20 research outputs found
Semantic Processing of Out-Of-Vocabulary Words in a Spoken Dialogue System
One of the most important causes of failure in spoken dialogue systems is
usually neglected: the problem of words that are not covered by the system's
vocabulary (out-of-vocabulary or OOV words). In this paper a methodology is
described for the detection, classification and processing of OOV words in an
automatic train timetable information system. The various extensions that had
to be effected on the different modules of the system are reported, resulting
in the design of appropriate dialogue strategies, as are encouraging evaluation
results on the new versions of the word recogniser and the linguistic
processor.Comment: 4 pages, 2 eps figures, requires LaTeX2e, uses eurospeech.sty and
epsfi
Segmentation of Photovoltaic Module Cells in Electroluminescence Images
High resolution electroluminescence (EL) images captured in the infrared
spectrum allow to visually and non-destructively inspect the quality of
photovoltaic (PV) modules. Currently, however, such a visual inspection
requires trained experts to discern different kinds of defects, which is
time-consuming and expensive. Automated segmentation of cells is therefore a
key step in automating the visual inspection workflow. In this work, we propose
a robust automated segmentation method for extraction of individual solar cells
from EL images of PV modules. This enables controlled studies on large amounts
of data to understanding the effects of module degradation over time-a process
not yet fully understood. The proposed method infers in several steps a
high-level solar module representation from low-level edge features. An
important step in the algorithm is to formulate the segmentation problem in
terms of lens calibration by exploiting the plumbline constraint. We evaluate
our method on a dataset of various solar modules types containing a total of
408 solar cells with various defects. Our method robustly solves this task with
a median weighted Jaccard index of 94.47% and an score of 97.54%, both
indicating a very high similarity between automatically segmented and ground
truth solar cell masks