Add to ORKGA mono static pulse radar is a type of radar in which its transmitter and receiver are collocated. It uses the same antenna to transmit and receive echo signals. This paper focusses on the design of monostatic pulse radar using Ultra Wide band. In this design, we use the transmitter which sends a pulse that hits the target and the receiver receives the echo signal where it can estimate the target\u27s range. A monostatic radar can track a target from 3 to 5 km without any false alarm. The challenge in this paper is to increase the detection range from 4 km to 8 km and enhance the probability of detection using 10 GHz frequency band. It operates in the range of Ultra-Wide Band (UWB) Spectrum of 10 GHz frequency. Also, it is required to minim...
© 2015 IEEE. Future radar systems are expected to use waveforms of a high bandwidth, with an advanta...
A wideband antenna system is used to demonstrate a frequency modulated continuous wave(FMCW) RADAR i...
\ua9 2015 IEEE. Future radar systems are expected to use waveforms of a high bandwidth, with an adva...
In this paper, a high power UWB monocycle generator for Non-Destructive Microwave Radar-Sensor detec...
In this paper, a high power UWB monocycle generator for Non-Destructive Microwave Radar-Sensor detec...
[EN] t. In this paper, a high power UWB monocycle generator for Non-Destructive Microwave Radar-Sens...
Ultra-wideband (UWB) signals and systems have been actively investigated over the past decade for bo...
In This paper, a high power sub-nanosecond pulse transmitter for Ultra-wideband radar sensor is pres...
[EN] In This paper, a high power sub-nanosecond pulse transmitter for Ultra-wideband radar sensor is...
UWB systems show significant promise for use in communications, localization and radar. As part of a...
Traditional monopulse angle estimations are mainly based on phase comparison and amplitude compariso...
Traditional monopulse angle estimations are mainly based on phase comparison and amplitude compariso...
[EN] This paper reports on the development of a compact, low-cost, impulse bi-static UWB radar senso...
[EN] This paper reports on the development of a compact, low-cost, impulse bi-static UWB radar senso...
Ultra-wideband (UWB) signals and systems have been actively investigated over the past decade for bo...
© 2015 IEEE. Future radar systems are expected to use waveforms of a high bandwidth, with an advanta...
A wideband antenna system is used to demonstrate a frequency modulated continuous wave(FMCW) RADAR i...
\ua9 2015 IEEE. Future radar systems are expected to use waveforms of a high bandwidth, with an adva...
In this paper, a high power UWB monocycle generator for Non-Destructive Microwave Radar-Sensor detec...
In this paper, a high power UWB monocycle generator for Non-Destructive Microwave Radar-Sensor detec...
[EN] t. In this paper, a high power UWB monocycle generator for Non-Destructive Microwave Radar-Sens...
Ultra-wideband (UWB) signals and systems have been actively investigated over the past decade for bo...
In This paper, a high power sub-nanosecond pulse transmitter for Ultra-wideband radar sensor is pres...
[EN] In This paper, a high power sub-nanosecond pulse transmitter for Ultra-wideband radar sensor is...
UWB systems show significant promise for use in communications, localization and radar. As part of a...
Traditional monopulse angle estimations are mainly based on phase comparison and amplitude compariso...
Traditional monopulse angle estimations are mainly based on phase comparison and amplitude compariso...
[EN] This paper reports on the development of a compact, low-cost, impulse bi-static UWB radar senso...
[EN] This paper reports on the development of a compact, low-cost, impulse bi-static UWB radar senso...
Ultra-wideband (UWB) signals and systems have been actively investigated over the past decade for bo...
© 2015 IEEE. Future radar systems are expected to use waveforms of a high bandwidth, with an advanta...
A wideband antenna system is used to demonstrate a frequency modulated continuous wave(FMCW) RADAR i...
\ua9 2015 IEEE. Future radar systems are expected to use waveforms of a high bandwidth, with an adva...