The Qualitative Reasoning (QR) community develops qualitative representations to understand the world from incomplete,
imprecise, or uncertain data. Our qualitative models span natural systems (e.g., physics, biology, ecology, geology),
social systems (e.g., economics, cultural decision-making), cognitive systems (e.g., conceptual learning, spatial reasoning,
intelligent tutors, robotics), and more.
The QR community includes researchers in Artificial Intelligence, Engineering, Cognitive Science, Applied Mathematics,
and Natural Sciences, commonly seeking to understand, develop, and exploit the ability to reason qualitatively.
This broadly includes:
Developing new formalisms and algorithms for qualitative reasoning.
Building and evaluating predictive, prescriptive, diagnostic, or explanatory qualitative models in novel domains.
Characterizing how humans learn and reason qualitatively about the (physical) world with incomplete knowledge.
Developing novel, formal representations to describe central aspects of our world: time, space, change, uncertainty, causality, and continuity.
The International Workshop on QR provides a forum for researchers from multiple perspectives to share
research progress toward these goals. The workshop will be held at IJCAI-ECAI-2018,
Stockholm, Sweden (see Dates).
Topics of interest include (but are not restricted to):
Qualitative modeling in physical, biological and social sciences, and in engineering.
Representations and techniques for QR.
Methods that integrate QR with other forms of knowledge representation and computational approaches, including quantitative and semi-quantitative methods and machine learning.
Using QR for diagnosis, design, and monitoring of physical systems.
Applications of QR, including education, science, and engineering.
Cognitive models of QR, including the use of existing QR formalisms for cognitive modeling and
results from other areas of cognitive science for qualitative reasoning.
Using QR in understanding language, decision-making, sketches, images, and other kinds of signals and data sources.
Formalization, axiomatization, and mathematical foundations of QR.
- QR2017 (Melbourne, Austrailia)
- QR2016 (New York City, NY, USA)
- QR2015 (Minneapolis, USA)
- QR2013 (Bremen, Germany)
- QR2012 (Playa Vista, USA)
- QR2011 (Barcelona, Spain)
- QR2010 (Portland, USA)
- QR2009 (Ljubljana, Slovenia)
- QR2008 (Boulder, USA)
Further information on past workshops can be found
via QR proceedings archive.
In cooperation with: