BEGIN:VCALENDAR
VERSION:2.0
PRODID:IEEE vTools.Events//EN
CALSCALE:GREGORIAN
BEGIN:VTIMEZONE
TZID:US/Eastern
BEGIN:DAYLIGHT
DTSTART:20220313T030000
TZOFFSETFROM:-0500
TZOFFSETTO:-0400
RRULE:FREQ=YEARLY;BYDAY=2SU;BYMONTH=3
TZNAME:EDT
END:DAYLIGHT
BEGIN:STANDARD
DTSTART:20221106T010000
TZOFFSETFROM:-0400
TZOFFSETTO:-0500
RRULE:FREQ=YEARLY;BYDAY=1SU;BYMONTH=11
TZNAME:EST
END:STANDARD
END:VTIMEZONE
BEGIN:VEVENT
DTSTAMP:20220430T231132Z
UID:28BA9FFE-4000-4399-BFD2-A47B027752FC
DTSTART;TZID=US/Eastern:20220426T171500
DTEND;TZID=US/Eastern:20220426T180000
DESCRIPTION:CHAPTER TECHNICAL PRESENTATIONS SESSION 2 (5:15 – 6:00 PM):\n
 \nD. Dynamic LED Printhead Technology and Computational Screening\nChung H
 ui Kuo\, PhD\, Eastman Kodak\n\nIEEE Signal Processing Society\n\nWhile th
 e digital revolution of migrating from film cameras to digital cameras has
  been well documented and commenced the age of electronic imaging\, which 
 now plays an indispensable role in weaving the fabric of modern human soci
 eties\, the transformation from analog printing processes to digital non-i
 mpact printing technologies\, such as electrophotography and ink-jet print
 ing\, also took place in the commercial and office printing industry. As t
 he telecommunication and mobile imaging technologies continue their rapid 
 pace of development\, the focus of the digital printing technology\, being
  an inherently static information reproduction process\, has gradually tra
 nsitioned from short-run office printing applications to long-run package 
 printing\, on-demand premium printed material applications\, additive manu
 facturing\, and functional printing in a mass-customization environment. T
 herefore\, just like any advanced manufacturing process\, the future direc
 tion of the digital printing technology is to establish a closed-loop imag
 e reproduction system with microscopic self-calibration capability and ult
 imately achieve autonomous printing with minimal operator intervention.\n\
 nResearchers began to adopt the light-emitting diode (LED) as the image fo
 rmation subsystem inside a printer in early 1970. The primary benefits of 
 the LED printhead technology are three-fold: no high-precision moving mech
 anical components\, high-speed parallel imaging architecture and no direct
  physical interaction with other imaging subsystems and imaging materials.
  Recognizing these competitive advantages\, Eastman Kodak Company began si
 gnificant investment in developing a LED printhead platform at mid-1980. H
 owever\, instead of building a digital printhead with binary states at eac
 h pixel\, the LED printhead technology developed by the Eastman Kodak Comp
 any retains the tonal resolution capability of 8-bit or higher at each LED
  pixel mimicking an analog device while dynamically modulates the exposure
  level of each LED pixel to maximize the benefit of a digital device accor
 ding to the input image data\, selected halftone structure and spatial/tem
 poral system calibration parameters.\n\nSpeaker(s): Chung Hui Kuo\, \n\nAg
 enda: \nCHAPTER TECHNICAL PRESENTATIONS SESSION 2 (5:15 – 6:00 PM):\n\nD
 . Dynamic LED Printhead Technology and Computational Screening\nChung Hui 
 Kuo\, PhD\, Eastman Kodak\n\nThe IEEE Signal Processing Society Rochester 
 Chapter\nis proud to present Chung Hui Kuo at our Section's\nJoint Chapter
 s Meeting (JCM) on April 26\, 2022.\n\nReservations are required to attend
  the technical sessions\, reception\, dinner and keynote presentation.\n\n
 To attend this event\, please Register at:\n\n[IEEE Rochester Section Join
 t Chapters Meeting](https://events.vtools.ieee.org/m/308572)\n\nRoom: Conf
 erence Room\, Bldg: Bldg. 28\, Kodak Center\, 210 West Ridge Road\, Roches
 ter\, New York\, United States\, 14621\, Virtual: https://events.vtools.ie
 ee.org/m/308590
LOCATION:Room: Conference Room\, Bldg: Bldg. 28\, Kodak Center\, 210 West R
 idge Road\, Rochester\, New York\, United States\, 14621\, Virtual: https:
 //events.vtools.ieee.org/m/308590
ORGANIZER:ezeise@rochester.rr.com
SEQUENCE:8
SUMMARY:Dynamic LED Printhead Technology and Computational Screening
URL;VALUE=URI:https://events.vtools.ieee.org/m/308590
X-ALT-DESC:Description: <br /><p><strong>CHAPTER TECHNICAL PRESENTATIONS SE
 SSION 2 (5:15 &ndash\; 6:00 PM):&nbsp\;</strong></p>\n<p><strong>D. Dynami
 c LED Printhead Technology and Computational Screening<br />&nbsp\; &nbsp\
 ; &nbsp\;Chung Hui Kuo\, PhD\, Eastman Kodak</strong></p>\n<p><em>IEEE Sig
 nal Processing Society</em></p>\n<p>While the digital revolution of migrat
 ing from film cameras to digital cameras has been well documented and comm
 enced the age of electronic imaging\, which now plays an indispensable rol
 e in weaving the fabric of modern human societies\, the transformation fro
 m analog printing processes to digital non-impact printing technologies\, 
 such as electrophotography and ink-jet printing\, also took place in the c
 ommercial and office printing industry. As the telecommunication and mobil
 e imaging technologies continue their rapid pace of development\, the focu
 s of the digital printing technology\, being an inherently static informat
 ion reproduction process\, has gradually transitioned from short-run offic
 e printing applications to long-run package printing\, on-demand premium p
 rinted material applications\, additive manufacturing\, and functional pri
 nting in a mass-customization environment. Therefore\, just like any advan
 ced manufacturing process\, the future direction of the digital printing t
 echnology is to establish a closed-loop image reproduction system with mic
 roscopic self-calibration capability and ultimately achieve autonomous pri
 nting with minimal operator intervention.</p>\n<p>Researchers began to ado
 pt the light-emitting diode (LED) as the image formation subsystem inside 
 a printer in early 1970. The primary benefits of the LED printhead technol
 ogy are three-fold: no high-precision moving mechanical components\, high-
 speed parallel imaging architecture and no direct physical interaction wit
 h other imaging subsystems and imaging materials. Recognizing these compet
 itive advantages\, Eastman Kodak Company began significant investment in d
 eveloping a LED printhead platform at mid-1980. However\, instead of build
 ing a digital printhead with binary states at each pixel\, the LED printhe
 ad technology developed by the Eastman Kodak Company retains the tonal res
 olution capability of 8-bit or higher at each LED pixel mimicking an analo
 g device while dynamically modulates the exposure level of each LED pixel 
 to maximize the benefit of a digital device according to the input image d
 ata\, selected halftone structure and spatial/temporal system calibration 
 parameters.&nbsp\;</p><br /><br />Agenda: <br /><p><strong>CHAPTER TECHNIC
 AL PRESENTATIONS SESSION 2 (5:15 &ndash\; 6:00 PM):&nbsp\;</strong></p>\n<
 p><strong>D. Dynamic LED Printhead Technology and Computational Screening<
 br />&nbsp\; &nbsp\; &nbsp\;Chung Hui Kuo\, PhD\, Eastman Kodak</strong></
 p>\n<p><span style="font-size: 12pt\;">The <em>IEEE Signal Processing Soci
 ety</em> Rochester Chapter <br />is proud to present Chung Hui Kuo at our 
 Section's <br />Joint Chapters Meeting (JCM) on April 26\, 2022.</span><sp
 an style="font-size: 12pt\;">&nbsp\; </span></p>\n<p><span style="font-siz
 e: 12pt\;">Reservations are required to attend the technical sessions\, re
 ception\, dinner and keynote presentatio</span><span style="font-size: 12p
 t\;">n. &nbsp\;</span></p>\n<p><span style="font-size: 12pt\;">To attend t
 his event\, please Register at:</span></p>\n<p><span style="color: #2dc26b
 \;"><strong><a style="color: #2dc26b\; text-decoration: underline\;" title
 ="Main Event" href="https://events.vtools.ieee.org/m/308572" target="_blan
 k" rel="noopener">IEEE Rochester Section Joint Chapters Meeting</a></stron
 g></span></p>
END:VEVENT
END:VCALENDAR