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    • 2. 发明申请
    • ATMOSPHERIC MEASUREMENT SYSTEM AND METHOD
    • 大气测量系统和方法
    • US20130314694A1
    • 2013-11-28
    • US13983511
    • 2011-02-02
    • Peter Tchoryk, JR.David Michael ZukDavid Keith JohnsonCharles J. RicheyParviz Tayebati
    • Peter Tchoryk, JR.David Michael ZukDavid Keith JohnsonCharles J. RicheyParviz Tayebati
    • G01S17/95G01S17/58
    • G01S17/95G01N21/45G01N21/538G01S17/003G01S17/58Y02A90/19
    • One of first and second beams (28) of corresponding first and second light (13) are projected into an atmosphere (20) and at least one physical property of the atmosphere (20) is detected from the interference pattern (47) generated from the resulting scattered light (30). The first and second beams (20) are selected responsive to either a detected signal-to-noise ratio (SNR) or a detected aerosol-to-molecular ratio (AMR). The wavelength (740) of the first light (13) provides for either molecular or aerosol scattering, whereas the wavelength (738) of the second light (13) provides for primarily only aerosol scattering. In accordance with a second aspect, scattered light (30) from one or more beams (28) of substantially monochromatic light (13) projected into the atmosphere (20) and received from a plurality of interaction regions (17) or measurement volumes (52) provides for determining wind power (P*) within a region of the atmosphere (20).
    • 对应的第一和第二光(13)的第一和第二光束(28)中的一个被投射到大气(20)中,并且从由所述大气(20)产生的干涉图案(47)检测大气(20)的至少一个物理特性 造成散射光(30)。 响应于检测到的信噪比(SNR)或检测到的气溶胶 - 分子比(AMR)来选择第一和第二波束(20)。 第一光(13)的波长(740)提供分子或气溶胶散射,而第二光(13)的波长(738)主要仅提供气溶胶散射。 根据第二方面,从投影到大气(20)中并从多个相互作用区域(17)或测量体积(52)中接收的基本单色光(13)的一个或多个光束(28)的散射光(30) )用于确定大气区域(20)内的风力(P *)。
    • 7. 发明授权
    • Atmospheric measurement system and method
    • 大气测量系统及方法
    • US09086488B2
    • 2015-07-21
    • US13983511
    • 2011-02-02
    • Peter Tchoryk, Jr.David Michael ZukDavid Keith JohnsonCharles J. RicheyParviz Tayebati
    • Peter Tchoryk, Jr.David Michael ZukDavid Keith JohnsonCharles J. RicheyParviz Tayebati
    • G01S17/95G01S17/58G01N21/45G01N21/53G01S17/00
    • G01S17/95G01N21/45G01N21/538G01S17/003G01S17/58Y02A90/19
    • One of first and second beams (28) of corresponding first and second light (13) are projected into an atmosphere (20) and at least one physical property of the atmosphere (20) is detected from the interference pattern (47) generated from the resulting scattered light (30). The first and second beams (20) are selected responsive to either a detected signal-to-noise ratio (SNR) or a detected aerosol-to-molecular ratio (AMR). The wavelength (740) of the first light (13) provides for either molecular or aerosol scattering, whereas the wavelength (738) of the second light (13) provides for primarily only aerosol scattering. In accordance with a second aspect, scattered light (30) from one or more beams (28) of substantially monochromatic light (13) projected into the atmosphere (20) and received from a plurality of interaction regions (17) or measurement volumes (52) provides for determining wind power (P*) within a region of the atmosphere (20).
    • 对应的第一和第二光(13)的第一和第二光束(28)中的一个被投射到大气(20)中,并且从由所述大气(20)产生的干涉图案(47)检测大气(20)的至少一个物理特性 造成散射光(30)。 响应于检测到的信噪比(SNR)或检测到的气溶胶 - 分子比(AMR)来选择第一和第二波束(20)。 第一光(13)的波长(740)提供分子或气溶胶散射,而第二光(13)的波长(738)主要仅提供气溶胶散射。 根据第二方面,从投影到大气(20)中并从多个相互作用区域(17)或测量体积(52)中接收的基本单色光(13)的一个或多个光束(28)的散射光(30) )用于确定大气区域(20)内的风力(P *)。