Interactive machine learning for health informatics: when do we need the human-in-the-loop?

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Abstract

Machine learning (ML) is the fastest growing field in computer science, and health informatics is among the greatest challenges. The goal of ML is to develop algorithms which can learn and improve over time and can be used for predictions. Most ML researchers concentrate on automatic machine learning (aML), where great advances have been made, for example, in speech recognition, recommender systems, or autonomous vehicles. Automatic approaches greatly benefit from big data with many training sets. However, in the health domain, sometimes we are confronted with a small number of data sets or rare events, where aML-approaches suffer of insufficient training samples. Here interactive machine learning (iML) may be of help, having its roots in reinforcement learning, preference learning, and active learning. The term iML is not yet well used, so we define it as “algorithms that can interact with agents and can optimize their learning behavior through these interactions, where the agents can also be human.” This “human-in-the-loop” can be beneficial in solving computationally hard problems, e.g., subspace clustering, protein folding, or k-anonymization of health data, where human expertise can help to reduce an exponential search space through heuristic selection of samples. Therefore, what would otherwise be an NP-hard problem, reduces greatly in complexity through the input and the assistance of a human agent involved in the learning phase.

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A. L. Samuel (1959)

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Catastrophic forgetting in connectionist networks.

R. French (1999)

All natural cognitive systems, and, in particular, our own, gradually forget previously learned information. Plausible models of human cognition should therefore exhibit similar patterns of gradual forgetting of old information as new information is acquired. Only rarely does new learning in natural cognitive systems completely disrupt or erase previously learned information; that is, natural cognitive systems do not, in general, forget 'catastrophically'. Unfortunately, though, catastrophic forgetting does occur under certain circumstances in distributed connectionist networks. The very features that give these networks their remarkable abilities to generalize, to function in the presence of degraded input, and so on, are found to be the root cause of catastrophic forgetting. The challenge in this field is to discover how to keep the advantages of distributed connectionist networks while avoiding the problem of catastrophic forgetting. In this article the causes, consequences and numerous solutions to the problem of catastrophic forgetting in neural networks are examined. The review will consider how the brain might have overcome this problem and will also explore the consequences of this solution for distributed connectionist networks.

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Author and article information

Contributors

Andreas Holzinger:

ORCID: http://orcid.org/0000-0002-6786-5194

a.holzinger@hci-kdd.org

Bio :

Andreas Holzinger

is lead of the Holzinger Group, head of the Research Unit HCI-KDD at the Institute for Medical Informatics, Statistics and Documentation at the Medical University Graz, and Associate Professor of Applied Computer Science at the Institute of Information Systems and Computer Media at Graz University of Technology. Currently, Andreas is Visiting Professor for Machine Learning in Health Informatics at the Faculty of Informatics at Vienna University of Technology. His research interests are in supporting human intelligence with machine learning to help to solve problems in biomedical informatics and the life sciences. Andreas obtained a Ph.D. in Cognitive Science from Graz University in 1998 and his Habilitation (second Ph.D.) in Computer Science from Graz University of Technology in 2003. Andreas was Visiting Professor in Berlin, Innsbruck, London (2 times), and Aachen. Andreas founded the Expert Network HCI-KDD to foster a synergistic combination of methodologies of two areas that offer ideal conditions toward unraveling problems in understanding complex data: Human-Computer Interaction (HCI) and Knowledge Discovery/Data Mining (KDD), with the goal of supporting human intelligence with machine learning for knowledge discovery. Andreas is Associate Editor of Knowledge and Information Systems (KAIS), and member of IFIP WG 12.9 Computational Intelligence.

Journal

Journal ID (nlm-ta): Brain Inform

Journal ID (iso-abbrev): Brain Inform

Title: Brain Informatics

Publisher: Springer Berlin Heidelberg (Berlin/Heidelberg )

ISSN (Print): 2198-4018

ISSN (Electronic): 2198-4026

Publication date (Electronic): 2 March 2016

Publication date PMC-release: 2 March 2016

Publication date Collection: June 2016

Volume: 3

Issue: 2

Pages: 119-131

Affiliations

[1 ]Research Unit, HCI-KDD, Institute for Medical Informatics, Statistics & Documentation, Medical University Graz, Graz, Austria

[2 ]Institute for Information Systems and Computer Media, Graz University of Technology, Graz, Austria

Author information

Andreas Holzinger http://orcid.org/0000-0002-6786-5194

Article

Publisher ID: 42

DOI: 10.1007/s40708-016-0042-6

PMC ID: 4883171

PubMed ID: 27747607

SO-VID: 7d4a18ec-7c07-4202-a996-ce6eac1e60f2

License:

Open AccessThis article is distributed under the terms of the Creative Commons Attribution 4.0 International License ( http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution, and reproduction in any medium, provided you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made.

History

Date received : 13 December 2015

Date accepted : 11 February 2016

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Keywords: interactive machine learning,health informatics

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Keywords: interactive machine learning, health informatics

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Interactive machine learning for health informatics: when do we need the human-in-the-loop?

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Most cited references 56

Some Studies in Machine Learning Using the Game of Checkers

An Essay towards Solving a Problem in the Doctrine of Chances. By the Late Rev. Mr. Bayes, F. R. S. Communicated by Mr. Price, in a Letter to John Canton, A. M. F. R. S.

Catastrophic forgetting in connectionist networks.

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Cited by 194

Most referenced authors 762