Transformation of the modern radio signal in modeling the sensor transmission between concentric antennas for frequency integration
Session
Computer Science and Communication Engineering
Description
The radiation model of a sensor antenna concentrated in the direction of the large Spider 5.0 radio telescope, with a radiant representation of the waves affected by the location of the earth -related antennas. Modeling the angle of boot on the horizontal and vertical plane is a
depressive character of simulative communications between sensory antennas in the radiofre- quencies system classified as effective wave propagation signals. The research has peacefully
algorithm the communications of functions produced by generating simulative frequency be- tween structured antennas distances. of presenting elements with a wide spectrum characteristic
that allows a large surface telescope to operate. The form of the telescope function by technology represents the modern Radio Telescope which offers the reliability of the high-level 1420MHz
frequency for radio Visitors emissions that come at distances through the Radio Universe Soft- ware that record and control signal registration. The telescope works with full capacity with op- timal power even in bad conditions atmospheric preserving the importance of transmission of
communication lines. The antenna is in perfect pre -prior form and frequency waves are simu- lated with wavelengths in the Mat lab program. Magnetic wave generating frequencies depend
on different wavelengths of about 0.05 inches or 1024 channels each with 61 kHz. The effective- ness of the rules used is focused on finding points in the spatial frequency domain which mini- mizes the noise effects. 150-250 Words.
Keywords:
Sensory antenna, radio waves, telescope, spatial frequency, 3D Eon-XR.
Proceedings Editor
Edmond Hajrizi
ISBN
978-9951-550-50-5
Location
UBT Kampus, Lipjan
Start Date
29-10-2022 12:00 AM
End Date
30-10-2022 12:00 AM
DOI
10.33107/ubt-ic.2022.276
Recommended Citation
Sofiu, Vehebi; Kabashi, Faton; Ahma, Greta; and Shkurti, Lamir, "Transformation of the modern radio signal in modeling the sensor transmission between concentric antennas for frequency integration" (2022). UBT International Conference. 285.
https://knowledgecenter.ubt-uni.net/conference/2022/all-events/285
Transformation of the modern radio signal in modeling the sensor transmission between concentric antennas for frequency integration
UBT Kampus, Lipjan
The radiation model of a sensor antenna concentrated in the direction of the large Spider 5.0 radio telescope, with a radiant representation of the waves affected by the location of the earth -related antennas. Modeling the angle of boot on the horizontal and vertical plane is a
depressive character of simulative communications between sensory antennas in the radiofre- quencies system classified as effective wave propagation signals. The research has peacefully
algorithm the communications of functions produced by generating simulative frequency be- tween structured antennas distances. of presenting elements with a wide spectrum characteristic
that allows a large surface telescope to operate. The form of the telescope function by technology represents the modern Radio Telescope which offers the reliability of the high-level 1420MHz
frequency for radio Visitors emissions that come at distances through the Radio Universe Soft- ware that record and control signal registration. The telescope works with full capacity with op- timal power even in bad conditions atmospheric preserving the importance of transmission of
communication lines. The antenna is in perfect pre -prior form and frequency waves are simu- lated with wavelengths in the Mat lab program. Magnetic wave generating frequencies depend
on different wavelengths of about 0.05 inches or 1024 channels each with 61 kHz. The effective- ness of the rules used is focused on finding points in the spatial frequency domain which mini- mizes the noise effects. 150-250 Words.
