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    • 11. 发明授权
    • Driving support system, driving support method and computer program for setting and using facility entry difficulty levels
    • 驾驶支持系统,驾驶支持方法和计算机程序,用于设置和使用设施进入难度级别
    • US08190363B2
    • 2012-05-29
    • US12382227
    • 2009-03-11
    • Hiroshi TomitaTakahiro Miyachi
    • Hiroshi TomitaTakahiro Miyachi
    • G01C21/34
    • G08G1/164G01C21/3461G01C21/3484
    • When a vehicle enters a facility off a road on which the vehicle is traveling, information pertaining to an entry direction into the facility is sent to a probe center as probe information, and a current driving level of the host vehicle is identified. Meanwhile, the probe center that received the probe information calculates a right-turn entry percentage for facilities based upon the received probe information, and sets an entry difficulty level of the facilities based upon the calculated right-turn entry percentage. A vehicle to which information pertaining to the entry difficulty level of a set facility was distributed from the probe center is structured so as to perform driving support based upon the information pertaining to the entry difficulty level of the facility.
    • 当车辆从车辆行驶的道路进入设施时,将关于进入设施的进入方向的信息作为探测信息发送到探测中心,并且识别本车辆的当前驾驶水平。 同时,接收探测信息的探测中心根据接收到的探测信息计算设施的右转进入百分比,并根据计算出的右转进入百分比设定设备的入口难度等级。 根据与设施的进入难易程度有关的信息,构成从探测中心分发与设定设施的进入难度等级有关的信息的车辆,以进行驾驶辅助。
    • 12. 发明申请
    • SUPERCRITICAL DRYING METHOD FOR SEMICONDUCTOR SUBSTRATE
    • 用于半导体基板的超临界干燥方法
    • US20120118332A1
    • 2012-05-17
    • US13052232
    • 2011-03-21
    • Yohei SATOHisashi OkuchiHiroshi TomitaHidekazu HayashiYukiko Kitajima
    • Yohei SATOHisashi OkuchiHiroshi TomitaHidekazu HayashiYukiko Kitajima
    • B08B3/10B08B7/00
    • H01L21/67034
    • In one embodiment, after rinsing a semiconductor substrate having a fine pattern formed thereon with pure water, the pure water staying on the semiconductor substrate is substituted with a water soluble organic solvent, and then, the semiconductor substrate is introduced into a chamber in a state wet with the water soluble organic solvent. Then, the water soluble organic solvent is turned into a supercritical state by increasing a temperature inside of the chamber. Thereafter, the inside of the chamber is reduced in pressure while keeping the inside of the chamber at a temperature enough not to liquefy the pure water (i.e., rinsing pure water mixed into the water soluble organic solvent), and further, the water soluble organic solvent in the supercritical state is changed into a gaseous state, to be discharged from the chamber, so that the semiconductor substrate is dried.
    • 在一个实施方案中,在用纯水冲洗其上形成有精细图案的半导体衬底之后,将残留在半导体衬底上的纯水用水溶性有机溶剂代替,然后将半导体衬底引入到室中 用水溶性有机溶剂润湿。 然后,水溶性有机溶剂通过增加室内的温度而变成超临界状态。 此后,室内压力降低,同时保持室内不足液化纯水的温度(即冲洗混入水溶性有机溶剂中的纯水),此外,水溶性有机溶剂 处于超临界状态的溶剂变成气态,从室排出,使得半导体基板干燥。
    • 13. 发明申请
    • SUBSTRATE TREATMENT APPARATUS, METHOD OF TRANSFERRING SUBSTRATE, AND NON-TRANSITORY COMPUTER STORAGE MEDIUM
    • 基板处理装置,基板转印方法和非电子计算机存储介质
    • US20120116567A1
    • 2012-05-10
    • US13281535
    • 2011-10-26
    • Makoto HAYAKAWAHiroshi TomitaTatsuhei Yoshida
    • Makoto HAYAKAWAHiroshi TomitaTatsuhei Yoshida
    • G06F19/00
    • H01L21/67288H01L21/67178H01L21/67276H01L21/67745
    • A coating and developing treatment apparatus includes a substrate transfer mechanism; a defect inspection section; means for controlling transfer of a substrate; means for classifying a defect based on the state of the defect; means for storing a transfer route of the substrate by the substrate transfer mechanism when the substrate has been treated by treatment sections; and means for specifying, based on a kind of the defect classified by the defect classification means and the transfer route of the substrate stored in the storage means, a treatment section which is a cause of occurrence of the classified defect, and judging presence or absence of an abnormality of the specified treatment section, wherein the transfer control means controls the substrate transfer mechanism to transfer a substrate bypassing the treatment section which has been judged to be abnormal by the defective treatment specification means.
    • 涂布显影处理装置包括基板转印机构; 缺陷检查部; 用于控制基板转印的装置; 基于缺陷状态对缺陷进行分类的手段; 用于在基板被处理部处理时通过基板转印机构存储基板的转印路径的装置; 以及用于基于由缺陷分类装置分类的缺陷的种类和存储在存储装置中的基板的传送路线来指定作为分类缺陷的发生原因的处理部分,并且判断是否存在 指定处理部的异常,其中转移控制装置控制基板转移机构,以传递旁路通过缺陷处理指定装置判断为异常的处理部的基板。
    • 15. 发明申请
    • SUBSTRATE CLEANING APPARATUS AND SUBSTRATE CLEANING METHOD
    • 基板清洗装置和基板清洗方法
    • US20120031441A1
    • 2012-02-09
    • US13277251
    • 2011-10-20
    • Hiroshi TomitaHiroaki YamadaKunihiro MiyazakiHajime Onoda
    • Hiroshi TomitaHiroaki YamadaKunihiro MiyazakiHajime Onoda
    • B08B3/00
    • H01L21/67057B08B3/08B08B3/10
    • A substrate cleaning apparatus, comprises a process tank that holds a mixture containing a hydrogen peroxide solution and sulfuric acid and is used for cleaning a substrate immersed in said mixture; circulation piping that extends between a primary side of said process tank on which said mixture is injected into said process tank and a secondary side of said process tank on which said mixture is discharged from said process tank and has a pump for causing circulation of said mixture; a heater disposed in said circulation piping configured to heat said mixture to a predetermined temperature; a chemical injection pipe configured to inject a hydrogen peroxide solution into said circulation piping at a position between the primary side of said process tank and a secondary side, which is a downstream side, of said heater; and a filter disposed in said circulation piping configured to remove particles in said mixture.
    • 一种基板清洗装置,包括保持含有过氧化氢溶液和硫酸的混合物的处理罐,用于清洗浸在所述混合物中的基板; 所述循环管道在所述处理罐的初级侧之间延伸,所述处理罐的所述混合物被注入到所述处理罐中,所述处理罐的二次侧在所述处理罐的二次侧上从所述处理罐排出所述混合物,并且具有用于使所述混合物循环的泵 ; 设置在所述循环管道中的加热器,被配置为将所述混合物加热至预定温度; 化学注入管,被配置为在所述处理罐的初级侧和位于所述加热器的下游侧的次级侧之间的位置处将过氧化氢溶液注入到所述循环管道中; 以及设置在所述循环管道中的过滤器,其构造成去除所述混合物中的颗粒。
    • 16. 发明授权
    • Optimum noise filter setting for a scanner in a closed loop system
    • 闭环系统中扫描仪的最佳噪声滤波器设置
    • US08094344B2
    • 2012-01-10
    • US11364439
    • 2006-02-28
    • Paul CattroneHiroshi TomitaVivek Pathak
    • Paul CattroneHiroshi TomitaVivek Pathak
    • G06T5/00
    • H04N1/4078H04N1/409
    • Disclosed is a method for determining optimum noise filter setting to be used by a scanner in a system including a printer and a detector forming a closed loop system. A test image including a plurality of horizontal lines, vertical lines, slanted lines and dots are printed using the printer and scanned back using the scanner. The scanned test image data is compared to the input test image data representing the test image, and based on such comparison, the optimum noise filter setting for the printer/scanner pair is determined and stored for future use. This method is particularly useful for printing barcodes having high data capacity.
    • 公开了一种用于确定由包括打印机和形成闭环系统的检测器的系统中的扫描仪使用的最佳噪声滤波器设置的方法。 使用打印机打印包括多个水平线,垂直线,倾斜线和点的测试图像,并使用扫描仪进行扫描。 将扫描的测试图像数据与表示测试图像的输入测试图像数据进行比较,并且基于这样的比较,确定并存储打印机/扫描仪对的最佳噪声滤波器设置以备将来使用。 该方法对于打印具有高数据容量的条形码特别有用。