21 st European Meeting of Environmental and Engineering Geophysics, Turin. Sambuelli L., Elia D., Meirano V. and Colombero C.; 2014: Case history : a magnetic and GPR prospection on a Roman rural villa in western Piedmont (Italy ) , Proc. of 33th Convegno Nazionale Gruppo Nazionale di Geofisica della Terra Solida, Bologna. van der Merwe A, and Gupta . J.; 2000: A Novel Signal Processing Technique for Clutter Reduction in GPR Measurements of Small, Shallow Land Mines , IEEE Trans. on Geoscience and Remote Sensing, 38 , 2627-2637. GNGTS 2015 S essione 3.3 165

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