BEGIN:VCALENDAR VERSION:2.0 PRODID:IEEE vTools.Events//EN CALSCALE:GREGORIAN BEGIN:VTIMEZONE TZID:Israel BEGIN:DAYLIGHT DTSTART:20220325T030000 TZOFFSETFROM:+0200 TZOFFSETTO:+0300 RRULE:FREQ=YEARLY;BYDAY=-1FR;BYMONTH=3 TZNAME:IDT END:DAYLIGHT BEGIN:STANDARD DTSTART:20211031T010000 TZOFFSETFROM:+0300 TZOFFSETTO:+0200 RRULE:FREQ=YEARLY;BYDAY=-1SU;BYMONTH=10 TZNAME:IST END:STANDARD END:VTIMEZONE BEGIN:VEVENT DTSTAMP:20211228T134750Z UID:C659C8A7-C9F6-4D9C-BBB7-75EB28B3FBCD DTSTART;TZID=Israel:20211031T150000 DTEND;TZID=Israel:20211031T160000 DESCRIPTION:Ultra Wide Band Surveillance Radar\nDr. Mark E. Davis\nAESS Dis tinguished Lecturer\, IEEE Life Fellow\nMedavis Consulting\, Prospect NY\, USA\n\nUltra Wide Band Surveillance Radar is an emerging technology for d etecting and\ncharacterizing targets and cultural features for military an d geosciences applications.\nIt is essential to have fine range and cross- range resolution to characterize objects\nnear and under severe clutter. T his Tutorial is divided into five parts.\n\n The Early History of Battl efield Surveillance Radar: Battlefield surveillance\nfrom manned and unman ned aircraft\, along with early experiments in fixed\nand moving target de tection and foliage penetration are covered.\n UWB Phased Array Antenna : Wideband waveforms place a significant\ndemand on the ESA design to main tain gain and sidelobe characteristics.\nDesign of ESA systems with time d elay steering and digital beamforming will\nbe described.\n UWB Synthet ic Aperture Radar (SAR): A brief description of several UWB\nsurveillance SAR systems will be provided\, along with illustrations of the SAR\nimage and fixed object detection capability.\n UWB Ground Moving Target Indic ation: Space time adaptive processing\n(STAP) has been used for over 20 ye ars for detecting and tracking moving\ntargets in clutter. As the resoluti on is improved for target characterization\,\nthe limits of STAP are teste d. This section will discuss two approaches for\nincreasing the bandwidth and maintaining geolocation accuracy: wideband\nSTAP and Along Track Inter ferometry.\n New research in Multi-mode Ultra-Wideband Radar\, with the design of both\nSAR and moving target indication (MTI) FOPEN systems. The last section of\nthe lecture will illustrate new technologies that have p romise for future\nmultimode operation: simultaneous SAR and GMTI in a mul tichannel radar.\n\nSunday\, October 31\, 2021\, 15:00\nRoom 011\, Kitot b uilding\n\nRoom: Auditorium 011\, Bldg: Engineering Classroom Building\, T el Aviv University \, Tel Aviv\, Tel Aviv District\, Israel\, Virtual: htt ps://events.vtools.ieee.org/m/286430 LOCATION:Room: Auditorium 011\, Bldg: Engineering Classroom Building\, Tel Aviv University \, Tel Aviv\, Tel Aviv District\, Israel\, Virtual: https: //events.vtools.ieee.org/m/286430 ORGANIZER: michaljean@tauex.tau.ac.il SEQUENCE:2 SUMMARY:Ultra Wide Band Surveillance Radar URL;VALUE=URI:https://events.vtools.ieee.org/m/286430 X-ALT-DESC:Description: <br /><p>Ultra Wide Band Surveillance Radar<br />Dr . Mark E. Davis<br />AESS Distinguished Lecturer\, IEEE Life Fellow<br />M edavis Consulting\, Prospect NY\, USA</p>\n<p>Ultra Wide Band Surveillance Radar is an emerging technology for detecting and&nbsp\;<br />characteriz ing targets and cultural features for military and geosciences application s.&nbsp\;<br />It is essential to have fine range and cross-range resoluti on to characterize objects&nbsp\;<br />near and under severe clutter. &nbs p\;This Tutorial is divided into five parts.</p>\n<p> The Early History of Battlefield Surveillance Radar: Battlefield surveillance<br />from man ned and unmanned aircraft\, along with early experiments in fixed&nbsp\;<b r />and moving target detection and foliage penetration are covered.<br />  UWB Phased Array Antenna: Wideband waveforms place a significant&nbsp\ ;<br />demand on the ESA design to maintain gain and sidelobe characterist ics.<br />Design of ESA systems with time delay steering and digital beamf orming will&nbsp\;<br />be described.<br /> UWB Synthetic Aperture Rada r (SAR): A brief description of several UWB&nbsp\;<br />surveillance SAR s ystems will be provided\, along with illustrations of the SAR&nbsp\;<br /> image and fixed object detection capability.<br /> UWB Ground Moving Ta rget Indication: Space time adaptive processing&nbsp\;<br />(STAP) has bee n used for over 20 years for detecting and tracking moving&nbsp\;<br />tar gets in clutter. As the resolution is improved for target characterization \,&nbsp\;<br />the limits of STAP are tested. This section will discuss tw o approaches for&nbsp\;<br />increasing the bandwidth and maintaining geol ocation accuracy: wideband&nbsp\;<br />STAP and Along Track Interferometry .<br /> New research in Multi-mode Ultra-Wideband Radar\, with the desi gn of both&nbsp\;<br />SAR and moving target indication (MTI) FOPEN system s. The last section of&nbsp\;<br />the lecture will illustrate new technol ogies that have promise for future&nbsp\;<br />multimode operation: simult aneous SAR and GMTI in a multichannel radar.</p>\n<p>Sunday\, October 31\, 2021\, 15:00<br />Room 011\, Kitot building</p> END:VEVENT END:VCALENDAR