Add to ORKGThis paper describes the design and development of a digital satellite beacon receiver for propagation experimentation. Satellite beacons are frequently available for pointing large antennas, but such signals can be used for measuring rain attenuation and other phenomena as, for example, tropospheric scintillation. A fairly inexpensive beacon receiver has been built using off-the-shelf parts. This instrument is not at all bulky making it suitable for easy transportation. This article analyzes the receiver specifications, describes in detail its structure and presents some operational test results
This paper describes the design of a Digital Signal Processing (DSP) based James Cook University – S...
This paper describes how DSP techniques can be used to improve the dynamic range of a satellite rece...
This paper describes how DSP techniques can be used to improve the dynamic range of a satellite rece...
This paper presents the design and simulation of a typical Ka band satellite beacon receiver for pro...
Due to increase in ship traffic and activities related to oil and gas there is currently grate inter...
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...
Satellite tropospheric propagation studies strongly rely on beacon receiver measurements. We were in...
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 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 Digital Signal Processing (DSP) based James Cook University – S...
This paper describes the design of a Digital Signal Processing (DSP) based James Cook University – S...
This paper describes how DSP techniques can be used to improve the dynamic range of a satellite rece...
This paper describes how DSP techniques can be used to improve the dynamic range of a satellite rece...
This paper presents the design and simulation of a typical Ka band satellite beacon receiver for pro...
Due to increase in ship traffic and activities related to oil and gas there is currently grate inter...
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...
Satellite tropospheric propagation studies strongly rely on beacon receiver measurements. We were in...
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 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 Digital Signal Processing (DSP) based James Cook University – S...
This paper describes the design of a Digital Signal Processing (DSP) based James Cook University – S...
This paper describes how DSP techniques can be used to improve the dynamic range of a satellite rece...
This paper describes how DSP techniques can be used to improve the dynamic range of a satellite rece...