Add to ORKGThis paper describes the design of a Digital Signal Processing (DSP) based James Cook University – Satellite\ud Transmission Rain Attenuation Project (JCU-STRAP) Ka band Satellite Beacon receiver/radiometer for measuring both\ud the sky noise and the attenuation caused by rain and water vapour to satellite signals, at the same frequency and look\ud angle. To obtain rain fade statistics, the received signal amplitude of a satellite beacon is recorded continuously at an eight times per second rate. To maximise the dynamic range over which the receiver can stay locked onto the satellite beacon, a receiver with an ultra low phase noise and absence of spurious signals is required
The demand for space services frequencies in the Asia region has increased rapidly and higher freque...
The demand for space services frequencies in the Asia region has increased rapidly and higher freque...
This paper describes how DSP techniques can be used to improve the dynamic range of a satellite rece...
This paper describes the design of a Digital Signal Processing (DSP) based James Cook University – S...
This paper describes the design of a Digital Signal Processing (DSP) based JCU-STRAP (James Cook Un...
This paper describes the design of a Digital Signal Processing (DSP) based JCU-STRAP (James Cook Un...
This paper describes the design of a Digital Signal Processing (DSP) based JCU-STRAP (James Cook Un...
This paper describes the design of a DSP based JCUSTRAP Ka band Satellite Beacon receiver/radiomete...
This paper describes the design of a DSP based JCUSTRAP Ka band Satellite Beacon receiver/radiomete...
This paper describes a Ka band Satellite Beacon Receiver 1 Radiometer for measuring both the sky noi...
This paper describes a Ka band Satellite Beacon Receiver 1 Radiometer for measuring both the sky noi...
This paper describes a Ka band Satellite Beacon Receiver 1 Radiometer for measuring both the sky noi...
This paper describes the Digital Signal Processing (DSP) techniques required to ensure that a Ka ban...
This paper describes the Digital Signal Processing (DSP) techniques required to ensure that a Ka ban...
ABSTRACT: This paper describes a Ka band satellite radar receiver system for measuring both the sky ...
The demand for space services frequencies in the Asia region has increased rapidly and higher freque...
The demand for space services frequencies in the Asia region has increased rapidly and higher freque...
This paper describes how DSP techniques can be used to improve the dynamic range of a satellite rece...
This paper describes the design of a Digital Signal Processing (DSP) based James Cook University – S...
This paper describes the design of a Digital Signal Processing (DSP) based JCU-STRAP (James Cook Un...
This paper describes the design of a Digital Signal Processing (DSP) based JCU-STRAP (James Cook Un...
This paper describes the design of a Digital Signal Processing (DSP) based JCU-STRAP (James Cook Un...
This paper describes the design of a DSP based JCUSTRAP Ka band Satellite Beacon receiver/radiomete...
This paper describes the design of a DSP based JCUSTRAP Ka band Satellite Beacon receiver/radiomete...
This paper describes a Ka band Satellite Beacon Receiver 1 Radiometer for measuring both the sky noi...
This paper describes a Ka band Satellite Beacon Receiver 1 Radiometer for measuring both the sky noi...
This paper describes a Ka band Satellite Beacon Receiver 1 Radiometer for measuring both the sky noi...
This paper describes the Digital Signal Processing (DSP) techniques required to ensure that a Ka ban...
This paper describes the Digital Signal Processing (DSP) techniques required to ensure that a Ka ban...
ABSTRACT: This paper describes a Ka band satellite radar receiver system for measuring both the sky ...
The demand for space services frequencies in the Asia region has increased rapidly and higher freque...
The demand for space services frequencies in the Asia region has increased rapidly and higher freque...
This paper describes how DSP techniques can be used to improve the dynamic range of a satellite rece...