基于FPGA的数字基带系统是超高频频段射频识别读写器中的关键部分。根据EPCglobalClass 1 Gen 2标准,用Verilog语言编写了脉冲间隔编码模块和双相空号解码模块,并用C语言编写了其驱动程序,生成组件模块。组件作为Nios II嵌入系统的模块...基于FPGA的数字基带系统是超高频频段射频识别读写器中的关键部分。根据EPCglobalClass 1 Gen 2标准,用Verilog语言编写了脉冲间隔编码模块和双相空号解码模块,并用C语言编写了其驱动程序,生成组件模块。组件作为Nios II嵌入系统的模块,可以重复使用。对于应用程序开发者,不用了解硬件结构就可以使用标准C函数操作组件,使得开发简便快捷,节省了时间和成本。展开更多
The increase of frame rate,though with the potential in a coded ultrasound system,is generally concomitant with the simultaneous transmission of a number of apertures,and in consequence leads to increased cross-talks ...The increase of frame rate,though with the potential in a coded ultrasound system,is generally concomitant with the simultaneous transmission of a number of apertures,and in consequence leads to increased cross-talks between different apertures.In view of this,a new coding scheme using staggering repetition interval was proposed.The transmitting signals were constructed by repeating the two(or more) modulated codes using staggering repetition interval,and then allocated to and transmitted simultaneously among different apertures.The decoding process was based on the subsection-matched filter under the assistance of different matched filters for different apertures.At last the outputs of subsection-matched filtering were added together.Staggering changed the positions of cross-correlation(CC) peaks from coinciding,which resulted in an effective reduction of CC.Our theoretical analysis and simulations showed that,the coding scheme can be used to reduce cross-talk,and a good cross-talk reduction will be achieved if the staggering delay is kept in an appropriate range.展开更多
文摘基于FPGA的数字基带系统是超高频频段射频识别读写器中的关键部分。根据EPCglobalClass 1 Gen 2标准,用Verilog语言编写了脉冲间隔编码模块和双相空号解码模块,并用C语言编写了其驱动程序,生成组件模块。组件作为Nios II嵌入系统的模块,可以重复使用。对于应用程序开发者,不用了解硬件结构就可以使用标准C函数操作组件,使得开发简便快捷,节省了时间和成本。
基金Project (Nos.60772147 and 60871060) supported by the National Natural Science Foundation of China
文摘The increase of frame rate,though with the potential in a coded ultrasound system,is generally concomitant with the simultaneous transmission of a number of apertures,and in consequence leads to increased cross-talks between different apertures.In view of this,a new coding scheme using staggering repetition interval was proposed.The transmitting signals were constructed by repeating the two(or more) modulated codes using staggering repetition interval,and then allocated to and transmitted simultaneously among different apertures.The decoding process was based on the subsection-matched filter under the assistance of different matched filters for different apertures.At last the outputs of subsection-matched filtering were added together.Staggering changed the positions of cross-correlation(CC) peaks from coinciding,which resulted in an effective reduction of CC.Our theoretical analysis and simulations showed that,the coding scheme can be used to reduce cross-talk,and a good cross-talk reduction will be achieved if the staggering delay is kept in an appropriate range.