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VERSION:2.0
PRODID:IEEE vTools.Events//EN
CALSCALE:GREGORIAN
BEGIN:VTIMEZONE
TZID:Australia/Queensland
BEGIN:STANDARD
DTSTART:19920301T020000
TZOFFSETFROM:+1100
TZOFFSETTO:+1000
TZNAME:AEST
END:STANDARD
END:VTIMEZONE
BEGIN:VEVENT
DTSTAMP:20180827T094843Z
UID:9787A235-D6FE-4E6F-953D-96E6716E92A0
DTSTART;TZID=Australia/Queensland:20180824T160000
DTEND;TZID=Australia/Queensland:20180824T170000
DESCRIPTION:Skywave OTH radars operate in the high frequency (HF) band (3-3
 0 MHz) and exploit signal reflection from the ionosphere to detect and tra
 ck targets at ranges of 1000 to 3000 km. The long-standing interest in OTH
  radar technology stems from its ability to provide persistent and cost-ef
 fective early-warning surveillance over vast geographical areas (millions 
 of square kilometres).\n\nAs a key element of an integrated ISR system\, O
 TH radar sensors play an important role in cueing higher resolution and mo
 re precise line-of-sight ISR sensors\, which often have less persistent or
  more circumscribed coverage. The first part of the lecture introduces the
  fundamental principles of OTH radar design and operation in the challengi
 ng HF environment. This serves to motivate and explain the architecture an
 d nominal capabilities of modern OTH radar systems.\n\nThe second part of 
 the lecture describes adaptive processing techniques for clutter and inter
 ference mitigation and illustrates examples of their application to real O
 TH radar data.\n\nSpeaker(s): Giuseppe A. Fabrizio \, \n\nRoom: B124\, Bld
 g: Block B \, QUT Gardens Point Campus\, 2 George Street\, Brisbane\, Quee
 nsland\, Australia\, 4000
LOCATION:Room: B124\, Bldg: Block B \, QUT Gardens Point Campus\, 2 George 
 Street\, Brisbane\, Queensland\, Australia\, 4000
ORGANIZER:jlw@ieee.org
SEQUENCE:25
SUMMARY:INTRODUCTION TO OVER-THE-HORIZON RADAR AND ROBUST ADAPTIVE PROCESSI
 NG
URL;VALUE=URI:https://events.vtools.ieee.org/m/175561
X-ALT-DESC:Description: <br /><p>Skywave OTH radars operate in the high fre
 quency (HF) band (3-30 MHz) and exploit signal reflection from the ionosph
 ere to detect and track targets at ranges of 1000 to 3000 km. The long-sta
 nding interest in OTH radar technology stems from its ability to provide p
 ersistent and cost-effective early-warning surveillance over vast geograph
 ical areas (millions of square kilometres).</p>\n<p>As a key element of an
  integrated ISR system\, OTH radar sensors play an important role in cuein
 g higher resolution and more precise line-of-sight ISR sensors\, which oft
 en have less persistent or more circumscribed coverage. The first part of 
 the lecture introduces the fundamental principles of OTH radar design and 
 operation in the challenging HF environment.&nbsp\;This serves to motivate
  and explain the architecture and nominal capabilities of modern OTH radar
  systems.</p>\n<p>The second part of the lecture describes adaptive proces
 sing techniques for clutter and interference mitigation and illustrates ex
 amples of their application to real OTH radar data.</p>
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