Workshop "Active Learning: Applications, Foundations and Emerging Trends"
vincent...@orange.com
link : http://www.uni-kassel.de/go/al-ijcnn
While the number of machine learning applications and the volume of data increases, resources like the capacities of processing systems or human supervisors remain limited. This makes active learning techniques an important but challenging research topic. Active Learning bridges the gap between data-centric and user-centric approaches by optimizing their interaction, e.g., by selecting the most relevant information, by performing the most informative experiment, or by selecting solely the most informative data for processing. Thereby, it enables efficient allocation of limited resources, thus reducing costs in terms of time (e.g., human effort or processing time) and money.
Active Learning is a very
useful methodology in on-line industrial applications to minimize the
effort for sample annotation and measurements of "target" values (e.g.,
quality criteria). It further reduces the computation load of machine
learning and data mining tools, as embedded models are only updated
based on a subset of samples selected by the implemented active learning
technique. Especially, in cost-intensive areas like medical
applications (e.g., diagnostic support, brain-computer interfaces) the
efficient use of expert knowledge is crucial.
However, there are several recent research directions, open problems, and challenges in active learning, which ideally should be addressed and discussed in this workshop.
Thus, we welcome contributions on active learning that address aspects including, but not limited to:
- new active learning methods and models,
- active learning for recent complex model structures, such as (deep) neural networks or extreme learning machines,
- applications and real-world deployment of active learning, new interactive learning protocols and application scenarios, e.g., brain-computer interfaces, crowdsourcing, etc.,
- evaluation of active learning and comparative studies,
- active learning for big data and evolving datastreams,
- active learning applications, e.g., in industry,
- active class or feature selection,
- active filtering, forgetting, or resampling,
- active, user-centric approaches for selection of information,
- combinations with change detection or transfer learning, or
- innovative use of active learning techniques, e.g., for detection of outliers, frauds, or attacks.