该系统通过调整两块可动子镜,使其焦面光斑的质心位置与固定镜的重合校正子镜间的相对倾斜。
Segment alignment of tip-tilt is fulfilled by overlapping diffraction pattern centroids of the three individual segments on the focal plane.
文中基于子空间类测向方法,在远场情况下,提出了一种新的估计阵元位置误差的有源校正算法。
In the case of far field sources, based on the subspace direction-finding technique, a new method for active calibration of array shape is presented.
流水线ADC的模块有采样保持电路、乘法数模转换器、子ADC、数字校正电路、时钟产生电路和时间对齐电路。
The whole circuit consists of Sample and Hold Circuit, the Multiplicative A/D Converter, the Sub-ADC, the Digital Calibration Circuit, the Clock Generator and the Time Synchronizer.
该方法可对通道内和通道间的失配进行校正,且对由阵元构成的DBF和子阵dBF均适用。
The method can correct the mismatch inside a channel and among channels, and is also suitable for both DBF in array element and DBF in non-uniform subarray.
分析了子核具有三个激发态的典型核衰变情况下的级联校正情况,具体给出了测量滤材源的情况下具有代表性的符合校正因子计算的解析表达式。
The true coincidence correction for a specific three excited levels de-excitation case has been analyzed, and the typical analytical expressions of true coincidence correction factors have been given.
文章基于子空间类测向方法,在远场情况下,提出了一种新的阵元互耦有源校正算法。
In the case of far field sources, based on the subspace direction-finding technique, a new method for active calibration of array shape is presented.
文章基于子空间类测向方法,在远场情况下,提出了一种新的阵元互耦有源校正算法。
In this paper, a new active calibration approach for errors of microphone array is proposed.
当阵列模型存在误差时,子空间类方法的高分辨性能会显著下降,因此必须进行有效的校正。
A novel vector sensors array calibration method based on subspace approaches in the presence of phase errors on high-resolution estimation methods is presented in this paper.
三个查找表,色彩校正,像素叠加,子采样及更多功能。
Three LUTs, color correction, binning, sub-sampling and more features.
该算法基于连续线性规划技术,将安全校正问题分解为非线性潮流和线性控制灵敏度计算子问题以及基于灵敏度的线性规划控制子问题。
The corrective control problem was decomposed into a nonlinear power flow and linear sensitivity computation sub-problem and a sensitivity-based linear programming optimization control sub-problem.
结果,较低有效位和校正位或者校正电容器有可能驻留在子阵列中。
As a consequence the bits of lower significance and the correction bits or correction capacitors are likely to reside in a sub array.
每块波前处理子板的校正量输出为120路,波前处理主板的最大扩展能力为10块,整个系统可实现1 200路校正量的输出。
As each wave-front processing sub board can promote the output of 120 road and the maximum expansion capacity of the main board is 10, the system can reach the momentum of the output in 1 200 road.
每块波前处理子板的校正量输出为120路,波前处理主板的最大扩展能力为10块,整个系统可实现1 200路校正量的输出。
As each wave-front processing sub board can promote the output of 120 road and the maximum expansion capacity of the main board is 10, the system can reach the momentum of the output in 1 200 road.
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