Add to ORKGABSTRACT: This paper describes a Ka band satellite radar receiver system for measuring both the sky noise and the attenuation caused by rain and water vapor to satellite signals, at the same frequency and look angle. To enable the receiver to stay locked to satellite beacon signals with received power levels between-110 dBm and-170 dBm, a receiver with an ultra low phase noise, an absence of spurious signals and using advanced digital signal processing (DSP) techniques is required. To obtain rain fade statistics, the received signal power of a satellite beacon is recorded continuously at an eight times per second rate
This paper presents the design and simulation of a typical Ka band satellite beacon receiver for pro...
Abstract- Quantitative analysis and prediction of radio signal attenuation is necessary in order to ...
Future satellite communication (SatCom) systems operating at high frequencies (Ka-band and above) ar...
This paper describes a Ka band Satellite Beacon Receiver 1 Radiometer for measuring both the sky noi...
This paper describes the design of a Digital Signal Processing (DSP) based JCU-STRAP (James Cook Un...
This paper describes the Digital Signal Processing (DSP) techniques required to ensure that a Ka ban...
This paper describes the design of a DSP based JCUSTRAP Ka band Satellite Beacon receiver/radiomete...
This paper describes the design of a Digital Signal Processing (DSP) based James Cook University – S...
The demand for space services frequencies in the Asia region has increased rapidly and higher freque...
Satellite communication has being very important in telecommunication and broadcasting services. For...
The scope of the project is to study the Ku-‐band receiver system and the correlation between rainf...
Satellite beacon is a signal which does not modulated and sent to ground in constant frequency with ...
Ku-Band signal is often used for satellite communication mainly for direct to home (DTH) broadcastin...
This paper describes how DSP techniques can be used to improve the dynamic range of a satellite rece...
The frequency bands being used for new satellite communication systems are constantly increasing to ...
This paper presents the design and simulation of a typical Ka band satellite beacon receiver for pro...
Abstract- Quantitative analysis and prediction of radio signal attenuation is necessary in order to ...
Future satellite communication (SatCom) systems operating at high frequencies (Ka-band and above) ar...
This paper describes a Ka band Satellite Beacon Receiver 1 Radiometer for measuring both the sky noi...
This paper describes the design of a Digital Signal Processing (DSP) based JCU-STRAP (James Cook Un...
This paper describes the Digital Signal Processing (DSP) techniques required to ensure that a Ka ban...
This paper describes the design of a DSP based JCUSTRAP Ka band Satellite Beacon receiver/radiomete...
This paper describes the design of a Digital Signal Processing (DSP) based James Cook University – S...
The demand for space services frequencies in the Asia region has increased rapidly and higher freque...
Satellite communication has being very important in telecommunication and broadcasting services. For...
The scope of the project is to study the Ku-‐band receiver system and the correlation between rainf...
Satellite beacon is a signal which does not modulated and sent to ground in constant frequency with ...
Ku-Band signal is often used for satellite communication mainly for direct to home (DTH) broadcastin...
This paper describes how DSP techniques can be used to improve the dynamic range of a satellite rece...
The frequency bands being used for new satellite communication systems are constantly increasing to ...
This paper presents the design and simulation of a typical Ka band satellite beacon receiver for pro...
Abstract- Quantitative analysis and prediction of radio signal attenuation is necessary in order to ...
Future satellite communication (SatCom) systems operating at high frequencies (Ka-band and above) ar...