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--- meeting_2018 [2018/05/22 16:02]
vegahag [Session 2: Modeling, Processing and Anisotropy]
+++ meeting_2018 [2018/06/06 10:44] (current)
vegahag
@@ Line 19: / Line 19: @@
 ^Time ^Title ^Author ^Company |
-|09:40 | Understanding pore compliance and poroelasticity in reservoir (and beyond): A geophysical approach {{2018:atkinson|Pending...}} | Jared Atkinson | Colorado School of Mines |
+|09:40 | Understanding pore compliance and poroelasticity in reservoir (and beyond): A geophysical approach {{2018:atkinson.pptx|.pptx}} {{2018:atkinson.pdf|.pdf}} | Jared Atkinson | Colorado School of Mines |
 |10:00 | Rock Physics models for fractured rocks saturated with two immiscible fluids {{2018:chapman|Missing...}} | Mark Chapman | University of Edinburgh |
 |10:20 | From B to A – the influence of subsurface injection or depletion on pore pressure in surrounding rocks {{2018:holt|Pending...}} | Rune M. Holt  | NTNU |
-|10:40 | Rock physics characterization of a deep overburden shale {{2018:bakk|Pending...}} | Audun Bakk |SINTEF|
+|10:40 | Rock physics characterization of a deep overburden shale {{2018:bakk.pdf|.pdf}} | Audun Bakk |SINTEF|
-|11:00 | On some unsolved issues in shale rock physics - How do we model compaction, cementation and uplift of shales? {{2018:avseth|Pending...}}| Per Avseth | NTNU/G&G Resources|
+|11:00 | On some unsolved issues in shale rock physics - How do we model compaction, cementation and uplift of shales? {{2018:avseth.pptx|.pptx}} {{2018:avseth.pdf|.pdf}} | Per Avseth | NTNU/G&G Resources|
 |11:20 | Can controlled laboratory experiments be linked to uplift estimation? {{2018:torset.pptx|.pptx}} {{2018:torset.pdf|.pdf}}| Sondre Torset | NTNU |
 |11:35 | Relating static and dynamic stiffnesses of shales: effects of frequency and stress {{2018:lozovyi.pptx|.pptx}} {{2018:lozovyi.pdf|.pdf}} | Serhii Lozovyi | NTNU |
@@ Line 35: / Line 35: @@
 ==== Session 2: Modeling, Processing and Anisotropy ====
 ^Time ^Title ^Author ^Company |
-|13:00 | Elimination of time dispersion from wave equation modelling in elastic and anelastic media {{2018:amundsen|Pending...}} | Lasse Amundsen     Ørjan Pedersen | NTNU/Statoil     Statoil |
+|13:00 | Elimination of time dispersion from wave equation modelling in elastic and anelastic media {{2018:amundsen.pdf|.pdf}} | Lasse Amundsen     Ørjan Pedersen | NTNU/Statoil     Statoil |
 |13:20 | S-waves in acoustic TTI media {{2018:song.pdf|.pdf}} | Jin Song | NTNU |
-|13:40 | Normal modes in an orthorhombic medium {{2018:ivanov|Missing...}} | Yuriy Ivanov | NTNU |
+|13:40 | Normal modes in an orthorhombic medium {{2018:ivanov.pdf|.pdf}} | Yuriy Ivanov | NTNU |
-|14:00 | A new parametrization in acoustic orthorhombic media {{2018:xu.pptx|.pptx}} | Shibo Xu | NTNU |
+|14:00 | A new parametrization in acoustic orthorhombic media {{2018:xu.pptx|.pptx}} {{2018:xu.pdf|.pdf}} | Shibo Xu | NTNU |
-|14:20 | Interaction of wave modes in layered orthorhombic media {{2018:stovas|Missing...}} | Alexey Stovas  | NTNU |
+|14:20 | Interaction of wave modes in layered orthorhombic media {{2018:stovas.pptx|.pptx}}((Animations removed due to size, contact author for full version)) {{2018:stovas.pdf|.pdf}}((Animations removed due to size, contact author for full version)) | Alexey Stovas  | NTNU |
 == 14:40 Coffee break ==
 ^Time ^Title ^Author ^Company |
-|15:10 | Drift and attenuation on the NCS: A new look at an old approach {{2018:carter|Pending...}} | Andrew Carter  |  |
+|15:10 | Drift and attenuation on the NCS: A new look at an old approach {{2018:carter.pptx|.pptx}} {{2018:carter.pdf|.pdf}} | Andrew Carter  |  |
 |15:30 | Estimating velocities and layer thickness changes from diving waves {{2018:liu.pdf|.pdf}} | Izzie Y. Liu  | NTNU |
@@ Line 50: / Line 51: @@
 ==== Session 3: Seismic acquisition and broadband seismic ====
 ^Time ^Title ^Author ^Company |
-| 15:50 | TopSeis, results of the 2017 Barents Sea campaign {{2018:vinje|Missing...}} | Vetle Vinje | CGG |
+| 15:50 | TopSeis, results of the 2017 Barents Sea campaign {{2018:vinje.pdf|.pdf}} | Vetle Vinje | CGG |
-| 16:10 | Signal-apparition based simultaneous source decoding | Johan Robertsson {{2018:robertson|Missing...}} | ETH Zürich |
+| 16:10 | Signal-apparition based simultaneous source decoding((Contact author for presentation)) | Johan Robertsson  | ETH Zürich |
-| 16:30 | Comparing video recordings of ghost cavitation to cavity modeling | Babak Khodabandeloo {{2018:khodabandeloo.pptx|.pptx}} {{2018:khodabandeloo.pdf|.pdf}} | NTNU |
+| 16:30 | Comparing video recordings of ghost cavitation to cavity modeling {{2018:khodabandeloo.pptx|.pptx}} {{2018:khodabandeloo.pdf|.pdf}} | Babak Khodabandeloo  | NTNU |
 === 19:00 Dinner ===
@@ Line 63: / Line 64: @@
 ==== Session 4: Time lapse and reservoir characterization ====
 ^Time ^Title ^Author ^Company |
-|09:00 | Calculation, measurement and evaluation of time-lapse time-shifts | Colin MacBeth {{2018:macbeth|Missing...}} | HWU |
+|09:00 | Calculation, measurement and evaluation of time-lapse time-shifts {{2018:macbeth|Missing...}} | Colin MacBeth  | HWU |
 |09:20 | Gas leakage through shallow sediments – laboratory experiments compared to passive and active seismic field data {{2018:landro.pptx|.pptx}} {{2018:landro.pdf|.pdf}} | Martin Landrø | NTNU |
-|09:40 | Time-lapse refraction analysis monitoring shallow gas migration | Nora Løw Løhre {{2018:lohre.pptx|.pptx}} {{2018:lohre.pdf|.pdf}} | NTNU |
+|09:40 | Time-lapse refraction analysis monitoring shallow gas migration {{2018:lohre.pptx|.pptx}} {{2018:lohre.pdf|.pdf}} | Nora Løw Løhre  | NTNU |
-|09:55 | Using diving waves for time-lapse seismic studies and overburden characterization {{2018:foseide.pptx|.pptx}} {{2018:foseide.pdf|foseide.pdf}} | Bjarte Foseide | NTNU |
+|09:55 | Using diving waves for time-lapse seismic studies and overburden characterization {{2018:foseide.pptx|.pptx}} {{2018:foseide.pdf|.pdf}} | Bjarte Foseide | NTNU |
 == 10:10 Coffee break ==
-|10:40 | Estimating S-wave velocities and changes from tube waves | Daniel Wehner {{2018:wehner.pptx|.pptx}} {{2018:wehner.pdf|.pdf}} | NTNU |
+|10:40 | Estimating S-wave velocities and changes from tube waves {{2018:wehner.pptx|.pptx}} {{2018:wehner.pdf|.pdf}} | Daniel Wehner  | NTNU |
 |11:00 | Identifying depleted areas and potential HSE-situations using overburden 4D time shifts {{2018:roste.pptx|.pptx}} {{2018:roste.pdf|.pdf}} | Thomas Røste | Statoil |
-|11:20 | Calculation of tube wave velocity in a shallow borehole
+|11:20 | Calculation of tube wave velocity in a shallow borehole using passive seismic recordings {{2018:borges.pptx|.pptx}} {{2018:borges.pdf|.pdf}} | Filipe Borges | NTNU/Petrobras |
-using passive seismic recordings {{2018:borges.pptx|.pptx}} {{2018:borges.pdf|borges.pdf}} | NTNU/Petrobras |
 |11:40 | Net exhumation estimation using an effective-medium technique based on seismic traveltime measurement {{2018:martinez.pptx|.pptx}} {{2018:martinez.pdf|.pdf}} |  R. J. Martinez & Kenneth Duffaut | NTNU |
@@ Line 82: / Line 82: @@
 ==== Session 5: Imaging and inversion ====
 ^Time ^Title ^Author ^Company |
-|13:00 | Full Waveform Ambient Noise Inversion {{2018:sager|Pending...}} | Korbinian Sager | ETH Zürich |
+|13:00 | Full Waveform Ambient Noise Inversion {{2018:sager.pdf|.pdf}} | Korbinian Sager | ETH Zürich |
-|13:20 | Verification of seismic modeling using laboratory ultrasonic data | Børge Arntsen {{2018:arntsen.pdf|.pdf}} | NTNU |
+|13:20 | Verification of seismic modeling using laboratory ultrasonic data {{2018:arntsen.pdf|.pdf}} | Børge Arntsen  | NTNU |
-|13:40 | 3D Elastic seismic modeling using CUDA unified memory and gaming GPUs | Tore Sivertsen Bergslid {{2018:bergslid.pdf|.pdf}} | NTNU |
+|13:40 | 3D Elastic seismic modeling using CUDA unified memory and gaming GPUs {{2018:bergslid.pdf|.pdf}} | Tore Sivertsen Bergslid  | NTNU |
 |14:00 | Ensemble based seismic inversion methods {{2018:eidsvik.pdf|.pdf}} | Jo Eidsvik | NTNU |

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