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    • 71. 发明授权
    • Surgical operating apparatus
    • 外科手术器械
    • US6094590A
    • 2000-07-25
    • US932920
    • 1997-09-18
    • Kazutoshi KanMasakatsu FujieRyuichi ShinomuraKoichi SanoHiroshi Takeuchi
    • Kazutoshi KanMasakatsu FujieRyuichi ShinomuraKoichi SanoHiroshi Takeuchi
    • A61B19/00A61B8/00
    • A61B90/36A61B34/70
    • A surgical operating apparatus capable of a high-precision surgical operation while observing a detailed image of an affected part to be subjected to surgical operation and capable of observing a related location of the affected part under surgical operation by means of an image obtained the imaging of a wider range is provided with an operating table provided in an area made an object of measurement by an MRI apparatus so that a surgical operation can be performed by operating an operating manipulator by an operation input device while monitoring a local image from an endoscope and/or a ultrasonic scanner and the observation of a range in the neighborhood of the affected part and wider than an observing area of the endoscope is enabled by the MRI apparatus under surgical operation, thereby providing a high-security surgical operating apparatus.
    • 一种手术操作装置,其能够在观察要进行外科手术的患部的详细图像的同时进行高精度的外科手术,并且能够通过获得成像的图像观察外科手术下的患部的相关位置 更宽的范围设置有设置在由MRI装置进行测量的对象的区域中的手术台,使得可以通过操作输入装置操作操作操纵器来执行外科手术,同时监测来自内窥镜的局部图像和/ 或超声波扫描器,并且通过MRI装置在外科手术下能够观察受影响部位附近的范围并且比内窥镜的观察区域更宽,从而提供高安全性的外科手术装置。
    • 73. 发明授权
    • Method and apparatus for directly generating three-dimensional images
from voxel data with dividing image generating processes and utilizing
parallel processes
    • 用于通过分割图像生成处理并利用并行处理从体素数据直接生成三维图像的方法和装置
    • US5963211A
    • 1999-10-05
    • US672719
    • 1996-06-28
    • Michio OikawaKoichi Sano
    • Michio OikawaKoichi Sano
    • G06F15/16A61B6/03G06F9/50G06F15/177G06T15/08G06T17/10G06T17/00
    • G06T17/10
    • A high-speed 3D image generating apparatus includes a 3D data measuring device, a voxel data converter to convert the measured 3D data into volume data, a volume data storage to store therein the volume data, and a plurality of processors. The apparatus further includes a 3D image generation process unit to generate a 3D image from the volume data, a 3D image generating device which estimates the quantity of calculations necessary to create the 3D image to be projected and which subdivides the 3D image creation process to allocate resultant sub-processes to the respective processors so as to possibly equalize each other the loads imposed on the respective processors, an input device to supply therefrom parameters related to an image display operation, and a 3D image output device to visualize the produced 3D image, whereby calculation load is equally allocated to each of the processors and the processing time is minimized.
    • 高速3D图像生成装置包括3D数据测量装置,将测量的3D数据转换成体积数据的体素数据转换器,用于存储体数据的体数据存储器以及多个处理器。 该装置还包括:3D图像生成处理单元,用于从卷数据生成3D图像,3D图像生成装置,其估计创建要投影的3D图像所必需的计算量,以及细分3D图像创建处理以分配 从而可以相应地对相应的处理器进行子处理,以便可以彼此平衡施加在各个处理器上的负载,从其提供与图像显示操作相关的参数的输入设备,以及用于可视化所产生的3D图像的3D图像输出设备, 由此将计算负荷均等地分配给每个处理器,并且处理时间被最小化。
    • 74. 发明授权
    • Method for driving apparatus
    • 驱动装置的方法
    • US5745089A
    • 1998-04-28
    • US120551
    • 1993-09-14
    • Jun'ichi TaguchiHiroyuki ManoToshio TanakaKoichi SanoShigeyuki Nishitani
    • Jun'ichi TaguchiHiroyuki ManoToshio TanakaKoichi SanoShigeyuki Nishitani
    • G09G3/20G09G3/36
    • G09G3/2011G09G3/3622G09G3/3625G09G3/3681G09G3/3692G09G2310/06G09G3/2014G09G3/2025
    • In order to realize multi-level gradation representation with reduced crosstalk in a display apparatus of STN method, one horizontal interval is divided uniformly by the bit length n of a gradation level display in a display apparatus of STN method having a display panel of simple matrix type and having display luminance depending upon the root-mean-square value of applied voltage. Each of sections resulting from division is associated with a display bit. The applied voltage value of the display panel in each divisional section is adjusted so that the root-mean-square voltage value difference on a divisional section may become the density difference meant by the display bit. Since time is divided into nearly equal n parts to represent a gradation level, the minimum time interval resulting from division becomes longer that of the conventional technique. Since the frequency band in use is narrowed, the crosstalk is reduced. As a result, false images and flicker on the display screen can be suppressed.
    • 为了在STN方法的显示装置中实现减少串扰的多级灰度表示,在具有简单矩阵的显示面板的STN方法的显示装置中,将一个水平间隔均匀地划分为灰度级显示的位长度n 并且具有取决于施加电压的均方根值的显示亮度。 由分割产生的每个部分与显示位相关联。 调整各分割部分中的显示面板的施加电压值,使得分割部分上的均方根电压差可能变为由显示位表示的浓度差。 由于时间被划分为几乎相等的n个部分以表示灰度级,所以由分割得到的最小时间间隔变得比传统技术更长。 由于使用频带变窄,所以串音减少。 结果,可以抑制显示屏幕上的虚假图像和闪烁。
    • 76. 发明授权
    • Double-slice imaging method in NMR imaging apparatus
    • NMR成像装置中的双切片成像方法
    • US5345172A
    • 1994-09-06
    • US894352
    • 1992-06-04
    • Jun'ichi TaguchiKoichi Sano
    • Jun'ichi TaguchiKoichi Sano
    • A61B5/055G01R33/32G01R33/36G01R33/46G01R33/48G01R33/54G01R33/20
    • G01R33/4835G01R33/3607
    • To accomplish double-slice imaging by a nuclear magnetic resonance (NMR) imaging apparatus having an ordinary radio frequency magnetic field generator, two radio frequency magnetic field waveforms are used and slices are separated by subsequent calculation. More definitely, two slice portions are excited in a REAL direction by a COS waveform and are excited in an IMAG direction by a SIN waveform. When one of the slices is S1 with the other being S2, the signal SC when the COS waveform is used is S1+S2 while the signal SS when the SIN waveform is used is i.S1-i.S2. Therefore, the calculation for separating the slices proves SC+i.SS and SC-i.SS. The present invention can avoid the increase in the production cost of the apparatus due to the addition of hardwares.
    • 为了通过具有普通射频磁场发生器的核磁共振(NMR)成像装置来实现双切片成像,使用两个射频磁场波形,并通过随后的计算分离切片。 更确切地说,两个切片部分通过COS波形在REAL方向被激发,并且通过SIN波形在IMAG方向上被激发。 当其中一个片是S1而另一个是S2时,使用COS波形时的信号SC为S1 + S2,而当使用SIN波形时的信号SS为i.S1-i.S2。 因此,分离切片的计算证明了SC + i.SS和SC-i.SS。 本发明可以避免由于添加硬件而使设备的生产成本增加。