Shurun Tan scite author profile

A spirited panel was recently held at the 10th International Web Caching and Content Distribution workshop on the future of P2P in content distribution [1]. After more than ten years of content distribution research and technology efforts, P2P is emerging as an alternative solution to solve the mass distribution of large digital content. However, using P2P for commercial content distribution faces a number of serious challenges. Issues such as content protection, impact on ISPs, security, end-to-end connectivity, and business models need careful consideration before P2P an be used as an efficient tool by content providers. In this paper, we summarize the issues brought up in discussion, and delve deeper into the feasibility of commercial, legal P2P content distribution solutions

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Dense Media Radiative Transfer Applied to SnowScat and SnowSAR

Chang

Tan

Lemmetyinen

et al. 2014

IEEE J. Sel. Top. Appl. Earth Observations Remote Sensing

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The dense media radiative transfer (DMRT) theory is applied to data analysis of recent measurements of multifrequency microwave backscatter from the snow cover on earth. Measurement includes ground-based campaign (SnowScat) and airborne mission (SnowSAR). Both the quasi-crystalline approximation (QCA) model and the bicontinuous model are used for a multilayer snow medium. Two size parameters are used for both models. Grain size and stickiness parameter are used for QCA model. The bicontinuous model has two parameters: the mean wave number ζ and the parameter b. The mean wave number ζ corresponds to the inverse of the grain size, while the b parameter controls the width of the wave number distribution and is related to the clustering property. The bicontinuous model is used to generate the microstructures of snow by computer, and Maxwell equations are solved numerically for each sample of computer-generated structure to calculate the extinction coefficient and the phase matrix. Other geometric descriptors of the bicontinuous medium include correlation functions and specific surface areas, both of which can be calculated from the parameters ζ and b. In making comparisons, we use ground measurements of specific surface area, grain size, densities, and layering of snow cover as input for the theoretical models. The geometric properties and the scattering properties of the bicontinuous model are also compared with past models. In making the multifrequency comparisons, we use the same physical parameters of all three frequencies: 1) X band; 2) Ku bands of 13.3 GHz; and 3) 16.7 GHz. It is emphasized that the DMRT models provide frequency, size, and angular dependence that depart from the classical model of Rayleigh scattering and are in better agreement with experimental observations. Index Terms-Bicontinuous, dense media radiative transfer (DMRT), quasi-crystalline approximation (QCA), remote sensing of snow, SnowSAR, SnowScat.

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Scaling laws for the mechanics of loose and cohesive granular materials based on Baxter's sticky hard spheres

Gaume

Löwe²,

Tan

et al. 2017

Phys. Rev. E

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We have conducted discrete element simulations (pfc3d) of very loose, cohesive, granular assemblies with initial configurations which are drawn from Baxter's sticky hard sphere (SHS) ensemble. The SHS model is employed as a promising auxiliary means to independently control the coordination number z_{c} of cohesive contacts and particle volume fraction ϕ of the initial states. We focus on discerning the role of z_{c} and ϕ for the elastic modulus, failure strength, and the plastic consolidation line under quasistatic, uniaxial compression. We find scaling behavior of the modulus and the strength, which both scale with the cohesive contact density ν_{c}=z_{c}ϕ of the initial state according to a power law. In contrast, the behavior of the plastic consolidation curve is shown to be independent of the initial conditions. Our results show the primary control of the initial contact density on the mechanics of cohesive granular materials for small deformations, which can be conveniently, but not exclusively explored within the SHS-based assembling procedure.

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Modeling Both Active and Passive Microwave Remote Sensing of Snow Using Dense Media Radiative Transfer (DMRT) Theory With Multiple Scattering and Backscattering Enhancement

Tan

Chang

Tsang

et al. 2015

IEEE J. Sel. Top. Appl. Earth Observations Remote Sensing

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Shurun Tan

Forward and Inverse Radar Modeling of Terrestrial Snow Using SnowSAR Data

On the feasibility of commercial, legal P2P content distribution

Dense Media Radiative Transfer Applied to SnowScat and SnowSAR

Scaling laws for the mechanics of loose and cohesive granular materials based on Baxter's sticky hard spheres

Modeling Both Active and Passive Microwave Remote Sensing of Snow Using Dense Media Radiative Transfer (DMRT) Theory With Multiple Scattering and Backscattering Enhancement

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