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    • 1. 发明申请
    • IMAGE PROCESSING METHOD, IMAGE PROCESSOR AND STEREOSCOPIC IMAGE DISPLAY DEVICE USING THE IMAGE PROCESSOR
    • 图像处理方法,图像处理器和使用图像处理器的立体图像显示装置
    • US20130016095A1
    • 2013-01-17
    • US13548002
    • 2012-07-12
    • Myungsoo ParkJaewoo LeeHanseok KimTaewook Kim
    • Myungsoo ParkJaewoo LeeHanseok KimTaewook Kim
    • G06F3/038G06T15/00
    • H04N13/122H04N13/15H04N13/183H04N13/337H04N13/356H04N13/361
    • This embodiments herein relate to an image processing method and a stereoscopic image display device that provide high readability of a text area when implementing both 2D images and 3D images. The embodiments described herein convert the left(right)-eye image data corresponding to the left(right)-eye coordinates into a mean of the left(right)-eye image data corresponding to the left(right)-eye coordinates and the left(right)-eye image data adjacent to thereof on the other line. Therefore, the embodiments described herein may compensate for the left(right)-eye conversion data which are not arranged on a 3D format. As a result, the embodiments described herein may improve readability of the text area in the 3D mode. Also, the embodiments described herein may improve readability on the text area by applying a sharpness filter to the original 2D image corresponding to the 2D coordinates which is detected as the text area in the 2D mode.
    • 这里的实施例涉及在实现2D图像和3D图像时提供文本区域的高可读性的图像处理方法和立体图像显示装置。 这里描述的实施例将对应于左(右) - 眼坐标的左(右) - 眼图像数据转换成对应于左(右) - 眼坐标和左(右) - 眼坐标的左(右) - 眼图像数据的平均值 (右) - 在另一行上与其相邻的图像数据。 因此,这里描述的实施例可以补偿未以3D格式布置的左(右) - 眼转换数据。 结果,这里描述的实施例可以提高3D模式中的文本区域的可读性。 此外,本文所描述的实施例可以通过对与2D模式中被检测为文本区域的2D坐标相对应的原始2D图像应用锐度滤波器来提高文本区域的可读性。
    • 3. 发明授权
    • Method of preventing damage to GPF in vehicle adopted to CDA
    • 防止CDA车辆对GPF造成损害的方法
    • US08762028B2
    • 2014-06-24
    • US13308341
    • 2011-11-30
    • Taewook KimJinha Lee
    • Taewook KimJinha Lee
    • F02D43/04F02D43/00
    • F02D41/0087F01N9/002F01N11/002F02D41/029F02D2041/389F02D2200/0804F02D2200/0812
    • A method of preventing damage to a Gasoline Particulate Filter (GPF) of a vehicle adapted to Cylinder De-activation (CDA) may include monitoring GPF pressure difference that measures a pressure difference of the GPF and determines an accumulation amount of soot in the GPF in accordance with the measured pressure difference of GPF; comparing pressure difference that compares the measured pressure difference of the GPF with a predetermined reproduction pressure difference; calculating GPF temperature that calculates a temperature in the GPF in accordance with each one of CDA modes, based on the accumulation amount of soot and an average oxygen concentration of an exhaust gas for the each one of the CDA modes; and setting CDA mode that determines a number of cylinders available for an CDA operation based on the calculated temperature and a predetermined temperature established for preventing the GPF from a damage.
    • 防止对适用于气缸反激活(CDA)的车辆的汽油微粒过滤器(GPF)的损害的方法可以包括监测GPF压力差,其测量GPF的压力差并确定GPF中的烟灰的积累量 根据GPF的测量压差; 比较将测量的GPF的压力差与预定的再现压力差进行比较的压力差; 计算根据CDA模式中的每一种计算GPF中的温度的GPF温度,基于每种CDA模式的烟灰的累积量和排气的平均氧浓度; 以及设置CDA模式,其基于所计算的温度和为防止GPF造成损害而建立的预定温度来确定可用于CDA操作的可用气缸的数量。
    • 6. 发明授权
    • Image processing method, image processor and stereoscopic image display device using the image processor
    • 图像处理方法,使用图像处理器的图像处理器和立体图像显示装置
    • US09137510B2
    • 2015-09-15
    • US13548002
    • 2012-07-12
    • Myungsoo ParkJaewoo LeeHanseok KimTaewook Kim
    • Myungsoo ParkJaewoo LeeHanseok KimTaewook Kim
    • H04N13/00H04N13/04
    • H04N13/122H04N13/15H04N13/183H04N13/337H04N13/356H04N13/361
    • This embodiments herein relate to an image processing method and a stereoscopic image display device that provide high readability of a text area when implementing both 2D images and 3D images. The embodiments described herein convert the left(right)-eye image data corresponding to the left(right)-eye coordinates into a mean of the left(right)-eye image data corresponding to the left(right)-eye coordinates and the left(right)-eye image data adjacent to thereof on the other line. Therefore, the embodiments described herein may compensate for the left(right)-eye conversion data which are not arranged on a 3D format. As a result, the embodiments described herein may improve readability of the text area in the 3D mode. Also, the embodiments described herein may improve readability on the text area by applying a sharpness filter to the original 2D image corresponding to the 2D coordinates which is detected as the text area in the 2D mode.
    • 这里的实施例涉及在实现2D图像和3D图像时提供文本区域的高可读性的图像处理方法和立体图像显示装置。 这里描述的实施例将对应于左(右) - 眼坐标的左(右) - 眼图像数据转换成对应于左(右) - 眼坐标和左(右) - 眼坐标的左(右) - 眼图像数据的平均值 (右) - 在另一行上与其相邻的图像数据。 因此,这里描述的实施例可以补偿未以3D格式布置的左(右) - 眼转换数据。 结果,这里描述的实施例可以提高3D模式中的文本区域的可读性。 此外,本文所描述的实施例可以通过对与2D模式中被检测为文本区域的2D坐标相对应的原始2D图像应用锐度滤波器来提高文本区域的可读性。
    • 8. 发明申请
    • METHOD OF PREVENTING DAMAGE TO GPF IN VEHICLE ADOPTED TO CDA
    • 预防通过CDA的车辆对GPF的损害的方法
    • US20130060446A1
    • 2013-03-07
    • US13308341
    • 2011-11-30
    • Taewook KIMJinha Lee
    • Taewook KIMJinha Lee
    • F02D28/00
    • F02D41/0087F01N9/002F01N11/002F02D41/029F02D2041/389F02D2200/0804F02D2200/0812
    • A method of preventing damage to a Gasoline Particulate Filter (GPF) of a vehicle adapted to Cylinder De-activation (CDA) may include monitoring GPF pressure difference that measures a pressure difference of the GPF and determines an accumulation amount of soot in the GPF in accordance with the measured pressure difference of GPF; comparing pressure difference that compares the measured pressure difference of the GPF with a predetermined reproduction pressure difference; calculating GPF temperature that calculates a temperature in the GPF in accordance with each one of CDA modes, based on the accumulation amount of soot and an average oxygen concentration of an exhaust gas for the each one of the CDA modes; and setting CDA mode that determines a number of cylinders available for an CDA operation based on the calculated temperature and a predetermined temperature established for preventing the GPF from a damage.
    • 防止对适用于气缸反激活(CDA)的车辆的汽油微粒过滤器(GPF)的损害的方法可以包括监测GPF压力差,其测量GPF的压力差并确定GPF中的烟灰的积累量 根据GPF的测量压差; 比较将测量的GPF的压力差与预定的再现压力差进行比较的压力差; 计算根据CDA模式中的每一种计算GPF中的温度的GPF温度,其基于碳烟的累积量和用于每种CDA模式的废气的平均氧浓度; 以及设置CDA模式,其基于所计算的温度和为防止GPF造成损害而建立的预定温度来确定可用于CDA操作的可用气缸的数量。
    • 9. 发明授权
    • Easily-upgradable computer and CPU board therefor
    • 易于升级的电脑和CPU板
    • US5678011A
    • 1997-10-14
    • US417349
    • 1995-04-05
    • Taewook KimSeungkee SihnNohbyung Park
    • Taewook KimSeungkee SihnNohbyung Park
    • G06F1/16G06F1/06G06F1/08G06F1/18H05K1/00H05K1/14
    • G06F1/185G06F1/184G06F1/186H05K1/0286H05K1/141
    • An easily-upgradable computer includes a CPU board removably attached to a main board. The CPU board includes a CPU, a jump setting circuit which includes a plurality of factory-set jump switches, and a pair of first connectors electrically connected to the CPU and jump setting circuit. The main board includes a plurality of conventional peripheral devices, drivers and controllers, a clock generator, and a pair of second connectors removably coupled and electrically connected to the pair of first connectors. A wiring pattern of the CPU board electrically connects address, data, control signal, and power supply terminals of the CPU to the pair of first connectors, and a wiring pattern of the main board electrically connects the plurality of peripheral devices, drivers, and controllers, and the clock generator to the pair of second connectors. The jump switches on the CPU board are factory-set in accordance with the operational specifications of the CPU, and control the clock generator on the main board.
    • 易于升级的计算机包括可拆卸地附接到主板的CPU板。 CPU板包括CPU,包括多个出厂设置的跳跃开关的跳转设置电路和电连接到CPU和跳转设置电路的一对第一连接器。 主板包括多个常规的外围设备,驱动器和控制器,时钟发生器和可拆卸地耦合并电连接到该对第一连接器的一对第二连接器。 CPU板的布线图将CPU的地址,数据,控制信号和电源端子电连接到一对第一连接器,并且主板的布线图形电连接多个外围设备,驱动器和控制器 ,并将时钟发生器连接到该对第二连接器。 CPU板上的跳线开关根据CPU的工作规格出厂设置,并控制主板上的时钟发生器。
    • 10. 发明授权
    • Continuous monitering system for compaction behavior of composite
laminates in autoclave curing
    • 复合层压板在高压釜固化中的压实行为的连续监控系统
    • US4831881A
    • 1989-05-23
    • US144135
    • 1988-01-15
    • Eijin JeonWooil LeeKwangjun YoonTaewook Kim
    • Eijin JeonWooil LeeKwangjun YoonTaewook Kim
    • G01B7/06G01B7/16
    • G01B7/06G01B7/18
    • The autoclave cure process is the representative composite fabrication technique for high quality composite materials for the aerospace and defense industry application. After lay up and vacuum-bagging in a complicated sequence, the several composite material needed in autoclave curing are cured under controlled temperature and pressure. The autoclave curing, in which the total cure process requires at least 4-6 hours, is a very expensive process. Therefore, the determination of an optimal cure process for composite prepregs is very important for guaranteed quality as well as being important economically. Theoretical models cannot be proved because of the lack of experimental methods. The experimenter must run many batches of autoclave curing trial and error at the different curing temperatures and pressures to obtain a sufficient amount of data which can experimentally determine the optimal cure process. Because this invention can continuously monitor the change of thickness of the composite laminate during curing, this measuring system, which can determine the condition of an optimal cure process, is an excellent device to obtain the degree of curing and variation of thickness of a prepreg which is optimal in physical and mechanical properties.
    • 高压釜固化工艺是用于航空航天和国防工业应用的高品质复合材料的代表性复合制造技术。 堆叠和真空袋装复杂后,高压釜固化所需的几种复合材料在受控的温度和压力下固化。 其中总固化过程需要至少4-6小时的高压釜固化是非常昂贵的过程。 因此,确定复合预浸料的最佳固化方法对于保证质量以及经济重要性非常重要。 由于缺乏实验方法,理论模型无法证明。 实验者必须在不同的固化温度和压力下运行许多批次的高压釜固化试验和误差,以获得足够数量的数据,这些数据可以通过实验来确定最佳固化过程。 由于本发明可以连续地监测固化期间复合层叠体的厚度变化,所以可以确定最佳固化过程的条件的该测量系统是获得固化程度和预浸料坯厚度变化的优良装置, 在物理和机械性能方面是最佳的。