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    • 2. 发明授权
    • Generation of short optical pulses using strongly complex coupled DFB lasers
    • 使用强耦合DFB激光器产生短光脉冲
    • US06650673B2
    • 2003-11-18
    • US09213088
    • 1998-12-15
    • Jin HongRongqing HuiMaurice S. O'Sullivan
    • Jin HongRongqing HuiMaurice S. O'Sullivan
    • H01S319
    • H01S5/1228H01S5/0057H01S5/0265H01S5/0623H01S5/06258H01S5/1021H01S5/1215
    • A compact source capable of generating continuously tunable high frequency microwave radiation and short optical pulses in the picosecond/sub-picosecond range is invented. It includes a laser structure having two lasers formed on the same substrate which simultaneously operate at different longitudinal modes. Each laser has a complex coupled (gain-coupled or loss-coupled) grating which is formed by deep etching through a multi-quantum well structure, either of the active medium or of the additional lossy quantum-well layers, thus ensuring no substantial interaction between lasers. The lasers have a common active medium and shared optical path and provide mutual light injection into each other which results in generation of a beat signal at a difference frequency of two lasers. The beat frequency is defined by spacing between the laser modes and may be continuously tuned by current injection and/or temperature variation. Thus, the beat signal provides a continuously tunable microwave radiation. To form a train of short optical pulses, the beat signal is either further sent to a saturable absorber followed by a semiconductor optical amplifier, or sent directly into an optical compressor which includes a dispersion fiber. As a result, a duration of each impulse is compressed, and a train of short optical pulses is formed.
    • 发明了能够产生连续可调谐的高频微波辐射和皮秒/次皮秒范围内的短光脉冲的紧凑型光源。 它包括具有形成在同一衬底上的两个激光器的激光器结构,其同时在不同的纵向模式下工作。 每个激光器具有复合耦合(增益耦合或损耗耦合)光栅,其通过深入蚀刻通过多量子阱结构,活性介质或附加的有损的量子阱层中的任一个形成,从而确保没有实质的相互作用 激光之间。 激光器具有共同的有源介质和共享光路,并且彼此相互注入,这导致以两个激光器的差频产生拍频信号。 节拍频率由激光模式之间的间距定义,并且可以通过电流注入和/或温度变化来连续调谐。 因此,拍频信号提供连续可调的微波辐射。 为了形成短脉冲序列,将拍频信号进一步发送到可饱和吸收体,随后是半导体光放大器,或者直接发送到包括分散光纤的光学压缩器中。 结果,每个脉冲的持续时间被压缩,并形成一串短的光脉冲。
    • 3. 发明申请
    • LOW-ALTITUDE ALTIMETER AND METHOD
    • 低海拔高度计和方法
    • US20130151040A1
    • 2013-06-13
    • US13476539
    • 2012-05-21
    • Christopher T. ALLENTrenton ShueyRongqing Hui
    • Christopher T. ALLENTrenton ShueyRongqing Hui
    • B64D45/00G01C5/00
    • G01B9/08B64D45/00G01C5/005
    • A low-altitude altimeter (10) and a method of determining low altitudes for unmanned aerial vehicles (24). The altimeter includes at least two illuminators (12,14), at least one sensor (16), and a computing device (18). The illuminators (12,14) emit signals which are received by the sensor (16) in such a way that an angle at which they are received is determinable by the computing device (18). The computing device (18) processes each signal received by the sensor (16), determines the angle at which the sensor (16) received the signal, and, based thereon, determines the altitude of the unmanned aerial vehicle (24). When a first pair of illuminators are arranged along a fuselage axis, and a second pair of illuminators are arranged orthogonally to that axis, the computing device can combine first and second altitude, pitch angle, and roll angle measurements to provide a more refined altitude determination.
    • 一种低空高度计(10)和一种确定无人驾驶飞行器低空的方法(24)。 高度计包括至少两个照明器(12,14),至少一个传感器(16)和计算设备(18)。 照明器(12,14)发射由传感器(16)接收的信号,使得它们被接收的角度由计算装置(18)确定。 计算装置(18)处理由传感器(16)接收的每个信号,确定传感器(16)接收信号的角度,并且基于此确定无人驾驶飞行器(24)的高度。 当第一对照明器沿着机身轴线布置,并且第二对照明器与该轴线正交布置时,计算装置可以组合第一和第二高度,俯仰角和侧倾角测量值,以提供更精确的高度确定 。
    • 4. 发明授权
    • Method and apparatus for high resolution monitoring of optical signals
    • 用于光信号高分辨率监测的方法和装置
    • US06493088B1
    • 2002-12-10
    • US09411649
    • 1999-10-04
    • Rongqing HuiMaurice S. O'Sullivan
    • Rongqing HuiMaurice S. O'Sullivan
    • G01B902
    • H04J14/02G01J9/02G01J2009/023G01J2009/0253H04B10/0795H04J14/0227H04J14/0276
    • The present invention provides a method and apparatus for monitoring optical signals with an expand frequency resolution. The invention permits high-resolution measurements of optical signal spectrums while retaining wide bandwidth operation through appropriate control circuitry. An interferometer having a periodic frequency response formed of equally spaced narrow-band peaks is used to sweep the entire signal spectrum. The interferometer frequency response is incrementally tuned in cycles so that each of its frequency response peaks cyclically scans a particular spectral band of the signal spectrum. During each cycle, the interferometer isolates multiple,spectrally resolved portions of the optical signal spectrum where each portion originates frog different spectral band. In this way, a high-resolution measurement of the entire signal spectrum can be obtained. The invention may be network protocol independent and can be incorporated into an optical spectrum analyzer or directly into any optical terminal. The invention can be used for signal spectrum monitoring applications including link quality monitoring (LQM) in optical communications networks to monitor various transmission parameters such as such as carrier wavelengths, optical signal-to-noise ratios (SNR), amplified spontaneous emissions (ASE), noise levels, optical non-linearities or other signal baseband information such as data rates and formats.
    • 本发明提供一种以扩展频率分辨率监视光信号的方法和装置。 本发明允许光信号频谱的高分辨率测量,同时通过适当的控制电路保持宽带宽操作。 使用具有由等间隔的窄带峰值形成的周期性频率响应的干涉仪来扫描整个信号频谱。 干涉仪频率响应以周期递增调谐,使得其每个频率响应峰值对信号频谱的特定谱带进行循环扫描。 在每个周期期间,干涉仪隔离光信号频谱的多个光谱解析部分,其中每个部分起源于青蛙不同的光谱带。 以这种方式,可以获得整个信号频谱的高分辨率测量。 本发明可以是与网络协议无关的,并且可以并入到光谱分析仪中或直接并入任何光学终端。 本发明可用于信号频谱监测应用,包括光通信网络中的链路质量监测(LQM),以监测各种传输参数,例如载波波长,光信噪比(SNR),放大自发辐射(ASE) ,噪声电平,光学非线性或其他信号基带信息,如数据速率和格式。
    • 7. 发明授权
    • Optical domain signal analyzer
    • 光域信号分析仪
    • US06697159B2
    • 2004-02-24
    • US09907343
    • 2001-07-17
    • Rongqing Hui
    • Rongqing Hui
    • G01J345
    • G01J3/2803G01J3/26G01J3/28G01J3/32G02B2006/12195
    • An Optical Domain Signal Analyzer, having an optical filter, a dispersive element and a detector is utilized to provide high resolution spectrum analysis over a wide optical bandwidth. The optical domain signal analyzer broadly includes an optical filter for providing wavelength samples of a received optical signal, a dispersive element for receiving the samples and dispersing the samples, and a detector for receiving the dispersed signal and for providing electrical signals representative of the dispersed sample. A preferred embodiment includes a processor for receiving the electrical signal and calculating the characteristics of the spectrum.
    • 具有光学滤波器,色散元件和检测器的光域信号分析器被用于在宽的光学带宽上提供高分辨率的光谱分析。 光域信号分析仪广泛地包括用于提供接收到的光信号的波长样本的光学滤波器,用于接收样本和分散样本的分散元件,以及用于接收分散信号并提供代表分散样品的电信号的检测器 。 优选实施例包括用于接收电信号并计算频谱的特性的处理器。
    • 8. 发明授权
    • Method and apparatus for high resolution monitoring of optical signals
    • 用于光信号高分辨率监测的方法和装置
    • US06687009B2
    • 2004-02-03
    • US10266574
    • 2002-10-09
    • Rongqing HuiMaurice S. O'Sullivan
    • Rongqing HuiMaurice S. O'Sullivan
    • G01B902
    • H04J14/02G01J9/02G01J2009/023G01J2009/0253H04B10/0795H04J14/0227H04J14/0276
    • The present invention provides a method and apparatus for monitoring optical signals with an expanded frequency resolution. The invention permits high-resolution measurements of optical signal spectrums while retaining wide bandwidth operation through appropriate control circuitry. An interferometer having a periodic frequency response formed of equally spaced narrow-band peaks is used to sweep the entire signal spectrum. The interferometer frequency response is incrementally tuned in cycles so that each of its frequency response peaks cyclically scans a particular spectral band of the signal spectrum. During each cycle, the interferometer isolates multiple spectrally resolved portions of the optical signal spectrum where each portion originates from a different spectral band. In this way, a high-resolution measurement of the entire signal spectrum can be obtained. The invention may be network protocol independent and can be incorporated into an optical spectrum analyzer or directly into any optical terminal. The invention can be used for signal spectrum monitoring applications including link quality monitoring (LQM) in optical communications networks to monitor various transmission parameters such as such as carrier wavelengths, optical signal-to-noise ratios (SNR), amplified spontaneous emissions (ASE), noise levels, optical non-linearities or other signal baseband information such as data rates and formats.
    • 本发明提供一种用于以扩大的频率分辨率监测光信号的方法和装置。 本发明允许光信号频谱的高分辨率测量,同时通过适当的控制电路保持宽带宽操作。 使用具有由等间隔的窄带峰值形成的周期性频率响应的干涉仪来扫描整个信号频谱。 干涉仪频率响应以周期递增调谐,使得其每个频率响应峰值对信号频谱的特定谱带进行循环扫描。 在每个周期期间,干涉仪隔离光信号频谱的多个光谱解析部分,其中每个部分来自不同的光谱带。 以这种方式,可以获得整个信号频谱的高分辨率测量。 本发明可以是与网络协议无关的,并且可以并入到光谱分析仪中或直接并入任何光学终端。 本发明可用于信号频谱监测应用,包括光通信网络中的链路质量监测(LQM),以监测各种传输参数,例如载波波长,光信噪比(SNR),放大自发辐射(ASE) ,噪声电平,光学非线性或其他信号基带信息,如数据速率和格式。