会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 1. 发明授权
    • Wide field four mirror telescope using off-axis aspherical mirrors
    • 宽场四镜望远镜采用离轴非球面镜
    • US08011793B2
    • 2011-09-06
    • US11792970
    • 2004-12-15
    • Wolfgang HolotaBernd HarnischVolker Kirschner
    • Wolfgang HolotaBernd HarnischVolker Kirschner
    • G02B23/06
    • G02B17/0657G02B23/06
    • A telescope has an entrance pupil region; a first concave mirror (M1) belonging to a first rotationally symmetric aspheric surface and reflecting light passing through the entrance pupil region; a second convex mirror (M2) belonging to a second rotationally symmetric aspheric surface and reflecting light reflected by the first mirror; a third convex mirror (M3) belonging to a third rotationally symmetric aspheric surface and reflecting light reflected by the second mirror; a fourth concave mirror belonging to a fourth rotationally symmetric aspheric surface and reflecting light reflected by the second mirror to an exit pupil. The first, second, third and fourth rotationally symmetric aspheric surfaces are centered on the symmetry axis of the third mirror. The first, second and fourth mirrors are centered along the first direction perpendicular to the optical axis and off-centered in a second direction perpendicular to the symmetry axis and to the first direction.
    • 望远镜有入口瞳孔区域; 属于第一旋转对称非球面的第一凹面镜(M1)并且反射穿过入射光瞳区域的光; 属于第二旋转对称非球面的第二凸面镜(M2),并反射由第一反射镜反射的光; 属于第三旋转对称非球面的第三凸面镜(M3),反射由第二反射镜反射的光; 属于第四旋转对称非球面的第四凹面镜,并将由第二反射镜反射的光反射到出射光瞳。 第一,第二,第三和第四旋转对称非球面以第三反射镜的对称轴为中心。 第一,第二和第四反射镜沿着垂直于光轴的第一方向居中,并且在垂直于对称轴线和第一方向的第二方向上偏心。
    • 2. 发明申请
    • Real time synthetic aperture radar processing system and method
    • 实时合成孔径雷达处理系统及方法
    • US20080084551A1
    • 2008-04-10
    • US11795099
    • 2005-01-10
    • Bernd Harnisch
    • Bernd Harnisch
    • G01C3/08G06K9/00
    • G01S13/9005
    • This invention relates to a real time SAR processing system for processing synthetic aperture radar (SAR) return signals and a method for real time processing of SAR return signals. The real time SAR processing system for processing synthetic aperture radar return signals comprises a. light source (1) for generating a coherent, plane electromagnetic wave; light modulation means (2) for modulating the incident wave according to the radar return signals and outputting a modulated wave; and optical processing means (3) for submitting the modulated wave to an optical signal processing for radar image reconstruction. The light modulation means (2) comprises a plurality of addressable pixels (30) which are controlled based on the radar return signals. Light detection means (4) for detecting the processed wave and generating a corresponding electrical radar image signal are provided.
    • 本发明涉及一种用于处理合成孔径雷达(SAR)返回信号的实时SAR处理系统和一种实时处理SAR返回信号的方法。 用于处理合成孔径雷达返回信号的实时SAR处理系统包括a。 用于产生相干平面电磁波的光源(1); 光调制装置(2),用于根据雷达返回信号调制入射波并输出调制波; 以及用于将调制波提交到用于雷达图像重建的光信号处理的光学处理装置(3)。 光调制装置(2)包括基于雷达返回信号来控制的多个可寻址像素(30)。 提供了用于检测经处理的波并产生相应的电雷达图像信号的光检测装置(4)。
    • 3. 发明授权
    • Miniature optical spectrometer
    • 微型光谱仪
    • US07019833B2
    • 2006-03-28
    • US10892832
    • 2004-07-15
    • Bernd Harnisch
    • Bernd Harnisch
    • G01J3/28
    • G01J3/12G01J3/1809G01J2003/1204G01J2003/1828
    • A high resolution spectrometer with a large free spectral range comprising an entrance slit for a beam of electromagnetic radiation to be analyzed, a first dispersion device for dispersing the beam to be analyzed into various wavelength components in a first direction, a second dispersion device for dispersing each wavelength component output from the first dispersion device in a second direction, and an imaging device comprising a sensitive detection spectrum surface on which the beam dispersed in the first and second directions is focused, the first dispersion device being an optical filter that varies linearly and has a surface on which the beam to be analyzed is focused, each point on the surface of the filter operating like a pass band filter with a central frequency varying linearly in the first direction.
    • 一种具有大的自由光谱范围的高分辨率光谱仪,包括用于待分析的电磁辐射束的入口狭缝,用于将待分析的光束在第一方向上分散成各种波长分量的第一分散装置,用于分散的第二分散装置 每个波长分量从第一分散装置沿第二方向输出;以及成像装置,其包括在第一和第二方向上分散有光束的敏感检测光谱表面,第一色散装置是线性变化的滤光器, 具有待分析的光束聚焦在其上的表面,滤光器表面上的每个点像在中心频率沿第一方向呈线性变化的通带滤光器操作。
    • 4. 发明授权
    • Real time synthetic aperture radar processing system and method
    • 实时合成孔径雷达处理系统及方法
    • US07940376B2
    • 2011-05-10
    • US11795099
    • 2005-01-10
    • Bernd HarnischPascal BourquiAlain Bergeron
    • Bernd HarnischPascal BourquiAlain Bergeron
    • G01C3/08
    • G01S13/9005
    • A real time SAR processing system for processing synthetic aperture radar (SAR) return signals and a method for real time processing of SAR return signals. The real time SAR processing system for processing synthetic aperture radar return signals comprises a light source (1) for generating a coherent, plane electromagnetic wave; light modulation means (2) for modulating the incident wave according to the radar return signals and outputting a modulated wave; and optical processing means (3) for submitting the modulated wave to an optical signal processing for radar image reconstruction. The light modulation means (2) comprises a plurality of addressable pixels (30) which are controlled based on the radar return signals. Light detection means (4) for detecting the processed wave and generating a corresponding electrical radar image signal are provided.
    • 一种用于处理合成孔径雷达(SAR)返回信号的实时SAR处理系统和一种实时处理SAR返回信号的方法。 用于处理合成孔径雷达返回信号的实时SAR处理系统包括用于产生相干平面电磁波的光源(1) 光调制装置(2),用于根据雷达返回信号调制入射波并输出调制波; 以及用于将调制波提交到用于雷达图像重建的光信号处理的光学处理装置(3)。 光调制装置(2)包括基于雷达返回信号来控制的多个可寻址像素(30)。 提供了用于检测经处理的波并产生相应的电雷达图像信号的光检测装置(4)。
    • 5. 发明申请
    • Wide field four mirror telescope using off-axis aspherical mirrors
    • 宽场四镜望远镜采用离轴非球面镜
    • US20090009897A1
    • 2009-01-08
    • US11792970
    • 2004-12-15
    • Wolfgang HolotaBernd HarnischKirschner Volker
    • Wolfgang HolotaBernd HarnischKirschner Volker
    • G02B23/02
    • G02B17/0657G02B23/06
    • A telescope has an entrance pupil region; a first concave mirror (M1) belonging to a first rotationally symmetric aspheric surface and reflecting light passing through the entrance pupil region; a second convex mirror (M2) belonging to a second rotationally symmetric aspheric surface and reflecting light reflected by the first mirror; a third convex mirror (M3) belonging to a third rotationally symmetric aspheric surface and reflecting light reflected by the second mirror; a fourth concave mirror belonging to a fourth rotationally symmetric aspheric surface and reflecting light reflected by the second mirror to an exit pupil. The first, second, third and fourth rotationally symmetric aspheric surfaces are centered on the symmetry axis of the third mirror. The first, second and fourth mirrors are centered along the first direction perpendicular to the optical axis and off-centered in a second direction perpendicular to the symmetry axis and to the first direction.
    • 望远镜有入口瞳孔区域; 属于第一旋转对称非球面的第一凹面镜(M1)并且反射穿过入射光瞳区域的光; 属于第二旋转对称非球面的第二凸面镜(M2),并反射由第一反射镜反射的光; 属于第三旋转对称非球面的第三凸面镜(M3),反射由第二反射镜反射的光; 属于第四旋转对称非球面的第四凹面镜,并将由第二反射镜反射的光反射到出射光瞳。 第一,第二,第三和第四旋转对称非球面以第三反射镜的对称轴为中心。 第一,第二和第四反射镜沿着垂直于光轴的第一方向居中,并且在垂直于对称轴和第一方向的第二方向上偏心。
    • 6. 发明申请
    • Miniature optical spectrometer
    • 微型光谱仪
    • US20050046839A1
    • 2005-03-03
    • US10892832
    • 2004-07-15
    • Bernd Harnisch
    • Bernd Harnisch
    • G01J3/12G01J3/18G01J3/28
    • G01J3/12G01J3/1809G01J2003/1204G01J2003/1828
    • A high resolution spectrometer with a large free spectral range comprising an entry slit for a beam of electromagnetic radiation to be analyzed, a first dispersion device for dispersing the beam to be analyzed into various wavelength components in a first direction, a second dispersion device for dispersing each wavelength component output from the first dispersion device in a second direction, and an imaging device comprising a sensitive detection spectrum. surface on which the beam dispersed in the first and second directions is focused, the first dispersion device being an optical filter that varies linearly and has a surface on which the beam to be analyzed is focused, each point on the surface of the filter operating like a pass band filter with a central frequency varying linearly in the first direction.
    • 一种具有大的自由光谱范围的高分辨率光谱仪,包括用于要分析的电磁辐射束的入口狭缝,用于将待分析的光束沿第一方向分散成各种波长分量的第一色散装置,用于分散的第二色散装置 在第一方向上从第一色散装置输出的每个波长分量,以及包括敏感检测光谱的成像装置。 分散在第一和第二方向上的光束的表面被聚焦,第一色散装置是线性变化并且具有待分析光束聚焦的表面的滤光器,滤光器表面上的每个点都像样 具有在第一方向上线性变化的中心频率的通带滤波器。