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See also the following links
- LIST OF
REVIEWERS
[p. 2243]
REGULAR PAPERS
- An Evaluation of the JPL TOPSAR for Extracting Tree
Heights
- Y. Kobayashi, K.
Sarabandi, L. Pierce, and M. C.
Dobson
[p. 2446]
- Modulation of Microwave Radiance by Internal Waves:
Critical Point Modeling of Ocean
Observations
- E.
Baum and V. Irisov
[p. 2455]
- Estimation of Snow Water Equivalence
Using SIR-C/X-SAR, Part I: Inferring Snow Density and Subsurface
Properties
- J. Shi and J.
Dozier
[p. 2465]
- Estimation of Snow Water Equivalence
Using SIR-C/X-SAR, Part II: Inferring Snow Depth and Particle
Size
- J. Shi and J.
Dozier
[p. 2475]
- Advanced Vegetation Indices Optimized for Up-Coming
Sensors: Design, Performance, and
Applications
- N.
Gobron, B. Pinty, M. M. Verstraete, and J.-L.
Widlowski
[p. 2489]
- Ultrawideband Radar Images of the Surface Disturbance
Produced by a Submerged, Mine-Like
Object
- M. A.
Sletten
[p. 2506]
- A Generalized Orthogonal Subspace Projection Approach to
Unsupervised Multispectral
Image
Classification
- H.
Ren and C.-I Chang
[p. 2515]
- Unsupervised Hyperspectral Image Analysis with Projection
Pursuit
- A. Ifarraguerri and C.-I
Chang
[p. 2529]
- Characterization of EM Downhole-to-Surface Communication
Links
- F.
N. Trofimenkoff, M. Segal, A. Klassen, and J. W.
Haslett
[p. 2539]
- The Use of Multisource Satellite and Geospatial Data
to Study the Effect of Urbanization on Primary Productivity in the
United States
- M. L. Imhoff, C. J. Tucker, W. T.
Lawrence, and D. C. Stutzer
[p. 2549]
- Autonomous Atmospheric Compensation (AAC) of High
Resolution Hyperspectral Thermal Infrared Remote-Sensing
Imagery
- D. Gu, A. R. Gillespie, A. B.
Kahle, and F. D. Palluconi
[p. 2557]
- Penetration Depths Inferred from Interferometric Volume
Decorrelation Observed over the Greenland Ice
Sheet
- E. Weber Hoen and H. A.
Zebker
[p. 2571]
- Effect of Orbital Drift and Sensor Changes on the Time
Series of AVHRR Vegetation Index
Data
- R.
K. Kaufmann, L. Zhou, Y. Knyazikhin, N. V. Shabanov, R. B. Myneni, and
C. J. Tucker
[p. 2584]
- Multifrequency Emission of Wheat: Modeling and
Applications
- P.
Ferrazzoli, J.-P. Wigneron, L. Guerriero, and A.
Chanzy
[p. 2598]
- Two-Dimensional Random Adaptive Sampling for Image
Scanning
- L. Lo Presti, G. D'Amato, and L.
Sambuelli
[p. 2608]
- Modeling Lidar Returns from Forest
Canopies
- G. Sun and K. J.
Ranson
[p. 2617]
- A Novel Signal Processing Technique for Clutter Reduction
in GPR Measurements of Small, Shallow Land
Mines
- A. van der Merwe and
I. J. Gupta
[p. 2627]
- A Continental-Scale Mosaic of the Amazon Basin Using
JERS-1
SAR
- P.
Siqueira, S. Hensley, S. Shaffer, L. Hess, G. McGarragh, B. Chapman, and
A. Freeman
[p. 2638]
- A Large-Antenna Microwave Radiometer-Scatterometer Concept
for Ocean Salinity
and Soil Moisture Sensing
- E. G. Njoku, W. J.
Wilson, S. H. Yueh, and Y. Rahmat-Samii
[p. 2645]
- 2000
Index
About the Cover: A C-band penetration depth map (far right) of
Northern Greenland is shown. The map was produced from the
interferometric data of eight ERS scenes. Also shown are a brightness
image and two correlation maps (Bperp = 15 m and Bperp
= 130 m on the left and right, respectively). The
penetration depth was calculated from an inversion of a volume
decorrelation model. As expected, the coast evidences little to no
penetration, while in the interior, a penetration depth as much as 35 m
was found. For more information, see "Penetration Depths Inferred
from Interferometric Volume Decorrelation Observed over the Greenland
Ice Sheet," by E. Weber Hoen and H. A. Zebker, which begins on p.
2571.
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