通过实现信号变换,不需要昂贵的辅助仪器就可把高速CCD电视摄像机和标准TV监视器、录像机联合起来使用。
By implementing the signal transformation, we can use the high speed CCD video camera in combination with standard TV monitors and videocorders and we do not need additional expensive equipments.
采用高速数字信号处理器TMS320F 2812设计实现了双pwm变换器励磁的交流励磁发电机励磁系统实验平台。
An ACEG experiment platform based on dual PWM converter is established by using high-speed digital signal processor TMS320F2812 and the system performance is assessed through the experiment.
本文研究高速CCD视频信号的变换,应用于高速CCD视频信号显示与记录系统。
The high speed CCD video signal transformation, which is applied to the high speed CCD video signal displaying and recording system is studied.
凭借高速性并行性和灵活性可编程性等优点,联合变换相关器在目标识别领域具有广泛的应用前景。
Joint Transform Correlator (JTC) is now widely used in the field of target recognition due to its high speed, highly parallelizable and programmable characteristics.
本文提出了从机械手末端位置及姿势求出各关节转角的坐标逆变换超高速算法。
In this paper, a super-high-speed algorithm of coordinate inversion is outlined, which draws each joint rotative Angle from the end-position and posture of manipulator.
偏振控制器PC是高速光纤通信系统研究中一个非常重要的器件,它可以将任意的输入光偏振态变换为任意形式的输出光偏振态。
PC, a key element in high rate optical fiber communication system, changes any input light polarization state into any desired output light polarization state.
DSP是在模拟信号变换成数字信号以后进行高速实时处理的专用处理器,其处理速度比最快的CPU还快10 ~50倍。
DSP in the analog signal is converted into digital signal processing real-time after high-speed dedicated processor, its processing speed than the fastest CPU faster 10 to 50 times.
基于小波变换的SPIHT图像压缩方案是一种实用高性能图象压缩编码算法,但原始SPIHT算法链表式编码限制了其在高速处理中的应用。
SPIHT is a well recognized coding algorithm due to its high effecient performance. But SPIHT is unsuitable for high-speed hardware implementation. An improved coding algorithm to SPIHT is introduced.
本文提出的新型遥感图像变换与编码方法,对于遥感数据的高保真、高速率实时传输具有实用价值。
Our directional transforms and coding algorithms are practical for the high speed and high fidelity transmission of remote sensing images.
以设计的12/8结构样机为控制对象,对磁悬浮开关磁阻电机高速数字 控制系统进行了硬件原理设计,包括功率变换器和 控制系统设计。
Take the designed sample BSRM of 12/8 structure as control object, hardware of high-speed digital control system is preliminary designed, including power converter and control system.
以设计的12/8结构样机为控制对象,对磁悬浮开关磁阻电机高速数字 控制系统进行了硬件原理设计,包括功率变换器和 控制系统设计。
Take the designed sample BSRM of 12/8 structure as control object, hardware of high-speed digital control system is preliminary designed, including power converter and control system.
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