PRINCIPLES OF AUTONOMOUS NEURODYNAMICS 2011
July 18-20, 2011
Call For Presentations:
PRINCIPLES OF AUTONOMOUS
A multi-disciplinary meeting exploring free dynamics in networks and the relation of neurodynamics to neurological conditions and autonomous activity.
The 8th annual meeting of the Society for Autonomous Neurodynamics (SAND) will take place on July 18th, 19th and 20th, 2011 at the Bangkok General Hospital and Srinakharinwirot University. We are soliciting participants from a range of fields interested in Autonomous Neurodynamics. If you would like to present work relating to these topics at SAND please send in a 250-word abstract by June 30th, 2011.
Register online at:
Abstracts can also be emailed to: email@example.com
Presentations should be 15 minutes in length. We encourage entries from a diversity of backgrounds and welcome both exploratory and advanced research. Sessions are meant to be fun, dynamic and will include open discussions.
SAND Conference Scope
Bangkok and Thailand Activities
Accessibility and Child Care
Organizing and Scientific Committee
Why Autonomous Neural Systems?
Why Autonomous Neurodynamics and Neurological Conditions?
SAND CONFERENCE SCOPE
Autonomous Neurodynamics describes interactive systems that can change activity both in response to and independently of the environment. Presentations will focus on the theoretical underpinnings and implications of autonomous dynamics in relation to neural activity, cognition, social systems and general network dynamics. Sessions may encompass a broad array of approaches including presentations from mathematics, physics, philosophy, psychology, social studies, legal theory, computational and theoretical neurosciences.
Presentations and roundtable: Monday, July 18 - Wednesday, July 20, 2011
Post-presentation activities: Wednesday, July 20 - Sunday, July 24, 2011
Recommended latest arrival: Sunday, July 17, 2011
Recommended earliest departure, presentations portion only: Thursday, July 21, 2011
Recommended earliest departure, Thailand Expedition participants: Monday, July 25, 2011
Click here for additional information on accommodations.
BANGKOK AND THAILAND ACTIVITIES
Bangkok, the energetic capital of Thailand, is a nexus for urban culture, modern science, traditional healing, and a port of entry to nature. For many participants, this will be the first encounter with this great city that plays an important role in the region and world today. As in previous years, the conference presentations will be followed by an outdoor adventure in which ideas are exchanged and collaborations planned in a more informal, free and dynamic environment. This year the post-presentation events include a trip to Thailand's mountains and possibilities for diving, yoga and meditation.
Additional excursion information will be made available on this page.
ACCESSIBILITY AND CHILD CARE
All presentations will take place in wheelchair accessible venues. Limited grants to assist with child care arrangements may be available, please indicate requirement during online registration.
SAND conference presentations typically encompass a wide range of themes that have included:
Physiology, Sensorimotor Systems & Behavior
Neurogenetics and Pathobiology
Hormones and Reproduction
Nutrition and Biochemistry
Neurology and Clinical Perspectives
Dynamical Systems / Nonlinear Analysis
Embodied Modeling / Autonomous Agents
Cognitive Science & Cognitive Neuroscience
Gender Studies, Social Sciences, Social Work
Computation and Information Processing
Philosophy of Mind / Epistemology / Metaphysics
The Role of Noise / Stochasticity / Randomness
In addition to these topics we welcome novel approaches and interdisciplinary research that can synthesize findings from various fields. Presentations may also consider the implications of research findings on ethical theory, autonomy and health. This year, we particularly encourage discussion of the social and environmental factors that restrict and enable autonomy. We also encourage presentations that examine changes in neurodynamics in neurological conditions such as epilepsy, Parkinson's, and Alzheimer's that can have a tremendous impact on an individual's autonomy and quality of life. Investigations may also include more common conditions in which changes in neural dynamics impact volitional activity such as sleep.
ORGANIZING AND SCIENTIFIC COMMITTEE:
- Yotin Chinvarun, Bangkok General Hospital and Srinakharinwirot University (CHAIR)
- Peter Carlen, University of Toronto, Toronto Western Research Institute, Canada (CO-CHAIR)
- Elan Liss Ohayon, University of California San Diego & Salk Institute, USA (CO-CHAIR)
- Marija Cotic, University of Toronto, Canada
- Kathryn Hum, University of Toronto Epilepsy Research Program, Canada
- Melanie Jeffrey, University of Toronto Epilepsy Research Program, University of Toronto, Canada
- Stiliyan Kalitzin, Dutch Epilepsy Clinics Foundation (SEIN), The Netherlands
- Ann Lam, Laboratory for Cognitive Neuroscience, Salk Institute, USA
- Piotr Suffczynski, Warsaw University, Poland
- Ping Wang, Computational Neurobiology Laboratory (CNL), Salk Institute, USA
WHY AUTONOMOUS NEURAL SYSTEMS?
Clearly neural systems can perform incredibly complex computations but what are the features that underlie their autonomy? How do healthy embodied brains remain independent from the dynamics of the world while also being responsive? How do neural networks find balance yet avoid infinite repetition or silence?
Emerging techniques in complexity sciences and neural modeling provide the tools to explore dynamics in such systems but have yet to explain how daily computational tasks are accomplished in a continuous and autonomous fashion. These questions regarding system autonomy are often independently explored in physics, mathematics, philosophy and other fields. The issue of increasing freedom in systems is at the foundations of cognitive and social sciences.
WHY AUTONOMOUS NEURODYNAMICS AND NEUROLOGICAL CONDITIONS?
The most devastating aspect of a neurological condition is often the impact on independent activity. For example, in epilepsy the changes in neurodynamics result in an acute and often devastating loss of freedom, in which an individual's autonomy is lost and regained in very sudden and dramatic ways. The generally unpredictable nature of this transition to a state of partial or total functional neuronal impairment makes epilepsy more a dynamical system condition than a product of any single factor. Why and how does the transition occur and why and how does the epileptic state terminate? Are these transitional states a by-product of a complex neuronal system meant for autonomous operation in changing environments? Do these transitions hint at fundamental neuronal mechanisms? At the other extreme, aging is an example of a process in which changes to neurodynamics come about very gradually but can be no less devastating.
Neuroscience researchers are often focused on controlling phenomena, forgetting that an important goal is to increase individual autonomy. There are many routes to changing neural dynamics, the difficulty is ensuring that as a consequence the individual becomes more autonomous rather than less so. What can theories of autonomous systems tell us about treating these conditions? What can these conditions tell us about how complex systems maintain freedom in the environment?
The first meeting of the Society for Autonomous Neurodynamics was held at the University of Toronto, in August 2004. Subsequent meetings took place at the Institute of Experimental Physics, Warsaw University (2005), the Marine Biology Station, Eilat (2006), Laval University, Quebec (2007), SEIN in the Netherlands (2008), the University of California San Diego (UCSD) & the Salk Institute for Biological Studies in La Jolla, California (2009). SAND returned to the University of Toronto for the 2010 meeting.
The meetings have included empirical scientists, theoreticians and personal reports. They have proven to be cognitively intense, high-energy, autonomous events in a fun and informal atmosphere. The gatherings also mark the continuation of an international collaboration on the subject between researchers in the Netherlands and Canada including the Dutch Epilepsy Clinics Foundation (SEIN), the University of Amsterdam and the University of Toronto Epilepsy Program.