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    • 25. 发明申请
    • Pen input device and method for tracking pen position
    • 笔输入设备和跟踪笔位的方法
    • US20060244738A1
    • 2006-11-02
    • US11118691
    • 2005-04-29
    • Ken NishimuraIan Hardcastle
    • Ken NishimuraIan Hardcastle
    • G09G5/00
    • G06F3/0317G06F3/0321G06F3/03545
    • The pen input device has both a movement detection system and a position detection system that collectively track the position of the pen input device during a writing operation on a writing surface. The pen input device has a writing tip capable of performing a writing operation in contact with the writing surface. A controller is operable to activate the movement detection system continuously during the writing operation and to activate the position detection system intermittently during the writing operation. The movement detection system is operable to determine movement data that represent changes between successive positions of the writing tip. The position detection system is operable to determine position data that represents a position of the writing tip on the writing surface.
    • 笔输入装置具有移动检测系统和位置检测系统,其在书写表面上的写入操作期间共同跟踪笔输入装置的位置。 笔输入装置具有能够执行与书写表面接触的写入操作的写入尖端。 控制器可操作以在写入操作期间连续地激活移动检测系统,并且在写入操作期间间歇地激活位置检测系统。 移动检测系统可操作以确定表示书写笔尖的连续位置之间的变化的移动数据。 位置检测系统可操作以确定表示写入尖端在书写表面上的位置的位置数据。
    • 27. 发明授权
    • Optical fiber tap capable of random placement along an optical fiber
    • 能沿光纤随机放置的光纤丝锥
    • US06754417B2
    • 2004-06-22
    • US10133818
    • 2002-04-24
    • Ken A. NishimuraIan HardcastleJonathan N. SimonGary B. Gordon
    • Ken A. NishimuraIan HardcastleJonathan N. SimonGary B. Gordon
    • G02B626
    • G02B6/2852G02B6/2821G02B6/3636
    • The optical fiber tap establishes optical communication between a branch optical fiber and a main optical fiber and includes a housing, a serpentine main channel and a branch channel. The main channel is defined in the housing and is shaped to accommodate part of the main optical fiber. The main channel includes a coupling curve portion shaped to define a main coupling curve in the main optical fiber. The branch channel is also defined in the housing and is shaped to accommodate part of the branch optical fiber. The branch channel communicates with the main channel at the coupling curve portion of the main channel. Optical signals couple laterally between the main optical fiber located in the main channel and the branch optical fiber located in the branch channel. Optical communication between the optical fibers is therefore established.
    • 光纤抽头建立分支光纤与主光纤之间的光通信,并且包括壳体,蛇形主通道和分支通道。 主通道限定在壳体中,并且被成形为容纳主光纤的一部分。 主通道包括成形为在主光纤中限定主耦合曲线的耦合曲线部分。 分支通道也被限定在壳体中并且被成形为适应分支光纤的一部分。 分支通道在主通道的耦合曲线部分处与主通道连通。 光信号在位于主信道的主光纤与位于分支信道中的分支光纤之间横向耦合。 因此建立光纤之间的光通信。
    • 29. 发明授权
    • Optical partial regeneration of solitons
    • 孤子的光学部分再生
    • US06222669B1
    • 2001-04-24
    • US09291186
    • 1999-04-14
    • Kim B. RobertsIan Hardcastle
    • Kim B. RobertsIan Hardcastle
    • H01S300
    • H04B10/299G02F1/3513G02F1/3515G02F1/3523H04B10/25077
    • A partial optical regenerator for use in high bit-rate optical systems and useful in WDM applications employing soliton transmission. The regenerator essentially comprises a saturable optical element in a main optical path and a resonant optical circuit coupled to the element. A resonant pulse can be generated from an input data pulse in a number of ways. (A) an input data pulse may be coupled directly to the resonant optical circuit before entering the element; (B) the input data pulse may first saturate the element, resulting in the creation of a counter-propagating pulse; (C) the data pulse may pass through the element and be coupled to the resonant optical circuit upon exit. The resonant pulse travels around the resonant circuit and repeatedly returns to the saturable optical element after an integer multiple of the symbol duration or after an odd integer multiple of half the symbol duration. Successive saturation of the element causes the output data pulses to be better aligned with respect to the center of the symbol interval.
    • 用于高比特率光学系统的部分光学再生器,并且可用于使用孤子传输的WDM应用中。 再生器主要包括主光路中的可饱和光学元件和耦合到元件的谐振光电路。 可以通过多种方式从输入数据脉冲产生谐振脉冲。 (A)输入数据脉冲可以在进入元件之前直接耦合到谐振光电路; (B)输入数据脉冲可以首先饱和元件,导致反向传播脉冲的产生; (C)数据脉冲可以穿过该元件并且在退出时耦合到谐振光电路。 谐振脉冲在谐振电路周围传播,并且在符号持续时间的整数倍之后或在符号持续时间的一半的奇整数倍之后重复地返回到可饱和光学元件。 元件的连续饱和使得输出数据脉冲相对于符号间隔的中心更好地对准。