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    • 3. 发明申请
    • TRANSPORT SYSTEM
    • 运输系统
    • WO2010024663A1
    • 2010-03-04
    • PCT/NL2009/000164
    • 2009-08-26
    • OTS B.V.MULDER, Hendrik
    • MULDER, Hendrik
    • B61K1/00E01B25/22
    • B61B3/02B61B13/04E01B25/22Y02T30/30
    • The invention relates to a transport system which comprises a track which is suspended at a distance above a ground surface along a determined route and along which a number of transport units are movable. The transport units are each suspended from the track and each provided with their own drive, for instance by electric motors in their wheels. The track can comprise one or more I-shaped profile beams. The transport system can be provided with control means which are connected to the drives of the transport units and which are adapted to maintain a constant interspace between successive transport units. The transport system can also be provided with a number of points, which each have a through-track segment and at least one branch segment. Transport units can be guided therewith from the track to another track. The track can be constructed from a number of segments which are suspended from a number of portals, between which extend arched support constructions connected to the track. The segments of the track, the portals and/or the arched support constructions can be produced at a location remote from the route and assembled along the route. The transport system can also be provided with a traffic road arranged above the track.
    • 本发明涉及一种运输系统,其包括沿着确定的路线在地面上方一段距离处悬挂的轨道,并且多个运输单元可以沿着该轨道移动。 运输单元各自悬挂在轨道上,并且各自设置有自己的驱动,例如通过其车轮中的电动机。 轨道可以包括一个或多个I形轮廓梁。 传送系统可以设置有控制装置,其连接到传送单元的驱动器并且适于在连续传送单元之间保持恒定的间隙。 传送系统还可以具有多个点,每个点具有通道段和至少一个分支段。 运输单元可以从轨道引导到另一个轨道。 该轨道可以由若干个段构成,这些段从许多门户悬挂,其间延伸连接到轨道的拱形支撑结构。 轨道,门户和/或拱形支撑结构的段可以在远离路线的位置处生产并沿着路线组装。 运输系统还可以设置有安排在轨道上方的交通道路。
    • 6. 发明申请
    • IMAGE REDUCTION METHOD AND DEVICE
    • 图像减少方法和装置
    • WO1996036012A1
    • 1996-11-14
    • PCT/NL1996000176
    • 1996-04-22
    • B.V. OPTISCHE INDUSTRIE "e;DE OUDE DELFT"e;GELUK, Ronald, JanMULDER, Hendrik
    • B.V. OPTISCHE INDUSTRIE "e;DE OUDE DELFT"e;
    • G06T03/40
    • G06T3/4084
    • By means of available image recorders or image generators, it is possible to compose image information with a high detail resolution. This can be expressed in the dimension of a matrix of picture points or picture elements, also referred to as pixels. It occurs that an image matrix contains a larger number of picture elements than an image reproducing device is able to reproduce, as in the case of lung imaging by means of X-radiation, where an X-ray image recorded by an image recorder is reproduced on the screen of a cathode ray tube such as an image monitor. The image information can then be recorded in a matrix of, for instance, 2000 x 2000 elements (pixels), while the most conventional image monitors can only reproduce a matrix of about 1000 x 1200 picture elements. By locally manipulating the image represented by the image matrix before it is fed to the image reproducing device, and/or by causing the degree of local manipulation to be dependent on the spatial frequencies that are locally present in the image represented by the image matrix, the effect achieved is that the spatial frequencies of the image fed to the image reproducing device fit within the matrix of the image reproducing device. The same result is reached by locally manipulating the image represented by the image matrix, before it is fed to the image reproducing device, in such a manner that in the frequency domain of spatial frequencies, the local manipulation is represented by a nonlinear reproduction of the spatial frequencies of the image represented by the image matrix on the spatial frequencies of the image to be reproduced by the reproducing device.
    • 通过可用的图像记录器或图像生成器,可以以高细节分辨率构成图像信息。 这可以在图像点或图像元素的矩阵的维度中表示,也称为像素。 发生图像矩阵包含比图像再现装置能够再现更多数量的图像元素,如在通过X射线进行肺成像的情况下,由图像记录器记录的X射线图像被再现 在诸如图像监视器的阴极射线管的屏幕上。 然后,图像信息可以被记录在例如2000×2000个元素(像素)的矩阵中,而最传统的图像监视器只能再现约1000×1200个图像元素的矩阵。 通过在图像矩阵被馈送到图像再现装置之前,通过局部地操纵由图像矩阵表示的图像,和/或通过使局部操纵的程度取决于由图像矩阵表示的图像中局部存在的空间频率, 所获得的效果是馈送到图像再现装置的图像的空间频率拟合在图像再现装置的矩阵内。 通过在将图像矩阵表示为图像矩阵的图像在被馈送到图像再现装置之前,通过在空间频率的频域中局部操纵来实现相同的结果,即在频域的频域中,局部操纵由 由图像矩阵表示的图像的空间频率在由再现装置再现的图像的空间频率上。