2126 |
Using GIS to Evaluate Lake Palestine and Potential Impacts of Raw Water Withdrawal for an Expanding Population |
Mr. Ryan Michell |
T9.P5 - Proximal and Remote Sensing Technologies |
2126.pdf |
5115 |
The Study on the Mechanism for Weak Anomaly Spectral Response of Porphyry Copper Mineralization Alteration |
Mrs. Zhifang Zhao |
T9.P5 - Proximal and Remote Sensing Technologies |
5115.pdf |
2712 |
Geological and geomorphological mapping with digital mono- and 3D stereo-photogrammetry. |
Prof. Silvio Seno |
T9.P5 - Proximal and Remote Sensing Technologies |
2712.pdf |
4457 |
Application of remote sensing in surveying for REE-rich carbonatites in Tamil Nadu (Southern India) |
Mr Petr Mixa |
T9.P4 - Proximal and Remote Sensing Technologies |
4457.pdf |
1613 |
Assessment the activity of deep-seated landslide by using TCP-InSAR interferometry from ALOS/PALSAR images |
Dr. Rou-Fei CHEN |
T9.P4 - Proximal and Remote Sensing Technologies |
1613.pdf |
1754 |
Fully polarimetric ALOS PALSAR data to aid geological mapping in densely vegetated areas |
Dr. Jeanine Engelbrecht |
T9.P4 - Proximal and Remote Sensing Technologies |
1754.pdf |
2468 |
Use of RADARSAT-2 and ALOS-PALSAR images for organic terrain mapping in New Brunswick |
Dr. Armand LaRocque |
T9.P4 - Proximal and Remote Sensing Technologies |
2468.pdf |
1141 |
Recent Surface Deformation in western Himalaya: Uttarakhand state of India |
Prof. Chung-Pai Chang |
T9.P4 - Proximal and Remote Sensing Technologies |
1141.pdf |
1757 |
Longwall mining and surface deformation – lessons learned from dInSAR measurements |
Dr. Jeanine Engelbrecht |
T9.P4 - Proximal and Remote Sensing Technologies |
1757.pdf |
1094 |
Spectral analysis of fresh and weathered rocks overlying the Alborz hydrocarbon trap, Qom area, Iran: remote sensing implications |
Mr. Saeid Asadzadeh |
T9.P4 - Proximal and Remote Sensing Technologies |
|
2521 |
Surface deformation monitoring by Insar techniques. Case study of the region of In Salah, Algeria. |
Prof. Mohammed Abed |
T9.P4 - Proximal and Remote Sensing Technologies |
2521.pdf |
4152 |
Mapping and mineralogical discrimination of linear paleoproterozoic carbonatite complexes from Ihouhaouene area (In Ouzzal terrane, Hoggar, Algeria) |
Mr. Massinissa Amara |
T9.P3 - Proximal and Remote Sensing Technologies |
4152.pdf |
3495 |
Application of Multispectral Image Landsat OLI and ASTER for Detection of Gold Mineralization in Macossa District – Mozambique |
Mr. Félix Arnaldo Cumbane |
T9.P3 - Proximal and Remote Sensing Technologies |
3495.pdf |
4583 |
Sampling methods in colluvium material for metallurgical characterisation |
Mr Willem Van der Schyff |
T9.P3 - Proximal and Remote Sensing Technologies |
4583.pdf |
2463 |
Use of RADARSAT-2 SAR and LANDSAT-5 TM Images for permafrost feature distribution mapping |
Dr. Prof. Brigitte Leblon |
T9.16 - Proximal and Remote Sensing Technologies |
2463.pdf |
2467 |
Application of remote sensing and GIS to near-surface aquifer mapping for landslide susceptibility assessment: a case study in in Hoa Binh Province, Vietnam |
Dr. Le Quoc Hung |
T9.16 - Proximal and Remote Sensing Technologies |
2467.pdf |
2487 |
Mapping Surface Lineaments in the Umiujalik Lake Area, Nunavut Using Multi-Beam Radarsat-2 Polarimetric SAR Images |
Dr. Brigitte Leblon |
T9.16 - Proximal and Remote Sensing Technologies |
2487.pdf |
3556 |
Towards a global mineral mapping or Earth’s surface |
Mr. Michael Abrams |
T9.16 - Proximal and Remote Sensing Technologies |
3556.pdf |
570 |
The Architecture on Geological Survey Intelligent Space |
Dr. LI CHAOLING |
T9.15 - Proximal and Remote Sensing Technologies |
570.pdf |
4382 |
Spatial and temporal variation of suspended sediment concentration in the near shore waters, Southern Karnataka, India |
Mr. ATEETH SHETTY |
T9.15 - Proximal and Remote Sensing Technologies |
4382.pdf |
4062 |
Random Forests applied as a soil spatial predictive model across an aridic to ustic area of Indian States |
Mr. GAURAV SHUKLA |
T9.15 - Proximal and Remote Sensing Technologies |
4062.pdf |
4444 |
Radar interferometry for ground subsidence identification and monitoring using ALOS-2 PALSAR-2 data: a case study of KOSH region of South Africa |
Dr. Abraham Thomas |
T9.15 - Proximal and Remote Sensing Technologies |
4444.pdf |
1625 |
Geological mapping of Mountain Pass Carbonatite Complex, USA, using the EnGEOMAP (basic mineral mapping and REE mapping) |
Ms. Nina K. Boesche |
T9.14 - Use of radar remote sensing in geological applications / Challenges and opportunities in achieving global remote sensing of surface minerals |
1625.pdf |
1282 |
The Future of Global Mapping for Energy and Mineral Resources |
Dr. Wendy Calvin |
T9.14 - Use of radar remote sensing in geological applications / Challenges and opportunities in achieving global remote sensing of surface minerals |
1282.pdf |
899 |
Future Hyperspectral VSWIR and Multispectral TIR Spaceborne Instruments |
Mr. Michael Abrams |
T9.14 - Use of radar remote sensing in geological applications / Challenges and opportunities in achieving global remote sensing of surface minerals |
899.pdf |
2096 |
Potential of spaceborne imaging spectroscopy for surface mineral detection in northern latitudes |
Dr. Benoit Rivard |
T9.14 - Use of radar remote sensing in geological applications / Challenges and opportunities in achieving global remote sensing of surface minerals |
2096.pdf |
1931 |
Pre- and co-seismic surface deformation of graviquakes: the 1997 Colfiorito earthquake (Northern Apennines, Italy) |
Ms. Emanuela Valerio |
T9.14 - Use of radar remote sensing in geological applications / Challenges and opportunities in achieving global remote sensing of surface minerals |
1931.pdf |
5124 |
Global Hydrocarbon Exploration and Monitoring: Current Possibilities and Projections for the Near Future and Beyond |
Prof. Carlos Souza Filho |
T9.14 - Use of radar remote sensing in geological applications / Challenges and opportunities in achieving global remote sensing of surface minerals |
5124.pdf |
2640 |
Insight into the geodynamics of southern Africa; crustal thickness and upper mantle structure of Botswana |
Prof. Mark Van Der Meijde |
T9.14 - Use of radar remote sensing in geological applications / Challenges and opportunities in achieving global remote sensing of surface minerals |
2640.pdf |
1756 |
Satellite synthetic aperture radar for monitoring of surface deformation in shallow underground mining environments |
Dr. Jeanine Engelbrecht |
T9.13 - Analyzing Geohazards and Risk Using Remotely Sensed Derived Datasets / Use of radar remote sensing in geological applications |
1756.pdf |
2884 |
Influence of the Environmental Conditions on Surficial Mapping Using LANDSAT-5 TM and RADARSAT-2 Polarimetric SAR Images |
Brigitte Leblon |
T9.13 - Analyzing Geohazards and Risk Using Remotely Sensed Derived Datasets / Use of radar remote sensing in geological applications |
2884.pdf |
2482 |
Remarkable land subsidence in plain aquifers of Iran: evidence from two decades of InSAR observations |
Dr. Mahdi Motagh |
T9.13 - Analyzing Geohazards and Risk Using Remotely Sensed Derived Datasets / Use of radar remote sensing in geological applications |
2482.pdf |
1644 |
Potential of sinkhole precursor detection through interferometric SAR |
Mr. Andre Theron |
T9.13 - Analyzing Geohazards and Risk Using Remotely Sensed Derived Datasets / Use of radar remote sensing in geological applications |
1644.pdf |
1383 |
Using thermal imagery to find G-spots |
Dr. Neil Pendock |
T9.12 - Spectral Geology in Exploration (minerals, hydrocarbon, geothermal) and Production / Analyzing Geohazards and Risk Using Remotely Sensed Derived Datasets |
1383.pdf |
4969 |
New approaches in mineral mapping using diverse hyperspectral data as well as simulated EnMap and Sentinel 2 data |
Dr. Veronika Kopackova |
T9.12 - Spectral Geology in Exploration (minerals, hydrocarbon, geothermal) and Production / Analyzing Geohazards and Risk Using Remotely Sensed Derived Datasets |
4969.pdf |
719 |
Remote Sensing of the Copper Creek District, Arizona.
Results from Aster, Airborne Hyperspectral and Field Spectroscopy. |
Dr. Marc Goossens |
T9.12 - Spectral Geology in Exploration (minerals, hydrocarbon, geothermal) and Production / Analyzing Geohazards and Risk Using Remotely Sensed Derived Datasets |
719.pdf |
1288 |
Using Spectral Data in Exploration for Geothermal Resources |
Dr. Wendy Calvin |
T9.12 - Spectral Geology in Exploration (minerals, hydrocarbon, geothermal) and Production / Analyzing Geohazards and Risk Using Remotely Sensed Derived Datasets |
1288.pdf |
1260 |
High resolution rapid revisit InSAR monitoring of surface deformation |
Dr. Vern Singhroy |
T9.12 - Spectral Geology in Exploration (minerals, hydrocarbon, geothermal) and Production / Analyzing Geohazards and Risk Using Remotely Sensed Derived Datasets |
1260.pdf |
4824 |
The Influence of Sample Surface Preparation on Thermal Infrared Spectroscopy Results |
Dr. Christoph Hecker |
T9.12 - Spectral Geology in Exploration (minerals, hydrocarbon, geothermal) and Production / Analyzing Geohazards and Risk Using Remotely Sensed Derived Datasets |
4824.pdf |
1074 |
New advances on uranium exploration using airborne hyperspectral remote sensing technology: A case study of Xuemisitan volcanic belt, Xinjiang, China |
Dr. Fawang Ye |
T9.11 - Spectral Geology in Exploration (minerals, hydrocarbon, geothermal) and Production |
1074.pdf |
4995 |
Identification of rocks using a hyperspectral supercontinuum lidar |
Prof. Jussi Leveinen |
T9.11 - Spectral Geology in Exploration (minerals, hydrocarbon, geothermal) and Production |
4995.pdf |
939 |
GeoMAP Base a Generic Expert System Mapper for Imaging Spectroscopy |
Mr. Christian Mielke |
T9.11 - Spectral Geology in Exploration (minerals, hydrocarbon, geothermal) and Production |
939.pdf |
3789 |
Characterization of the Lead-Zinc mineralization of Aggeneys, South Africa, by VNIR-SWIR and TIR hyperspectral airborne data |
Dr. Michaela Frei |
T9.11 - Spectral Geology in Exploration (minerals, hydrocarbon, geothermal) and Production |
3789.pdf |
1095 |
Hydrocarbon detection with multiple remote sensing platforms |
Mr. Saeid Asadzadeh |
T9.11 - Spectral Geology in Exploration (minerals, hydrocarbon, geothermal) and Production |
|
1593 |
GeoMAP-outcrop – 3D hyperspectral outcrop mineral and REE mapping |
Dr. Christian Rogass |
T9.11 - Spectral Geology in Exploration (minerals, hydrocarbon, geothermal) and Production |
1593.pdf |
3600 |
Exploration applications of laboratory, field, and airborne imaging spectrometer data collected from the Orange Hill copper porphyry deposit, east-central Alaska, USA |
Mr. Raymond Kokaly |
T9.11 - Spectral Geology in Exploration (minerals, hydrocarbon, geothermal) and Production |
3600.pdf |
4277 |
Australia’s National Virtual Core Library: Examples of integrating data across geological terranes to highlight prospectivity |
Ms. Belinda Smith |
T9.10 - Geological Mapping & Mineral Exploration: Case studies from Africa / Spectral Geology in Exploration (minerals, hydrocarbon, geothermal) and Production |
4277.pdf |
237 |
Spectral Characteristics of Plants Growing On Chromite Mineralization In West Pokot District, Kenya |
Prof. Beneah D. Odhiambo |
T9.10 - Geological Mapping & Mineral Exploration: Case studies from Africa / Spectral Geology in Exploration (minerals, hydrocarbon, geothermal) and Production |
237.pdf |
5152 |
Structural setting of the Asmara area, Eritrea |
Dr. Tsehaie Woldai |
T9.10 - Geological Mapping & Mineral Exploration: Case studies from Africa / Spectral Geology in Exploration (minerals, hydrocarbon, geothermal) and Production |
5152.pdf |
2086 |
Applications of hyperspectral sensing in oil sands mining operations |
Dr. Benoit Rivard |
T9.10 - Geological Mapping & Mineral Exploration: Case studies from Africa / Spectral Geology in Exploration (minerals, hydrocarbon, geothermal) and Production |
2086.pdf |