Add to ORKGAbstract: The Doppler Dilemma or range-velocity folding of echoes from uniformly spaced transmit pulse trains of weather radar poses a fundamental limit on radar data quality: there is a limited unambiguous range for echos and there is a maximum unambiguous velocity. The radar pulse repetition time may be adjusted to increase either the unambiguous range or the maximum unambiguous velocity but the other necessarily will decrease. Phase coding of the transmit pulses is one technique that can mitigate the Doppler Dilemma. Experimental results using S-Pol, NCAR’s research S-Band radar, illustrate the technique
Multiple pulse-repetition interval (multi-PRI) transmission is part of an adaptive signal transmissi...
Abstract. Both ionospheric and weather radar communities have already adopted the method of transmit...
Range resolution of a conventional pulsed Doppler radar is determined by the scattering volume defin...
It is well known that for Doppler radars transmitting uniformly spaced pulses there is a coupling be...
Abstract — Several mechanisms are currently provided to alleviate effects of range overlaid echoes a...
It is well known that for Doppler radars transmitting uniformly spaced pulses there is a coupling be...
It is well known that for Doppler radars transmitting uniformly spaced pulses there is a coupling be...
Weather radars that use equi-spaced transmit pulse trains to illuminate the atmosphere have limited ...
The data quality of weather radars such as the NEXRAD WSR-88D is limited by range and velocity foldi...
Range-velocity ambiguity is a long standing problem of pulsed radar systems and is major issue in we...
A comparison is made of the performance of a weather Doppler radar with a staggered pulse repetitio...
In order to evaluate pulse compression for use in phased array weather radar systems, modifications ...
Multiple pulse repetition interval (multi-PRI) transmission is part of an adaptive signal transmissi...
Moving targets are a real threat to pulse compression radars, especially those operating with Dopple...
The performance of an mesosphere-stratosphere-troposphere (MST) radar can be characterized by its sy...
Multiple pulse-repetition interval (multi-PRI) transmission is part of an adaptive signal transmissi...
Abstract. Both ionospheric and weather radar communities have already adopted the method of transmit...
Range resolution of a conventional pulsed Doppler radar is determined by the scattering volume defin...
It is well known that for Doppler radars transmitting uniformly spaced pulses there is a coupling be...
Abstract — Several mechanisms are currently provided to alleviate effects of range overlaid echoes a...
It is well known that for Doppler radars transmitting uniformly spaced pulses there is a coupling be...
It is well known that for Doppler radars transmitting uniformly spaced pulses there is a coupling be...
Weather radars that use equi-spaced transmit pulse trains to illuminate the atmosphere have limited ...
The data quality of weather radars such as the NEXRAD WSR-88D is limited by range and velocity foldi...
Range-velocity ambiguity is a long standing problem of pulsed radar systems and is major issue in we...
A comparison is made of the performance of a weather Doppler radar with a staggered pulse repetitio...
In order to evaluate pulse compression for use in phased array weather radar systems, modifications ...
Multiple pulse repetition interval (multi-PRI) transmission is part of an adaptive signal transmissi...
Moving targets are a real threat to pulse compression radars, especially those operating with Dopple...
The performance of an mesosphere-stratosphere-troposphere (MST) radar can be characterized by its sy...
Multiple pulse-repetition interval (multi-PRI) transmission is part of an adaptive signal transmissi...
Abstract. Both ionospheric and weather radar communities have already adopted the method of transmit...
Range resolution of a conventional pulsed Doppler radar is determined by the scattering volume defin...