Radio frequency identification (RFID) is one popular technology being deployed for a variety of applications. Privacy and security issues play major roles in the success of RFID applications due to ease with masquerade, eavesdropping, etc. over the insecure channel between the tag and the reader. These security requirements are summarized: indistinguishability, forward security, ownership transfer, and resistance to replay attack and tag killing. Much research has been proposed. Except Osaka et al.'s scheme, none can meet all requirements. However, this paper introduces a new type of DoS attack which is ignored in these research studies to endanger their securities. As Osaka et al.'s scheme is superior to the others in terms of the functionalities, we take it as an example to show the possibility of the new DoS attack. A remedy is further provided to enhance the security to make the scheme more practical.
The African swine fever virus (ASFV) is a highly infectious viral pathogen that presents a major threat to the global pig industry. No effective vaccine is available for the virus. The p54 protein, a major structural component of ASFV, is involved in virus adsorption and entry to target cells and also plays a key role in ASFV vaccine development and disease prevention. Here, we generated species-specific monoclonal antibodies (mAbs), namely 7G10A7F7, 6E8G8E1, 6C3A6D12, and 8D10C12C8 (subtype IgG1/kappa type), against the ASFV p54 protein and characterized the specificity of these mAbs. Peptide scanning techniques were used to determine the epitopes that are recognized by the mAbs, which defined a new B-cell epitope, TMSAIENLR. Amino acid sequence comparison showed that this epitope is conserved among all reference ASFV strains from different regions of China, including the widely prevalent, highly pathogenic strain Georgia 2007/1 (NC_044959.2). This study reveals important signposts for the design and development of ASFV vaccines and also provides critical information for the functional studies of the p54 protein via deletion analysis.
A heat pipe solar collector system for winter heating is investigated both experimentally and theoretically. The hourly heat collecting capacity, water temperature and contribution rate of solar collector system based on Zhengzhou city typical sunshine are calculated. The study reveals that the heat collecting capacity and water temperature increases initially and then decreases, and the solar collector system can provide from 40% to 78% heating load for a 200 m 2 villa with in Zhengzhou city from November to March.
An inter-cooler in the solar-assisted refrigeration system was investigated
experimentally and theoretically, and the theoretical prediction was fairly
in good agreement with the experimental data. The influence of pipe diameter,
tooth depth, and spiral angle of inter-cooler on the performance of the
refrigerant system was analyzed. It was concluded that heat transfer is
influenced deeply by the structure parameters of inter-cooler, and the heat
transfer capacity increases with tooth depth and spiral angle increasing, and
decreases with tooth apex angle increasing.
A model was established for solar ejector-compression refrigeration system.
The influence of generator temperature, middle-temperature, and evaporator
temperature on the performance of the refrigerant system was analyzed. An
optimal generator temperature is found for maximal energy efficiency ratio
and minimal power consumption.
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