1.
Study on Models of Track Condition Prediction Based on Track Geometry Car Inspection Data;
基于轨检车检测数据的轨道状态预测模型研究
2.
Research and Design of Photoelectric Dynamic Inspection Device to Monitor the Track State;
光电式轨道状态动态检测装置的研究与设计
3.
Study on Condition Classification of Trolley Tracks of Quayside Container Crane Model Applied with Wavelet Packet Analysis;
基于小波包分析的岸桥模型小车轨道状态分类识别技术
4.
Research on Applying Optical Fiber Grating in Track Monitoring
光纤光栅传感技术在轨道状态检测中的应用研究
5.
The domain-state orbital liquids in a one-dimensional spin-orbital model
一维自旋-轨道模型中的畴状轨道液体态
6.
Research on the Track Irregularity of Ballastless Track in the Comprehensive Experimental Section of Suining-Chongqing Railway Line
遂渝线无砟轨道综合试验段轨道平顺状态研究
7.
Study of the Index System of Assessment for the Maintaining Condition of Monorail Track Beams and Bridges
单轨交通轨道梁桥养护状态评价指标体系研究
8.
The Effect of Sleeper Structure on Stress in Bonding Interface of Young-Old Concrete of the Casst-In-Place Ballastless Track;
现浇无砟轨道轨枕结构对新老混凝土粘结面应力状态的影响
9.
Analysis and Evaluation of Passenger Flow Operation State in Urban Railway Transit Hub
城市轨道交通枢纽乘客交通流状态分析与评价
10.
Mileage Calibration Algorithm of Track Geometry Data
轨道几何状态检测数据里程校正算法研究
11.
A State Dependent Riccati Equation Filter for Relative States Determination During Spacecraft Rendezvous and Docking
基于SDRE方法的空间飞行器轨道交会状态估计
12.
When a sportsman rises high into the air and an astronaut travels around the orbit, they will be in weightlessness.
运动员的腾空和宇航员在轨道上的飞行都是处于失重状态。
13.
The classical analog of this state of motion is a straight-line trajectory back and forth through the nucleus.
这个运动状态的经典对应,是通过原子核来回运动的直线轨道。
14.
Rail brakes for trapped car use at home and abroad are introduced.
介绍了国内外卡轨车使用的轨道制动器现状。
15.
Detection signal processing for shear-type continuous dynamic weighbridge
不断轨剪力型动态轨道衡检测信号处理
16.
Chelsea got back to winning ways, notching up a 3-0 victory over in-form Newcastle United.
切尔西重新回到胜利的轨道,以一个3:0轻松战胜了最近状态正佳的纽卡。
17.
The present state of railway noise research and development trends is reviewed to provide a convenient reference for further research.
介绍了轨道噪声研究的现状和发展动态,以期为进一步研究提供参考。
18.
The "weightless" condition of astronauts in orbit about the earth arises from just this cancellation of inertial and gravitational forces.
在围绕地球运转的轨道中,宇航员的“失重”状态就是惯性力与引力相互抵消的结果。