Atacama Large Millimeter/submillimeter Array Expanded Very Large Array Robert C. Byrd Green Bank Telescope Very Long Baseline Array Radio Frequency Interference.

Slides:



Advertisements
Similar presentations
Authors: David N.C. Tse, Ofer Zeitouni. Presented By Sai C. Chadalapaka.
Advertisements

Dirk Grunwald Department of Computer Science University of Colorado at Boulder July 7, 2011.
Atacama Large Millimeter/submillimeter Array Expanded Very Large Array Robert C. Byrd Green Bank Telescope Very Long Baseline Array The March to Early.
Frequency Management Aka why you can detect any astronomical signals at all Dr. Karen O’Neil Green Bank Site Director.
The Very Large Array Past and Future Dave Finley.
David Hawkins Exascale Signal Processing for Millimeter-Wavelength Radio Interferometers David Hawkins
Interferometric Spectral Line Imaging Martin Zwaan (Chapters of synthesis imaging book)
RFI Subtraction with a reference horn… F. Briggs & M. Kesteven illustrations from Parkes Telescope… (Jon Bell et al.) origins in Int-Mit group at CSIRO.
Interference Daniel Mitchell, ATNF and Sydney University.
What does do? Mini-project for CSE 260 Qian Peng 15 November 2001 Ref.
Integrated Circuits Design for Applications in Communications Dr. Charles Surya Department of Electronic and Information Engineering DE636  6220
Goals of Adaptive Signal Processing Design algorithms that learn from training data Algorithms must have good properties: attain good solutions, simple.
Atacama Large Millimeter/submillimeter Array Expanded Very Large Array Robert C. Byrd Green Bank Telescope Very Long Baseline Array.
Electronics Principles & Applications Sixth Edition Chapter 12 Communications (student version) ©2003 Glencoe/McGraw-Hill Charles A. Schuler.
McGraw-Hill © 2008 The McGraw-Hill Companies Inc. All rights reserved. Electronics Principles & Applications Seventh Edition Chapter 12 Communications.
Radio Quiet Zones (RQZ) History and Current Activities Tasso Tzioumis ATNF, CSIRO.
Atacama Large Millimeter/submillimeter Array Expanded Very Large Array Robert C. Byrd Green Bank Telescope Very Long Baseline Array Digital Signal Processing.
Atacama Large Millimeter/submillimeter Array Expanded Very Large Array Robert C. Byrd Green Bank Telescope Very Long Baseline Array Spectrometer PDR John.
Dark Skies are a Universal Resource. So Are Quiet Skies! In the same way that man-made light obscures our night sky and blinds ground-based optical telescopes,
Atacama Large Millimeter/submillimeter Array Expanded Very Large Array Robert C. Byrd Green Bank Telescope Very Long Baseline Array Emmanuel Momjian (NRAO)
Random Media in Radio Astronomy Atmospherepath length ~ 6 Km Ionospherepath length ~100 Km Interstellar Plasma path length ~ pc (3 x Km)
Calibration Ron Maddalena NRAO – Green Bank July 2009.
IYA: The Quiet Skies Project! Astronomers need dark skies to see the stars, but did you know they also need quiet skies? Learn more about radio astronomy,
An RFI Mitigation Strategy for the Allen Telescope Array Geoffrey C. Bower UC Berkeley.
RF Noise and Radio-Astronomy. A Brief History of Radio Astronomy 1860's Maxwell develops equations that govern electromagnetic (EM) waves. 1860's-1930's.
Electronics Principles & Applications Fifth Edition Chapter 12 Radio Receivers ©1999 Glencoe/McGraw-Hill Charles A. Schuler.
Atacama Large Millimeter/submillimeter Array Expanded Very Large Array Robert C. Byrd Green Bank Telescope Very Long Baseline Array New VLBA capabilities.
EXPERIMENTAL STUDY OF RADIO FREQUENCY INTERFERENCE DETECTION ALGORITHMS IN MICROWAVE RADIOMETRY José Miguel Tarongí Bauzá Giuseppe Forte Adriano Camps.
Filtering. What Is Filtering? n Filtering is spectral shaping. n A filter changes the spectrum of a signal by emphasizing or de-emphasizing certain frequency.
Atacama Large Millimeter/submillimeter Array Expanded Very Large Array Robert C. Byrd Green Bank Telescope Very Long Baseline Array Meeting Summary Richard.
Atacama Large Millimeter/submillimeter Array Expanded Very Large Array Robert C. Byrd Green Bank Telescope Very Long Baseline Array Software correlators.
1 Quiet Skies Project Sue Ann Heatherly, Ron Maddalena National Radio Astronomy Observatory.
1 Quiet Skies Project Sue Ann Heatherly, Ron Maddalena National Radio Astronomy Observatory.
Atacama Large Millimeter/submillimeter Array Expanded Very Large Array Robert C. Byrd Green Bank Telescope Very Long Baseline Array THE GBT PRIMOS PROJECT.
Hulse Team Pulsar Research Adam Kelsey, Consuela Hancock, Magaly Rosales, Cameron Deem, What Exactly Is A Pulsar? A pulsar is a rapidly spinning neutron.
PROPRIETARY STATEMENT: The information contained is this document is Proprietary to DRS Technologies, Inc. “High Performance GNU Radio applications: Super.
The Quiet Skies Project And the IYA Astronomers need dark skies to see the stars, but did you know they also need quiet skies? Learn more about radio astronomy,
March 2010 RFI 2010 RFI Mitigation in AIPS. The New Task UVRFI L. Kogan, F. Owen National Radio AstronomyObservatory Socorro, NM USA.
Effect of Noise on Angle Modulation
CHAPTER4: CONTINUOUS-WAVE (CW) MODULATION First semester King Saud University College of Applied studies and Community Service 1301CT.
Atacama Large Millimeter/submillimeter Array Expanded Very Large Array Robert C. Byrd Green Bank Telescope Very Long Baseline Array Phased Array Feed Development.
Atacama Large Millimeter/submillimeter Array Expanded Very Large Array Robert C. Byrd Green Bank Telescope Very Long Baseline Array Data Processing Progress.
2 nd SKADS Workshop October 2007P. Colom & A.J. Boonstra 1 Outline -progress in RFI mitigation (methods inventory) -system design & RFI mitigation:
Radio Telescopes and Radiometers
JABAK Pulsar Data Analysis Introduction/Purpose When we arrived in Green bank, we did not know what a pulsar was. Now we know their identifying qualities.
Atacama Large Millimeter/submillimeter Array Expanded Very Large Array Robert C. Byrd Green Bank Telescope Very Long Baseline Array Observing Scripts Basic.
Atacama Large Millimeter/submillimeter Array Expanded Very Large Array Robert C. Byrd Green Bank Telescope Very Long Baseline Array.
OFDM Based WLAN System Song Ziqi Zhang Zhuo.
1 CMPB 345: IMAGE PROCESSING DISCRETE TRANSFORM 2.
Amplitude/Phase Modulation
Feedback Filters n A feedback filter processes past output samples, as well as current input samples: n Feedback filters create peaks (poles or resonances)
Atacama Large Millimeter/submillimeter Array Karl G. Jansky Very Large Array Robert C. Byrd Green Bank Telescope Very Long Baseline Array ALMA Pipeline.
L. Young, Synthesis Imaging Summer School, 19 June Spectral Line I Lisa Young This lecture: things you need to think about before you observe After.
January 2010 ARPG RFI Mitigation in AIPS. The New Task UVRFI L. Kogan, F. Owen National Radio AstronomyObservatory Socorro, NM USA.
Atacama Large Millimeter/submillimeter Array Expanded Very Large Array Robert C. Byrd Green Bank Telescope Very Long Baseline Array Emmanuel Momjian (NRAO)
Principles & Applications
M.P. Rupen, Synthesis Imaging Summer School, 18 June Cross Correlators Michael P. Rupen NRAO/Socorro.
Atacama Large Millimeter/submillimeter Array Karl G. Jansky Very Large Array Robert C. Byrd Green Bank Telescope Very Long Baseline Array Engineering Opportunities.
Atacama Large Millimeter/submillimeter Array Expanded Very Large Array Robert C. Byrd Green Bank Telescope Very Long Baseline Array Using CASA to Simulate.
Atacama Large Millimeter/submillimeter Array Karl G. Jansky Very Large Array Robert C. Byrd Green Bank Telescope Very Long Baseline Array ngVLA: Reconfigurability.
RFI Protection Activities in IAA RAS
Fletcher’s band-widening experiment (1940)
RFI Protection Activities in IAA RAS
FRB Backend First Light
Long-Term Timing of Globular Cluster Pulsars
Data Reduction and Analysis Techniques
Erin W Gunner H Anna D Shane C Carly L Shane S. Mentor: Sean
Sue Ann Heatherly, Ron Maddalena National Radio Astronomy Observatory
8.5 Modulation of Signals basic idea and goals
Wireless Range Testing
Presentation transcript:

Atacama Large Millimeter/submillimeter Array Expanded Very Large Array Robert C. Byrd Green Bank Telescope Very Long Baseline Array Radio Frequency Interference and How to Deal With It Toney Minter NRAO

2 What can RFI do to your observations? Cover your spectral line

3 What can RFI do to your observations? Cover your spectral line Create baseline issues

4 What can RFI do to your observations? Cover your spectral line Create baseline issues Create non-linear responses

What can you do? Ignore the RFI Flag data after observations Get worse results than desired Waste lots of telescope time Modify your observations Try to avoid known RFI Observe when RFI is off (night-time, etc.) Eliminate the RFI transmitter Not always possible Only have rights in protected bands Quiet Zone Cooperation of transmitter Cancel RFI signal Need reference antenna Subtract reference antenna signal from data

Planning Your Observations There is no magic bullet for dealing with RFI Understand the RFI – What frequencies – How strong – How often Constant Periodic Random – Signal direction Look at Spectrum Surveys – Arecibo – Green Bank

Planning Your Observations Coordinate the observations if possible – Is RFI less prevalent at night? – Are emitters willing to participate? IF system – Set filters and frequencies in IF system to remove RFI Use narrow filters Offset spectral line from bandpass center – Watch your power levels Strong RFI can saturate parts of the IF Backends – Higher level sampling – Shorter integration times

Ringing from Strong RFI

Removing RFI from Data Automated removal of RFI very difficult – Pulsars Very short integration time in each sample Majority of samples do not have “signal” “Signal” < noise level in sample Determine noise level Clip signal well above noise – Spectral line Longer integration times – Fewer samples – Lower noise levels – easier to see RFI How do you tell difference between RFI and line?

Flagging Spectral Line Data “Types” of RFI – Narrow lines that vary in time – Narrow lines that are persistent

Narrow, Time Varying RFI

Flagging Spectral Line Data “Types” of RFI – Narrow lines that vary in time – Narrow lines that are “constant” in time – Strong occasional or periodic RFI

Strong RFI

Flagging Spectral Line Data “Types” of RFI – Narrow lines that vary in time – Narrow lines that are “constant” in time – Strong occasional or periodic RFI – Occasional strong out of band RFI

Out of Band RFI

Conclusions No Magical solutions Do your homework before you observe Do your best to avoid RFI during your observations Understand your data – Where is the RFI – When is the RFI Flag your data accordingly

Feedback: Privacy Policy Feedback
Do Not Sell My Personal Information
About project: SlidePlayer Terms of Service

© 2024 SlidePlayer.com Inc. All rights reserved.