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Shedding Light on the Weather

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Presentation on theme: "Shedding Light on the Weather"— Presentation transcript:

1 Shedding Light on the Weather
Srinivasa Narasimhan and Shree Nayar Computer Science Department Columbia University IEEE CVPR Conference June 2003, Madison, USA Sponsors : DARPA Human ID, NSF

2 Computer Vision in Bad Weather
Mild Haze Dense Haze Computed Dehazed Image 3D Visualization Removing Weather Structure from Weather Color Contrast Polarization Models Algorithms (Narasimhan , Nayar ’00) (Narasimhan , Nayar ’01) (Narasimhan , Nayar ’02) (Schechner et. al. ’01)

3 Light Sources in Bad Weather
Mist Fog

4 Multiple Scattering in the Atmosphere
Phase Function Incident Beam Particle Light Source A T M O S P H E R E Imaging Plane Glow Pinhole

5 Radiance Rate of Change
Radiative Transfer Infinitesimal Scattering Volume : Direction Exiting Beam Radiance dR Incident Beam Radiance Extinction Radiative Transfer Equation : Radiance Rate of Change Source Function Phase Function Optical Thickness

6 Light Source in a Spherical Medium
Spherical Radiative Transfer Equation : Phase Function Light Field Cosine of Angle Optical Thickness [ Chandrasekhar 1960 ] Scattered Isotropic Source Homogeneous Medium

7 Axially Symmetric Phase Functions
Exiting Direction Incident Direction Legendre Polynomial Expansion : [ Ishimaru 1997 ] [ Henyey et al., 1941 ] Legendre Polynomial Forward Scattering Parameter

8 Light Source in a Spherical Medium
Scattered Light Field Isotropic Source Homogeneous Medium Spherical Radiative Transfer Equation : [ Chandrasekhar 1960 ] Cosine of Angle Optical Thickness Light Field Phase Function

9 Analytic Multiple Scattering Solution
Scattered Light Field : Legendre Polynomial Phase Function Parameter Optical Thickness Exponential Coefficients : Source Radiant Intensity

10 Highlights of the Model
Single and Multiple Scattering Absorbing and Purely Scattering Media Isotropic and Anisotropic Phase Functions T m 160 120 60 30 10 Small Number of Coefficients (m) :

11 Scattered Light Field vs. Weather Condition
Angular PSF : Scattered Light Field at a Point Mild Weather (T = 1.2) Dense Weather (T = 4)

12 Validation : Multiple Scattering in Milk
Image acquired With No Milk Original Milk Images Increasing Milk Concentrations Rendered Milk Images

13 Model Fit Accuracy Low Milk Concentration High Milk Concentration
Number of Milk Concentrations : Model Fitting Error : [ 1 % to 3 % ] Diffusion Fitting Error : [ 20 % to 50 % ]

14 Rendering Glows using Convolution
Increasing Fog Rendered Images Original Image Joint work with Ramamoorthi (submitted to TOG)

15 Single versus Multiple Scattering
Single Scattering Original Image Multiple Scattering (Mild Condition) Multiple Scattering (Dense Condition) Joint work with Ramamoorthi (submitted to TOG)

16 Inverse RTE : Weather from APSF
Measured APSF : Objective Function : Meteorological Visibility : [ Middleton 1952] Weather Condition : [ Van de Hulst 1957] 1 Pure Air Small Aerosols Haze Mist Fog Rain 0.1 0.4 0.7 0.9 0.8

17 Atmospheric Visibilities
A Camera-based Weather Station 45 images of a light source (WILD Database ECCV 02) Computed Atmospheric Visibilities Estimated Ground Truth Computed Weather Conditions Estimated Ground Truth

18 Active Visibility Meter for Ground Truth

19 Summary Analytic Multiple Scattering Model Validation using Milk
Volume Rendering as Convolution Shedding Light on the Weather

20 Prior Work on Radiative Transfer
[ Chandrasekhar 1960 , Ishimaru 1997 ] Sun Distant Source Plane Parallel Medium Scattered Light Field Our Problem : Divergent Source Inside Medium

21 Scattering Space of Weather Conditions
Phase Function Parameter, q Single Scattering 1 Diffusion Pure Air Small Aerosols Haze Mist Fog 10 Optical Thickness, T

22 Axially Symmetric Phase Functions
Exiting Direction Incident Direction Legendre Polynomial Expansion : [ Ishimaru 1997 ] Legendre Polynomial Henyey – Greenstein Function : [ Henyey, Greenstein 1941 ] Forward Scattering Parameter

23 Effect of Source Visibility
315 240 180 90 30 o Increasing Milk Concentrations Observed Milk Images

24 Scattering is Everywhere…
Computer Vision Astronomy Oceanography Medical Imaging Computer Graphics

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