- author = "Mehdi Khoury",
- title = "A fuzzy probabilistic inference methodology for constrained 3D human motion classification",
- school = "University of Portsmouth",
- year = "2010",
- address = "UK",
- month = "6 " # oct,
- keywords = "genetic algorithms, genetic programming",
-
URL = "
http://eprints.port.ac.uk/1668/1/mehdi_khoury_thesis_2010.pdf",
-
URL = "
http://eprints.port.ac.uk/id/eprint/1668",
-
URL = "http://ethos.bl.uk/OrderDetails.do?did=1&uin=uk.bl.ethos.523618",
- size = "159 pages",
-
abstract = "Enormous uncertainties in unconstrained human motions
lead to a fundamental challenge that many recognising
algorithms have to face in practice: efficient and
correct motion recognition is a demanding task,
especially when human kinematic motions are subject to
variations of execution in the spatial and temporal
domains, heavily overlap with each other,and are
occluded. Due to the lack of a good solution to these
problems, many existing methods tend to be either
effective but computationally intensive or efficient
but vulnerable to misclassification.
This thesis presents a novel inference engine for recognising occluded 3D human motion assisted by the recognition context. First, uncertainties are wrapped into a fuzzy membership function via a novel method called Fuzzy Quantile Generation which employs metrics derived from the probabilistic quantile function. Then, time-dependent and context-aware rules are produced via a genetic programming to smooth the qualitative outputs represented by fuzzy membership functions. Finally, occlusion in motion recognition is taken care of by introducing new procedures for feature selection and feature reconstruction.
Experimental results demonstrate the effectiveness of the proposed framework on motion capture data from real boxers in terms of fuzzy membership generation, context-aware rule generation, and motion occlusion. Future work might involve the extension of Fuzzy Quantile Generation in order to automate the choice of a probability distribution, the enhancement of temporal pattern recognition with probabilistic paradigms, the optimisation of the occlusion module, and the adaptation of the present framework to different application domains.",
-
notes = "Dr Honghai Liu
PySTEP or Python Strongly Typed gEnetic Programming Open Source package
EThOS ID: uk.bl.ethos.523618",
