The fundament of two-dimension imaging for rotating target is discussed.
讨论了旋转目标二维成像的基本原理。
The main difference, apart from the scale of the machines, is that the cyclotron fired its particles into a static target whereas the LHC USES contra-rotating beams to achieve head-on collisions.
除了机器的规模,LHC和回旋加速器的主要区别是回旋加速器使粒子撞向静态目标,而LHC用的不是静态目标,用的是逆时针方向传播地质子束来达到正碰。
The dissertation demonstrates the maneuvering target imaging model with acceleration and rotating motion and its signal processing to solve attitude perturbation of the targets.
针对机动目标存在的姿态扰动,研究了具有加速度和旋转运动的机动目标成像模型及其信号处理过程。
The panel cross section is analyzed in the model, and the feasible zone of all cross section rotating angle is located, and a group of target function is proposed as optimized object.
该模型分析了冲压件截面形状,确定所有截面转角的公共可行域,并建立一组目标函数作为优化对象。
All cross section rotating Angle is optimized in the feasible zone, and the optimal value of target function is calculated.
在公共可行域内优化各个截面的转角,然后加权平均得到目标函数的最优值。
By rotating the symmetry axis of a target into a defined orientation, it is efficient for target recognition to use the feature area distribution as a parameter.
确定了物体对称轴的取向后,可使用坐标变换方法,将轴对称物体的对称轴旋转到某一特定的取向,便于使用特征面积分布作为特征参数进行快速的目标分类识。
The proposed method is applied to slowly rotating non-cooperative target in an arbitrary elliptical orbit synchronous fly-around position tracking control.
采用该控制方法,进行大椭圆轨道慢旋目标同步绕飞跟踪控制器设计。
The proposed method is applied to slowly rotating non-cooperative target in an arbitrary elliptical orbit synchronous fly-around position tracking control.
采用该控制方法,进行大椭圆轨道慢旋目标同步绕飞跟踪控制器设计。
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