Gamut public presentation

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Gamut srl, Spin Off del Politecnico di Torino.
Geophysical solutions

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  • Nel file ci sono due pagine mastro: quella della copertina (schema titolo) e quella di tutte le pagine successive (schema diapositiva). Il file modello è predisposto con la prima diapositiva pronta per essere corretta, poi facendo “nuova diapositiva” apparirà la nuova slide (schema diapositiva), anch’essa già formattata. Le modifiche vanno sempre fatte sulla singola slide, mai sulle pagine mastro. Se non serve una diapositiva standard, ma ad esempio una dove inserire un grafico allora prima bisogna creare una nuova diapositiva e poi da “formato”/”layout diapositiva” cambiare la struttura della diapositiva con quella che occorre: rimarranno della diapositiva standard solo gli elementi necessari. In basso a sinistra di tutte le pagine successive (schema diapositiva) è presente un piè di pagina dove inserire a discrezione informazioni sull’evento (Data e Titolo). Per modifarlo o eliminarlo Visualizza->Intestazione e Piè di pagina.
  • Gamut public presentation

    1. 1. Geophysical solutions
    2. 2. Company <ul><li>Gamut S.r.l. </li></ul><ul><li>Gamut started up in May 2009 as a spinoff of Politecnico di Torino to benefit from the experience and the innovation of the Applied Geophysical Laboratory in the Land, Environment and Geo-Engineering Department. It is hosted by the Innovative Enterprise Incubator of the Politecnico di Torino ( I3P ). </li></ul><ul><li>Gamut works in the field of near surface geophysics . Thanks to the team’s know-how developed in academic and professional fields, Gamut commands and get benefits from all geophysical methodologies. </li></ul>gamutgeophysics.com
    3. 3. Company <ul><li>12 th May, 2009 </li></ul><ul><li>15 th May, 2009 </li></ul><ul><li>4 th June, 2009 </li></ul><ul><li>I3P </li></ul>gamutgeophysics.com
    4. 4. Company <ul><li>Emanuele Bena (CEO) </li></ul><ul><li>PhD in Environmental Engineering </li></ul><ul><li>Expert in modelling and inversion of electrical data and survey management. </li></ul><ul><li>Daniele Boiero (President) </li></ul><ul><li>PhD in Engineering for Water and Land Management </li></ul><ul><li>Expert in modelling and inversion of geophysical data, mainly in surface waves. </li></ul><ul><li>Corrado Calzoni </li></ul><ul><li>PhD in Land and Environment </li></ul><ul><li>Expert in characterisation of porous media with EM methodologies (mainly frequency domain and georadar). </li></ul><ul><li>Stefano Stocco </li></ul><ul><li>PhD in Engineering of Land </li></ul><ul><li>Expert in modelling, inversion and interpretation of magnetic and electromagnetic data and data spazialisation. </li></ul>gamutgeophysics.com
    5. 5. Company <ul><li>Alberto Godio </li></ul><ul><li>Professor of Applied Geophysics </li></ul><ul><li>Expert in geophysical characterisation and monitoring in environmental and hydrogeological fields. </li></ul><ul><li>Andrea Ferrero </li></ul><ul><li>Professor of Instrumentation and Electronic Measurements </li></ul><ul><li>Expert in software implementation and sensors. </li></ul><ul><li>Luigi Sambuelli </li></ul><ul><li>Professor of Applied Geophysics </li></ul><ul><li>Expert in physical characterisation of porous media and small-scale geophysics with magnetic and electromagnetic techniques. </li></ul><ul><li>Valentina Socco </li></ul><ul><li>Assistant professor of Applied Geophysics </li></ul><ul><li>Expert of seismic characterisation of near surface, mainly surface waves </li></ul>gamutgeophysics.com
    6. 6. Mission <ul><li>Provide high-level geophysical surveys. </li></ul><ul><li>Commercialise products (software and hardware) </li></ul><ul><li>for the analysis and processing of geophysical data. </li></ul><ul><li>Support fields as engineering, geology, architecture, archaeology giving information of the subsoil or structures with innovative geophysical solutions. </li></ul><ul><li>Gamut can offer and integrate the whole gamut of geophysical methodologies to suite needs in many fields. </li></ul><ul><li>Gamut can acquire, analyse, process, model and invert geophysical data. The most important approach is the integration with different techniques or data, and the customisation of the applications. </li></ul>gamutgeophysics.com
    7. 7. Applications <ul><li>Civil and industrial design </li></ul><ul><li>Geotechnical/geological characterisation </li></ul><ul><li>Utilities mapping </li></ul><ul><li>Seismic hazard </li></ul><ul><li>Vs30 </li></ul><ul><li>Local seismic response </li></ul><ul><li>Vibration analysis </li></ul><ul><li>Environment </li></ul><ul><li>Location of pollutants, drums, tanks </li></ul><ul><li>Monitoring of landfill or remediation </li></ul>gamutgeophysics.com
    8. 8. Applications <ul><li>Geology and hydrogeology </li></ul><ul><li>Slope stability </li></ul><ul><li>Quarries and mines </li></ul><ul><li>Volume estimation of the overburden </li></ul><ul><li>Assessment of cultivable volumes of construction materials </li></ul><ul><li>Archaeology </li></ul><ul><li>Buried structures’ individuation </li></ul><ul><li>Exploration geophysics </li></ul><ul><li>Estimation of static corrections </li></ul><ul><li>Characterization of underground structures </li></ul>gamutgeophysics.com
    9. 9. Methodologies and Applications gamutgeophysics.com Civil and industrial fields
    10. 10. Surface Waves Method gamutgeophysics.com 3D S-waves velocity models Laterally constrained inversion of surface waves
    11. 11. Surface Waves Method gamutgeophysics.com 3D S-waves velocity models Laterally constrained inversion of surface waves
    12. 12. Seismic Refraction Tomography gamutgeophysics.com Engineering design support P-waves velocity model with ray tracing
    13. 13. Seismic Refraction Tomography gamutgeophysics.com P-waves velocity model Ray density
    14. 14. Ground Probing Radar gamutgeophysics.com Utilities mapping In-situ location / Time-slices
    15. 15. <ul><ul><ul><li>Topsoil </li></ul></ul></ul><ul><ul><ul><li>Debris </li></ul></ul></ul><ul><ul><ul><li>Bedrock </li></ul></ul></ul>Ground Probing Radar gamutgeophysics.com Engineering design support Stratigraphy
    16. 16. Ground Probing Radar gamutgeophysics.com Engineering design support Voids’ location under road
    17. 17. Ground Probing Radar gamutgeophysics.com Batimetry – River sediments
    18. 18. GPR – Frequency Domain ElectroMagnetic gamutgeophysics.com Batimetry – River sediments
    19. 19. Electrical Resistivity Tomography gamutgeophysics.com PERTH (Pneumatic ERT in Hole) Self-sustaining hole – Piezometer
    20. 20. Electrical Resistivity Tomography gamutgeophysics.com PERTH (Pneumatic ERT in Hole)
    21. 21. Electrical Resistivity Tomography gamutgeophysics.com Voids’ location 3D inversion of resistivity data
    22. 22. Methodologies and Applications gamutgeophysics.com Environment
    23. 23. Surface Waves Method gamutgeophysics.com Seismic land streamer Speeding up the acquisition process
    24. 24. Surface Waves Method gamutgeophysics.com Effectiveness of impermeable barriers’ control S-waves velocity
    25. 25. Surface Waves Method gamutgeophysics.com Landfill bottom’s identification Time 0: before garbage inserting
    26. 26. Surface Waves Method gamutgeophysics.com Landfill bottom’s identification Differential subsiding due to the garbage weight
    27. 27. ERT and SRT gamutgeophysics.com Bedrock’s topography and tanks’ location
    28. 28. Frequency Domain ElectroMagnetic gamutgeophysics.com 2D modelling Magnetic flux density and electric field dB
    29. 29. Frequency Domain ElectroMagnetic gamutgeophysics.com 2D modelling Primary magnetic field generated by a coil Induced current density on a layered model
    30. 30. Frequency Domain ElectroMagnetic gamutgeophysics.com 3D modelling of a moving transmitter-receiver system (slingram) Quadrature response of a buried conductive tank at different transmitting frequencies 20 kHz 10 kHz 2 kHz
    31. 31. Frequency Domain ElectroMagnetic gamutgeophysics.com Pollutants’ location
    32. 32. Ground Probing Radar Time-slices Stratigraphy gamutgeophysics.com
    33. 33. Stratigraphy gamutgeophysics.com Comparison with drilling Ground Probing Radar
    34. 34. gamutgeophysics.com Vertical Radar Profile Water content Ground Probing Radar
    35. 35. Methodologies and Applications gamutgeophysics.com Seismic hazard
    36. 36. Surface Waves Method gamutgeophysics.com Vs30 computation
    37. 37. Surface Waves Method gamutgeophysics.com Vs30 computation via probabilistic method Monte Carlo sampling
    38. 38. Surface Waves Method gamutgeophysics.com Vs30 computation via probabilistic method Probabilistic test
    39. 39. Surface Waves Method gamutgeophysics.com Vs30 computation via probabilistic method Vs30 probabilistic distribution
    40. 40. Surface Waves Method gamutgeophysics.com Site resonance frequency
    41. 41. Methodologies and Applications gamutgeophysics.com Geology and hydrogeology
    42. 42. SRT and ERT gamutgeophysics.com Stratigraphy
    43. 43. SRT and ERT gamutgeophysics.com Lithology-derived structure classification Joint interpretation of electrical and seismic models
    44. 44. Ground Probing Radar gamutgeophysics.com Glacier
    45. 45. Methodologies and Applications gamutgeophysics.com Quarries and mines
    46. 46. Electrical Resistivity Tomography gamutgeophysics.com Bedrock’s individuation Distance [m] Distance [m]
    47. 47. Electrical Resistivity Tomography gamutgeophysics.com Overburden’s estimation Distance [m] Distance [m]
    48. 48. Electrical Resistivity Tomography gamutgeophysics.com Depth-slices
    49. 49. Electrical Resistivity Tomography 3D representation gamutgeophysics.com
    50. 50. Methodologies and Applications gamutgeophysics.com Archaeology
    51. 51. gamutgeophysics.com Depth-slices Ground Probing Radar Distance [m] Depth [m] Distance [m]
    52. 52. gamutgeophysics.com 3D representation Ground Probing Radar Buried structures
    53. 53. Seismic Refraction Tomography gamutgeophysics.com 3D ultrasonic tomography P-waves velocity model with ray tracing
    54. 54. MAGnetic survey 2D modelling gamutgeophysics.com Magnetic total field map
    55. 55. MAGnetic survey 2D inversion of magnetic gradient data gamutgeophysics.com Buried structures
    56. 56. Geophysical solutions

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