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IGARSS 2011, July 24-29, 2011, Vancouver, Canada,[object Object],Polarimetric Scattering Feature Estimation For Accurate WetlandBoundary Classification,[object Object],Ryoichi SATO*, Yoshio YAMAGUCHI, ,[object Object],and Hiroyoshi YAMADA,[object Object],Niigata University, Japan,[object Object]
Introduction,[object Object],Progress of Global warming,[object Object],- Unusual weather (Climate change),[object Object],- Natural disasters,[object Object],(Flooding, Water shortage),[object Object],Monitoring of “Natural resources”,[object Object], (Forests, wetlands, etc.),[object Object],Winter,[object Object],Lake “Sakata”,[object Object],   and surrounding wetland,[object Object],Copyright © 2001-2004 Niigata City. All rights reserved.,[object Object]
Introduction,[object Object],“PolSARimage analysis” is a useful tool ,[object Object],for continuous wetland monitoring,[object Object],ALOS/PALSAR,[object Object],Pi-SAR,[object Object],http://www.alos-restec.jp/aboutalos1.html,[object Object],Satellite PolSAR,[object Object],http://www.das.co.jp/new_html/service/05.html,[object Object],Airborne PolSAR,[object Object],Summer,[object Object],Copyright © 2001-2004 Niigata City. All rights reserved.,[object Object],So far, ,[object Object],Accurate and “complex” wetland classification method ,[object Object]
Objective,[object Object],``Simple’’ water area classification marker ,[object Object],for water-emergent boundary,[object Object],1. PolSAR image analysis around wetland area ,[object Object],Validity of some polarimetric indices as useful markers  ,[object Object],    for water-emergent boundary classification,[object Object],2. FDTD polarimetric scattering analysis,[object Object],    for a simple water-emergent boundary model,[object Object],Verification of the generating mechanism of specific   ,[object Object],polarimetric scattering feature at the boundary,[object Object]
Candidates for wetland boundary classification,[object Object],1. HH-VV phase difference:,[object Object],[1] K.O. Pope, et al. ,``Detecting seasonal flooding cycles in marches of the yucatan peninsula with sar-c polarimetric radar imagery,’’ Remote Sensing Environ., vol.59, no.2 pp.157-166, Feb.1997. ,[object Object],Reed,[object Object],Ground,[object Object],Water,[object Object],Looks like ,[object Object],Dihedral reflector,[object Object]
TRUE Water area,[object Object],Candidates for wetland boundary classification,[object Object],Double-bounce ,[object Object],             scattering,[object Object],Surface scattering,[object Object],Volume scattering,[object Object],Reed,[object Object],Ground,[object Object],Water,[object Object],Looks like ,[object Object],Dihedral reflector,[object Object],2. Double-bounce scattering: ,[object Object],Pd,[object Object],Ps,[object Object],Pv,[object Object],Pc,[object Object],[5] A. Freeman and S.L.Durden,``A three-component scattering model for polarimetric SAR data,’’ IEEE Trans. Geosi. Remote Sensiing, vol.36, no.3 pp.963-973, May 1998. ,[object Object],[6] Y. Yamaguchi et al, ``Four-component scattering model for polarimetric SAR image decomposition,’’ IEEE Trans. Geosi. Remote Sensiing, vol.43, no.8 pp.1699-1706, Aug. 2005. ,[object Object]
Candidates for wetland boundary classification,[object Object],3. LL-RR correlation coefficient:,[object Object],[Kimura 2004] K. Kimura, et al. ,``Circular polarization correlation coefficient for detection of non-natural targets aligned not parallel to SAR flight path in the X-band POLSAR image analysis,’’ vol.E87-B, no.10 pp.3050-3056, Oct.2004. ,[object Object],[Schuler 2006] D. Schuler, J.-S. Lee, and G.D.DeGrande,  ``Characteristics of polarimetric SAR scattering  in urban and natural areas,'' Proc. of EUSAR 2006 (CD-ROM), May 2006. . ,[object Object]
PolSAR image analysis,[object Object],1. HH-VV phase difference,[object Object],2. Double-bounce scattering (4-component model),[object Object],3. Correlation coefficient in LR basis,[object Object]
PolSAR data description,[object Object],L-band 1.27GHz (l=0.236m),[object Object],Quad. polarimetric data take function,[object Object],Lake “SAKATA”,[object Object],Mode: Quad.Pol. HH+HV+VH+VV,[object Object],Pi-SAR & ALOS/PALSAR,[object Object],Winter,[object Object],Summer,[object Object],Autumn,[object Object],*  Acquired by JAXA, Japan,[object Object],**Acquired by JAXA, Japan,[object Object]
PolSAR image analysis,[object Object],1. HH-VV phase difference,[object Object],2. Double-bounce scattering (4-component model),[object Object],3. Correlation coefficient in LR basis,[object Object]
PolSAR image analysis,[object Object],Candidate 1: ,[object Object],L-band,[object Object],Pi-SAR,[object Object],Lake “SAKATA”,[object Object],Feb.,[object Object],illumination,[object Object],Winter,[object Object],+pi,[object Object],Aug.,[object Object],Summer,[object Object],0,[object Object],Nov.,[object Object],Autumn,[object Object]
PolSAR image analysis,[object Object],1. HH-VV phase difference,[object Object],2. Double-bounce scattering (4-component model),[object Object],3. Correlation coefficient in LR basis,[object Object]
PolSAR image analysis,[object Object],Candidate 2: ,[object Object],L-band,[object Object],Pi-SAR,[object Object],Lake “SAKATA”,[object Object],Feb.,[object Object],illumination,[object Object],Winter,[object Object],Pd,[object Object],Aug.,[object Object],Summer,[object Object],Ps,[object Object],Pv,[object Object],Nov.,[object Object],Autumn,[object Object]
B,[object Object],A,[object Object],B,[object Object],A,[object Object],B,[object Object],A,[object Object],PolSAR image analysis,[object Object],Candidate 2: ,[object Object],L-band,[object Object],Pi-SAR,[object Object],Lake “SAKATA”,[object Object],Feb.,[object Object],illumination,[object Object],Winter,[object Object],Pd,[object Object],Aug.,[object Object],Summer,[object Object],Ps,[object Object],Pv,[object Object],Nov.,[object Object],Autumn,[object Object]
Surface scattering,[object Object],Surface scattering,[object Object],Volume scattering,[object Object],Reed,[object Object],Double-bounce ,[object Object],             scattering,[object Object],TRUE Water area,[object Object],Water,[object Object],Ground,[object Object],Double-bounce ,[object Object],             scattering,[object Object],Surface scattering,[object Object],Double-bounce ,[object Object],             scattering,[object Object],Volume scattering,[object Object],Reed,[object Object],Ground,[object Object],Water,[object Object],PolSAR image analysis,[object Object],Candidate 2: ,[object Object],L-band,[object Object],Emergent,[object Object],(Reeds),[object Object],Pi-SAR,[object Object],Water,[object Object],Winter,[object Object],Summer,[object Object],Autumn,[object Object],Ps(Surface scattering),[object Object],Pd(Double-bounce scattering),[object Object],Pv(Volume scattering),[object Object]
PolSAR image analysis,[object Object],Candidate 2: ,[object Object],L-band,[object Object],Pi-SAR,[object Object],Lake “SAKATA”,[object Object],Feb.,[object Object],illumination,[object Object],Winter,[object Object],Pd,[object Object],Aug.,[object Object],Summer,[object Object],Ps,[object Object],Pv,[object Object],Nov.,[object Object],Autumn,[object Object]
PolSAR image analysis,[object Object],1. HH-VV phase difference,[object Object],2. Double-bounce scattering (4-component model),[object Object],3. Correlation coefficient in LR basis,[object Object]
PolSAR image analysis,[object Object],Candidate 3: ,[object Object],L-band,[object Object],Pi-SAR,[object Object],Lake “SAKATA”,[object Object],Feb.,[object Object],illumination,[object Object],Winter,[object Object],1.0,[object Object],Aug.,[object Object],Summer,[object Object],0.0,[object Object],Nov.,[object Object],Autumn,[object Object]
PolSAR image analysis,[object Object],Candidate 3: ,[object Object],L-band,[object Object],Pi-SAR,[object Object],Lake “SAKATA”,[object Object],Feb.,[object Object],illumination,[object Object],Winter,[object Object],+pi,[object Object],Aug.,[object Object],Summer,[object Object],-pi,[object Object],Nov.,[object Object],Autumn,[object Object]
PolSAR image analysis,[object Object],1. HH-VV phase difference,[object Object],2. Double-bounce scattering (4-component model),[object Object],3. Correlation coefficient in LR basis,[object Object]
Polarimetric FDTD analysis,[object Object],1. HH-VV phase difference,[object Object],2. Double-bounce scattering (4-component model),[object Object],3. Correlation coefficient in LR basis,[object Object]
Polarimetric FDTD analysis,[object Object],Polarimetric scattering analysis for simple boundary model,[object Object],by using the FDTD method,[object Object],Dielectric pillars,[object Object],(vertical stems of the emergent plants),[object Object],High water level case,[object Object],Dielectric plate (Water),[object Object], Vertical thin dielectric pillarson a dielectric plate,[object Object],(Vertical stems of emerged-plants on water surfacewhen the water level is relatively high. ),[object Object],A,[object Object],where,[object Object],is added to reduce unnecessary back scattering from the horizontal front edge. ,[object Object]
Polarimetric FDTD analysis,[object Object],High water level case,[object Object],To determine the relative permittivity ,[object Object],for the dielectric base plate or water ,[object Object],in the model, ,[object Object],the actual relative permittivity of the water ,[object Object],in “SAKATA” is measured ,[object Object],by a dielectric probe kit (Agilent 85070C). ,[object Object],er= 82.78 +i 8.01,[object Object],at 1.2GHz,[object Object]
Polarimetric FDTD analysis,[object Object],Parameters in the FDTD analysis,[object Object],1cm,[object Object],er= 2.0 + i0.05,[object Object],1cm,[object Object],at 1.2GHz,[object Object],f=f0=0o,[object Object],q=q0=45o,[object Object],Each dielectric pillar,[object Object],L=9.6l(2.40m), H1=5.6l(1.40m), ,[object Object],D1=2.4l(0.60m), D2=3.40l(0.85m) at 1.2GHz,[object Object],Other parameters in the FDTD simulation,[object Object],Analytical region,[object Object],1200 X 1200 X 1000 cells,[object Object],Cubic cell size D,[object Object],0.0025m,[object Object],Time step Dt,[object Object],4.8125 X 10-12s,[object Object],Incident pulse,[object Object],Lowpass Gaussian pulse,[object Object],Absorbing boundary condition,[object Object],PML (8 layers),[object Object]
Polarimetric FDTD analysis,[object Object],Statistical evaluation,[object Object],To evaluate statisticalpolarimetric scattering feature ,[object Object],                                                   as actual PolSARimage analysis, ,[object Object],Vertical pillars are randomly set on dielectric plate ,[object Object],Plain view,[object Object],The ensemble average processing is carried out ,[object Object],for 6random distributed patterns.,[object Object]
Polarimetric FDTD analysis,[object Object],1. HH-VV phase difference,[object Object],2. Double-bounce scattering (4-component model),[object Object],3. Correlation coefficient in LR basis,[object Object]
Polarimetric FDTD analysis,[object Object],1. HH-VV phase difference,[object Object],2. Double-bounce scattering (4-component model),[object Object],3. Correlation coefficient in LR basis,[object Object]
Polarimetric FDTD analysis,[object Object],1. HH-VV phase difference,[object Object],Ave. 141o,[object Object],So so!,[object Object]
Polarimetric FDTD analysis,[object Object],1. HH-VV phase difference,[object Object],2. Double-bounce scattering (4-component model),[object Object],3. Correlation coefficient in LR basis,[object Object]
Polarimetric FDTD analysis,[object Object],2. Double-bounce scattering (4-component model),[object Object],The ensemble average processing is carried out ,[object Object],for 6random distributed models. ,[object Object]
Polarimetric FDTD analysis,[object Object],2. Double-bounce scattering (4-component model),[object Object],Very useful,[object Object],Pt=Pd+Pv+Ps+Pc,[object Object],Pv/Pt,[object Object],Pd/Pt,[object Object],Ps/Pt,[object Object],Pc/Pt,[object Object]
``Unitary rotation’’ possible,[object Object],``Unitary rotation’’ of the original coherency matrix,[object Object],Condition for determining the rotation angle,[object Object],So we obtain the rotation angle as,[object Object]
Polarimetric FDTD analysis,[object Object],2. Double-bounce scattering (4-component model),[object Object],w/o rotation,[object Object],with T33 rotation,[object Object],Pv/Pt,[object Object],Pd/Pt,[object Object],Ps/Pt,[object Object],Pc/Pt,[object Object]
Polarimetric FDTD analysis,[object Object],1. HH-VV phase difference,[object Object],2. Double-bounce scattering (4-component model),[object Object],3. Correlation coefficient in LR basis,[object Object]
Polarimetric FDTD analysis,[object Object],3. Correlation coefficient in LR basis,[object Object],The ensemble average processing is carried out ,[object Object],for 6random distributed models. ,[object Object]
Polarimetric FDTD analysis,[object Object],3. Correlation coefficient in LR basis,[object Object],Man-made object :,[object Object],Phase tends to be 0 or 180 deg.,[object Object],Man-made object :,[object Object],Amp. shows  large value,[object Object]
Polarimetric FDTD analysis,[object Object],3. Correlation coefficient in LR basis,[object Object],Reflection symmetry,[object Object],i.e.,[object Object],This condition is derived from experimental results. ,[object Object],Amplitude,[object Object],Phase,[object Object],0 or p,[object Object],Real,[object Object]
Conclusion,[object Object],To verify three polarimetric indices ,[object Object],as simple wetland boundary classification markers,[object Object],PolSAR image analysis and ,[object Object],FDTD polarimetric scattering analysis ,[object Object],for wetland boundary (water-emergent ) model ,[object Object],``qHH-qVV” ,``Pd” and gLL-RRare ALL useful markers, ,[object Object],when the water level is relatively high. ,[object Object]
Future developments,[object Object],- Comparison with accurate method,[object Object],(Touzi decomposition etc.),[object Object],- FDTD polarimetric scattering analysis,[object Object],1. Variation of the incident and squint angles,[object Object],2. Variation of the volume density ,[object Object],3. Difference between wet and dry conditions,[object Object],Which wetland classes in Touzi decomposition ,[object Object],correspond to each boundary feature? ,[object Object],Dielectric plate (Water),[object Object]
Acknowledgments,[object Object],This research was partially supported by ,[object Object],- A Scientific Research Grant-In-Aid (22510188) ,[object Object],  from JSPS , ,[object Object],-Telecom Engineering Center (TELEC),[object Object]
Thank you!,[object Object]

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