本文围绕中国制造业国际竞争力与升级路径竞争强度的匹配关系,提出全球价值链(Global Value Chains,GVCs)重构视角下的制造业升级路径选择假说。以中国制造业在GVCs升级路径中的表现、GVCs路径与“一带一路”RVCs路径的升级前景比较,检...本文围绕中国制造业国际竞争力与升级路径竞争强度的匹配关系,提出全球价值链(Global Value Chains,GVCs)重构视角下的制造业升级路径选择假说。以中国制造业在GVCs升级路径中的表现、GVCs路径与“一带一路”RVCs路径的升级前景比较,检验假说内容、提出升级路径选择建议。实证结果显示:以“一带一路”沿线国家为主要出口市场的中国企业生产率高于出口G7国家的企业,RVCs路径更有利于中国制造业产业升级;依托RVCs路径进行产业升级也能更有效地增进国民收入增长,更有利于中国顺利跨越中等收入阶段。展开更多
轮状病毒(Rotaviruses,RVs)是引起人和动物病毒性腹泻的重要病原,本文旨在研究猪C组轮状病毒(Group C rotaviruses,RVCs)VP8*蛋白的受体结合特征。本研究合成一株P[5]型猪C组轮状病毒(Por2011)的VP8*基因,经体外原核表达,采用亲和层析...轮状病毒(Rotaviruses,RVs)是引起人和动物病毒性腹泻的重要病原,本文旨在研究猪C组轮状病毒(Group C rotaviruses,RVCs)VP8*蛋白的受体结合特征。本研究合成一株P[5]型猪C组轮状病毒(Por2011)的VP8*基因,经体外原核表达,采用亲和层析纯化获得VP8*目的蛋白,利用糖点阵实验、寡糖结合实验研究其寡糖结合特征,再通过序列比对和突变分析确定其潜在受体结合位点。结果显示猪C组轮状病毒Por2011 VP8*蛋白与P1抗原特异性结合,但第108位氨基酸突变后的蛋白则不能与P1抗原结合。本研究表明猪C组轮状病毒的某些型别可能以P1抗原为潜在受体,该受体结合位点与人C组轮状病毒的受体结合位点较为接近,这为猪C组轮状病毒感染机制的研究提供了一定的依据和基础。展开更多
车联网VANETs(vehicular Ad Hoc networks)中车辆的快速移动缩短了路边设施单元RSUs(roadside units)与车辆间RVC(roadside-to-vehicle)通信的连接时间,降低了RVC通信的数据吞吐量。为此提出基于合作式数据传输的RVC通信CDT-RVC(...车联网VANETs(vehicular Ad Hoc networks)中车辆的快速移动缩短了路边设施单元RSUs(roadside units)与车辆间RVC(roadside-to-vehicle)通信的连接时间,降低了RVC通信的数据吞吐量。为此提出基于合作式数据传输的RVC通信CDT-RVC(collaborative data transmission in RVC)方案。引入合作通信模式,移动的动态车辆和静态车辆分别建立各自的群,移动车辆与同方向的其余移动车辆组建成群,向静态车辆传输数据,静态车辆再向RSU传输数据。仿真结果表明,CDT-RVC方案有效提高了数据吞吐量。展开更多
车联网VANETs(Vehicular Ad Hoc Networks)中车辆的快速移动,缩短了路边设施单元RSUs(Roadside Units)与车辆间RVC(Roadside-to-Vehicle)通信的连接时间,降低了RVC通信的数据吞吐量。为此,提出基于合作式数据传输的RVC通信CDT-RVC(Colla...车联网VANETs(Vehicular Ad Hoc Networks)中车辆的快速移动,缩短了路边设施单元RSUs(Roadside Units)与车辆间RVC(Roadside-to-Vehicle)通信的连接时间,降低了RVC通信的数据吞吐量。为此,提出基于合作式数据传输的RVC通信CDT-RVC(Collaborative Data Transmission in RVC)方案。CDT-RVC方案引入合作通信模式,移动的动态车辆和静态车辆分别建立各自的群。移动车辆与同方向的其余移动车辆组建成群,并向静态车辆传输数据,静态车辆再向RSU传输数据。仿真结果表明,提出的CDT-RVC方案有效地提高了数据吞吐量。展开更多
Recent advances in reconfigurable computing have led to new ways of implementing complex algorithms while maintaining reasonable throughput. Video codecs are becoming more complex in order to provide efficient compres...Recent advances in reconfigurable computing have led to new ways of implementing complex algorithms while maintaining reasonable throughput. Video codecs are becoming more complex in order to provide efficient compression for video with ever-increasing resolution. This problem is compounded by the fact that spectra of video decoding devices has become wider in the move from traditional TV to cable and satellite TV, IPTV, mobile TV, and Internet media. MPEG is tackling this problem with a reconfigurable video coding (RVC) framework and is standardizing a modular definition of tools and connections. MPEG ' s work started with video coding and has recently extended to graphics data coding. RVC will be supported by non-MPEG standards such as the Chinese audio-video standard (AVS). This article gives a brief background to the reconfigurable codec framework. The key to this framework is reconfigurability and reducing granularity to find commonality between different standards.展开更多
文摘本文围绕中国制造业国际竞争力与升级路径竞争强度的匹配关系,提出全球价值链(Global Value Chains,GVCs)重构视角下的制造业升级路径选择假说。以中国制造业在GVCs升级路径中的表现、GVCs路径与“一带一路”RVCs路径的升级前景比较,检验假说内容、提出升级路径选择建议。实证结果显示:以“一带一路”沿线国家为主要出口市场的中国企业生产率高于出口G7国家的企业,RVCs路径更有利于中国制造业产业升级;依托RVCs路径进行产业升级也能更有效地增进国民收入增长,更有利于中国顺利跨越中等收入阶段。
文摘轮状病毒(Rotaviruses,RVs)是引起人和动物病毒性腹泻的重要病原,本文旨在研究猪C组轮状病毒(Group C rotaviruses,RVCs)VP8*蛋白的受体结合特征。本研究合成一株P[5]型猪C组轮状病毒(Por2011)的VP8*基因,经体外原核表达,采用亲和层析纯化获得VP8*目的蛋白,利用糖点阵实验、寡糖结合实验研究其寡糖结合特征,再通过序列比对和突变分析确定其潜在受体结合位点。结果显示猪C组轮状病毒Por2011 VP8*蛋白与P1抗原特异性结合,但第108位氨基酸突变后的蛋白则不能与P1抗原结合。本研究表明猪C组轮状病毒的某些型别可能以P1抗原为潜在受体,该受体结合位点与人C组轮状病毒的受体结合位点较为接近,这为猪C组轮状病毒感染机制的研究提供了一定的依据和基础。
文摘车联网VANETs(vehicular Ad Hoc networks)中车辆的快速移动缩短了路边设施单元RSUs(roadside units)与车辆间RVC(roadside-to-vehicle)通信的连接时间,降低了RVC通信的数据吞吐量。为此提出基于合作式数据传输的RVC通信CDT-RVC(collaborative data transmission in RVC)方案。引入合作通信模式,移动的动态车辆和静态车辆分别建立各自的群,移动车辆与同方向的其余移动车辆组建成群,向静态车辆传输数据,静态车辆再向RSU传输数据。仿真结果表明,CDT-RVC方案有效提高了数据吞吐量。
文摘车联网VANETs(Vehicular Ad Hoc Networks)中车辆的快速移动,缩短了路边设施单元RSUs(Roadside Units)与车辆间RVC(Roadside-to-Vehicle)通信的连接时间,降低了RVC通信的数据吞吐量。为此,提出基于合作式数据传输的RVC通信CDT-RVC(Collaborative Data Transmission in RVC)方案。CDT-RVC方案引入合作通信模式,移动的动态车辆和静态车辆分别建立各自的群。移动车辆与同方向的其余移动车辆组建成群,并向静态车辆传输数据,静态车辆再向RSU传输数据。仿真结果表明,提出的CDT-RVC方案有效地提高了数据吞吐量。
文摘Recent advances in reconfigurable computing have led to new ways of implementing complex algorithms while maintaining reasonable throughput. Video codecs are becoming more complex in order to provide efficient compression for video with ever-increasing resolution. This problem is compounded by the fact that spectra of video decoding devices has become wider in the move from traditional TV to cable and satellite TV, IPTV, mobile TV, and Internet media. MPEG is tackling this problem with a reconfigurable video coding (RVC) framework and is standardizing a modular definition of tools and connections. MPEG ' s work started with video coding and has recently extended to graphics data coding. RVC will be supported by non-MPEG standards such as the Chinese audio-video standard (AVS). This article gives a brief background to the reconfigurable codec framework. The key to this framework is reconfigurability and reducing granularity to find commonality between different standards.
