Currently, the main network security mechanisms (such as firewall, intrusion detection, and vulnerability scanning) cannot prevent malicious attacks absolutely from the public network. Therefore, how to ensure the security of the information in the private network is a hot topic. In this paper, a network physical isolation system is designed based on private protocol, in which internal and external networks are physically isolated during the data transmission. Thereby, the security of network information is protected and the network security problems can be solved effectively through this isolation system. This isolation system can be applied in high security network environment such as government departments and business units, etc.
Woven fabrics are used in a wide variety of products, and they are prized for their flexibility, formability, and high specific strength. However, modeling woven cloth is difficult due, in particular, to complex mechanical properties. In this paper, the shear behavior of plain woven fabric is studied. Through the analysis, a mechanical model is proposed which take the shearing properties into account. It uses physical-based model for animating cloth objects. Furthermore, we demonstrate the efficiency of this method with examples related to accurate cloth simulation from experimental shear curve measured on actual materials.
Sr-filled skutterudite compounds SryCo4Sb12 (y=0-0.20) were synthesized by melting method.
XRD and EPMA results revealed that the obtained samples are single skutterudite phase with
homogeneous chemical composition. The lattice parameters increase linearly with increasing Sr content
in the range of y=0-0.20. The thermal conductivity, electrical conductivity and Seebeck coefficient were
measured in the temperature range of 300-850K. The measurement of Hall effect was performed by Van
de Pauw method at room temperature. The obtained Sr-filled skutterudite exhibits n-type conduction. The
absolute value of the Seebeck coefficient of SryCo4Sb12 decreases with the increase of Sr content. The
electrical conductivity increases with the increase of Sr content. The lattice thermal conductivity of
SryCo4Sb12 is significantly depressed as compared with unfilled CoSb3. The maximum dimensionless
thermoelectric figure of merit is 0.7 for Sr0.20Co4Sb12 at 850K. Further optimization of chemical
composition would improve the thermoelectric performance.
Abstract. We first establish the local well-posedness for a weakly dissipative shallow water equation which includes both the weakly dissipative Camassa-Holm equation and the weakly dissipative Degasperis-Procesi equation as its special cases. Then two blow-up results are derived for certain initial profiles. Finally, We study the long time behavior of the solutions.
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