提出了一种应用快速傅里叶变换算法提高哈特曼夏克波前传感器波前重构实时性的快速算法。
Based on the fast Fourier transform (FFT) algorithm, the wave-front reconstruction algorithm of Shack-Hartmann sensor is described.
提出了OFDM(正交频分复用)利用FFT(傅里叶变换)实时同步方式的方案,在多径环境下具有有良好的特性。
This paper proposes a scheme for temporary time locking by using FFT (fast Fourier transformer) in OFDM (orthogonal frequency division multiplexing). The OFDM has a good BER in multipath.
着重介绍了振动检测单元的硬件实现,基于有限脉冲响应(FIR)数字滤波与快速傅里叶变换(FFT)的实时数据处理过程,以及基于用户数据报协议(UDP)的数据传输过程。
The paper mainly introduces the hardware implement of inspection unit for vibration, real-time data process on FIR and FFT, and data transmitting process on UDP.
根据实时光谱探测系统,拟采用傅里叶变换光谱理论获取侍测光谱信息。
In accordance with the requirements of a real-time spectral detection system, the Fourier transform spectral theory is utilized to obtain the spectral information to be detected.
采用基于快速傅里叶变换(FFT)技术控制叶片的运动,是一种简单有效的运动控制方法,可以使大量随风摆动叶片的实时绘制成为可能。
The dynamically created primitive strip by the GeometryShader, image-based rendering method and the FFT-based flow control method make the real-time rendering dynamic grass blade possible.
采用基于快速傅里叶变换(FFT)技术控制叶片的运动,是一种简单有效的运动控制方法,可以使大量随风摆动叶片的实时绘制成为可能。
The dynamically created primitive strip by the GeometryShader, image-based rendering method and the FFT-based flow control method make the real-time rendering dynamic grass blade possible.
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