DEAN MASON WINKLER
Pilots at Nassau St, New York, NY

License number
New York A3943671
Category
Airmen
Type
Authorized Aircraft Instructor
Address
Address
145 Nassau St APT 8A, New York, NY 10038

Professional information

Dean Winkler Photo 1

Founder / Wci

Position:
Senior Engineer, Production and Post Production at Doha Film Institute, Founder / CTO at LABORATORY, Founder at Winkler Consulting Inc.
Location:
New York, New York
Industry:
Media Production
Work:
Doha Film Institute - Doha, Qatar since May 2013 - Senior Engineer, Production and Post Production LABORATORY - NYC since Mar 2011 - Founder / CTO Winkler Consulting Inc. since Apr 2009 - Founder Crossroads Films Aug 2000 - Apr 2009 - Exec. Producer / CTO Post Perfect 1985 - 2000 - President
Education:
Rensselaer Polytechnic Institute 1975 - 1981
B.S. & M.S., electrical engineering & video art
Skills:
Post Production, Visual Effects, Film, Television, Commercials, Digital Media, Digital Video, Cinematography, Creative Direction, Audio Post Production, Sound Design, Sound, Broadcast, Broadcast Television, Video Production, Producing, Video, HD Video, Social Media, Streaming Media, New Media, Media Production, Web Video, Final Cut Pro, After Effects, Compositing, Entertainment, Motion Graphics
Interests:
Living in Lower Manhattan and The Hudson Valley with wife Shellie, a communications executive. Tireless advocate for increasing the quality of digital music playback. Active skydiver, helicopter and glider pilot.
Honor & Awards:
Dean’s work has been recognized with over 30 Emmy, BDA/Promax, Monitor, ACM Siggraph, Telley, and other awards.


Dean Winkler Photo 2

Programmable Function Generator

US Patent:
4521865, Jun 4, 1985
Filed:
May 28, 1982
Appl. No.:
6/383147
Inventors:
Dean M. Winkler - New York NY
Jeffrey B. Curtis - Silver Spring MD
Aaron J. Heller - Troy NY
International Classification:
G06J 100
US Classification:
364608
Abstract:
A signal consisting of a sequence of contiguous line segments is generated to simulate a function. First programmable inputs define a first parameter (duration) corresponding to each of the line segments. Control signals are generated which are representative of each of the first parameters. A reference voltage representative of a second parameter (end point) corresponding to each of the line segments is generated and stored. The output signal comprises a portion representative of each of the line segments. Each portion is generated over a period determined by the control signal corresponding to the line segment which the portion represents, has an initial value determined by the stored reference voltage corresponding to the previous line segment, and a final value determined by the reference voltage corresponding to the line segment which the portion represents.