公开(公告)号：US08432358B2

公开(公告)日：2013-04-30

申请号：US13448907

申请日：2012-04-17

Applicant: Frank A. Hunleth ,  Negar Moshiri ,  William J. Napier ,  Daniel S. Simpkins ,  Frank J. Wroblewski ,  Kevin Conroy ,  Charles W. K. Gritton

Inventor： Frank A. Hunleth ,  Negar Moshiri ,  William J. Napier ,  Daniel S. Simpkins ,  Frank J. Wroblewski ,  Kevin Conroy ,  Charles W. K. Gritton

IPC: G09G5/08

CPC classification number: G06F3/0484 ,  G06F3/017 ,  G06F3/0346 ,  G06F3/0481 ,  G06F3/0482 ,  G06F3/0483 ,  G06F3/0485 ,  G06F2203/04806 ,  G08C2201/32 ,  H04N5/4403 ,  H04N5/44543 ,  H04N5/44582 ,  H04N5/44591 ,  H04N5/45 ,  H04N7/163 ,  H04N7/17318 ,  H04N21/42204 ,  H04N21/4316 ,  H04N21/44222 ,  H04N21/4438 ,  H04N21/47 ,  H04N21/47202 ,  H04N21/478 ,  H04N21/47815 ,  H04N21/4782 ,  H04N21/482 ,  H04N21/4821 ,  H04N21/4825 ,  H04N2005/4419 ,  H04N2005/4432

Abstract: Systems and methods according to the present invention provide a control framework for organizing, selecting and launching media items including graphical user interfaces coupled with an optional 3D control device for collection of the basic control primitives of point, click, scroll, hover and zoom which permit for easy and rapid selection of media items, e.g., movies, songs etc., from large or small collections. The remote control maps natural hand movements and gestures into relevant commands while the graphical display uses images, zooming for increased/decreased levels of detail and continuity of GUI objects to provide easy organization, selection and navigation among the media items by a user.

Abstract translation: 根据本发明的系统和方法提供了用于组织，选择和启动媒体项目的控制框架，所述媒体项目包括与用于收集点，点击，滚动，悬停和缩放的基本控制原语的可选3D控制设备相结合的图形用户界面，其允许 用于从大型或小型集合中轻松快速地选择媒体项目，例如电影，歌曲等。 遥控器将自然的手感和手势映射到相关命令中，而图形显示使用图像，缩放增加/减少的细节水平和GUI对象的连续性，以便用户在媒体项之间简单的组织，选择和导航。

公开(公告)号：US08339304B2

公开(公告)日：2012-12-25

申请号：US12101358

申请日：2008-04-11

Applicant: Yukio Yokozawa

Inventor： Yukio Yokozawa

IPC: H04L17/02 ,  H01L27/108 ,  H01L29/94

CPC classification number: G08C17/02 ,  G08C23/04 ,  G08C2201/32 ,  G08C2201/40 ,  G08C2201/91

Abstract: A remote control signal generation device for converting a primary remote control signal compliant to one code system into a secondary remote control signal compliant to another code system, includes an exterior member having shape and size suitable for being held in a battery holder, instead of one of the plural number of batteries, a converter section, responsive to the exterior member being held in the battery holder to convert the supplied voltage into an output voltage corresponding to the rated electromotive force, a primary remote control signal detection section for detecting the primary remote control signal, a signal code conversion processing section for generating the secondary remote control signal compliant to the another code system corresponding to the primary remote control signal detected by the primary remote control signal detection section, and a secondary remote control signal transmission section for transmitting the secondary remote control signal.

Abstract translation: 一种远程控制信号发生装置，用于将符合一个代码系统的一次远程控制信号转换成符合另一个代码系统的次要遥控信号，包括具有适于保持在电池座中的形状和尺寸的外部构件，而不是一个 多个电池的转换器部分，响应于外部构件被保持在电池座中以将所提供的电压转换成对应于额定电动势的输出电压的转换器部分，用于检测主遥控器的主遥控信号检测部分 控制信号，信号编码变换处理部，用于产生与由所述主遥控信号检测部检测出的所述主遥控信号对应的所述另一码系统的二次遥控信号;以及副遥控信号发送部， 二次遥控信号。

公开(公告)号：US20120242907A1

公开(公告)日：2012-09-27

申请号：US13365268

申请日：2012-02-03

Applicant: Pei-Ling Lai ,  Pin-Hsien Su ,  Sung-Yu Hsieh ,  Chun-Chieh Chen ,  Ming-Hua Hung

Inventor： Pei-Ling Lai ,  Pin-Hsien Su ,  Sung-Yu Hsieh ,  Chun-Chieh Chen ,  Ming-Hua Hung

IPC: G06F3/033 ,  H04N5/44

CPC classification number: G08C17/02 ,  G08C2201/20 ,  G08C2201/32 ,  G08C2201/91

Abstract: The present relates to a remote control method and a remote control system capable of switching different pointing modes. The remote control method includes a detecting unit of a remote control detecting a relative position between a first module and a second module of the remote control so as to generate a detecting signal, transmitting a pointing mode code to an electronic device according to the detecting signal by wireless communication technology, and the electronic device performing movement of an icon according to the pointing mode code and pointing mode relation information.

Abstract translation: 本发明涉及能够切换不同指向模式的遥控方法和遥控系统。 遥控方法包括：遥控器的检测单元，检测遥控器的第一模块和第二模块之间的相对位置，以产生检测信号;根据检测信号向电子设备发送指向模式代码 通过无线通信技术，电子设备根据指示模式码和指示模式关系信息执行图标的移动。

公开(公告)号：US08242894B2

公开(公告)日：2012-08-14

申请号：US11745534

申请日：2007-05-08

Applicant: Ken Kutaragi

Inventor： Ken Kutaragi

IPC: H04M1/00

CPC classification number: G08C17/02 ,  G08C2201/32

Abstract: To realize a system for simplifying a user's operation to instruct a main device to operate as desired, using a remote control device such as a remote controller or the like. An operation device has an acceleration sensor for detecting acceleration in one or more directions of the operation device. A main device has an operation control section for causing the main device to begin a predetermined operation according to an acceleration pattern detected by the acceleration sensor.

Abstract translation: 为了实现用于简化用户操作以指示主设备根据需要进行操作的系统，使用诸如遥控器等的遥控设备。 操作装置具有用于检测操作装置的一个以上的方向的加速度的加速度传感器。 主装置具有操作控制部分，用于使主装置根据由加速度传感器检测到的加速度模式开始预定的操作。

公开(公告)号：US08195344B2

公开(公告)日：2012-06-05

申请号：US13142241

申请日：2009-12-23

Applicant: Jin Suk Song ,  In Kyu Kim

Inventor： Jin Suk Song ,  In Kyu Kim

IPC: G06F7/00 ,  G06F19/00

CPC classification number: G08C17/00 ,  E02F9/2008 ,  E02F9/205 ,  G08C2201/32

Abstract: A remote control system and a remote control method of a construction machine for reducing a fatigue degree of an operator at the time when the operator controls driving of the construction machine depending on his/her body motion in the remote control system of the construction machine. For this, according to the present disclosure, a value acquired by compensating for a predetermined value εβ with respect to a finger bending angle βh for a palm is tracked by a bending angle βe of a bucket at the time of tracking the position of the bucket depending on hand motion of the operator to reduce a finger bending movement amount of the operator, thereby reducing fatigue. Further, the workspace of the operator is set to be smaller than points which are maximally movable in each of X, Y, and Z-axis directions at the time of setting the workspace of the operator, the workspace of WSh of the operator set to be small and a machine workspace WSe match each other, and the operator performs an operation in the workspace which is set to be small, thereby reducing the fatigue.

Abstract translation: 一种施工机械的遥控系统和遥控方法，用于在操作者根据施工机械的遥控系统中的身体运动来控制施工机械的驾驶时，减轻操作者的疲劳程度。 为此，根据本公开，通过补偿预定值＆egr;＆bgr;获得的值; 相对于手掌的手指弯曲角度＆bgr; h，由跟随操作者的手动的铲斗的位置时的铲斗的弯曲角度＆bgr; e来跟踪，以减少手指的弯曲角度 操作人员，从而减轻疲劳。 此外，操作者的工作空间被设定为小于在设定操作者的工作空间时能够在X，Y，Z轴方向各自最大限度地移动的点，操作者的WSh的工作空间设定为 并且机器工作空间WSe彼此匹配，并且操作者在设置为较小的工作空间中执行操作，从而减少疲劳。

公开(公告)号：US08130200B2

公开(公告)日：2012-03-06

申请号：US12353729

申请日：2009-01-14

Applicant: Benjamin Slotznick

Inventor： Benjamin Slotznick

IPC: G06F3/02

CPC classification number: G06F3/04886 ,  G06F3/0202 ,  G06F3/0317 ,  G06F3/03543 ,  G06F3/041 ,  G08C17/00 ,  G08C2201/32 ,  H04M1/72522

Abstract: A user interface device for use in controlling one or more external devices has at least a positional change operation mode and a keyboard operation mode. The user interface device has a main body portion, an orientation sensor, a surface sensor, a processor and a switch. The main body portion includes a top surface having at least one button that is active only in the positional change operation mode. The at least one button triggers an action in the one or more external devices when pressed. The bottom surface has a displacement sensor and a thumb keyboard. The displacement sensor detects positional change of the user interface device only during the positional change operation mode. The positional change is used for navigation on a display screen of the one or more external devices. The thumb keyboard has a plurality of keys that generate keyboard signals for sending to the one or more external devices only when the user interface device is in the keyboard operation mode. The plurality of keys allow for entry of at least alphabetic characters. The orientation sensor detects the orientation state of the user interface device. The surface sensor detects whether the bottom surface of the user interface device is touching an external surface. The processor includes processor logic that receives input signals from at least the orientation sensor and the surface sensor, and uses the input signals to determine whether to place the user interface device in either the positional change operation mode or the keyboard operation mode. The switch is configured to place the user interface device in either the positional change operation mode or the keyboard operation mode.

Abstract translation: 用于控制一个或多个外部设备的用户界面设备至少具有位置改变操作模式和键盘操作模式。 用户界面装置具有主体部分，定向传感器，表面传感器，处理器和开关。 主体部分包括具有仅在位置改变操作模式中有效的至少一个按钮的顶表面。 当按下时，至少一个按钮触发一个或多个外部设备中的动作。 底面具有位移传感器和拇指键盘。 位移传感器仅在位置改变操作模式期间检测用户界面装置的位置变化。 位置变化用于一个或多个外部设备的显示屏上的导航。 拇指键盘具有多个键，其仅在用户界面装置处于键盘操作模式时才产生用于发送到一个或多个外部设备的键盘信号。 多个键允许输入至少字母字符。 方向传感器检测用户界面设备的方向状态。 表面传感器检测用户接口设备的底面是否正在接触外表面。 所述处理器包括从至少所述方向传感器和所述表面传感器接收输入信号的处理器逻辑，并且使用所述输入信号来确定是否将所述用户接口设备置于所述位置改变操作模式或键盘操作模式中。 开关被配置为将用户界面装置置于位置改变操作模式或键盘操作模式中。

公开(公告)号：US20110312278A1

公开(公告)日：2011-12-22

申请号：US13203772

申请日：2010-11-26

Applicant: Yosuke Matsushita ,  Masaru Yamaoka ,  Shohji Ohtsubo ,  Tsutomu Mukai ,  HIronori Nakae ,  Mitsuaki Oshima

Inventor： Yosuke Matsushita ,  Masaru Yamaoka ,  Shohji Ohtsubo ,  Tsutomu Mukai ,  HIronori Nakae ,  Mitsuaki Oshima

IPC: H04W88/02

CPC classification number: H04L12/40013 ,  G08C17/02 ,  G08C2201/20 ,  G08C2201/32 ,  G08C2201/91 ,  G08C2201/93 ,  H04B5/0062 ,  H04W4/80 ,  H04W64/003

Abstract: A mobile communication device (98b) includes: an appliance information obtainment unit (98n) that obtains appliance information (98n1) by proximity wireless communication (98c1) with an appliance (98a) installed in a home (99), the appliance information specifying the appliance (98a); a position information obtainment unit (98j) that obtains position information (98j1) of the mobile communication device when the proximity wireless communication (98c1) is performed; and a transmission unit (98o) that transmits transmission information (98o1) to a server (98c) in the case where the proximity wireless communication (98c1) is performed, the transmission information including the appliance information (98n1) and the position information (98j1).

Abstract translation: 移动通信设备（98b）包括：通过邻近无线通信（98c1）与安装在家庭（99）中的设备（98a）获得设备信息（98n1）的设备信息获取单元（98n），所述设备信息指定 器具（98a）; 当执行邻近无线通信（98c1）时获取移动通信设备的位置信息（98j1）的位置信息获取单元（98j） 以及在执行邻近无线通信（98c1）的情况下将发送信息（98o1）发送到服务器（98c）的发送单元（98o），包括设备信息（98n1）和位置信息（98j1）的发送信息 ）。

公开(公告)号：US20110249107A1

公开(公告)日：2011-10-13

申请号：US12912764

申请日：2010-10-27

Applicant: KUAN-JUNG CHIU

Inventor： KUAN-JUNG CHIU

IPC: H04N5/44 ,  H04N7/18 ,  H04N5/33

CPC classification number: G08C23/04 ,  G08C2201/32

Abstract: A remote control based on user's gesture includes an infrared emission unit, a storage unit, a gesture sensing unit, a processing unit and a code chip. The gesture sensing unit is configured to capture images and identify hand gestures in the images and output the gesture signals corresponding to the hand gestures to the processing unit; The storage unit stores a first relationship table of gesture signals and associated function instructions. The storage unit also stores a second relationship table of the function instructions and associated infrared remote control codes. The processing unit parses the gesture signal into the corresponding function instruction according to the first relationship table, and then outputs the function instruction to the encode chip, the encode chip chooses an infrared remote control code according to the function instruction and the second relationship table and drives the infrared emission unit to emit infrared rays carrying the infrared remote control code to the device.

Abstract translation: 基于用户手势的遥控器包括红外发射单元，存储单元，手势感测单元，处理单元和代码芯片。 手势感测单元被配置为捕获图像并识别图像中的手势并将对应于手势的手势信号输出到处理单元; 存储单元存储手势信号和相关联的功能指令的第一关系表。 存储单元还存储功能指令和相关联的红外遥控代码的第二关系表。 处理单元根据第一关系表将手势信号解析成相应的功能指令，然后将该功能指令输出到编码芯片，编码芯片根据功能指令和第二关系表选择红外遥控代码， 驱动红外发射单元向装置发射携带红外线遥控码的红外线。

公开(公告)号：US08005578B2

公开(公告)日：2011-08-23

申请号：US11898387

申请日：2007-09-12

Applicant: Yih-Ran Sheu

Inventor： Yih-Ran Sheu

IPC: G05D1/00

CPC classification number: G08C17/02 ,  G08C2201/32 ,  G08C2201/50

Abstract: A method to control a motion heading at a receiving end by referring to an angle between the receiving end and a transmission end includes the following steps solving an angle, α, between an original heading and a user inputted direction of transmission end; having a signal-receiving unit at the receiving end to pick up signals sent from the transmission end; determining a signal source orientation according to strength of the signals received by the signal-receiving unit which comprises multiple sensors or a position sensitive device arranged in a form to pick up the signals from the transmission end; solving an angle, β, between the signal source orientation and an original motion heading of the receiving end; and solving a new motion heading according to the angles αand β.

Abstract translation: 通过参照接收端和发送端之间的角度来控制接收端的运动航向的方法包括解决原始航向和用户输入的发送端方向之间的角度α的以下步骤; 在接收端具有信号接收单元以拾取从发送端发送的信号; 根据由包含多个传感器的信号接收单元接收的信号的强度确定信号源取向，或者以从传输端拾取信号的形式布置的位置敏感设备; 求解信号源方向与接收端的原始运动方向之间的角度＆bgr; 并根据角度α和bgr求解新的运动标题。

公开(公告)号：US20110187643A1

公开(公告)日：2011-08-04

申请号：US13077334

申请日：2011-03-31

Applicant: GERHARDUS ENGBERTUS MEKENKAMP ,  TIM DEKKER

Inventor： GERHARDUS ENGBERTUS MEKENKAMP ,  TIM DEKKER

IPC: G09G5/08

CPC classification number: G06F3/033 ,  G06F3/005 ,  G06F3/017 ,  G06F3/0304 ,  G06F3/0346 ,  G08C17/00 ,  G08C2201/32 ,  G08C2201/61 ,  G08C2201/71 ,  G08C2201/92 ,  G08C2201/94

Abstract: The user interaction system comprises a portable pointing device (101) connected to a camera (102) and sending pictures to a digital signal processor (120), capable of recognizing an object (130) and a command given by the user (100) by moving the pointing device (101) in a specific way, and controlling an electrical apparatus (110) on the basis of this recognition.

Abstract translation: 用户交互系统包括连接到照相机（102）的便携式指点设备（101），并且向数字信号处理器（120）发送图像，能够识别对象（130）和由用户（100）给出的命令 以特定方式移动指示装置（101），并且基于该识别来控制电气设备（110）。