Your search keyword '"Feature extraction algorithms"' showing total 3 results

1. Real-Time Motor Fault Detection by 1-D Convolutional Neural Networks

Author

Serkan Kiranyaz, Levent Eren, Moncef Gabbouj, Murat Askar, and Turker Ince

Subjects

Computer science, Computational costs, Feature extraction, Feature extraction and classification, Real-time application, Extraction, Convolutional neural network, 02 engineering and technology, Machine learning, computer.software_genre, Fault detection and isolation, Feature extraction algorithms, 0202 electrical engineering, electronic engineering, information engineering, Electrical and Electronic Engineering, Sub-optimal choices, Motor current signature analysis, Classification (of information), Artificial neural network, business.industry, Deep learning, 020208 electrical & electronic engineering, Condition monitoring, Pattern recognition, Convolution, Control and Systems Engineering, 020201 artificial intelligence & image processing, Artificial intelligence, business, Fault detection, computer, Neural networks, Induction motor, Adaptive designs

Abstract

Early detection of the motor faults is essential and artificial neural networks are widely used for this purpose. The typical systems usually encapsulate two distinct blocks: feature extraction and classification. Such fixed and hand-crafted features may be a suboptimal choice and require a significant computational cost that will prevent their usage for real-time applications. In this paper, we propose a fast and accurate motor condition monitoring and early fault-detection system using 1-D convolutional neural networks that has an inherent adaptive design to fuse the feature extraction and classification phases of the motor fault detection into a single learning body. The proposed approach is directly applicable to the raw data (signal), and, thus, eliminates the need for a separate feature extraction algorithm resulting in more efficient systems in terms of both speed and hardware. Experimental results obtained using real motor data demonstrate the effectiveness of the proposed method for real-time motor condition monitoring. Scopus

Published

2016

2. Personalized Offline and Pseudo-Online BCI Models to Detect Pedaling Intent

Author

Marisol Rodríguez-Ugarte, José M. Azorín, Mario Ortiz, and Eduardo Iáñez

Subjects

030506 rehabilitation, Stroke patient, Computer science, electrode configurations, Interface (computing), Biomedical Engineering, Neuroscience (miscellaneous), Context (language use), Machine learning, computer.software_genre, personalized brain-computer interfaces, lcsh:RC321-571, 03 medical and health sciences, 0302 clinical medicine, False positive paradox, lcsh:Neurosciences. Biological psychiatry. Neuropsychiatry, Brain–computer interface, Original Research, business.industry, Process (computing), Computer Science Applications, Exoskeleton, feature extraction algorithms, pseudo-online, pedaling intention, Artificial intelligence, 0305 other medical science, business, computer, Feature extraction algorithm, 030217 neurology & neurosurgery, offline, Neuroscience

Abstract

The aim of this work was to design a personalized BCI model to detect pedaling intention through EEG signals. The approach sought to select the best among many possible BCI models for each subject. The choice was between different processing windows, feature extraction algorithms and electrode configurations. Moreover, data was analyzed offline and pseudo-online (in a way suitable for real-time applications), with a preference for the latter case. A process for selecting the best BCI model was described in detail. Results for the pseudo-online processing with the best BCI model of each subject were on average 76.7% of true positive rate, 4.94 false positives per minute and 55.1% of accuracy. The personalized BCI model approach was also found to be significantly advantageous when compared to the typical approach of using a fixed feature extraction algorithm and electrode configuration. The resulting approach could be used to more robustly interface with lower limb exoskeletons in the context of the rehabilitation of stroke patients.

Published

2017

3. A feature extraction software tool for agricultural object-based image analysis

Author

A. Fernández-Sarría, Txomin Hermosilla, Luis A. Ruiz, and J. A. Recio

Subjects

Semivariogram, Computer science, Semivariograms, Transform, Shapefile, computer.software_genre, Software testing, Image analysis, Input output programs, Hough transform, law.invention, Co-occurrence-matrix, Digital image, Numeric values, Software, Spatial arrangements, Feature extraction algorithms, law, Agricultural land, Grey levels, Input datas, Object based image analysis, Spectral information, Land use/land cover, Classification (of information), Contextual image classification, Dynamic tools, Extraction procedure, Spatial database, Forestry, computer.file_format, Remote sensing, Intensity values, Computer Science Applications, Data processing, Algorithm, Processing time, Agricultural database updating, Feature extraction, Data sets, Data mining, Land cover, Spectral resolution, Geo-spatial database, Image classification, Object shape, High resolution digital images, Software tool, Numerical method, Horticulture, Image band, Descriptors, Database, Wavelet transforms, Texture, business.industry, Parcel-based, Hough transforms, Multi-spectral, Software applications, Co-occurrence matrix, Database systems, Land use, INGENIERIA CARTOGRAFICA, GEODESIA Y FOTOGRAMETRIA, business, Agronomy and Crop Science, computer, Structural feature

Abstract

A software application for automatic descriptive feature extraction from image-objects, FETEX 2.0, is presented and described in this paper. The input data include a multispectral high resolution digital image and a vector file in shapefile format containing the polygons or objects, usually extracted from a geospatial database. The design of the available descriptive features or attributes has been mainly focused on the description of agricultural parcels, providing a variety of information: spectral information from the different image bands; textural descriptors of the distribution of the intensity values based on the grey level co-occurrence matrix, the wavelet transform and a factor of edgeness; structural features describing the spatial arrangement of the elements inside the objects, based on the semivariogram curve and the Hough transform; and several descriptors of the object shape. The output file is a table that can be produced in four alternative formats, containing a vector of features for every object processed. This table of numeric values describing the objects from different points of view can be externally used as input data for any classification software. Additionally, several types of graphs and images describing the feature extraction procedure are produced, useful for interpretation and understanding the process. A test of the processing times is included, as well as an application of the program in a real parcel-based classification problem, providing some results and analyzing the applicability, the future improvement of the methodologies, and the use of additional types of data sets. This software is intended to be a dynamic tool, integrating further data and feature extraction algorithms for the progressive improvement of land use/land cover database classification and agricultural database updating processes. © 2011 Elsevier B.V., The authors appreciate the financial support provided by the Spanish Ministerio de Ciencia e Innovacion and the FEDER in the framework of the Project CGL2009-14220 and CGL2010-19591/BTE, the Spanish Institut Geografico Nacional (IGN), Institut Cartografico Valenciano (ICV), Institut Murciano de Investigacion y Desarrollo Agrario y Alimentario (IMIDA) and Banco de Terras de Galicia (Bantegal).

Published

2011