A lidar system employing a train of oppositely chirped pulses is demonstrated to perform simultaneous Doppler velocimetry and submillimeter resolution ranging of a target moving at \u3e330 km/h with \u3c25 dB SNR at the receiver. © 2011 IEEE
AbstractIn several applications, such as collision avoidance, it is necessary to have a system able ...
Spectrally resolved interferometry combining up-chirped and down-chirped pulses allows for millimete...
Lidar systems are important for performing many different tasks such as remote sensing, altimetry an...
A lidar system employing a train of oppositely chirped pulses is demonstrated to perform simultaneou...
A lidar based on the coherent detection of oppositely chirped optical pulses is used to perform rang...
A lidar system based on the coherent detection of oppositely chirped pulses generated using a 20 MHz...
A lidar system with a resolution of 400um and a range of 10 km in fiber is demonstrated using tempor...
A temporally stretched, frequency chirped pulsed lidar system employing a phase modulation heterodyn...
Light detection and ranging (lidar) is used for various applications such as remote sensing, altimet...
A lidar technique employing temporally stretched, frequency chirped pulses from a 20 MHz mode locked...
A sub-millimeter resolution ladar is demonstrated with 9.3km delay using stretched pulses allowing a...
A coherent three-dimensional (angle-angle-range) lidar imager using a master-oscillator-power-amplif...
A chirped fiber Bragg grating with a dispersion of 1651ps/nm is used to generate temporally stretche...
In several applications, such as collision avoidance, it is necessary to have a system able to rapid...
A new architecture for an integrated fully coherent radar-lidar system based on a single mode-locked...
AbstractIn several applications, such as collision avoidance, it is necessary to have a system able ...
Spectrally resolved interferometry combining up-chirped and down-chirped pulses allows for millimete...
Lidar systems are important for performing many different tasks such as remote sensing, altimetry an...
A lidar system employing a train of oppositely chirped pulses is demonstrated to perform simultaneou...
A lidar based on the coherent detection of oppositely chirped optical pulses is used to perform rang...
A lidar system based on the coherent detection of oppositely chirped pulses generated using a 20 MHz...
A lidar system with a resolution of 400um and a range of 10 km in fiber is demonstrated using tempor...
A temporally stretched, frequency chirped pulsed lidar system employing a phase modulation heterodyn...
Light detection and ranging (lidar) is used for various applications such as remote sensing, altimet...
A lidar technique employing temporally stretched, frequency chirped pulses from a 20 MHz mode locked...
A sub-millimeter resolution ladar is demonstrated with 9.3km delay using stretched pulses allowing a...
A coherent three-dimensional (angle-angle-range) lidar imager using a master-oscillator-power-amplif...
A chirped fiber Bragg grating with a dispersion of 1651ps/nm is used to generate temporally stretche...
In several applications, such as collision avoidance, it is necessary to have a system able to rapid...
A new architecture for an integrated fully coherent radar-lidar system based on a single mode-locked...
AbstractIn several applications, such as collision avoidance, it is necessary to have a system able ...
Spectrally resolved interferometry combining up-chirped and down-chirped pulses allows for millimete...
Lidar systems are important for performing many different tasks such as remote sensing, altimetry an...
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