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    • 7. 发明公开
    • MOBILE TERMINAL AND CONTROLLING METHOD THEREOF
    • 移动终端及其控制方法
    • EP2759180A1
    • 2014-07-30
    • EP12832868.9
    • 2012-02-03
    • LG Electronics Inc.
    • KIM, Jonghwan
    • H04W88/02G03H1/04G06F3/14
    • G09G5/37G03H1/02G03H1/2294G03H2210/30G03H2227/02G06F1/1639G06F1/1677G06F3/1423G06F2200/1637G09G3/003G09G5/006G09G5/30H04M1/0272H04M1/72522H04N9/3173
    • A mobile terminal and controlling method thereof are disclosed, by which a holography user interface is provided. The present invention includes a controller, a holography storing medium configured to record an interference pattern generated by interference of light, and a holography output module configured to output a holography image attributed to diffraction between the light applied to the holography storing medium and the interference pattern in accordance with at least one preset holography type among a plurality of holography types under the control of the controller, wherein a plurality of the holography types comprise a default type, a holography background type and a holography pattern type, wherein if the default type is set, the controller controls the generated holography image to be outputted intactly, wherein if the holography background type is set, the controller controls the holography image to be outputted in a manner of being included in a 1st region within a preset holography background, and wherein if the holography pattern type is set, the controller controls the holography image to be outputted in accordance with the preset at least one holography pattern.
    • 公开了一种移动终端及其控制方法,通过该移动终端及其控制方法提供全息用户界面。 本发明包括控制器,配置为记录由光的干涉产生的干涉图案的全息图存储介质以及配置成输出归因于施加到全息存储介质的光和干涉图案之间的衍射的全息图像的全息图输出模块 根据控制器控制下的多个全息类型中的至少一个预设全息类型,其中多个全息类型包括默认类型,全息背景类型和全息图案类型,其中如果默认类型是 控制器控制生成的全息图像被完整地输出,其中如果全息背景类型被设置,则控制器控制全息图像以包括在预设的全息背景内的第一区域中的方式被输出,并且其中, 如果设置了全息图案类型,则控制器控制全息 图像按照预先设定的至少一个全息图案输出。
    • 8. 发明公开
    • Thermal and power aware graphics processing
    • 热电联产
    • EP2648089A2
    • 2013-10-09
    • EP13003259.2
    • 2012-08-08
    • Broadcom Corporation
    • Bennett, James D.
    • G06F3/14
    • G09G5/363G06F3/14G09G5/37G09G2320/041G09G2330/021G09G2330/045G09G2340/02G09G2360/121G09G2370/02G09G2370/022
    • Embodiments for thermal and/or power aware graphics processing are provided. In an embodiment, a thermally and/or power adaptive graphics processing environment is presented. The graphics processing environment includes various thermally and/or power adaptive elements, each of which may be thermally and/or power aware, adaptive, in the sense that it may adapt at least one aspect of its operation and/or outputs based on thermal and/or power information to effectuate a change in graphics processing in any element, including itself, of the environment. This may include changing or causing a change in at least one of a graphics element, feature, setting, or characteristic based on thermal and/or power information. In an embodiment, thermal and/or power based adaptation may include software and/or hardware adaptation of graphics processing to affect thermal and/or power performance.
    • 提供了用于热和/或功率感知图形处理的实施例。 在一个实施例中,呈现热和/或功率自适应图形处理环境。 图形处理环境包括各种热和/或功率自适应元件,每个元件可以是热和/或功率感知的,自适应的,其可以基于热和/或功率自适应来适应其操作和/或输出的至少一个方面 /或功率信息,以实现环境的任何元素(包括其自身)中图形处理的改变。 这可以包括基于热和/或功率信息来改变或导致图形元素,特征,设置或特性中的至少一个的改变。 在一个实施例中,基于热和/或功率的适配可以包括影响热和/或功率性能的图形处理的软件和/或硬件适配。
    • 9. 发明公开
    • Thermal and power aware graphics processing
    • 热电联产
    • EP2560091A2
    • 2013-02-20
    • EP12005766.6
    • 2012-08-08
    • Broadcom Corporation
    • Bennett, James
    • G06F3/14
    • G09G5/363G06F3/14G09G5/37G09G2320/041G09G2330/021G09G2330/045G09G2340/02G09G2360/121G09G2370/02G09G2370/022
    • Embodiments for thermal and/or power aware graphics processing are provided. In an embodiment, a thermally and/or power adaptive graphics processing environment is presented. The graphics processing environment includes various thermally and/or power adaptive elements, each of which may be thermally and/or power aware - adaptive - in the sense that it may adapt at least one aspect of its operation and/or outputs based on thermal and/or power information to effectuate a change in graphics processing in any element - including itself- of the environment. This may include changing or causing a change in at least one of a graphics element, feature, setting, or characteristic based on thermal and/or power information. In an embodiment, thermal and/or power based adaptation may include software and/or hardware adaptation of graphics processing to affect thermal and/or power performance.
    • 提供了用于热和/或功率感知图形处理的实施例。 在一个实施例中,呈现热和/或功率自适应图形处理环境。 图形处理环境包括各种热和/或功率自适应元件,每个元件可以是热和/或功率感知 - 自适应的 - 在这种意义上,其可以适应其操作和/或输出的至少一个方面,其基于热和/ /或功率信息,以实现环境中任何元素(包括本身)中图形处理的变化。 这可以包括基于热和/或功率信息来改变或导致图形元素,特征,设置或特性中的至少一个的改变。 在一个实施例中,基于热和/或功率的适配可以包括影响热和/或功率性能的图形处理的软件和/或硬件适配。
    • 10. 发明公开
    • Image processing circuit, display device, and printing device
    • EP2026324A3
    • 2009-12-02
    • EP08014508.9
    • 2008-08-14
    • Seiko Epson Corporation
    • Ono, YoshiyukiSawazaki, TakashiSaito, Akira
    • G09G5/37G06F3/14
    • G09G5/37G06F3/13G06F3/14G06T11/40G09G5/024G09G5/24G09G5/30G09G5/363G09G5/393
    • An image processing circuit (250) for carrying out a hatching processing. A storage means (H) stores positions of pixels constituting a shape-image to be regularly-arranged and pixel values (R0,R1) of the pixels. If a pixel value of a first pixel constituting an image represented by input binary image data, the pixel value of the first pixel being expressible by one value or another value, one of the values being 0, and a pixel value of a second pixel constituting the shape-image and arranged at a position corresponding to a position of the first pixel is a predetermined value, a conversion means (S1) converts the pixel value of the first pixel into 0 and outputting a pixel value 0; and if the pixel value of the first pixel is 0, or if the pixel value of the first pixel is a value other than 0, and the pixel value of the second pixel is a value other than the predetermined value, directly outputting the pixel value of the first pixel. A first multiplication means (MU0) multiplies the pixel value of the second pixel by the pixel value output from the conversion means, and outputs a resultant value. An inversion means (SU) inverts the pixel value output from the conversion means and outputs a resultant value and a second multiplication means (MU1) multiplies the pixel value of the first pixel or a pixel value of a third pixel constituting a background part of the image represented by the binary image data by the value output from the inversion means, and outputs a resultant value. An adding means (AD) adds up the value output from the first multiplication means and the value output from the second multiplication means, and outputs a resultant value as output image data.