Spelling suggestions: "subject:"radio telescope"" "subject:"sadio telescope""
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A study of antenna design concepts for future large radio telescopes /Daniel-Tran, Philo Vinita. January 2001 (has links)
Thesis (Ph.D. - Electrical Engineering) -- University of Western Sydney, 2001. / "Submitted for the degree of Doctor of Philosophy - Electrical Engineering" Bibliography : leaves 205-222.
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Advanced radio interferometric simulation and data reduction techniquesMakhathini, Sphesihle January 2018 (has links)
This work shows how legacy and novel radio Interferometry software packages and algorithms can be combined to produce high-quality reductions from modern telescopes, as well as end-to-end simulations for upcoming instruments such as the Square Kilometre Array (SKA) and its pathfinders. We first use a MeqTrees based simulations framework to quantify how artefacts due to direction-dependent effects accumulate with time, and the consequences of this accumulation when observing the same field multiple times in order to reach the survey depth. Our simulations suggest that a survey like LADUMA (Looking at the Distant Universe with MeerKAT Array), which aims to achieve its survey depth of 16 µJy/beam in a 72 kHz at 1.42 GHz by observing the same field for 1000 hours, will be able to reach its target depth in the presence of these artefacts. We also present stimela, a system agnostic scripting framework for simulating, processing and imaging radio interferometric data. This framework is then used to write an end-to-end simulation pipeline in order to quantify the resolution and sensitivity of the SKA1-MID telescope (the first phase of the SKA mid-frequency telescope) as a function of frequency, as well as the scale-dependent sensitivity of the telescope. Finally, a stimela-based reduction pipeline is used to process data of the field around the source 3C147, taken by the Karl G. Jansky Very Large Array (VLA). The reconstructed image from this reduction has a typical 1a noise level of 2.87 µJy/beam, and consequently a dynamic range of 8x106:1, given the 22.58 Jy/beam flux Density of the source 3C147.
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Measuring the RFI environment of the South African SKA siteManners, Paul John January 2007 (has links)
The Square Kilometre Array (SKA) Project is an international effort to build the world’s largest radio telescope. It will be 100 times more sensitive than any other radio telescope currently in existence and will consist of thousands of dishes placed at baselines up to 3000 km. In addition to its increased sensitivity it will operate over a very wide frequency range (current specification is 100 MHz - 22 GHz) and will use frequency bands not primarily allocated to radio astronomy. Because of this the telescope needs to be located at a site with low levels of radio frequency interference (RFI). This implies a site that is remote and away from human activity. In bidding to host the SKA, South Africa was required to conduct an RFI survey at its proposed site for a period of 12 months. Apart from this core site, where more than half the SKA dishes may potentially be deployed, the measurement of remote sites in Southern Africa was also required. To conduct measurements at these sites, three mobile measurement systems were designed and built by the South African SKA Project. The design considerations, implementation and RFI measurements recorded during this campaign will be the focus for this dissertation.
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The development of a transit radio telescope at the hydrogen line frequencyPillay, Aritha 13 June 2014 (has links)
Submitted in fulfillment of the academic requirements for the Master’s Degree of Technology: Electrical Engineering – Light Current, Durban University of Technology, 2012. / The development of a transit radio telescope at the hydrogen line frequency of 1420 MHz is described. The telescope antenna uses a 5 m diameter parabolic reflector with an estimated efficiency of 50 % and an F/D ratio of 0.5. The gain of the antenna at 1420 MHz (wavelength of 21.1 cm) is approximately 35 dB with a beamwidth of approximately 3°. The antenna is mounted on a concrete beam at the first floor level, running between two 5 floor tower blocks on the Steve Biko campus of the Durban University of Technology. The majority of the components of the radio telescope antenna and receiver were designed and manufactured at the Durban University of Technology by students of the Departments of Mechanical and Electronic Engineering. The measured sensitivity of the receiver is approximately -94 dBm with a bandwidth of approximately 80 MHz.
Radio sources successfully detected by the radio telescope include the Sun, the Moon, Sagittarius A, Centaurus A and Vela X.
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Development of a two element correlating radio telescope interferometerCallaghan, David James January 2015 (has links)
Submitted in fulfillment of the academic requirements for the Degree Master of Engineering: Electrical: Electronic Engineering, Durban University of Technology. Durban. South Africa, 2015. / A two element correlating radio telescope interferometer is the fundamental building block of modern radio telescope aperture synthesis arrays. Early radio telescopes consisted of a single antenna, usually a dish antenna. Larger and larger antennas were constructed in order to improve the resolution of the measurement of the direction and extent of radio frequency radiation coming from the sky. Telescope resolution is fundamentally limited by the ratio of the telescope aperture to the wavelength of the received radiation. For single element radio telescopes to approach the resolution of their optical telescope counterparts, they would need to be impractically large. Mathematical analysis of correlating two element radio telescope interferometers shows that very large aperture radio telescopes can be synthesized from a number of two element interferometers.
An array of two element correlating radio telescope interferometers can be used to produce a synthesized aperture equal to the largest distance between two receiving antennas in the array. Telescope arrays thus enable very high resolution since the angular resolution of a telescope is proportional to the wavelength of the received signal divided by the aperture diameter. A spread of separation distances between antenna pairs is required to produce a complete image of the radiating sources in the field of view. Modern digital signal processing techniques can be used to provide cost effective performance and flexibility in two element correlating radio telescope interferometer design.
The aim of this research project was to design and construct a two element correlating radio telescope interferometer using modern digital signal processing techniques and hardware. The relevant theory has been investigated together with suitable hardware and software platforms and tools used to produce such a system. The two element correlating radio telescope interferometer produced, will be used as a platform for further investigative research into its design, performance and application.
The outcome of this research project was the successful completion of a working two element correlating radio telescope interferometer. The development process has been analysed and carefully documented. Some fringe measurements for a simple single frequency radiating point source have been taken and these measurements have been analysed according to theoretical expectation. Potential for further research, using the two element correlating radio telescope interferometer produced, has been identified and discussed.
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The development of SCADA control and remote access for the Indlebe Radio TelescopeDhaniram, Ajith Deoduth January 2016 (has links)
Submitted in fulfillment of the academic requirements for the Degree Master of Engineering (Electronic), Department of Electronic Engineering, Durban University of Technology, Durban, South Africa, 2016. / The proposed supervisory control and data acquisition solution is intended to gather data from all sub-systems and provide control commands related to the Indlebe Radio Telescope. Currently the control commands are executed from the command line prompt of the Skypipe software. These control commands are used to change the elevation angle of the antenna.
The supervisory control and data acquisition system will be interfaced to sub-systems namely; a programmable logic controller, a weather station, an uninterruptible power supply and a camera. It will be used to manually or automatically control the elevation angle of the antenna, includes a menu structure that allows for easy navigation to the sub-systems and allows for trending, alarming, logging and monitoring of all system parameters. The proposed system will mitigate the lack of information on the existing system.
A global system for mobile communication unit has also been installed to monitor the temperature within the Indlebe control room, detect a power failure and communicate this information to supervisors, using its short message service option.
Implementing a solution of this nature means that all data from the various sub-systems are brought together, giving a single platform to monitor data and provide manual and automatic control functionality. Problem solving, understanding and maintenance of the system will also become easier. / D
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Cosmology with next generation radio telescopesWitzemann, Amadeus January 2019 (has links)
Philosophiae Doctor - PhD / The next generation of radio telescopes will revolutionize cosmology by
providing large three-dimensional surveys of the universe. This work presents
forecasts using the technique 21cm intensity mapping (IM) combined with
results from the cosmic microwave background, or mock data of galaxy
surveys. First, we discuss prospects of constraining curvature independently
of the dark energy (DE) model, finding that the radio instrument HIRAX
will reach percent-level accuracy even when an arbitrary DE equation of state
is assumed. This is followed by a study of the potential of the multi-tracer
technique to surpass the cosmic variance limit, a crucial method to probe
primordial non-Gaussianity and large scale general relativistic e↵ects. Using
full sky simulations for the Square Kilometre Array phase 1 (SKA 1 MID)
and the Large Synoptic Survey Telescope (LSST), including foregrounds, we
demonstrate that the cosmic variance contaminated scenario can be beaten
even in the noise free case. Finally, we derive the signal to noise ratio for the
cosmic magnification signal from foreground HI intensity maps combined
with background galaxy count maps. Instruments like SKA1 MID and
HIRAX are highly complementary and well suited for this measurement.
Thanks to the powerful design of the planned radio instruments, all results
confirm their potential and promise an exciting future for cosmology.
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Star formation and galaxy evolution of the local universe based on HIPASS /Wong, Oiwei Ivy. January 2007 (has links)
Thesis (Ph.D.)--University of Melbourne, School of Physics, 2008. / Typescript. Includes bibliographical references (leaves 161-176).
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Beamforming for radio astronomyVan Tonder, Vereese 12 1900 (has links)
Thesis (MEng) -- Stellenbosch University, 2014. / ENGLISH ABSTRACT: Beamforming is a technique used to combine signals from an array of antennas to effectively
synthesize a single aperture and beam. In the Radio Astronomy community the
technique is used to obtain a desirable beam pattern as well as to electronically point the
beam of an array. Next generation radio telescopes such as the Square Kilometre Array
(SKA) surpass current technology and will extensively make use of beamforming techniques.
Various factors determine the output of a beamformer; however, given an array with a
fixed configuration only the weights applied to the incoming signals affect the synthesized
aperture and beam. Furthermore, the incoming data must be processed in real-time, at a
rate equal to the input-output rate of the processor. Both the weighting function and the
real-time implementation of beamforming, are the primary subjects of this thesis.
In this thesis various deterministic weighting functions are investigated. The algorithms
are implemented in a matlab program, serving as a simulation tool for investigating the
techniques. The program is verified by comparing the expected theoretical outcomes to
the simulated output. For the program the following functionalities are included: a steering
technique, spectral weighting, Dolph-Chebychev, and the Least Square Error algorithm. Applications
of these techniques is investigated and their prominence in the Radio Astronomy
community is established.
For the real-time beamformer implementation, the UniBoard platform configured with
beamformer firmware, is investigated. This is important as the UniBoard is an excellent
example of a beamformer implementation within the Radio Astronomy community. The
architecture is used to emulate a linear array by implementing a python control script,
where the output corresponded accurately with the expected theoretical values.
The thesis also constitutes the design and implementation of a digital frequency domain
beamformer on the ROACH board. This processing board is employed by the Karoo Array
Telescope (KAT-7) in South Africa. This work is therefore important as it demonstrates a
beamformer implementation on an architecture in use by the Radio Astronomy community.
An antenna array is designed and built for the verification of the beamformer design. Results
with a good degree of accuracy were obtained and where errors exist they are discussed. / AFRIKKANSE OPSOMMING: Bundelvorming is ’n tegniek waarmee die seine van ’n antenna samestelling gekombineer
word om ’n enkele effektiewe stralingsvlak en stralingspatroon te sintiseer. In die Radio Astronomie
gemeenskap word die tegniek gebruik om ’n gewenste stralingspatroon te sintiseer
sowel as om die rigting van die patroon elektronies te beheer. Die Square Kilometre Array
(SKA) is ’n toekomstige radioteleskoop en sal grootliks gebruik maak van bundelvorming
tegnieke.
Die uitset van bundelvormers word geaffekteer deur verskeie faktore, maar vir ’n gegewe
samestelling is dit net die gewigsfunksies wat toegepas word op die inkomende seine wat
die gesintiseerde patroon kan beheer. Verder moet die inkomende data verwerk word teen
’n tempo gelykstaande aan die inset-en-uitsetkoers van die verwerker. Die gewigsfunksie so
wel as die implementasie van die bundelvormer is albei primêre onderwerpe van die tesis.
’n Verskeindenheid van deterministiese bundelvormingstegnieke sal ondersoek word in
hierdie tesis. Die algoritmes is in ’n matlab program geïmplementeer vir simulasie doeleindes.
Die program is geverifieër deur die uitset te vergelyk met die verwagte teoretiese
waardes. Die program sluit die volgende funksies in: ’n rigting beheer algoritme, spektraalgewigte,
Dolph-Chebychev, en die minste vierkantsfout algoritme. Hierdie tegnieke is van
belang weens hul toepassing in die Radio Astronomie gemeenskap.
Vir die implementasie van ’n bundelvormer is die UniBoard hardeware, geprogrameer in
’n bundelvormings modus, van gebruik gemaak. Hierdie aspek is belangrik omdat die Uni-
Board ’n goeie voorbeeld van ’n geïmplementeerde bundelvormer in die Radio Astronomie
gemeenskap is. Die UniBoard word gebruik om ’n lineêre samestelling te emuleer deur in
python ’n beheer skrip te skryf, waar die uitset van die emuleerder akkuraat ooreenstem
met die verwagte waardes.
Die tesis behels ook die ontwerp en implementasie van ’n digitale frekwensiegebied bundelvormer
op die ROACH platform. Hierdie verwerker word tans gebruik in die Karoo Array
Telescope (KAT-7) in Suid-Afrika. Hierdie werk is dus belangrik omdat dit die implementasie
van ’n bundelvormer op tegnologie wat huidiglik in die Radio Astronomie gemeenskap
gebruik word demonstreer. Daarbenewens is ’n antenna samestelling ontwerp en gebou om
die bundelvormer te verifieër. Die resultate is akkuraat tot ’n redelike mate. Waar daar ’n
fout onstaan het word dit in die tesis bespreek.
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The SKA's the limit : on the nature of faint radio sourcesMcAlpine, Kim 14 September 2012 (has links)
From abstract: Within the next few years a large number of new and vastly more sensitive radio astronomy facilities are scheduled to come online. These new facilities will map large areas of the sky to unprecedented depths and transform radio astronomy into the leading technique for investigating the complex processes which govern the formation and evolution of galaxies. This thesis combines multi-wavelength techniques, highly relevant to future deep radio surveys, to study the evolution and properties of faint radio sources. / TeX / Adobe Acrobat 9.54 Paper Capture Plug-in
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