A condition-independent framework for the classification of error-related brain activity

Sensor-level human brain activity is studied during real and imaginary motor execution using functional near-infrared spectroscopy (fNIRS). Blood oxygenation and deoxygenation spatial dynamics exhibit pronounced hemispheric lateralization when performing motor tasks with the left and right hands. This fact allowed us to reveal biomarkers of hemodynamical response of the motor cortex on the motor execution, and use them for designing a sensing method for classification of the type of movement. The recognition accuracy of real movements is close to 100%, while the classification accuracy of imaginary movements is lower but quite high (at the level of 90%). The advantage of the proposed method is its ability to classify real and imaginary movements with sufficiently high efficiency without the need for recalculating parameters. The proposed system can serve as a sensor of motor activity to be used for neurorehabilitation after severe brain injuries, including traumas and strokes.

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Classification of Error in Abdominal Imaging: Pearls and Pitfalls for Radiologists

Canadian Association of Radiologists Journal ◽

10.1016/j.carj.2018.06.006 ◽

2018 ◽

Vol 69 (4) ◽

pp. 409-416 ◽

Cited By ~ 1

Author(s):

Csilla Egri ◽

Kathryn E. Darras ◽

Elena P. Scali ◽

Alison C. Harris

Keyword(s):

Peer Review ◽

Diagnostic Errors ◽

Diagnostic Error ◽

Abdominal Imaging ◽

Patient Harm ◽

Contributing Factors ◽

Abdominal Radiology ◽

Pictorial Review ◽

Classification Of Error

Peer review for radiologists plays an important role in identifying contributing factors that can lead to diagnostic errors and patient harm. It is essential that all radiologists be aware of the multifactorial causes of diagnostic error in radiology and the methods available to reduce it. This pictorial review provides readers with an overview of common errors that occur in abdominal radiology and strategies to reduce them. This review aims to make readers more aware of pitfalls in abdominal imaging so that these errors can be avoided in the future. This essay also provides a systematic approach to classifying abdominal imaging errors that will be of value to all radiologists participating in peer review.

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Classification of Error-Correcting Coded Data Using Multidimensional Feature Vectors

Advances in Intelligent Systems and Computing - Proceedings of Fourth International Conference on Soft Computing for Problem Solving ◽

10.1007/978-81-322-2220-0_24 ◽

2014 ◽

pp. 303-312 ◽

Cited By ~ 1

Author(s):

Rajesh Asthana ◽

Anand Sharma ◽

Ram Ratan ◽

Neelam Verma

Keyword(s):

Feature Vectors ◽

Classification Of Error

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Classification of Error Correction Methods, a Broad View

Smart and Flexible Digital-to-Analog Converters ◽

10.1007/978-94-007-0347-6_7 ◽

2011 ◽

pp. 85-94

Author(s):

Georgi Radulov ◽

Patrick Quinn ◽

Hans Hegt ◽

Arthur van Roermund

Keyword(s):

Error Correction ◽

Broad View ◽

Classification Of Error

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Classification Algorithms for EEG-Based Brain-Computer Interface

Advances in Medical Technologies and Clinical Practice - Advanced Classification Techniques for Healthcare Analysis ◽

10.4018/978-1-5225-7796-6.ch003 ◽

2019 ◽

pp. 52-73

Author(s):

Sravanth Kumar Ramakuri ◽

Chinmay Chakraboirty ◽

Anudeep Peddi ◽

Bharat Gupta

Keyword(s):

Brain Activity ◽

Biomedical Signal Processing ◽

Computer Interface ◽

Eeg Signals ◽

Large Sets ◽

Eeg Data ◽

Important Measurement ◽

The Brain

In recent years, a vast research is concentrated towards the development of electroencephalography (EEG)-based human-computer interface in order to enhance the quality of life for medical as well as nonmedical applications. The EEG is an important measurement of brain activity and has great potential in helping in the diagnosis and treatment of mental and brain neuro-degenerative diseases and abnormalities. In this chapter, the authors discuss the classification of EEG signals as a key issue in biomedical research for identification and evaluation of the brain activity. Identification of various types of EEG signals is a complicated problem, requiring the analysis of large sets of EEG data. Representative features from a large dataset play an important role in classifying EEG signals in the field of biomedical signal processing. So, to reduce the above problem, this research uses three methods to classify through feature extraction and classification schemes.

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Taxonomy and Epidemiology of Error in Radiology

Error and Uncertainty in Diagnostic Radiology ◽

10.1093/med/9780190665395.003.0002 ◽

2019 ◽

pp. 29-74

Author(s):

Michael A. Bruno

Keyword(s):

Working Memory ◽

Cognitive Biases ◽

Confirmation Bias ◽

Diagnostic Error ◽

Attentional Focus ◽

Relative Contribution ◽

Anchoring Bias ◽

Classification Of Error

This chapter provides an overview of the prevalence and classification of error types in radiology, including the frequency and types of errors made by radiologists. We will review the relative contribution of perceptual error—in which findings are simply not seen—as compared to other common types of error. This error epidemiology will be considered in the light of the underlying variability and uncertainties present in the radiological process. The role of key cognitive biases will also be reviewed, including anchoring bias, confirmation bias, and availability bias. The role of attentional focus, working memory, and problems caused by fatigue and interruption will also be explored. Finally, the problem of radiologist error will be considered in the context of the overall problem of diagnostic error in medicine.

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Automatic Classification of Error Types in Solutions to Programming Assignments at Online Learning Platform

Lecture Notes in Computer Science - Artificial Intelligence in Education ◽

10.1007/978-3-030-23207-8_33 ◽

2019 ◽

pp. 174-178

Author(s):

Artyom Lobanov ◽

Timofey Bryksin ◽

Alexey Shpilman

Keyword(s):

Online Learning ◽

Automatic Classification ◽

Learning Platform ◽

Classification Of Error ◽

Error Types

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FEATURES EXTRACTION METHOD FOR BRAIN-MACHINE COMMUNICATION BASED ON THE EMPIRICAL MODE DECOMPOSITION

Biomedical Engineering Applications Basis and Communications ◽

10.4015/s1016237213500580 ◽

2013 ◽

Vol 25 (06) ◽

pp. 1350058 ◽

Cited By ~ 2

Author(s):

Pablo F. Diez ◽

Vicente A. Mut ◽

Eric Laciar ◽

Abel Torres ◽

Enrique M. Avila Perona

Keyword(s):

Empirical Mode Decomposition ◽

Communication System ◽

Brain Activity ◽

Features Extraction ◽

Eeg Signals ◽

Linear Discriminant ◽

Mode Decomposition ◽

Machine Communication ◽

Mental Tasks

A brain-machine interface (BMI) is a communication system that translates human brain activity into commands, and then these commands are conveyed to a machine or a computer. It is proposes a technique for features extraction from electroencephalographic (EEG) signals and afterward, their classification on different mental tasks. The empirical mode decomposition (EMD) is a method capable of processing non-stationary and nonlinear signals, as the EEG. The EMD was applied on EEG signals of seven subjects performing five mental tasks. Six features were computed, namely, root mean square (RMS), variance, Shannon entropy, Lempel–Ziv complexity value, and central and maximum frequencies. In order to reduce the dimensionality of the feature vector, the Wilks' lambda (WL) parameter was used for the selection of the most important variables. The classification of mental tasks was performed using linear discriminant analysis (LDA) and neural networks (NN). Using this method, the average classification over all subjects in database is 91 ± 5% and 87 ± 5% using LDA and NN, respectively. Bit rate was ranging from 0.24 bits/trial up to 0.84 bits/trial. The proposed method allows achieving higher performances in the classification of mental tasks than other traditional methods using the same database. This represents an improvement in the brain-machine communication system.

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