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    • 2. 发明授权
    • System and method for graphically allocating robot's working space
    • 用于图形分配机器人工作空间的系统和方法
    • US08160746B2
    • 2012-04-17
    • US12031718
    • 2008-02-15
    • Wei-Han WangYa-Hui TsaiYen-Chun Lin
    • Wei-Han WangYa-Hui TsaiYen-Chun Lin
    • G05B19/19
    • B25J9/1671G05B2219/39065G05B2219/40089G05B2219/40095G05B2219/40099G05B2219/40607
    • System and method for graphically allocating robot's working space are provided. The system includes an image extractor, a task-allocating server and a robot. A graphic user interface (GUI) of the task-allocating server includes a robot's working scene area, a space attribute allocating area and a robot's task area. Thus, a user assigns one certain space area in the robot's working scene area with a “wall” attribute, or another space area with a “charging station” attribute. Meanwhile, by using the GUI, the user directly assigns the robot to execute a specific task at a certain area. Hence, the user or remote controller facilitates the robot to provide safer and more effective service through his/her environment recognition.
    • 提供了图形化分配机器人工作空间的系统和方法。 该系统包括图像提取器,任务分配服务器和机器人。 任务分配服务器的图形用户界面(GUI)包括机器人的工作场景区域,空间属性分配区域和机器人的任务区域。 因此,用户在机器人的工作场景区域中分配一个具有“墙”属性的特定空间区域或者具有“充电站”属性的另一个空间区域。 同时,通过使用GUI,用户直接指定机器人在特定区域执行特定任务。 因此,用户或遥控器便于机器人通过他/她的环境识别来提供更安全和更有效的服务。
    • 6. 发明申请
    • VISUAL NAVIGATION SYSTEM AND METHOD BASED ON STRUCTURED LIGHT
    • 基于结构光的视觉导航系统和方法
    • US20090118890A1
    • 2009-05-07
    • US12031716
    • 2008-02-15
    • Yen-Chun LinYao-Jiunn ChenChao-Chi Wu
    • Yen-Chun LinYao-Jiunn ChenChao-Chi Wu
    • G05D1/00
    • G05D1/0246
    • A visual navigation system and method based on structured light are provided. The visual navigation system at least includes at least one projector for generating a specific path pattern formed by structured light, and a visual server. In addition to facilitating the visual navigation system to detect an obstacle, the pattern formed by the structured light provides a specific path pattern followed by robots during the navigation. In the visual navigation method, when detecting the obstacle, the visual server routes a virtual path and issues a movement-control command to the robots, which in turn follow the virtual path. The present invention is capable of raising the accuracy for the robot navigation and reducing operation burden of the visual server by using the structured light to guide the robots.
    • 提供了一种基于结构光的视觉导航系统和方法。 视觉导航系统至少包括至少一个用于生成由结构化光形成的特定路径图案的投影仪和视觉服务器。 除了促进视觉导航系统检测障碍物之外,由结构化光形成的图案还可以在导航期间提供特定的路径图案,随后是机器人。 在视觉导航方法中,当检测障碍物时,可视服务器路由虚拟路径并向机器人发出运动控制命令,机器人依次跟随虚拟路径。 本发明能够通过使用结构化的光引导机器人来提高机器人导航的精度,并降低视觉服务器的操作负担。
    • 7. 发明授权
    • Strained channel integrated circuit devices
    • 应变通道集成电路器件
    • US08729627B2
    • 2014-05-20
    • US12780124
    • 2010-05-14
    • Ming-Lung ChengYen-Chun LinDa-Wen Lin
    • Ming-Lung ChengYen-Chun LinDa-Wen Lin
    • H01L29/94
    • H01L29/66795H01L21/02532H01L21/02664H01L21/324H01L21/823807H01L21/823814H01L21/823821H01L21/845H01L27/0924H01L27/1211H01L29/165H01L29/511H01L29/66545H01L29/66636H01L29/7847H01L29/7848
    • An apparatus includes a substrate having a strained channel region, a dielectric layer over the channel region, first and second conductive layers over the dielectric layer having a characteristic with a first value, and a strain-inducing conductive layer between the conductive layers having the characteristic with a second value different from the first value. A different aspect involves an apparatus that includes a substrate, first and second projections extending from the substrate, the first projection having a tensile-strained first channel region and the second projection having a compression-strained second channel region, and first and second gate structures engaging the first and second projections, respectively. The first gate structure includes a dielectric layer, first and second conductive layers over the dielectric layer, and a strain-inducing conductive layer between the conductive layers. The second gate structure includes a high-k dielectric layer adjacent the second channel region, and a metal layer.
    • 一种装置包括具有应变通道区的衬底,沟道区上的电介质层,介电层上的第一和第二导电层具有第一值的特性,以及具有特征的导电层之间的应变诱发导电层 具有与第一值不同的第二值。 不同的方面涉及一种装置,其包括衬底,从衬底延伸的第一和第二突起,第一突起具有拉伸应变的第一沟道区,第二突起具有压缩应变的第二沟道区,以及第一和第二栅结构 分别接合第一和第二突起。 第一栅极结构包括电介质层,电介质层上的第一和第二导电层,以及在导电层之间的应变感应导电层。 第二栅极结构包括与第二沟道区相邻的高k电介质层和金属层。
    • 9. 发明授权
    • Method for coordinating cooperative robots
    • 协调机器人协调方法
    • US08108071B2
    • 2012-01-31
    • US11970520
    • 2008-01-08
    • Yen-Chun LinJen-Hua WuKuo-Tsung Tseng
    • Yen-Chun LinJen-Hua WuKuo-Tsung Tseng
    • G05B19/418
    • B25J9/1674B25J9/1682G05B2219/40352
    • A method for coordinating cooperative robots is provided. The method includes following steps. An abnormal event is detected by a sensor disposed in an environment or in a robot. The abnormal event is broadcasted to the cooperative robots. Each robot determines whether the priority of the abnormal event is higher than that of its currently executing task. If the answer is “yes,” whether function attributes of the robot meet attributes of the abnormal event is then determined. If the function attributes of the cooperative robot do not meet the attributes of the abnormal event, the robot broadcasts to acquire help from other robots, thereby constituting an instantly designated task team. The instantly designated task team goes to where the abnormal event takes place to process the abnormal event. After the abnormal event has been eliminated, the instantly designated task team is dismissed and these robots resume their original tasks.
    • 提供了一种协调机器人协调的方法。 该方法包括以下步骤。 通过设置在环境或机器人中的传感器来检测异常事件。 异常事件被广播到协作机器人。 每个机器人确定异常事件的优先级是否高于其当前正在执行的任务的优先级。 如果答案是“是”,则是否确定机器人的功能属性符合异常事件的属性。 如果协作机器人的功能属性不符合异常事件的属性,则机器人广播获取其他机器人的帮助,从而构成即时指定的任务组。 即时指定的任务组去处理异常事件发生异常事件。 异常事件消除后,立即指定的任务组被解雇,这些机器人恢复了原来的任务。
    • 10. 发明申请
    • TOILET APPARATUS
    • 卫生间设备
    • US20110145985A1
    • 2011-06-23
    • US12968008
    • 2010-12-14
    • Yen-Chun Lin
    • Yen-Chun Lin
    • A47K13/10
    • A47K13/10
    • A toilet apparatus includes a housing, a toilet seat, a toilet cover and a driving device to drive the toilet seat and the toilet cover. The toilet apparatus further includes a control module connected to the driving device as a control center of the toilet apparatus. The toilet apparatus further includes an infrared detection module, an induction module, a touch switch and a flush driving device which are respectively connected to the control module. The toilet apparatus of the present invention can automatically lift the toilet cover and the toilet seat and flush the toilet by detection, and provides phototherapy, sterilization and deodorization effects by means of far infrared ray, photocatalyst and anion.
    • 厕所装置包括壳体,马桶座圈,马桶盖和驱动马桶座圈和马桶盖的驱动装置。 厕所装置还包括连接到作为马桶装置的控制中心的驱动装置的控制模块。 厕所装置还包括分别连接到控制模块的红外线检测模块,感应模块,触摸开关和冲洗驱动装置。 本发明的马桶装置可以自动提起马桶盖和马桶座,并通过检测冲洗马桶,并通过远红外线,光催化剂和阴离子提供光疗,灭菌和除臭效果。