1) side arms' effect
边臂效应
2) lever arm effect
杆臂效应
1.
Analysis and compensation on inner lever arm effect of strapdown inertial measurement unit;
捷联惯性测量组件中内杆臂效应分析与补偿
2.
Experiment of Lever Arm Effect Compensation for Velocity Matching Alignment with Moving Base;
速度匹配动基座对准杆臂效应补偿试验研究
3.
The swaying movement and the lever arm effect error are two major factors affecting the alignment accuracy of shipbased weapons.
摇摆运动及杆臂效应误差是影响舰载武器系统对准精度的主要因素。
3) lever arm
杆臂效应
1.
In transfer alignment of airborne weapon,the alignment accuracy of slave SINS is greatly affected by lever arm,wing flexure and vibration of the aircraft.
文中基于实际工程需要,对影响机载武器传递对准性能的各种因素进行了精确建模及全面分析,提出了机翼弹性变形的三阶随机过程模型,建立了机翼的颤振模型及杆臂效应误差模型。
2.
Disturbance specific force caused by the lever arm effects in integration navigation system is investigated.
研究了组合导航系统中杆臂效应引起的干扰比力问题。
3.
The paper described the adding method of lever arm and fix error angle in simulation,and verified the feasibility of lever arm compensation method.
介绍了杆臂效应及安装误差角在仿真中的添加方法,验证了杆臂补偿方法的可行性。
4) lever-arm effect
杆臂效应
1.
Having taken lever-arm effect into consideration.
在海浪作用下舰船载体运动方程极为复杂,文章在对运动方程不作任何简化的情况下,给出了方程的数值解,并在此基础上,考虑杆臂效应的存在,给出了舰载武器的IMU输出模型的仿真实现。
2.
This paper investigates the effects of ship motion on ship-based cannon firing in terms of dynamics of ship motion and artillery shoot theory,including effects of canon base motion due to ship sway and alignment error from lever-arm effect.
基于船舶在海浪中运动模型,结合炮兵射击学原理,研究了船舶摇摆导致火炮基座运动以及杆臂效应导致子惯导初始对准误差等因素对火炮射击的影响,分析了传递对准消除对准误差角的效果。
3.
And a novel method via initial determined error compensation is presented in order to reduce the influence of shop motion and lever-arm effect.
从船舶在海浪中运动模型出发,结合炮兵射击学原理,研究船舶摇摆导致火炮基座运动以及杆臂效应导致子惯导初始对准误差等因素对火炮射击的影响,主要针对船载炮射击在距离与方向的影响进行分析。
5) spacer arm effect
间隔臂效应
6) boundary effects
边界效应
1.
Based on the results,several factors which influence the boundary effects on quantum-dot systems were discussed.
利用所得到的普遍结果讨论了影响量子点系统边界效应的几个主要因素,并简要计算了实际低温量子点系统的边界效应。
补充资料:间隔臂效应
分子式:
CAS号:
性质:配位体与基体之间连接的间隔臂分子的间隔长度,对配位体与大分子之间的亲和力所产生的影响。间隔臂分子主要有疏水间隔臂、亲水间隔臂和大分子间隔臂等。
CAS号:
性质:配位体与基体之间连接的间隔臂分子的间隔长度,对配位体与大分子之间的亲和力所产生的影响。间隔臂分子主要有疏水间隔臂、亲水间隔臂和大分子间隔臂等。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条