ACM Symposium on User Interface Software and Technology

The ACM Symposium on User Interface Software and Technology (UIST) is an annual conference for technical innovations in human–computer interfaces. UIST is sponsored by ACM SIGCHI and ACM SIGGRAPH. By impact factor, it is one of impactful conferences in the field of human–computer interaction.[1] Scott Hudson is the current chair of the UIST community, which organizes the UIST conference.

UIST 2014 was held in Honolulu, Hawaii, USA, 5–8 October 2014. UIST 2015 will be held in Charlotte, NC USA, 8–11 November 2015.

Overview

UIST is a highly selective conference, with an acceptance rate of 20.3% over the last five years.[2]

History

[3] Through 2013, UIST was well known for its intimate single-track format. UIST 2014 introduced a new dual-track format.

Past Conferences

Past[4] and future UIST conferences include:

Year City Country Program Chair General Chair(s) Website
2019 New Orleans USA Michael Bernstein, Katharina Reinecke François Guimbretière http://www.acm.org/uist/uist2019/
2018 Berlin Germany Andrew D. Wilson Patrick Baudisch, Albrecht Schmidt http://www.acm.org/uist/uist2018/
2017 Quebec City Canada Chris Harrison, Jen Mankoff Krzysztof Gajos http://www.acm.org/uist/uist2017/
2016 Tokyo Japan Jacob O. Wobbrock, Daniel Avrahami Jun Rekimoto, Takeo Igarashi http://www.acm.org/uist/uist2016/
2015 Charlotte, NC US Björn Hartmann, Tovi Grossman Celine Latulipe http://www.acm.org/uist/uist2015/
2014 Honolulu, HI US Mira Dontcheva, Daniel Wigdor Hrvoje Benko http://www.acm.org/uist/uist2014/
2013 St Andrews UK Ivan Poupyrev, Takeo Igarashi Shahram Izadi, Aaron Quigley http://www.acm.org/uist/uist2013/
2012 Cambridge, MA US Hrvoje Benko, Celine Latulipe Rob Miller http://www.acm.org/uist/uist2012/
2011 Santa Barbara, CA US Maneesh Agrawala, Scott Klemmer Jeff Pierce http://www.acm.org/uist/uist2011/
2010 New York City US Mary Czerwinski, Rob Miller Ken Perlin http://www.acm.org/uist/uist2010/
2009 Victoria, BC Canada François Guimbretière Andrew D. Wilson http://www.acm.org/uist/uist2009/
2008 Monterey, CA US Michel Beaudouin-Lafon Steve Cousins http://www.acm.org/uist/uist2008/
2007 Newport, RI US Ravin Balakrishnan Chia Shen / Rob Jacob http://www.acm.org/uist/uist2007/
2006 Montreux Switzerland Ken Hinckley Pierre Wellner http://www.acm.org/uist/uist2006/
2005 Seattle, WA US Dan Olsen Patrick Baudisch / Mary Czerwinski http://www.acm.org/uist/uist2005/
2004 Santa Fe, New Mexico US James Landay Steve Feiner http://www.acm.org/uist/uist2004/
2003 Vancouver, BC Canada Gregory Abowd / Blair MacIntyre Joseph A. Konstan http://www.acm.org/uist/uist2003/
2002 Paris France W. Keith Edwards Michel Beaudouin-Lafon http://www.acm.org/uist/uist2002/
2001 Orlando, FL US Beth Mynatt Joe Marks http://www.acm.org/uist/uist2001/
2000 San Diego, CA US Scott Hudson Mark Ackerman / W. Keith Edwards http://www.acm.org/uist/uist2000/
1999 Asheville, NC US Joe Marks Brad Vander Zanden http://www.acm.org/uist/uist1999/
1998 San Francisco, CA US Rob Jacob Elizabeth Mynatt http://www.acm.org/uist/uist1998/
1997 Banff, Alberta Canada Chris Schmandt George Robertson http://www.acm.org/uist/uist1997/
1996 Seattle, WA US Marc Brown David Kurlander http://www.acm.org/uist/uist1996/
1995 Pittsburgh, PA US George Robertson Brad A. Myers http://www.acm.org/uist/uist1995/
1994 Marina del Rey, CA US Steve Feiner Pedro Szekely http://www.acm.org/uist/uist1994/
1993 Atlanta, GA US Randy Pausch Scott Hudson
1992 Monterey, CA US Mark Green Jock Mackinlay / Mark Green
1991 Hilton Head, SC US Jock Mackinlay James R. Rhyne
1990 Snowbird, UT US Scott Hudson Dan Olsen
1989 Williamsburg, VA US Dan Olsen John Sibert
1988 Banff, Alberta Canada John Sibert Mark Green
gollark: No, it's as hot as the rest of the CPU, roughly.
gollark: > The ES runs asynchronously on a self-timed circuit and uses thermal noise within the silicon to output a random stream of bits at the rate of 3 GHz. The ES needs no dedicated external power supply to run, instead using the same power supply as other core logic. The ES is designed to function properly over a wide range of operating conditions, exceeding the normal operating range of the processor.It isn't very specific.
gollark: https://www.intel.com/content/www/us/en/developer/articles/guide/intel-digital-random-number-generator-drng-software-implementation-guide.html
gollark: I vaguely remember reading that they or some similar system use thermal noise measured with a ring oscillator.
gollark: Really? How interesting.

References


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