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17th International Conference on Ground Penetrating Radar
18_GPR18_Konferenzfuehrer_opti_1_6_2018.indd 1 04.06.18 07:55
2 TABLE OF CONTENTS
CONTENTS
TABLE OF CONTENTS 2
DEAR DELEGATES, GUESTS, COLLEAGUES 3
USEFUL INFORMATION 4
COMMITTEE 5
WORKSHOPS & TUTORIALS 6
KEYNOTE SPEECHES 6
FIELD DEMONSTRATION 7
AWARDS 7
GPR 2020 7
INSTRUCTIONS FOR AUTHORS 8
GPR 2018 – PROGRAMME OVERVIEW 9
PROGRAMME – MONDAY, JUNE 18TH, 2018 11
PROGRAMME – MONDAY, JUNE 18TH, 2018 12
PROGRAMME – TUESDAY, JUNE 19TH, 2018 13
PROGRAMME – TUESDAY, JUNE 19TH, 2018 14
PROGRAMME – WEDNESDAY, JUNE 20TH, 2018 16
PROGRAMME – THURSDAY, JUNE 21ST, 2018 18
CONFERENCE DINNER 20
GEOLOGICAL EXCURSION 21
GUIDED WALKING TOUR 21
PREVIOUS GPR CONFERENCES 22
CONTACT 24
SPONSORSHIP 24
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3DEAR DELEGATES, GUESTS, COLLEAGUES
We always knew that Rapperswil-Jona is a wonderful city with a picturesque historic centre, in a beautiful location and in a lovely region. Our town has seen many visitors and inhabitants, such as the constructors of the pile-dwellings several thousand years ago, the Romans about two thousand years ago or the noblemen building Rapperswil castle about 800 years ago. However, until today, our city with 27000 inhabitants was hardly associated with places like Shanghai, Brussels or Hong Kong. Today this will definitely change. After Shanghai (2012), Brussels (2014) and Hong Kong (2016) GPR 2018 has arrived in Rapperswil-Jona. We are proud and happy to welcome you in our city. We hope you do not only enjoy the conference but also our town and its surroundings.
Welcome to Rapperswil-Jona
Martin Stöckling Mayor of Rapperswil-Jona
Welcome to GPR 2018! I am very happy and it is a great honour to see you all here in Rapperswil. I hope that you are enjoying yourself, the conference and our nice Lake Zurich area. I would like to thank our committees, our local organizing team, our university and all authors for making this possible. If you have any questions, please do not hesitate to ask our team.
Welcome again
Johannes Hugenschmidt Chairman of GPR 2018
It’s my pleasure to welcome you to the HSR, University of Applied Sciences in Rapperswil. The HSR has approximately 1600 students and is without exaggeration the best located campus in Switzerland.
The HSR has three mainstays: training, research and implementation. Competent and qualified, curious, solution-oriented and with passion in our two specialist areas of “Engineering & Information Technology” and “Architecture, Building & Planning”.
Our main focus is on the students taking our degree and continuing education courses and training them to become highly qualified and responsible specialists and managers.
The second central area of activity at the HSR is application-oriented research and development. Effective and practicable solutions are developed in our 17 institutes – in close cooperation with project partners in the private and public sector.
Our professors and lecturers combine practical work, teaching and research. They channel the very latest examples into their teaching and thus provide challenges for our students, develop their team spirit and prepare them for their professional life.
See for yourself and enjoy your stay at the HSR! Wishing you a successful conference
Prof. Dr. Margit Mönnecke Rector of the HSR, University of Applied Sciences Rapperswil
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Seed
amm
Ho
lzst
eg
Castle
Lake Zurich Rapperswil
Knies Kinderzoo
Diners Club Arena
PfäffikonZürichA3
A53, Ausfahrt 13 Jona, Rapperswil, Eschenbach-West
A53, Ausfahrt 12Rapperswil, Kempraten, Rüti
Weidmann
Sonnenhof
Geberit
Gemeindehaus
Jonacenter
Jona
66 51
3
2
4 Campus HSR
Feld
listr
asse
Oberseestrasse
Neue Jonastrasse
Kunstzeughaus
Oberseestrasse
Eichwiesstrasse
Schönbodenstr.
Sportanlagen Grünfeld
10
Eichfeldstrasse
EichwiesEichwiesstrasse 6 +10
BlumenauRegio Uznach, Glarus / St.Gallen
Jona
S5 / S15Wetzikon, Uster, Zürich
S7Uetikon,Zürich
Railway StationRapperswil
TouristInformation
HSR Studenten-wohnheime 1 und 28
6
KREUZ
EntranceHimmapan Lodge
BusskirchstrasseBus 991
1 2
66 51
3
2
4 C3
C2
C18Building 3Ground Floor: Lecture Room 3.008(Oral Presentations)
Building 5Ground Floor: Lecture Room 5.002(Oral Presentations)
Building 4Ground Floor: Canteen (Lunches)First Floor: Main Lecture Hall(Several Presentations, Poster Sessions)
Building 1Ground Floor: Registration Desk, ExibitionFirst Floor: Coffee Breaks
4 USEFUL INFORMATION
USEFUL INFORMATIONName BadgeYour name badge gives you access to all booked events. Make sure to wear it at all times. Without name badge you cannot access scientific sessions, coffee breaks or lunches.
The colour strips on the name badges shows you the categories. Further the name badge includes name, organisation and the home country of the participants.
Red: Delegate. Includes access to all scientific sessions, lunches and coffee breaks, conference dinner, welcome drinks and guided walking tour through Rapperswil city.
Blue: Staff. Do not hesitate to contact them if you have any questions! They can also be identified by their conference t-shirt.
Yellow: Local organisation committee. Do not hesitate to contact them if you have any questions!
Orange: Conference dinner. Additional conference dinner for accompanying persons.
Green: Day pass. Includes access to the scientific sessions, lunch and coffee break on the registered day.
Note: for the category “students” a valid student ID from a university is required!
CateringAs you can see on the map, lunch is provided at the ground floor in building 4.
Coffee breaks take place at the first floor in building 1. During all coffee breaks the exhibition will be open.
InternetFree Wi-Fi service is available from June 17th, 12:00 until June 22nd, 12:00.
1. Switch on the Wireless-LAN on your notebook
2. Connect with the network “HSR-WLAN”
3. Start a web browser if it doesn’t happen automatically.Following window will appear. Fill in the login and the pass-word (see below) and tick the box to agree the terms of use.
4. Register by pressing “Anmelden”.
Please note: Users understand and agree that we don’t check the contents or the reliability of the transferred information or data through our network. Your data is transmitted uncoded and can be read by all. Please use trusted websites as much as possible (https) and trusted email logs (SMTPS/POP3s/IMAPS …). Users have to follow to the guidelines of HSR. Misuse will be prosecuted.
ProceedingsAll presented papers can be downloaded.
Information deskIf you have any questions do not hesitate to contact our student helpers or the local organisation committee. You will always find someone at the registration desk inbuilding 1. Staff can be identified by their conference t-shirt.
Accompanying persons activitiesFor further information about leisure activities please visit the tourist information centre, located on the other side of the railway station (see also on the map).
Geological ExcursionThe post-conference-excursion to Swiss Tectonic Arena Sardona will take place on Friday, 22nd June 2018. Please register at the registration desk until Wednesday 20th June 17:00. Registration is on a first come first serve basis. Please refer to the corresponding section of this brochure for further information.
Time 09.00 –18.00 Meeting 08.45 exhibition entrance Fee CHF 150.– per person Lunch Swiss food, included
GPR2018 2*radarx
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5COMMITTEE
INTERNATIONAL ADVISORY COMMITTEEChi-Chih Chen Ohio State University, Columbus, Ohio, USA
David Redman Sensors & Software Inc., Mississauga, Ontario, Canada
Erica Utsi EMC Radar Consulting, Haddenham, United Kingdom
Evert Slob Delft University of Technology, Delft, The Netherlands
Mary Collins University of Florida (professor emeritus)
Motoyuki Sato Tohoku University, Sendai, Japan
Raffaele Persico National Research Council – IBAM, Italy
Richard Yelf Georadar Pty Ltd., Coffs Harbour, NSW, Australia
Sebastien Lambot Université Catholique de Louvain, Belgium
Steven Koppenjan Bechtel Nevada/Special Technologies Laboratory, UC Santa Barbara, USA
Timo Saarenketo Roadscanners, Rovaniemi, Finland
Wallace Lai The Hong Kong Polytechnic University, Hong Kong
Xiongyao Xie Tongji University, Shanghai, China
LOCAL ORGANISATION COMMITTEEJohannes Hugenschmidt General Chair of GPR 2018 Tel.: +41 55 222 47 95
Daniela Meier Local Coordinator of GPR 2018
Sabine Michel Coordinator of Swiss Special Session, Registration Desk
Rainer Schaufelberger Exhibition, Webmaster
SCIENTIFIC COMMITTEEErica Carrick Utsi EMC Radar Consulting, UK
Chi-Chih Chen Ohio State University, Columbus, Ohio, USA
Xavier Derobert IFSTTAR, Bourgenais, France
Nectaria Diamanti Sensors & Software, Mississauga, Ontario, Canada
Mike Forde The University of Edinburgh, Edinburgh, UK
Antonis Giannopoulos The University of Edinburgh, Edinburgh, UK
Mark Grasmück University of Miami, USA
Volker Gundelach Federal Institute for Geosciences and Natural Resources, Hannover, Germany
Sergey I. Ivashov Bauman Moscow State Technical University, Moscow, Russia
Khan Zaib Jadoon COMSATS Institute of Information Technology, Abbottabad, Pakistan
Harry M. Jol University of Wisconsin – Eau Claire, USA
Thomas Kind BAM, Berlin, Germany
Wallace Lai The Hong Kong Polytechnic University, Hong Kong
Sébastien Lambot Université Catholique de Louvain, Louvain-la-Neuve, Belgium
Hai Liu Xiamen University, Xiamen, China
Lanbo Liu University of Conneticut, USA
Guido Manacorda IDS, S.P.A., Pisa, Italy
Lara Pajewski Sapienza University of Rome, Rome, Italy
Raffaele Persico National Research Council – IBAM, Italy
Dragan Poljak University of Split, Split, Croatia
Roger Roberts Geophysical Survey Systems Inc., Nashua, NH, USA
Timo Saarenketo Roadscanners, Rovaniemi, Finnland
Motoyuki Sato Tohoku University, Sendai, Japan
Evert Slob Delft University of Technology, Delft, The Netherlands
Francesco Soldovieri IREA-CNR, Naples, Italy
Jens Tronicke Potsdam University, Potsdam, Germany
Vincent Utsi Utsi Electronics Ltd, Waterbeach, UK
Jan van der Kruk Jülich Research Center, Jülich, Germany
Craig Warren Northumbria University , Newcastle, UK
Xie Xiongyao Tongji University, Shanghai, China
Richard Yelf GEORADAR Pty Ltd, Coffs Harbour, NSW, Australia
Luigi Zanzi Politecnico di Milano, Milan, Italy
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6 WORKSHOPS & TUTORIALS – KEYNOTE SPEECHES
On June 17th, 2018 we have four interesting workshops with distinguished lecturers. The workshops start at 13:10 and end at about 17:00. Don’t miss that opportunity!
WORKSHOP 1 – VELOCITY MODELS, SIMULATION AND MIGRATIONRoom 1.207
Presented by Karl-Josef Sandmeier from Sandmeier geophysical research, Germany
WORKSHOP 2 – FULL WAVEFORM INVERSION OF GPR DATARoom 1.211
Presented by Hansruedi Maurer and Joseph Doetsch from ETH Zürich, Switzerland, Jan van der Kruk, Forschungszentrum Jülich, Germany
WORKSHOP 3 – STRATIGRAPHIC IMAGING OF GEOMORPHIC, GEOLOGIC AND GEOARCHAEOLOGICAL LANDSCAPESRoom: 1.205
Presented by Harry M. Jol, University of Wisconsin, Eau Claire, USA
WORKSHOP 4 – GPR-THE BASICSRoom: 1.209
Presented by Peter Annan, Sensors & Software Inc., Canada
KEYNOTE SPEECHESThe following keynote speeches by distinguished scientists are presented during GPR 2018. All keynote speeches will be held in the main lecture hall.
Peter Annan GPR unmentionables
Jan van der Kruk GPR full-waveform inversion, recent developments and future opportunities
Lara Pajewski COST Action TU1208 „Civil engineering applications of Ground Penetrating Radar:“ main outcomes of a 54 month journey
Rongyi Qian Research on GPR for desert and permafrost regions in northwest China
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7FIELD DEMONSTRATION – AWARDS – GPR 2020
FIELD DEMONSTRATIONIn the afternoon of June 20th, GPR equipment from all major manufacturers will be demonstrated under real field conditions. The demonstration will take place on the campus. There will be two sites, one on natural ground and one for concrete. The definitive locations will be defined depending on the weather situation.
Don’t miss this opportunity to see the newest GPR equipment from all relevant manufacturers in action.
BEST POSTER AWARDThere will be an award for the best poster at GPR 2018. The award of Swiss Francs 2000.– is sponsored by our media partner, the Sensors open access journal.
The award will be granted by a jury during the poster session(s).
EUROGPR YOUNG SCIENTIST’S AWARDThere will be an award for the best paper/presentation by a young scientist at GPR 2018. The award of Swiss Francs 2000.– will be granted by a jury. Scientists under the age of 30 that are first authors and presenters of a GPR 2018 paper/presentation are eligible for the award. The award is sponsored by EuroGPR, the European GPR Association.
GPR 2020GPR 2020, the 18th International Conference on Ground Penetrating Radar, will take place in 2020. The decision who will organize this conference and where it takes place will be taken by the International Advisory Committee. However, all delegates are welcome to attend the presentations of organizations interested in organizing GPR 2020.
The presentations will take place on June 20th after the field demonstrations in the Main Lecture Hall.
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8 INSTRUCTIONS FOR AUTHORS
INSTRUCTION FOR AUTHORS (ORAL AND POSTER PRESENTATIONS) (A) Oral presentation
§ Arrive at the lecture room before your session starts, and upload your presentation file to the computer. Assistance will be available during coffee and lunch breaks and in the morning 20 minutes before the sessions start.
§ Check everything is working properly.
§ Introduce yourself to the session chair immediately before the start of the session.
§ Presentation time is 15 minutes followed by 5 minutes for discussion. The session chair will indicate when you have 2 min left by standing up and gradually approaching you.
(B) Poster presentation
§ Posters should be printed in A0 size and in portrait orientation. Printing is done by the authors.
§ Mount your poster before your poster session in the location allocated. All necessary tools will be available in the poster area.
§ Please be present in front of the poster during your poster presentation session.
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9GPR 2018 – PROGRAMME OVERVIEWTi
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11PROGRAMME – MONDAY, JUNE 18TH, 2018
PROGRAMME – MONDAY, JUNE 18TH, 2018
09:00 – 09:30 Main lecture hall: Opening of GPR 2018
Welcome addresses
Johannes Hugenschmidt, Conference Chair
Margit Mönnecke, Headmistress of Rapperswil University of Applied Sciences
Martin Stöckling, Mayor of Rapperswil-Jona
09:30 – 10:10 Main lecture hall: Keynote 1 – Peter Annan: GPR unmentionables
10:10 – 11:00 Main lecture hall: Exhibitors introduction
11:00 – 11:30 Opening of exhibition, Coffee break, Exhibition
11:30 – 13:10 Room 3.008
Civil engineering, Chair Xavier Dérobert
11:30 – 11:50 Frequency Influence in Microwave Subsurface Holography for Composite Materials Testing, Ivashov S., Zhuravlev A., Bechtel T.
11:50 – 12:10 Effect of suspended sediments on ground penetrating radar imaging of riverbeds, Nobes D., Hammond K., Basset K.
12:10 – 12:30 Nondestructive moisture mapping from basement walls with high-frequency GPR, Leppälä A., Hamrouche R., Saarenketo T.
12:30 – 12:50 Feasabiliy of the use of coherent dielectric interfaces as a GPR analysis methodology in the context of coastal masonry: an experimental approach, Sachet C., Leparoux D., Sentenac P., Boulay C.
12:50 – 13:10 Laboratory validation of corrosion-induced delamination in concrete by ground penetrating radar, Wong T.W., Poon C.S., Lai W.L.
11:30 – 13:10 Room 5.002
Data processing & analysis, Chair: Evert Slob
11:30 – 11:50 Minimum threshold for the sampling rate to prevent amplitude distortions in aliasing-free GPR surveys, Dossi M, Forte M., Pipan M.
11:50 – 12:10 Analysis and Calibration of Ground Penetrating Radar Shielded Antennas, Razol M., Gracia V, Assunção S.
12:10 – 12:30 Migration Deconvolution of Ground Penetrating Radar (GPR) Data, Fu L.
12:30 – 12:50 Combination of Support Vector Machine and H-Alpha Decomposition for Subsurface Target Classification of GPR, Feng X., Zhou H.
12:50 – 13:10 Study on Polarization Rotation of Electromagnetic Plane Wave from Rough Surface, Feng X., Dong Z.
13:10 – 14:00 Canteen: Lunch
14:00 – 15:40 Foyer Main lecture hall: Poster session 1: Civil engineering, Data processing and analysis, Systems and antenna design, Security, Environment and agriculture
1. Detection of Diaphragm Wall Defects Using Crosshole GPR, Qin H., Xie X.
2. GMS3 a unified system of ground penetrating radar and camera vector for efficient road infrastructure maintenance, Shukla A., Shinohara J., Kato Y.
3. Study on the leakage of the clay dam using Ground penetrating radar and Electromagnetic method, Zhao Y., Hu S., Qin T., An C.
4. Field-scale Validation of Water Pipe Leak by Spatial and Time-lapsed Measurement of GPR Wave Velocity, Cheung B.W., Lai W.W.
5. Use of Ground Penetrating Radar measurement combined to resistivity measurement for characterization of the concrete moisture, Wutke M.K.
6. Structural Planes Parameters Extraction Method Based on Borehole Digital Optical Image and GPR, Li L., Han Z.
7. Application of Synchrosqueezing Short Fourier transform analysis in Ground Penetrating Radar thin layer recognition, Yao Q., Qiao L.
8. Reverse Time Migration of Crosswell GPR Data Based on Wavefield Decomposition, Fu L., Lei L., Zhong C., Liu S.
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12 PROGRAMME – MONDAY, JUNE 18TH, 2018
9. A novel interferometry positioning and tracking method with short baseline for UWB through-the-wall radar system, Ye S.B., Liu X., Zhang J.W., Fang G.Y.
10. Study of object recognition with GPR based on STFT, Wang C., Liu X.
11. Registration and Fusion and Algorithm for Multi-frequency GPR Data, Xianlei X.
12. Lunar Penetrating Radar Data Processing and Analysis Based on CEEMD, Zhang L.
13. The SVD Description of Strata Based on Impulse Single-Borehole Radar Model, Zhao Q., Huo J., Ma C., Guo J.
14. Full-polarimetric GPR for detecting ice fractures, Feng X., Luo C.
15. Estimating moisture changes in concrete using GPR velocity analysis: potential and limitations, Koyan P., Tronicke J., Allroggen N., Kathage A.
16. Tracing the Layer Boundary of the Ice Sheet from Radio Echo Sounding Data, Liu Y.
17. RGPR – An open-source package to process and visualize GPR data, Huber E., Hans G.
18. Noise suppression of GPR data using variational mode decomposition, Zhang Y., Feng X.
19. Modeling of 3D stochastic fracture media and calculation of GPR response, Lin J., Zheng Z., Li J., Zhang L.
20. The Development of Multi-pass GPR system Using Short Chirp Signal, Nozu T., Yamada S., Imai T.
21. Field Experiments Using a Pulse Directional Borehole Radar System with a Dipole Array Antenna, Ebihara S., Onishi J., Katanabe D., Watanabe H.
22. Comparison of GPR and Capacitance Probe laboratory experiments in sandy soils, Ercoli M., diMatteo L., Pauselli C.
23. A Real-time Method For Landmine Detection Using Vehicle Array GPR, Shi X., Cheng D.
24. Terrain Analysis in Eastern Ukraine and the Design of a Robotic Platform Carrying GPR Sensors for Landmine Detection, Bechtel T.D., Pochanin G., Truskavetsky S.
25. Investigation of ice jams using the GPR method, Fedorov M.P., Fedorova L.L., Savvin D.V., Omelyanenko A. V.
26. High-resolution helicopter-borne ground penetrating radar survey to determine glacier base topography and the outlook of a proglacial lake, Church G., Baulder A., Maurer H., Grab M.
27. Irregular changes in antenna height during high speed scanning as a source of essential errors in measuring the thickness of asphalt, Frid F., Frid A.
15:40 – 16:10 Coffee break, Exhibition
16:10 – 17:50 Room 3.008
Civil engineering, Chair: Thomas Kind
16:10 – 16:30 A simplified velocity estimation method for monitoring the damaged pavement by a multistatic GPR system YAKUMO, Yi L., Zou L., Sato M.
16:30 – 16:50 Reconstruction of Subsurface Using 3D GPR (Ground Penetrating Radar) Approach in Lodan Dam Area, Rembang of Central Java, Mardoli O., Sofiyan I.A., Parnadi W.W.
16:50 – 17:10 Ground Penetrating Radar Applications in Mapping Underground Utilities, Lu Q.
17:10 – 17:30 Modelling the diffusion of electromagnetic waves in concrete, RAZAFINDRATSIMA S., SBARTAI M., Balayssac J.P., Payan C.
17:30 – 17:50 Monitoring of water imbibition of a particular porous pavement structure by impulse and step-frequency radar, Dérobert X., Ihamouten A., Bernardin F.
16:10 – 17:50 Room 5.002
Modeling and inversion, Chair: Francesco Soldovieri
16:10 – 16:30 A Novel Forward Model of Ground Penetrating Radar In The Far Field, Zhang J.
16:30 – 16:50 A numerical study on using guided GPR waves along metallic cylinders in boreholes for permittivity sounding, Stadler S., Igel J.
16:50 – 17:10 Quantitative 3-D GPR analysis to estimate the total volume and water content of a glacier, Dossi M., Forte E., Pipan M., Colucci R.
17:10 – 17:30 Weighted-averaging operators for accurate 2.5D finite-difference frequency domain radar waves modeling, Doyon B., Giroux B.
17:30 – 17:50 Theory for 1D full-waveform inversion of surface GPR data, Slob E.
18:00 – 19:30 Meeting point in front of exhibition: Guided walking tour to Rapperswil
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13PROGRAMME – TUESDAY, JUNE 19TH, 2018
PROGRAMME – TUESDAY, JUNE 19TH, 2018
08:40 – 09:20 Main lecture hall: Keynote 2 – Jan van der Kruk: GPR full-waveform inversion, recent developments and future opportunities
09:20 – 11:00 Foyer Main lecture hall: Poster session 2: Modeling and inversion, Geological and geotechnical applications, archeology, Others
1. Full Waveform Inversion of Cross-hole Radar Data Using Envelope Objective Function, Liu X.
2. Pre-stack 3D Reverse time migration of Ground Penetrating Radar for Subsurface Imaging, Wang H., Wang M.
3. Error estimation of velocities derived from FDTD simulated multi-offset GPR data, Sandmeier K.J.
4. Theory for 1D GPR data inversion for a dissipative layered medium, Yang B., Slob E.C.
5. Real-time detection technology of synchronous grouting for shield tunnels and the analysis of grouting effect, Xie X., Zheng L.
6. A Case Study on Detection of Subsurface Cavities of Urban Roads Using Ground-coupled GPR, Baek J., Yoon J.S., Lee C.M., Choi Y.
7. Near-surface imaging of the western part of the neotectonically active Kachchh Mainland Fault (KMF) using Ground Penetrating Radar (GPR), Kachchh palaeorift basin, Western India, Shaikh M., Maurya D.M., Vanik N., Tiwari P.
8. The study on the near surface structure in Yinken Steppe desert using GPR method, Zhao X., Zheng Z., Chen X., Zhang Q.
9. Study of peat deposits heterogenity by the Ground Penetrating Radar, Ryazantsev P., Mironov V.
10. Investigating karst cave sediments of unroofed caves with GPR, XRF and XRD, Ceru T., Dolenec M., Gosar A.
11. GPR investigation of ice-filled cracks in loose deposits, Sokolov K., Federova L., Prudetsky N., Savvin D.
12. Characterization of Subsurface Structure in Different Landforms based on GPR Profiles along the Qinghai-Tibet Highway on Permafrost region, Lu X., Song A., Qian R., Liu L.
13. GPR study of sapropel deposits in Karelian shallow water areas, Rodionov A., Ryazantsev P.
14. Groundwater table level changes based on Ground Penetrating Radar images: a case study, Lejzerowicz A., Kowalczyk S., Kowalczyk B.
15. Internal architecture of fluvial deposits and the morphology of the selected sections of Narew River valley in Warsaw area (central Poland) based on GPR investigations, Lejzerowicz A.,
16. Research on the Difference Detection Method Based on GPR Data, Gao W.
17. Combining ground penetrating radar and electrical resistivity tomography for the study of history of relief development in Dnieper River valley, Bricheva S., Efremov K.
18. Ground-penetrating radar use for internal depositional architecture identification of a Holocene coastal barrier: example of Massambaba beach, Rio de Janeiro State, Brazil, Silva Figueiredo M., Rodrigues Alves C., Mathias dos Santos I.R.
19. Estimation of Petrophysical Parameters of Granular Materials, Applying an Amplitud Inversion From GPR Data: Case Study Irapuato, Gto., Mexico, Centeno Salas F.A., Carreón Freyre D.C.
20. Extending surface geology data through GPR prospections: Quaternary faulting signature from the Campotenese area (Calabria-Italy), Ercoli M., Gafarov K., Cirillo D., Pauselli C.
21. GPR surveys at the Medieval cave village of Casalrotto (Mottola, Apulia), Leucci G., De Giorgi L., Ditaranto I., Miccoli I
22. GPR investigations at the Crypt of St. Sebastian in Sternatia (Lecce – Southern Italy), Leucci G., De Giorgi L., Quarta G., Persico R.
23. Ground penetrating radar investigation of an ancient Spanish fortress: the Fort of San Diego, Acapulco, Mexico, Ortega-Ramirez J., Bano M., Villa-Alvarado L., Sanchez-Junco R.
24. GPR (Ground Penetrating Radar) Survey at Notion (June 2017), Yigit F., Tucker G., Özçelik S.
25. Holocaust Archaeology: Using Ground Penetrating Radar to Locate a Jewish Mass Grave in Kaunas, Lithuania, Burds L.T., Beck J.D., Jol H.M., Freund R.A.
26. Holocaust Archaeology: Searching for Nazi Mass Execution Trenches at Fort IX (Kaunas, Lithuania), Beck J.D., Burds L.T., Jol H.M., Freund R.A.
27. Imaging of Metallic Foreign Body in Organism by Microwave, Li Z., Huang C.
28. Pond View: Intuitive and Efficient Visualization of 3D GPR Data, Grasmück M., Viggiano D.
11:00 – 11:30 Coffee break, Exhibition
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14 PROGRAMME – TUESDAY, JUNE 19TH, 2018
11:30 – 13:10 Room 3.008
Civil engineering, Chair Wallace Lai
11:30 – 11:50 Nondestructive Inspection of an Airport Pavement by MIMO Array GPR “YAKUMO”, Zou L., Kikuta K., Sato M.
11:50 – 12:10 Use of GPR for Monitoring Expansion Mechanism of Subsurface Cavity, Yeon Tae K., Ji Young C., Hee Mun P., Ki Deok K.
12:10-12:30 Estimating Rock Moisture Based on Ground Penetration Radar Survey in Frozen and Thawed States, Fedorova L., Kulyandin A., Savvin V.
12:30 – 12:50 Development of a change-detection method on underground air void identification by time-lapse GPR 3D imaging, Luo X., Lai W., Chang R.
12:50 – 13:10 GPR detection of underground void based on low-rank and sparse representation, Liu L., Han Y., Li J.
11:30 – 13:10 Room 5.002
Data processing & analysis, Chair: K.J. Sandmeier
11:30 – 11:50 Dry snow permittivity evaluation from density: A critical review, Di Paolo F., Cosciotti B., Lauro S.E., Matttei E., Pettinelli E.
11:50 – 12:10 Underground Compactness Inversion Algorithm Based on Hilbert Marginal Spectrum, Xu Q.
12:10 – 12:30 Borehole Radar Data Processing Based on Empirical Mode Decomposition, Ma C.
12:30 – 12:50 A modified algorithm for accurate GPR wave velocity estimation with common offset setting antenna, Xie F., Lai W., Sham J.F.C., Dérobert X.
12:50 – 13:10 Underground Compactness Inversion Algorithm Based on Hilbert Marginal Spectrum, Xu Q., Feng Y., Jing Z.
13:10 – 14:00 Canteen: Lunch
14:00 – 15:40 Room 3.008
Systems and antenna design, Chair: Nectaria Diamanti
14:00 – 14:20 Transient calculation of the electric field above a lossy ground generated by dipole antenna, Poljac D., Sesnic S., Susnjara A., Paric D.
14:20 – 14:40 A high-stability dual-chip GPR for cooperative target probing, Friedt J.M., Rabus D., Martin G.
14:40 – 15:00 No-contact GPR for investigating painted walls, Pieraccini M., Miccinesi L.
15:00 – 15:20 Lunar Regolith Penetrating Radar on the Lander for Chang’E-5 Mission, Shen S.H., Hua X.L., Zhou B.
15:20 – 15:40 Development of the Geological Radar Antenna and Shielding Device for Full Space of Mine Tunnel, Ma Z.
14:00 – 15:40 Room 5.002
Geotechnical applications, Chair: Lanbo Liu
14:00 – 14:20 Simultaneous multi-channel GPR measurements for soil characterization, Kaufmann M.S., Klotzsche A., Vereecken H., van der Kruk J.
14:20 – 14:40 Mapping Complex Geology with GPR in a Canadian Potash Mine, Funk C., van den Berghe M.
14:40 – 15:00 Application of Gound Penetrating Radar and Hilbert transformation helps revealing anomalous body of leakage in a concrete structure; A case history at Huai Mae Tor, Tak province, Thailand; Poomvises N., Kongsuk A.K., Pakdeerod P., Suklim T.
15:00 – 15:20 A Review of Empirical Methods to Estimate Relative Permittivity, Rubin A.J.
15:20 – 15:40 Coal Subsurface Mapping for Selective Mining, Strange A.D., Jecny Z.
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15
15:40 – 16:40 Room 3.008
Civil engineering, Chair: Luigi Zanzi
15:40 – 16:00 Feasibility Study of Time Lapse Ground Penetrating Radar as Monitoring Measures for Deep Excavation Works, PAK K., Lai W.
16:00 – 16:20 Comparison of pulsed and stepped frequency continous wave (SFCW) GPR systems – Applications on reinforced concrete and brick/rock masonries, Tronca G., Tsalicoglou I., Lehner S., Catanzariti G.
16:20 – 16:40 Investigation of the structural substance of roads via georadar and ultrasound, Kneib G., Jansen D., Wacker B.
16:40 – 17:00 Utility Networks Mapping for Future City Planning, Jaw S.W., van Son R., Khoo V.H.S., Schrotter G.
15:40 – 16:40 Room 5.002
Data processing & analysis, Chair: Raffaele Persico
15:40 – 16:00 Full-Polarimetric Ground Penetrating Radar Underground Objects Classification Using Random Forest, Feng X., Zhang M., Zhang Y., Enhedelihai N.
16:00 – 16:20 Monitoring salt tracer transport in granite rock using ground penetrating radar reflection imaging, Giertzuch P.L., Doetsch J., Kittilä A., Jalali M.
16:20 – 16:40 Frequency Domain Reverse Time Migration of GPR with Attenenuation Compensation, Liu H.
16:40 – 17:00 Application of the Attribute Analysis for Interpretation of GPR Survey Data, Pudova N., Shirobokov M., Kuvaldin A.
17:00 – 18:00 Free visit to Rapperswil zoo
18:00 – 23:00 Conference dinner at Himmapan Lodge in Rapperswil zoo
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16 PROGRAMME – WEDNESDAY, JUNE 20TH, 2018
PROGRAMME – WEDNESDAY, JUNE 20TH, 2018
08:40 – 11:00 Room 3.008
Systems and antenna design, Chair: Guido Manacorda
08:40 – 09:00 Characterizing GPR Time Domain Stacking Receivers, Annan P.
09:00 – 09:20 GPR tomography in a water saturated context using a 13 boreholes configuration, ROUSSET D., BELKOWICHE N., SÉNÉCHAL G., ROLANDO J.P.
09:20 – 09:40 A m-sequence UWB radar system design and contrast test with an impulse radar, Ye S., Liu X., Zhang J., Chen Z.
09:40 – 10:00 An FPGA-based Flexible and MIMO-capable GPR System, Srivastav A., Ariando D., Mandal S.
10:00 – 10:20 Initial Laboratory Field Tests of the Rover-mounted GPR for China’s First Mission to Mars, Zhou B.
10:20 – 10:40 Optimization of Sampling Converter for GPR Receiver, Ruban V., Pochanin G., Shuba O., Pochanin O.
10:40 – 11:00 Estimation of Lane Width for Object Detection Using Impulse GPR with “1Tx and 4Rx” Antenna System, Pochanin O., Ruban V., Ogurtsova T., Pochanin G.
08:40 – 11:00 Room 5.002
Archeology and historical buildings, Chair: Erica Utsi
08:40 – 09:00 Study of Tower Inner Structure of the Octagonal Tower Based on GPR Detection, Li C., Ya Q., Zhou W., Qian Y.R.
09:00 – 09:20 Archaeological Ground Penetrating Radar Surveys Under Variable Soil Moisture: Visual and Numerical Results, Morris I., Glisic B., Gonciar A.
09:20 – 09:40 GPR surveys for soil and structural investigations at Gubbio town (Italy), Catapano I.
09:40 – 10:00 GPR Survey of Fortification Objects on Matua Island, Prokopovich I., Edemsky D., Morozov P.
10:00 – 10:20 Geophysical survey of an archeological Iberian Village by means of Ground Penetrating Radar. The Iberian village of Molí D’Espigol, Santos Assunção S., Sossa Arancibia V., Pérez Gracia V.
10:20 – 10:40 Effect of Two Different Protective Surface Materials on Ground Penetrating Radar Signal Characteristics, Jacob R., Berna F., Urban T., Chazan M.
10:40 – 11:00 Analysis of corrosion in historical heritage structures. The case study of the Park Güell in Barcelona, Sossa Arancibia V., Gracia V.P., Santos Assunção S.
08:40 – 11:30 Room 1.223
COST TU1208 Follow-up meeting
11:00 – 11:30 Exhibition: Coffee Break
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17
11:30 – 13:10 Room 3.008
Other applications, Chair: Xiongyao Xie
11:30 – 11:50 Design of Equivalent Sampling Method Based On Vernier Caliper For Chang’E-5 LRP, Hua X., Shen S., Zhou B., Fang G.
11:50 – 12:10 Sparse Array-based Synthetic Spectrum Imaging Technique, Wu S.Y., Wang H.
12:10 – 12:30 Plane Wave Arrival Time Studies with a Dipole Array Antenna in a Borehole, Ebihara S., Kotani S., Fujiwara K.
12:30 – 12:50 Vital sign feature detection method of trapped person by UAV-based UWB radar, Wu S.
12:50 – 13:10 Dual Sensor “ALIS“ for Humanitarian Demining, Sato M., Kikuta K., Chernyak I.
11:30 – 13:10 Room 5.002
Environment & agriculture, Chair: Richard Yelf
11:30 – 11:50 Development of a novel dual-polarization helicopter-borne GPR system, Langhammer L., Rabenstein L., Maurer H.R., Bauder A.
11:50 – 12:10 Analysis of GPR field parameters for root mapping in Brazil’s caatinga environment, Almeida E.R., Booth A., Porsani J.L., Brunello A.T.
12:10 – 12:30 GPR measurements for diagnosing tree trunk, Takahashi K., Aoike K.
12:30 – 12:50 Estimating Infiltration Front Depth using Time-Lapse Multi-Offset Gathers Obtained from Array Antenna Ground Penetrating Radar, Saito H., Kuroda S., Nagai N., Sala J.
12:50 – 13:10 Mapping the root system of matured trees using ground penetrating radar, Tosti F., Alani A.F., Bianchini Ciampoli L., L.
13:10 – 14:00 Canteen: Lunch
14:00 – 14:40 Main lecture hall: Keynote 3 – Lara Pajewski: COST Action TU1208 “Civil engineering applications of Ground Penetrating Radar:” main outcomes of a 54 month journey
14:40 – 15:40 Room 3.008
Security, Chair: Motoyuki Sato
14:40 – 15:00 Terrain Analysis in Eastern Ukraine and the Design of a Robotic Platform Carrying GPR Sensors for Landmine Detection, Bechtel T.D., Pochanin G., Truskavetsky S., Dimitri M.
15:00 – 15:20 A comparison of solid and loaded bowtie antennas in GPR for the detection of buried landmines, van Werre W., Podd F., Tan J.M., Gao X., Peyton A.J.
15:20 – 15:40 Simulation of Ground Penetrating Radar for Anti-personnel Landmine Detection, Gao X., Podd F., van Werre W., Daniels D.J., Tan Y.M., Peyton A.J.
14:40 – 15:40 Room 5.002
Geotechnical and geological applications, Chair: David Nobes
14:40 – 15:00 High-Resolution Simulation of Point Bar Structures Associated with Paleochannel Evolution with GPR, Qian R., Liu L.
15:00 – 15:20 Using GPR to Delineate the Porter’s Pass Fault at the Acheron Rock Avalanche, New Zealand, Nobes D., Smith G., Jol H.M., Bell D.
15:20 – 15:40 Deep Penetration Radar: Hydrogeology and Paleorelief of Underlying Medium, Prokopovich I., Popov A., Morozov P., Berkut A.
15:40 – 17:40 Campus: Field demonstration
17:40 – 19:10 Main lecture hall: Bids for GPR 2020
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18 PROGRAMME – THURSDAY, JUNE 21ST, 2018
PROGRAMME – THURSDAY, JUNE 21ST, 2018
08:40 – 09:20 Main lecture hall: Keynote 4 – Rongyi Qian – Research on GPR for desert and permafrost regions in northwest China
09:20 – 11:00 Room 3.008
Geological applications, Chair: Volker Gundelach
09:20 – 09:40 Dynamics of the folds of the McMurdo Ice Shelf, Scott Base, Antarctica, Nobes D., Stubbs E.
09:40 – 10:00 Quantifying scour depth in a straightened gravel-bed river with ground-penetrating radar, Huber E., Anders B., Huggenberger P.,
10:00 – 10:20 Combined GPR and surface magnetic resonance investigation for aquifer characterization, Igel J., Helms J., Jiang C., Müller-Petke M.
10:20 – 10:40 Displacement Frequency Characteristics of Direct Transmission of GPR Signals in Borehole Measurements, Khristoforov I., Omelyanenko A.V., Overduin P., Omelyanenko P.
10:40 – 11:00 Estimation of anhydrite distribution with GPR and ERT in the northern part of the Morsleben salt structure, Gundelach V., Furche M.
09:20 – 11:00 Room 5.002
Modeling and inversion, Chair: Craig Warren
09:20 – 9:40 Calculation of the Transient Electric Field Transmitted in a Lossy Medium Radiated by an Equivalent GPR Dipole Antenna, Sesni S., Poljak D.
09:40 – 10:00 Detection of Top Coal by Conductively-Guided Borehole Radar Waves: Results from Numerical Modelling, Zhou B., Madden R.
10:00 – 10:20 Determination of complex permittivity by inverting coaxial transmission line data using FDTD, Takahashi K., Loewer M., Igel J., Konishi C.
10:20 – 10:40 High-Performance Numerical Simulation of Radar Wave Scattering due to Topographic Roughness, Liu L., Liu G., Qian R., Huang Q.
10:40 – 11:00 New improvements to the borehole radar tomography package bh_tomo, Giroux B.
09:20 – 11:00 Main Lecture Hall
Environment and agriculture, chair: Xuan Feng
09:20 – 09:40 Ice volume estimates of Swiss glaciers using helicopter-borne GPR – an example from the Glacier de la Plaine Morte, Grab M.
09:40 – 10:00 Application of borehole radar for dam leakage detection, Liu S., Wang X., Fu L.
10:00 – 10:20 Winter Accumulation Measurements on Alpine Glaciers using Ground Penetrating Radar, Bauder A., Berger C., Jonas T.
10:20 – 10:40 An improved airborne VHF radar sounder for ice and desert exploration, Catapano I.
11:00 – 11:30 Exhibition: Coffee Break
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19
11:30 – 13:10 Room 3.008
Archeology, Chair: R. Persico
11:30 – 11:50 GPR investigation of remains of pile dwellings in Lake Zurich, Hugenschmidt J., Mäder A.
11:50 – 12:10 Ground-Penetrating Radar Surveys to Investigate the Roman Colony of Libarna, Bradford J., Huntley K., Friedman H., Boyles M.
12:10 – 12:30 Contribution of GPR method in monitoring and evaluating the conservation state of Fortezza, Rethymno, Greece, Manataki M., Sarris A.
12:30 – 12:50 Roman Archaeology: the benefit of using GPR investigations, Barone P.M.
12:50 – 13:10 GPR prospecting in the chapel of Aragon within the Co-Cathedral of St. John (Valletta, Malta), Persico R., D’Amico S., Matera L., Coloca E.
11:30 – 13:10 Room 5.002
Civil Engineering, Chair: Jean-Paul Balayssac
11:30 – 11:50 Study of Shallow Road Defects Survey Based on 3D GPR Technology, Qian R., Liu L., Lu X., Hu Z.
11:50 – 12:10 A comparative investigation of the effects of concrete sleepers on the GPR signal for the assessment of railway ballast, Tosti F., Bianchini Ciampoli L., Artagan S.
12:10 – 12:30 Distinction of tendon ducts and rebars by GPR reflection signal patterns, Sharma G.K., KindT.
12:30 – 12:50 Investigation of reinforced concrete bridges by using a dual-polarized high-frequency GPR, Pasculli D., Morelli F., Natali A., Salvatore W.
12:50 – 13:10 A GPR based sensor to measure asphalt pavement density, Diamanti N., Redman D., Annan P.
13:10 – 14:00 Canteen: Lunch
14:00 – 15:40 Room 3.008
Geological applications, Chair: Harry M. Jol
14:00 – 14:20 GPR Profile of Beacon Valley, Dry Valleys, Antarctica: Analysis of the GPR Response from Rocky Permafrost, Nobes D., Bannister M., Sletten R., Godfrey M.
14:20 – 14:40 Ground penetrating radar for detecting subsurface features of active gas vents – mofettes in Slovenia, Zajc M., Rman N. Systems and antenna design, chair: Sébastien Lambot
14:40 – 15:00 Comparison of pulsed and stepped frequency continous wave (SFCW) GPR systems, Tronca G., Tsalicoglou I., Lehner S., Catanzariti G.
15:00 – 15:20 Characterizing GPR Time Domain Stacking Receivers, Annan P.
14:00 – 15:40 Room 5.002
Modeling and inversion, Chair: Antonios Giannopoulos
14:00 – 14:20 Advanced Three-Dimensional Microwave Tomography for the Imaging of Buried Targets, Comite D., Murgia F., Soldovieri F.
14:20 – 14:40 A Huygens subgridding approach for efficient modelling of Ground Penetrating Radar using the Finite-Difference Time-Domain method, Hartley J., Giannopoulos A., Warren C.
14:40 – 15:00 A Machine Learning Approach For Simulating Ground Penetrating Radar, Giannakis I., Giannopoulos A., Warren C.
15:00 – 15:20 Multiparameter Full-waveform inversion of on-ground GPR using Memoryless quasi-Newton (MLQN) method, Feng X., Nilot E., Zhang Y., Zhang M.
15:20 – 15:40 Ellipse-inscribed line-element migration, ELM: a nonparametric object-periphery reconstruction method with multi-static GPR, Nomura Y., Narita T., Sugiura T., Sudo Y.
15:40 – 17:40 Closing Session – GPR 2020, Awards
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20 CONFERENCE DINNER
CONFERENCE DINNER GPR 2018 EUROPE MEETS ASIA – TUESDAY, JUNE 19TH, HIMMAPAN LODGE RAPPERSWIL
Terrace of the Himmapan Lodge, Rapperswil (Images: Himmapan Lodge)
It’s our pleasure to welcome you to the Himmapan Lodge, Rapperswil where Europe meets Asia.
The restaurant is located near the Lake Zurich in the middle of the zoo in Rapperswil, which is in five minutes walking distance from our HSR campus. If you like to visit the zoo you are welcome to do so between 17:00 and 18:00.
After that we will meet each other at 18:00 on the terrace of the Himmapan Lodge for an aperitif. This will be followed by an Asian-European dinner.
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21GEOLOGICAL EXCURSION – GUIDED WALKING TOUR
GEOLOGICAL EXCURSION TO THE SWISS TECTONIC ARENA SARDONA (UNESCO WORLD HERITAGE) – FRIDAY, JUNE 22ND
Program
09:00 Departure in Rapperswil
10:00 Arrival in Schwanden, Canton Glarus
10:00 –13:00 Geological walking-tour with several stops where the local geologist, Dr. Marc Feldmann, will give information about the geology and local history. The walking-tour ends at the famous Lochsite in Schwanden, which is a part of the UNESCO World Heritage.
13:00 –14:30 Lunch in the restaurant Adler, Schwanden that belongs to one of the best-known breweries in Switzerland.
14:30 –16:30 Trip through the beautiful landscape of Canton Glarus. We will stop at interesting places, such as the Berglistüber-waterfall.
Berglistüber-waterfall (Image: myswitzerland.com)
16:30 Departure for Rapperswil
18:00 Arrival in Rapperswil
Equipment and requirements
For the walking-tour you need clothing and footwear suitable to the weather conditions. The walking-tour is on well-kept paths, mostly flat along the streams of Linth and Sernf. There is a short rise that will take us about 30 minutes (if taken easily).
GUIDED WALKING TOUR – MONDAY, JUNE 18TH
Program
18:00 –19:30 Visit the picturesque old town with the beautiful castle in the city of roses, Rapperswil!
Meeting point Exhibition entrance
Castle/City of roses (Image: Rapperswil Tourismus)
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22 PREVIOUS GPR CONFERENCES
PREVIOUS GPR CONFERENCES16th International Conference on Ground Penetrating Radar GPR 2016 – Hongkong Chair: Prof. Wallace Lai Email: [email protected]
15th International Conference on Ground Penetrating Radar GPR 2014 – Brussels, Belgium Chair: Prof. Sébastien Lambot Email: [email protected]
14th International Conference on Ground Penetrating Radar GPR 2012 – Shanghai, China Chair: Xiongyao Xie, Tongji University, China Email:[email protected]
13th International Conference on Ground Penetrating Radar GPR 2010 – Lecce, Italy Chair: Raffaele Persico, IBAM CNR, Institute of Archaeological & Monumental Heritage, Lecce, Italy Email:[email protected]
12th International Conference on Ground Penetrating Radar GPR 2008 – Birmingham, United Kingdom Chair: Chris Rogers, School of Civil Engineering , University of Birmingham, Birmingham, United Kingdom Email:[email protected]
11th International Conference on Ground Penetrating Radar GPR 2006 – Columbus, Ohio, USA Chair: Chi-Chih Chen, ElectroScience Laboratory, Ohio State University, USA Email:[email protected]
10th International Conference on Ground Penetrating Radar GPR 2004 – Delft, the Netherlands Chair: Evert Slob, Delft University of Technology, the Netherlands Email:[email protected]
9th International Conference on Ground Penetrating Radar GPR 2002 – Santa Barbara, California, USA Chair: Steven Koppenjan, Bechtel Nevada/Special Technologies Laboratory Email:[email protected]
8th International Conference on Ground Penetrating Radar GPR 2000 – Gold Coast, Australia Chair: David Noon, Groundprobe Pty Ltd, Australia Email: [email protected]
7th International Conference on Ground Penetrating Radar GPR ’98 – Lawrence, Kansas, USA Chair: Richard Plumb, Univ. of Kansas, USA Email:[email protected]
6th International Conference on Ground Penetrating Radar GPR ’96 – Sendai, Japan Chair: Motoyuki Sato, Tohoku University, Japan Email: [email protected]
5th International Conference on Ground Penetrating Radar GPR ’94 – Kitchener, Ontario, Canada Chair: Davis Redman, Sensors & Software, Canada Email:[email protected]
4th International Conference on Ground Penetrating Radar GPR ’92 – Rovaniemi, Finland Chair: Pauli Hanninen, Geological Survey of Finland, Finland
3rd International Conference on Ground Penetrating Radar GPR ’90 – Lakewood, Colorado, USA Chair: Gary Olhoeft, Colorado School of Mines, USA Email:[email protected]
2nd International Conference on Ground Penetrating Radar 1998 – Gainesville, Florida, USA Chair: Mary Collins, University of Florida, USA Email:[email protected]
1st International Conference on Ground Penetrating Radar 1986 – Tifton, Georgia, USA
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24 CONTACT – SPONSORSHIP
GPR 2018 Dr. Johannes Hugenschmidt Rapperswil University of Applied Sciences Oberseestrasse 10 CH-8640 Rapperswil
www.gpr2018.hsr.ch [email protected]
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