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    • 4. 发明授权
    • System and method of virtual interaction
    • 虚拟交互的系统和方法
    • US09122391B2
    • 2015-09-01
    • US12979636
    • 2010-12-28
    • Richard LeeSam CoatesPaul Kevan Grenfell
    • Richard LeeSam CoatesPaul Kevan Grenfell
    • G09G5/377G06F3/0488A63F13/30G06F3/01G06F3/0346
    • A63F13/31A63F13/12A63F13/211A63F13/213A63F13/2145A63F13/327A63F13/92A63F2300/1075A63F2300/204A63F2300/405A63F2300/64G06F3/011G06F3/0346G06F3/04883
    • A system for virtual interaction, comprising two or more portable electronic devices, is provided. Each device comprises, in turn, coordinate referencing means operable to define a coordinate system common to the portable electronic devices with respect to a physically defined reference position, position estimation means operable to detect a the physical position of its respective portable electronic device with respect to the reference position, virtual environment generation means operable to generate a virtual environment, and communication means operable to transmit positional data using the common coordinate system from that portable electronic device to another portable electronic device. The virtual environment is shared in common between the portable electronic devices. The virtual environment uses the common co-ordinate system within which each portable electronic device defines a position for itself responsive to its physical position with respect to the reference position.
    • 提供了一种用于虚拟交互的系统,包括两个或更多个便携式电子设备。 每个设备依次包括坐标参考装置,其可操作以相对于物理定义的参考位置定义便携式电子设备公用的坐标系,位置估计装置,可操作以检测其相应的便携式电子设备的物理位置相对于 参考位置,可操作以产生虚拟环境的虚拟环境生成装置,以及可操作以使用所述公共坐标系从所述便携式电子设备向另一便携式电子设备发送位置数据的通信装置。 虚拟环境在便携式电子设备之间共享。 虚拟环境使用公共坐标系统,在该系统中,每个便携式电子设备根据其相对于参考位置的物理位置来定义自身的位置。
    • 6. 发明申请
    • SYSTEM AND METHOD OF VIRTUAL INTERACTION
    • 虚拟交互的系统与方法
    • US20110298824A1
    • 2011-12-08
    • US12979636
    • 2010-12-28
    • Richard LeeSam CoatesPaul Kevan Grenfell
    • Richard LeeSam CoatesPaul Kevan Grenfell
    • G09G5/377
    • A63F13/31A63F13/12A63F13/211A63F13/213A63F13/2145A63F13/327A63F13/92A63F2300/1075A63F2300/204A63F2300/405A63F2300/64G06F3/011G06F3/0346G06F3/04883
    • A system for virtual interaction, comprising two or more portable electronic devices, is provided. Each device comprises, in turn, coordinate referencing means operable to define a coordinate system common to the portable electronic devices with respect to a physically defined reference position, position estimation means operable to detect a the physical position of its respective portable electronic device with respect to the reference position, virtual environment generation means operable to generate a virtual environment, and communication means operable to transmit positional data using the common coordinate system from that portable electronic device to another portable electronic device. The virtual environment is shared in common between the portable electronic devices. The virtual environment uses the common co-ordinate system within which each portable electronic device defines a position for itself responsive to its physical position with respect to the reference position.
    • 提供了一种用于虚拟交互的系统,包括两个或更多个便携式电子设备。 每个设备依次包括坐标参考装置,其可操作以相对于物理定义的参考位置定义便携式电子设备公用的坐标系,位置估计装置,可操作以检测其相应的便携式电子设备的物理位置相对于 参考位置,可操作以产生虚拟环境的虚拟环境生成装置,以及可操作以使用所述公共坐标系从所述便携式电子设备向另一便携式电子设备发送位置数据的通信装置。 虚拟环境在便携式电子设备之间共享。 虚拟环境使用公共坐标系统,在该系统中,每个便携式电子设备根据其相对于参考位置的物理位置来定义自身的位置。
    • 7. 发明授权
    • Chalcogenide nanoionic-based radio frequency switch
    • 基于硫族化物纳米离子型射频开关
    • US07923715B2
    • 2011-04-12
    • US12336503
    • 2008-12-16
    • James NesselRichard Lee
    • James NesselRichard Lee
    • H31L29/00
    • H01L45/085H01L45/1226H01L45/1266H01L45/142H01L45/143H01L45/145H01L45/1658
    • A nonvolatile nanoionic switch is disclosed. A thin layer of chalcogenide glass engages a substrate and a metal selected from the group of silver and copper photo-dissolved in the chalcogenide glass. A first oxidizable electrode and a second inert electrode engage the chalcogenide glass and are spaced apart from each other forming a gap therebetween. A direct current voltage source is applied with positive polarity applied to the oxidizable electrode and negative polarity applied to the inert electrode which electrodeposits silver or copper across the gap closing the switch. Reversing the polarity of the switch dissolves the electrodeposited metal and returns it to the oxidizable electrode. A capacitor arrangement may be formed with the same structure and process.
    • 公开了非易失性纳米离子开关。 硫族化物玻璃的薄层与基底和选自在硫族化物玻璃中光溶解的银和铜的金属接合。 第一可氧化电极和第二惰性电极与硫族化物玻璃接合并且彼此间隔开,在它们之间形成间隙。 施加直流电压源,其正极施加到可氧化电极,负极性施加到惰性电极上,该惰性电极在闭合开关的间隙上电镀银或铜。 反转开关的极性会溶解电沉积金属并将其返回到可氧化电极。 可以以相同的结构和工艺形成电容器布置。
    • 10. 发明授权
    • Static random access memory unit
    • 静态随机存取单元
    • US07566932B2
    • 2009-07-28
    • US11308368
    • 2006-03-20
    • Jun-Chi HuangChia-Wen LiangYung-Chang LinRichard Lee
    • Jun-Chi HuangChia-Wen LiangYung-Chang LinRichard Lee
    • H01L29/94
    • H01L29/945H01L27/10829H01L27/11
    • A static random access memory (SRAM) unit comprising a substrate, a gate dielectric layer, a gate, a trench capacitor, a pair of source/drain regions, a first contact and a second contact is provided. The substrate has a trench formed therein. The gate dielectric layer is disposed on the substrate and the gate is disposed on the gate dielectric layer. The trench capacitor is disposed in the trench near one side of the gate. The source/drain regions are disposed in the substrate near the respective sides of the gate with one of the source/drain region positioned between the gate and the trench capacitor. The first contact is electrically connected to the trench capacitor and the second contact is electrically connected to the other source/drain region.
    • 提供一种包括基板,栅介质层,栅极,沟槽电容器,一对源极/漏极区域,第一触点和第二触点的静态随机存取存储器(SRAM)单元。 衬底具有形成在其中的沟槽。 栅极电介质层设置在衬底上,并且栅极设置在栅极电介质层上。 沟槽电容器设置在靠近栅极一侧的沟槽中。 源极/漏极区域设置在靠近栅极的相应侧面的衬底中,源极/漏极区域之一位于栅极和沟槽电容器之间。 第一触点电连接到沟槽电容器,并且第二触点电连接到另一个源极/漏极区域。