目的:观察采用普通显微器械显微镜下斜视矫正术的可行性。
AIM: To investigate the feasibility of strabismus diorthosis under microscope using general micro equipments.
高度近视性斜视是一种特殊类型的斜视,以固定性内斜视和下斜视多见。
Strabismus with high myopia is a kind of special strabismus, with fixed esotropia and hypotropia as common styles.
一切都静悄悄的,他对面的镜子反射著阳光刺射著他的眼睛,他斜视了一下,从镜子中看到了自己身后的门。
It was quiet and the mirror opposite him was reflecting the light into his eyes.He squinted, looking at the image of the door behind him.
如果您稍微斜视一下,甚至还可能误认为这就是JBuilder所使用的金色钥匙加带红圈的惊叹号。
If you squint a little, you might even mistake it for the gold key and red circle with an exclamation point that JBuilder USES.
引起V型斜视的常见原因为斜肌功能异常,包括原发性下斜肌功能亢进28例(58%),先天性上斜肌麻痹20例(42%)。
The etiology of V pattern deviation are vertical muscle dysfunction, including the primary inferior oblique muscle overreaction 28 (58%), congenital superior oblique muscle paralysis 20 (42%).
试飞结果证明,实时成像算法在大斜视角下能稳定成像。
The results of flying show the algorithm can image stably in high squint.
对适用于星载sar斜视情况下的距离-多普勒(R - D)算法进行了详细系统的理论分析,并对比了两种R - D算法的不同。
The R-D algorithm used in squint mode spaceborne SAR is analyzed carefully in theory, and the difference between the two R-D algorithms is also discussed and compared.
避免了二次距离压缩(SRC),同时提高了斜视下的成像效果。
Secondary Range Compressing (SRC) is avoided and imaging effect is improved remarkably in squint-looking use.
文章研究了机载合成孔径雷达(SAR)在大斜视角下的成像算法,并分析了算法的成像性能。
This paper studies image algorithms and analyses imaging quality of air-borne Synthetic Aperture Radar (SAR) in large squint mode.
目的探讨下斜肌减弱术对内斜视V征治疗效果。
Objective To investigate the effects of inferior oblique muscles weakening on V pattern esotropia.
大斜视角下SAR信号特点表现为大的距离走动和小的距离弯曲,这使得采用时域距离走动校正和二维可分离成像方法成为可能。
The high squint SAR signal characterizes a large range walk and a small range curvature, which enables us to compress it in range and azimuth separately.
指出了非线性CS算法在实际应用中其参考频率的选择是唯一的,并提出了一种在大斜视角下进行多视处理的方法。
It is proved that the choice of the reference frequency in NCSA is unique. A multiple-look SAR imaging method for the large squint Angle is presented.
判定单元(124)在由判定单元(122)判定为驾驶员未斜视的情况下,根据驾驶员的视线的方向判定驾驶员是否正在斜视。
When the judging unit (122) judges that the driver is not looking aside, a judging unit (124) judges whether or not the driver is looking aside based on the sight line orientation of the driver.
判定单元(124)在由判定单元(122)判定为驾驶员未斜视的情况下,根据驾驶员的视线的方向判定驾驶员是否正在斜视。
When the judging unit (122) judges that the driver is not looking aside, a judging unit (124) judges whether or not the driver is looking aside based on the sight line orientation of the driver.
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