提出了一种脉冲多普勒雷达数字信号处理机机内测试方法。
A new method of built in self testing for pulse doppler radar digital signal processor was advanced.
提出了一种动目标检测雷达数字信号处理机内建自测试方法。
A new method of built-in self-testing for the digital signal processor in an MTD radar is proposed.
本文首先介绍了利用FPGA设计数字电路系统的流程和雷达数字信号处理的主要内容。
Firstly, the paper introduce the basic flow of Digital Circuit system design based on FPGA and the body content of RDSP (Radar Digital Signal Processing) .
介绍一种由高速数字信号处理器(DSP) ADSPTS101实现的雷达数字信号处理机。
This paper introduces using high speed digital signal processor (DSP) ADSP-TS101 to realize radar digital signal processor.
介绍了基于多个DSP芯片- ADSP2 10 60和大规模可编程器件的雷达数字信号处理通用模块。
The universal radar digital signal processing module based on multi DSP ADSP21060 and large scale programmable device is presented.
它具有强大的数字信号处理能力,已经广泛地应用于通信、雷达、计算机及其它领域。
It has powerful digital signal processing ability, which has been used in communication, radar, computer and other areas.
讨论了如何利用数字信号处理技术提高激光雷达的目标探测能力。
This paper discussed how to use digital signal processing technology to improve the laser radar's target detection ability.
针对测速雷达实时数字信号处理系统的设计问题,提出了一种基于DSP与FPGA的设计新方法。
A new method is presented to implement the velocity radar real-time digital signal processing system based on DSP and FPGA.
用通用数字信号处理片(dsp)实现的雷达mtd系统,具有编程灵活,运算精度高、结构简单、体积小等特点。
The radar MTD system implemented with general-purpose digital signal processors (DSPs) is flexible in programming, high accurate in operation, simple in structure and small in size.
该成果的硬件设备可适应不同的实时数字信号处理要求,应用于雷达、通讯、遥控、仪器、语音、智能等各种场合。
The hardware equipments are suitable for different real-time digital processing and apply to radar, communication, remote, instruments, voice and intelligence systems.
介绍了一种基于数字信号处理器(dsp)的嵌入式激光雷达图像采集系统的实现原理、硬件结构和软件设计。
An embedded image acquisition system of laser radar based on digital signal processor (DSP) is presented, whose theory of realization, hardware structure and software are also introduced.
正交相干检波是雷达、声纳和通信等系统中为数字信号处理提供高质量的正交信号的关键技术之一。
The coherent quadrature detector is one of the key technologies for providing high quality quadrature signal for digital signal processing in radar, sonar, communication and other systems.
根据弹载环境对雷达高度表的具体要求,介绍了某测高雷达的原理及其数字信号处理软、硬件设计。
The theory and digital signal processing software and hardware design method of height finding radar based on the requirements of missile-borne radar altimeter.
第三章主要介绍了基于TMS320VC33- 150数字信号处理芯片的雷达目标的检测与跟踪系统的硬件实现。
In Chapter three the realization of hardware of radar targets' detection and tracking system based on the TMS320VC33-150 DSP chip is mainly introduced.
该结果表明,快速傅里叶变换(FFT)方法是对探测雷达系统的回波信号进行数字信号处理的有效方法。
The results show that the FFT method is and effective way for the FMCW detection radar in signal processing.
雷达数字化接收机的理论基础是采样理论、信号正交变换、多速率信号处理以及高效的数字信号处理算法。
The theoretic of radar digital receiver are sampling, signal orthogonal transform, multirate digital signal processing, DSP algorithm with high efficiency, etc.
本文首先简单介绍了合成孔径雷达(SAR)成像原理,并对以超高速数字信号处理器(DS)为核心的机载合成孔径雷达实时成像处理系统的硬件结构作了描述。
This paper presents the principle of Sythetic Aperture Radar(SAR) imaging and describes the system hardware of airborneSAR real-time digital signal processing system with ultra-high speed DSP .
ADC是一种基于FPGA的高速数字信号处理平台,在通信、音视频、雷达信号处理等领域得到了成功的应用。
VHS-ADC, a high-speed signal processing system based on FPGA, has been applied widely in communication, audio, video and radar signal processing fields.
本文介绍了一种用于距离门脉冲多卜勒雷达的可编程序数字信号处理机。
A programmable digital signal processor for ranging gate pulse Doppler radar is presented.
通过优化支持向量机算法,将它嵌入到激光成像雷达系统的数字信号处理器(DSP)芯片内,实现目标识别的功能,有很高的现实意义。
Through optimizing the algorithm of SVM, it is embedded into digital signal processing (DSP) of laser imaging radar, achieving the function of target recognition, which has high pract.
合成孔径雷达的数据压缩算法也经历了很多演变,它是其中数字信号处理中的一个重要步骤。
The data compression is one of the most important digital signal processing stages of the SAR.
仿真和测试结果表明该方案可用单芯片完成数字信号处理器的硬件设计,可在一些小型FMCW测距雷达上应用。
The simulation and test results indicate that this design can be implemented on a single chip. This design can be applied in some minitype FMCW radar for its ranging function.
VHS-ADC是一种基于FPGA的高速数字信号处理平台,在通信、音视频、雷达信号处理等领域得到了成功的应用。
VHS-ADC, a high-speed signal processing system based on FPGA, has been applied widely in communication, audio, video and radar signal processing fields.
数字接收机的核心部分(包括雷达信号产生)都是用数字信号处理的方法来完成的,软件化的特性使得数字接收机具有高度的灵活性、开放性和通用性。
The core functions of digital receivers, including forming Radar signals, are all achieved by digital technologies, which software characteristic makes receivers much flexible, opened and all-purpose.
为了提高红外激光雷达测距系统的测量精度和可靠性,设计并实现了基于高速模数转换器和数字信号处理(DSP)技术的DSP鉴相器。
As a result, the lidar distance measurement system we have developed with a DSP phase detector has a precision of 3 millimeters in the measuring range of 2 kilometers.
为了提高红外激光雷达测距系统的测量精度和可靠性,设计并实现了基于高速模数转换器和数字信号处理(DSP)技术的DSP鉴相器。
As a result, the lidar distance measurement system we have developed with a DSP phase detector has a precision of 3 millimeters in the measuring range of 2 kilometers.
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