Topics & Keywords - CHIST-ERA Conference 2013
In the Call 2013, to be published in October, two new and hot topics are addressed, namely Adaptive Machines in Complex Environments and Heterogeneous Distributed Computing.
The following topic keywords are given as illustration only. The CHIST-ERA Conference 2013 in Brussels, June 13-14, brings together scientists and CHIST-ERA representatives in order to identify and formulate promising scientific and technological challenges at the frontier of research with a view to refine the scientific content of the Call. You can find more information about the conference in the open letter to the attendants of the conference.
1. Adaptive Machines in Complex Environments
Autonomous systems are set to play an ever-increasing role in society, for example, in service robotics, assistive technologies, advanced manufacturing and many other sectors. To perform effectively and safely, these autonomous systems must be adaptive and perceptive to human requirements. Research in this topic addresses this challenge by developing autonomous systems that are perceptive to human requirements and that have the ability to continuously learn, adapt and improve in “real world” complex environments. These systems should be capable of continuous learning, such that they are able to work alongside humans in a reliable, safe and trust-worthy manner.
- Autonomous and semi-autonomous agents
- Artificial intelligence
- Machine learning
- Predicting, interpreting and responding to human emotions
- Human-machine interaction
- Learning by imitation, observation and reinforcement
- Reliability, safety and security
- Provenance and trust
- Ubiquitous computing
2. Heterogeneous Distributed Computing
Heterogeneous distributed systems have the potential to increase computational performance while reducing energy consumption. The increase in the number of devices per capita, and the challenge of processing ever-increasing amounts of data, require new approaches involving researchers working across system levels. For example, hardware and software researchers working together to develop new approaches leading to improved performance, optimisation, reliability, fault tolerance and energy efficiency of distributed systems.
- Parallel computing
- Distributed architectures
- Fault tolerance
- Energy efficiency