Emotion and Stress Recognition Related Sensors and Machine Learning Technologies
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| Autore: |
Kyamakya Kyandoghere
|
| Titolo: |
Emotion and Stress Recognition Related Sensors and Machine Learning Technologies
|
| Pubblicazione: | Basel, Switzerland, : MDPI - Multidisciplinary Digital Publishing Institute, 2021 |
| Descrizione fisica: | 1 electronic resource (550 p.) |
| Soggetto topico: | Technology: general issues |
| Soggetto non controllato: | subject-dependent emotion recognition |
| subject-independent emotion recognition | |
| electrodermal activity (EDA) | |
| deep learning | |
| convolutional neural networks | |
| automatic facial emotion recognition | |
| intensity of emotion recognition | |
| behavioral biometrical systems | |
| machine learning | |
| artificial intelligence | |
| driving stress | |
| electrodermal activity | |
| road traffic | |
| road types | |
| Viola-Jones | |
| facial emotion recognition | |
| facial expression recognition | |
| facial detection | |
| facial landmarks | |
| infrared thermal imaging | |
| homography matrix | |
| socially assistive robot | |
| EEG | |
| arousal detection | |
| valence detection | |
| data transformation | |
| normalization | |
| mental stress detection | |
| electrocardiogram | |
| respiration | |
| in-ear EEG | |
| emotion classification | |
| emotion monitoring | |
| elderly caring | |
| outpatient caring | |
| stress detection | |
| deep neural network | |
| convolutional neural network | |
| wearable sensors | |
| psychophysiology | |
| sensor data analysis | |
| time series analysis | |
| signal analysis | |
| similarity measures | |
| correlation statistics | |
| quantitative analysis | |
| benchmarking | |
| boredom | |
| emotion | |
| GSR | |
| classification | |
| sensor | |
| face landmark detection | |
| fully convolutional DenseNets | |
| skip-connections | |
| dilated convolutions | |
| emotion recognition | |
| physiological sensing | |
| multimodal sensing | |
| flight simulation | |
| activity recognition | |
| physiological signals | |
| thoracic electrical bioimpedance | |
| smart band | |
| stress recognition | |
| physiological signal processing | |
| long short-term memory recurrent neural networks | |
| information fusion | |
| pain recognition | |
| long-term stress | |
| electroencephalography | |
| perceived stress scale | |
| expert evaluation | |
| affective corpus | |
| multimodal sensors | |
| overload | |
| underload | |
| interest | |
| frustration | |
| cognitive load | |
| stress research | |
| affective computing | |
| human-computer interaction | |
| deep convolutional neural network | |
| transfer learning | |
| auxiliary loss | |
| weighted loss | |
| class center | |
| stress sensing | |
| smart insoles | |
| smart shoes | |
| unobtrusive sensing | |
| stress | |
| center of pressure | |
| regression | |
| signal processing | |
| arousal | |
| aging adults | |
| musical genres | |
| emotion elicitation | |
| dataset | |
| emotion representation | |
| feature selection | |
| feature extraction | |
| computer science | |
| virtual reality | |
| head-mounted display | |
| Persona (resp. second.): | Al-MachotFadi |
| MosaAhmad Haj | |
| BouchachiaHamid | |
| ChedjouJean Chamberlain | |
| BagulaAntoine | |
| KyamakyaKyandoghere | |
| Sommario/riassunto: | This book includes impactful chapters which present scientific concepts, frameworks, architectures and ideas on sensing technologies and machine learning techniques. These are relevant in tackling the following challenges: (i) the field readiness and use of intrusive sensor systems and devices for capturing biosignals, including EEG sensor systems, ECG sensor systems and electrodermal activity sensor systems; (ii) the quality assessment and management of sensor data; (iii) data preprocessing, noise filtering and calibration concepts for biosignals; (iv) the field readiness and use of nonintrusive sensor technologies, including visual sensors, acoustic sensors, vibration sensors and piezoelectric sensors; (v) emotion recognition using mobile phones and smartwatches; (vi) body area sensor networks for emotion and stress studies; (vii) the use of experimental datasets in emotion recognition, including dataset generation principles and concepts, quality insurance and emotion elicitation material and concepts; (viii) machine learning techniques for robust emotion recognition, including graphical models, neural network methods, deep learning methods, statistical learning and multivariate empirical mode decomposition; (ix) subject-independent emotion and stress recognition concepts and systems, including facial expression-based systems, speech-based systems, EEG-based systems, ECG-based systems, electrodermal activity-based systems, multimodal recognition systems and sensor fusion concepts and (x) emotion and stress estimation and forecasting from a nonlinear dynamical system perspective. |
| Titolo autorizzato: | Emotion and Stress Recognition Related Sensors and Machine Learning Technologies |
| Formato: | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione: | Inglese |
| Record Nr.: | 9910557346003321 |
| Lo trovi qui: | Univ. Federico II |
| Opac: | Controlla la disponibilità qui |