Ahmad Zandi scite author profile

Compression with Reversible Embedded Wavelets (CREW) is a unified lossless and lossy continuous-tone still image compression system. It is wavelet-based using a "reversible" approximation of one of the best wavelet filters. Reversible wavelets are linear filters with non-linear rounding which implement exact-reconstruction systems with minimal precision integer arithmetic. Wavelet coefficients are encoded in a bit-significance embedded order, allowing lossy compression by simply truncating the compressed data. For coding of coefficients, CREW uses a method similar to Shapiro's zerotree, and a completely novel method called Horizon. Horizon coding is a context based coding that takes advant.age of the spatial and spectral information available in the wavelet domain. CREW provides state of the art lossless compression of medical images (greater than 8 bits deep), and lossy and lossless compression of 8-bit deep images with a single system. CREW has reasonable software and hardware implement at ions.

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<title>Lossless and nearly lossless compression for high-quality images</title>

Gormish

Schwartz

Keith

et al. 1997

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<title>Implementation of compression with reversible embedded wavelets</title>

Schwartz

Zandi

Boliek

1995

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Zandi

Iyer²,

Langdon³

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Selective Fabrication of Robust and Multifunctional Super Nonwetting Surfaces by Diverse Modifications of Zirconia–Ceria Nanocomposites

et al. 2022

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The creation of surfaces with various super nonwetting properties is an ongoing challenge. We report diverse modifications of novel synthesized zirconia–ceria nanocomposites by different low surface energy agents to fabricate nanofluids capable of regulating surface wettability of mineral substrates to achieve selective superhydrophobic, superoleophobic–superhydrophilic, and superamphiphobic conditions. Surfaces treated with these nanofluids offer self-cleaning properties and effortless rolling-off behavior with sliding angles ≤7° for several liquids with surface tensions between 26 and 72.1 mN/m. The superamphiphobic nanofluid coating imparts nonstick properties to a solid surface whereby liquid drops can be effortlessly displaced on the coating with a near-zero tilt and conveniently lifted off using a needle tip, leaving no trace. Further, the superamphiphobic surface demonstrates good oil repellency toward ultralow surface tension liquids such as n-hexane and n-heptane. The superoleophobic–superhydrophilic surface repels oil droplets well regardless of whether it is in the air or underwater conditions. In addition, reaping the benefits of the ZrO2–CeO2 nanocomposites’ photocatalysis feature, the superoleophobic–superhydrophilic coating exhibits self-cleaning ability by the degradation of color dyes. Modification of the wettability of substrates is carried out by a cost-effective and facile solution-immersion approach, which creates surfaces with hierarchical nano-submicron-scaled structures. The multipurpose coated surfaces have outstanding durability and mechanical stability. They also resist well high-temperature–high-pressure conditions, which will provide various practical applications in different fields, including the condensate banking removal in gas reservoirs or the separation of oil/water mixtures.

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Ahmad Zandi

CREW: Compression with Reversible Embedded Wavelets

<title>Lossless and nearly lossless compression for high-quality images</title>

<title>Implementation of compression with reversible embedded wavelets</title>

Sort order preserving data compression for extended alphabets

Selective Fabrication of Robust and Multifunctional Super Nonwetting Surfaces by Diverse Modifications of Zirconia–Ceria Nanocomposites

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