Title :
Near-lossless compression of 3-D optical data
Author :
Aiazzi, Bruno ; Alparone, Luciano ; Baronti, Stefano
Author_Institution :
"Nello Carrara" Res. Inst. on Electromagn. Waves, Nat. Res. Council, Florence, Italy
fDate :
11/1/2001 12:00:00 AM
Abstract :
Near-lossless compression yielding strictly bounded reconstruction error is proposed for high-quality compression of remote sensing images. A classified causal differential pulse code modulation scheme is presented for optical data, either multi/hyperspectral three-dimensional (3-D) or panchromatic two-dimensional (2-D) observations. It is based on a classified linear-regression prediction, followed by context-based arithmetic coding of the outcome prediction errors and provides excellent performances, both for reversible and for irreversible (near-lossless) compression. Coding times are affordable thanks to fast convergence of training. Decoding is always real time. If the reconstruction errors fall within the boundaries of the noise distributions, the decoded images will be virtually lossless even though encoding was not strictly reversible
Keywords :
data compression; differential pulse code modulation; geophysical signal processing; image coding; remote sensing; 3D optical data; AVIRIS; Airborne Visible/Infrared Imaging Spectrometer; classified linear-regression prediction; coding times; context-based arithmetic coding; data compression; differential pulse code modulation; hyperspectral images; irreversible compression; multispectral images; near-lossless compression; noise distributions; outcome prediction errors; panchromatic 2D observations; reconstruction error; remote sensing images; reversible compression; Decoding; Hyperspectral sensors; Image coding; Image reconstruction; Modulation coding; Optical modulation; Optical pulses; Optical sensors; Pulse modulation; Remote sensing;
Journal_Title :
Geoscience and Remote Sensing, IEEE Transactions on
