A modified dendritic cell algorithm for on-line error detection in robotic systems
CEC'09 Proceedings of the Eleventh conference on Congress on Evolutionary Computation
Anomaly detection inspired by immune network theory: a proposal
CEC'09 Proceedings of the Eleventh conference on Congress on Evolutionary Computation
Hybrid detector based negative selection algorithm
WiCOM'09 Proceedings of the 5th International Conference on Wireless communications, networking and mobile computing
Self-organisation for survival in complex computer architectures
SOAR'09 Proceedings of the First international conference on Self-organizing architectures
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This paper presents an immune-inspired adaptable error detection (AED) framework for automated teller machines (ATMs). This framework has two levels: one is local to a single ATM, while the other is network-wide. The framework employs vaccination and adaptability analogies of the immune system. For discriminating between normal and erroneous states, an immune-inspired one-class supervised algorithm was employed, which supports continual learning and adaptation. The effectiveness of the proposed approach was confirmed in terms of classification performance and impact on availability. The overall results are encouraging as the downtime of ATMs can de reduced by anticipating the occurrence of failures before they actually occur.