陀螺仪的
- 与 陀螺仪的 相关的网络例句 [注:此内容来源于网络,仅供参考]
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Based on the different features of HModulated gyro monitor inertial navigation system,electric navigation chart and bathometer,this paper presents an integrated HMGMINS/ENC/BM navigation system.
根据H调制陀螺监控惯性导航系统、电子海图以及测深测潜仪的不同特点,提出了一种HMGMINS/ENC/BM组合导航系统。
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Compared with gimbaled gyroscope, ultrasonic suspended gyroscope has such characteristics as follow: It has simple configuration and few disturbing sources.
与框架陀螺仪相比有以下特点:结构简单,干扰来源少,支承作用点随转子相对壳体的线位移而移动。
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The two small interior wheels, for which there is a separate motor, act as gyroscopic balancers and rudders.
两个小轮子内部,有一个单独的电动机,作为陀螺仪和平衡舵。
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The requirements of Interference fiber optical gyroscope, optical time domain reflectometer,biomedicine optical coherence tomograph.
讨论了在干涉型光纤陀螺仪、光时域反射计、医学相干检测技术、波分复用技术中对SLD的要求。
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So, gyros alone can't be used to keep in an aircraft in a particular orientation.
因此,单独使用陀螺仪也无法保持飞机的特定航向。
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The factory adjusted output signal of the gyros may vary slightly, we must therefore sometimes correct the signal.
工厂调整的陀螺仪输出信号可能很小,因此有时候我们必须校准这个信号。
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Matter can be considered as different levels of spinning electromagnetic gyros embedded within each other.
物质可以被看作电磁陀螺仪内互相嵌入的平面。
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On each scale, the signal was rebuilt, so 5 groups of multiscale gyros drift data were got.
根据分解后的各尺度系数进行信号重建,得到5组多尺度陀螺仪漂移数据。
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Gyroscopes become the emphatically developmental high technology in military and civilian application as key part of inertia navigation system.
陀螺仪是各国重点发展的高科技军事和民用技术。
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Gyroscopes is an important component for inertial navigation.
陀螺仪则是惯性导航技术中的一项关键部件。
- 推荐网络例句
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Finally, according to market conditions and market products this article paper analyzes the trends in the development of camera technology, and designs a color night vision camera.
最后根据市场情况和市面上产品的情况分析了摄像机技术的发展趋势,并设计了一款彩色夜视摄像机。
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Only person height weeds and the fierce looks stone idles were there.
只有半人深的荒草和龇牙咧嘴的神像。
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This dramatic range, steeper than the Himalayas, is the upturned rim of the eastern edge of Tibet, a plateau that has risen to 5 km in response to the slow but un stoppable collision of India with Asia that began about 55 million years ago and which continues unabated today.
这一引人注目的地域范围,比喜马拉雅山更加陡峭,是处于西藏东部边缘的朝上翻的边框地带。响应启始于约5500万年前的、缓慢的但却不可阻挡的印度与亚洲地壳板块碰撞,高原已上升至五千米,这种碰撞持续至今,毫无衰退。