33,221 research outputs found
Earthquake Hazard Safety Assessment of Existing Buildings Using Optimized Multi-Layer Perceptron Neural Network
The latest earthquakes have proven that several existing buildings, particularly in developing countries, are not secured from damages of earthquake. A variety of statistical and machine-learning approaches have been proposed to identify vulnerable buildings for the prioritization of retrofitting. The present work aims to investigate earthquake susceptibility through the combination of six building performance variables that can be used to obtain an optimal prediction of the damage state of reinforced concrete buildings using artificial neural network (ANN). In this regard, a multi-layer perceptron network is trained and optimized using a database of 484 damaged buildings from the DĂĽzce earthquake in Turkey. The results demonstrate the feasibility and effectiveness of the selected ANN approach to classify concrete structural damage that can be used as a preliminary assessment technique to identify vulnerable buildings in disaster risk-management programs
V-ANFIS for Dealing with Visual Uncertainty for Force Estimation in Robotic Surgery
Accurate and robust estimation of applied forces in Robotic-Assisted Minimally Invasive Surgery is a very challenging task. Many vision-based solutions attempt to estimate the force by measuring the surface deformation after contacting the surgical tool. However, visual uncertainty, due to tool occlusion, is a major concern and can highly affect the results' precision. In this paper, a novel design of an adaptive neuro-fuzzy inference strategy with a voting step (V-ANFIS) is used to accommodate with this loss of information. Experimental results show a significant accuracy improvement from 50% to 77% with respect to other proposals.Peer ReviewedPostprint (published version
Validation of Soft Classification Models using Partial Class Memberships: An Extended Concept of Sensitivity & Co. applied to the Grading of Astrocytoma Tissues
We use partial class memberships in soft classification to model uncertain
labelling and mixtures of classes. Partial class memberships are not restricted
to predictions, but may also occur in reference labels (ground truth, gold
standard diagnosis) for training and validation data.
Classifier performance is usually expressed as fractions of the confusion
matrix, such as sensitivity, specificity, negative and positive predictive
values. We extend this concept to soft classification and discuss the bias and
variance properties of the extended performance measures. Ambiguity in
reference labels translates to differences between best-case, expected and
worst-case performance. We show a second set of measures comparing expected and
ideal performance which is closely related to regression performance, namely
the root mean squared error RMSE and the mean absolute error MAE.
All calculations apply to classical crisp classification as well as to soft
classification (partial class memberships and/or one-class classifiers). The
proposed performance measures allow to test classifiers with actual borderline
cases. In addition, hardening of e.g. posterior probabilities into class labels
is not necessary, avoiding the corresponding information loss and increase in
variance.
We implement the proposed performance measures in the R package
"softclassval", which is available from CRAN and at
http://softclassval.r-forge.r-project.org.
Our reasoning as well as the importance of partial memberships for
chemometric classification is illustrated by a real-word application:
astrocytoma brain tumor tissue grading (80 patients, 37000 spectra) for finding
surgical excision borders. As borderline cases are the actual target of the
analytical technique, samples which are diagnosed to be borderline cases must
be included in the validation.Comment: The manuscript is accepted for publication in Chemometrics and
Intelligent Laboratory Systems. Supplementary figures and tables are at the
end of the pd
Land cover classification using fuzzy rules and aggregation of contextual information through evidence theory
Land cover classification using multispectral satellite image is a very
challenging task with numerous practical applications. We propose a multi-stage
classifier that involves fuzzy rule extraction from the training data and then
generation of a possibilistic label vector for each pixel using the fuzzy rule
base. To exploit the spatial correlation of land cover types we propose four
different information aggregation methods which use the possibilistic class
label of a pixel and those of its eight spatial neighbors for making the final
classification decision. Three of the aggregation methods use Dempster-Shafer
theory of evidence while the remaining one is modeled after the fuzzy k-NN
rule. The proposed methods are tested with two benchmark seven channel
satellite images and the results are found to be quite satisfactory. They are
also compared with a Markov random field (MRF) model-based contextual
classification method and found to perform consistently better.Comment: 14 pages, 2 figure
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