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DTSTART:20241006T030000
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DTSTAMP:20240522T231614Z
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DTSTART;TZID=Australia/Adelaide:20240520T190000
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DESCRIPTION:Dear IEEE members and guests\,\n\nThe next IEEE Control\, Aeros
 pace and Electronic Systems (CAES) seminar will be on Monday\, 20th May\, 
 2020 at 7:00 pm (Adelaide time).\n\nThe speaker is Mr Francesco Mancuso  f
 rom the University of Pisa\, Italy\, he will be presenting a seminar on:\n
 \nNovel Techniques for 3D Interferometric Inverse Synthetic Aperture Radar
 \n\nPlease aim to join the WebEx meeting beforehand\, so we can start on t
 ime.\n\nhttps://ieeemeetings.webex.com/ieeemeetings/j.php?MTID=m0b36d973b0
 f70456dba99b970f864273\n\nAlso\, please check out the IEEE SA Section webs
 ite: https://r10.ieee.org/saus/\n\nRegards\n\nWaddah Al-Ashwal\n\nIEEE SA 
 CAES Chapter Vice Chair\n\nNovel Techniques for 3D Interferometric Inverse
  Synthetic Aperture Radar\n\n3D InISAR\, or Three-dimensional Inverse Synt
 hetic Aperture Radar\, is an advanced radar imaging technique that extends
  the capabilities of traditional ISAR by providing three-dimensional image
 s of targets. This technique offers high spatial resolution due to the syn
 thetic aperture created by the relative motion between the target and the 
 radar. It is effective in various environmental conditions and does not de
 pend on lighting\, making it typically used in surveillance and reconnaiss
 ance applications.\n\nThis technique differs from traditional two-dimensio
 nal ISAR imaging by incorporating aspect angle diversity to infer the thir
 d dimension\, hence delivering a comprehensive volumetric visualization of
  the target. Consequently\, it also improves Automatic Target Recognition 
 (ATR) capabilities by providing detailed three-dimensional data\, which al
 lows for distinguishing between different types of objects based on their 
 geometrical characteristics\, thereby overcoming the limitations due to th
 e image projection mechanism.\n\nThis seminar will provide an overview of 
 3D InISAR and will also present some recent developments that improve the 
 quality of 3D reconstructions. We will explore how the integration of full
 y polarimetric data can refine result accuracy. Additionally\, we will dis
 cuss the exploitation of frequency diversity in wideband receivers\, which
  helps resolve the challenges of interferometric phase ambiguity. These te
 chniques collectively enhance the radar system's surveillance capabilities
 \, making 3D InISAR an important tool in surveillance and non-cooperative 
 target recognition applications.\n\nSpeaker(s): Francesco Mancuso \n\nAdel
 aide\, South Australia\, Australia\, Virtual: https://events.vtools.ieee.o
 rg/m/418586
LOCATION:Adelaide\, South Australia\, Australia\, Virtual: https://events.v
 tools.ieee.org/m/418586
ORGANIZER:waashwal@ieee.org
SEQUENCE:24
SUMMARY:Novel Techniques for 3D Interferometric Inverse Synthetic Aperture 
 Radar
URL;VALUE=URI:https://events.vtools.ieee.org/m/418586
X-ALT-DESC:Description: <br /><p style="margin-bottom: 0cm\; background: tr
 ansparent\;"><span style="color: #0e101a\;"><span style="background: trans
 parent\;">Dear IEEE members and guests\,</span></span></p>\n<p style="marg
 in-bottom: 0cm\; background: transparent\;"><span style="color: #0e101a\;"
 ><span style="background: transparent\;">The next IEEE Control\, Aerospace
  and Electronic Systems (CAES) seminar will be on Monday\, </span></span><
 span style="color: #0e101a\;"><span style="background: transparent\;">20</
 span></span><span style="color: #0e101a\;"><sup><span style="background: t
 ransparent\;">th</span></sup></span><span style="color: #0e101a\;"><span s
 tyle="background: transparent\;"> </span></span><span style="color: #0e101
 a\;"><span style="background: transparent\;">May</span></span><span style=
 "color: #0e101a\;"><span style="background: transparent\;">\, 2020 at 7:00
  pm (Adelaide time).</span></span></p>\n<p style="margin-bottom: 0cm\; bac
 kground: transparent\;"><span style="color: #0e101a\;"><span style="backgr
 ound: transparent\;">The speaker is Mr <span lang="EN-GB" style="font-size
 : 12.0pt\; font-family: 'Aptos'\,sans-serif\; mso-ascii-theme-font: minor-
 latin\; mso-fareast-font-family: Aptos\; mso-fareast-theme-font: minor-lat
 in\; mso-hansi-theme-font: minor-latin\; mso-bidi-font-family: Arial\; mso
 -bidi-theme-font: minor-bidi\; mso-ansi-language: EN-GB\; mso-fareast-lang
 uage: EN-US\; mso-bidi-language: AR-SA\;">Francesco Mancuso&nbsp\;</span><
 /span></span><span style="color: #0e101a\;"><span style="background: trans
 parent\;"> </span></span><span style="color: #0e101a\;"><span style="backg
 round: transparent\;">from the University of Pisa\, Italy</span></span><sp
 an style="color: #0e101a\;"><span style="background: transparent\;">\, he 
 will be presenting a seminar on:</span></span></p>\n<p class="MsoNormal" s
 tyle="text-align: justify\;"><strong><span lang="EN-GB" style="font-size: 
 13.0pt\;">Novel Techniques for 3D Interferometric Inverse Synthetic Apertu
 re Radar</span></strong><span style="color: #0e101a\;"><span style="backgr
 ound: transparent\;">&nbsp\;</span></span></p>\n<p style="margin-bottom: 0
 cm\; background: transparent\;"><span style="color: #0e101a\;"><span style
 ="background: transparent\;">Please aim to join the WebEx meeting beforeha
 nd\, so we can start on time.&nbsp\; <br></span></span></p>\n<p style="mar
 gin-bottom: 0cm\; background: transparent\;"><span style="color: #0e101a\;
 "><span style="background: transparent\;"><a href="https://ieeemeetings.we
 bex.com/ieeemeetings/j.php?MTID=m0b36d973b0f70456dba99b970f864273" target=
 "_blank" rel="noopener">https://ieeemeetings.webex.com/ieeemeetings/j.php?
 MTID=m0b36d973b0f70456dba99b970f864273</a></span></span></p>\n<p style="ma
 rgin-bottom: 0cm\; background: transparent\;"><span style="color: #0e101a\
 ;"><span style="background: transparent\;">Also\, please check out the IEE
 E SA Section website: </span></span><a href="https://r10.ieee.org/saus/" t
 arget="_blank" rel="noopener"><span style="color: #0000ff\;"><span style="
 background: transparent\;">https://r10.ieee.org/saus/</span></span></a></p
 >\n<p style="margin-bottom: 0cm\; background: transparent\;"><span style="
 color: #0e101a\;"><span style="background: transparent\;">Regards</span></
 span></p>\n<p style="margin-bottom: 0cm\; background: transparent\;"><span
  style="color: #0e101a\;"><span style="background: transparent\;">Waddah A
 l-Ashwal</span></span></p>\n<p style="margin-bottom: 0cm\; background: tra
 nsparent\;"><span style="color: #0e101a\;"><span style="background: transp
 arent\;">IEEE SA CAES Chapter Vice&nbsp\; Chair</span></span></p>\n<p styl
 e="margin-bottom: 0cm\; background: transparent\;">&nbsp\;</p>\n<p class="
 MsoNormal" style="text-align: justify\;"><strong><span lang="EN-GB" style=
 "font-size: 13.0pt\;">Novel Techniques for 3D Interferometric Inverse Synt
 hetic Aperture Radar</span></strong></p>\n<p>3D InISAR\, or Three-dimensio
 nal Inverse Synthetic Aperture Radar\, is an advanced radar imaging techni
 que that extends the capabilities of traditional ISAR by providing three-d
 imensional images of targets. This technique offers high spatial resolutio
 n due to the synthetic aperture created by the relative motion between the
  target and the radar. It is effective in various environmental conditions
  and does not depend on lighting\, making it typically used in surveillanc
 e and reconnaissance applications.</p>\n<p>This technique differs from tra
 ditional two-dimensional ISAR imaging by incorporating aspect angle divers
 ity to infer the third dimension\, hence delivering a comprehensive volume
 tric visualization of the target. Consequently\, it also improves Automati
 c Target Recognition (ATR) capabilities by providing detailed three-dimens
 ional data\, which allows for distinguishing between different types of ob
 jects based on their geometrical characteristics\, thereby overcoming the 
 limitations due to the image projection mechanism.</p>\n<p>This seminar wi
 ll provide an overview of 3D InISAR and will also present some recent deve
 lopments that improve the quality of 3D reconstructions. We will explore h
 ow the integration of fully polarimetric data can refine result accuracy. 
 Additionally\, we will discuss the exploitation of frequency diversity in 
 wideband receivers\, which helps resolve the challenges of interferometric
  phase ambiguity. These techniques collectively enhance the radar system's
  surveillance capabilities\, making 3D InISAR an important tool in surveil
 lance and non-cooperative target recognition applications.</p>
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