arbeiten:stressverhalten_teilautomatisch

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Nächste Überarbeitung		 Vorhergehende Überarbeitung
arbeiten:stressverhalten_teilautomatisch [05.01.2016 15:32] – Erstellt mit dem Formular arbeiten:anlegen Raphael Wimmerarbeiten:stressverhalten_teilautomatisch [01.10.2019 12:16] (aktuell) Alexander Bazo
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 ---- dataentry StudentischeArbeit ---- ---- dataentry StudentischeArbeit ----
-Thema                       : Evaluierung des Stressverhaltens eines Users bei Interaktion mit einem teilautomatischen System +Thema                     : Evaluierung des Stressverhaltens eines Users bei Interaktion mit einem teilautomatischen System  
-Art_thesistypes             : BA +Art_thesistypes           : BA  
-Betreuer_thesisadvisor      : Johannes Höcherl, OTH +BetreuerIn_thesisadvisor    : Johannes Höcherl, OTH  
-Student                     : Jan Gügel +BearbeiterIn                   : Jan Gügel  
-Professor_thesisprofessor   : Christian Wolff +ErstgutachterIn_thesisprofessor : Christian Wolff #  
-Status_thesisstate         in Bearbeitung +ZweitgutachterIn_secondthesisprofessor : N.N. 
-Stichworte_thesiskeywords   : OTH, Robotik, Evaluation +Status_thesisstate        abgeschlossen #  
-angelegt_dt                 : 2016-01-05 +Stichworte_thesiskeywords : OTH, Robotik, Evaluation  
-Beginn_dt                   : 2015-12-01 +angelegt_dt               : 2016-01-05  
-Anmeldung_dt                :  +Beginn_dt                 : 2015-12-01  
-Antrittsvortrag_dt          : 2016-01-20 +Anmeldung_dt               #  
-Abschlussvortrag_dt         :  +Antrittsvortrag_dt        : 2016-01-20  
-Ende_dt                     : 2016-03-31+Abschlussvortrag_dt        #  
 +Abgabe_dt                   : 2016-03-31 #  
 +Textlizenz_textlicense : Unbekannt 
 +Codelizenz_codelicense : Unbekannt
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 +
  
 === Hintergrund === === Hintergrund ===
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 === Weiterführende Quellen === === Weiterführende Quellen ===
 [1] Bonarini A., Mainardi L., Matteucci M., Tognetti S., Colombo R. (2008). Stress Recognition in a Robotic Rehabilition Task. Proc. of “Robotic Helpers: User Interaction Interfaces and Companions in Assistive and Therapy Robotics” a Workshop at ACM/IEEE HRI 2008, vol. 1, pp.41-48 [1] Bonarini A., Mainardi L., Matteucci M., Tognetti S., Colombo R. (2008). Stress Recognition in a Robotic Rehabilition Task. Proc. of “Robotic Helpers: User Interaction Interfaces and Companions in Assistive and Therapy Robotics” a Workshop at ACM/IEEE HRI 2008, vol. 1, pp.41-48
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 [2] Taniguchi K., Nishikawa A., Nakagoe H. (2007). Evaluating the surgeon's stress when using surgical assistand robots. The 16th IEEE International Symposium on Robot and Human interactive Communication (RO-MAN 2007) 2007. pp. 888–93. [2] Taniguchi K., Nishikawa A., Nakagoe H. (2007). Evaluating the surgeon's stress when using surgical assistand robots. The 16th IEEE International Symposium on Robot and Human interactive Communication (RO-MAN 2007) 2007. pp. 888–93.
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 [3] Healey J. (2000). Wearable and Automotive Systems for Affect Recognition from Physiology. Technical Report 526, PhD thesis, MIT, Cambridge, Mass. [3] Healey J. (2000). Wearable and Automotive Systems for Affect Recognition from Physiology. Technical Report 526, PhD thesis, MIT, Cambridge, Mass.
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 [4] Vyzas, E. (1999). Recognition of Emotional and Cognitive States Using Physiological Data. Phd thesis, MIT, Cambrigde, MA [4] Vyzas, E. (1999). Recognition of Emotional and Cognitive States Using Physiological Data. Phd thesis, MIT, Cambrigde, MA
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 [5] Zhai J., Barreto A. (2006). Stress recognition using non-invasive technology. FLAIRS (2006), pp. 395-400 [5] Zhai J., Barreto A. (2006). Stress recognition using non-invasive technology. FLAIRS (2006), pp. 395-400
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 [6] Sano A., Picard R. (2013). Stress recognition using wearable sensors and mobile phones. Affective Computing and Intelligent Interaction, 2013 Humaine Association Conference, pp. 671-676 [6] Sano A., Picard R. (2013). Stress recognition using wearable sensors and mobile phones. Affective Computing and Intelligent Interaction, 2013 Humaine Association Conference, pp. 671-676
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 [7] Villarejo M., Zapirain B., Zorrilla A. (2012). A stress sensor based on Galvanic Skin Response (GSR) controlled by ZigBee. Sensors 2012, 12, 6075-6101 [7] Villarejo M., Zapirain B., Zorrilla A. (2012). A stress sensor based on Galvanic Skin Response (GSR) controlled by ZigBee. Sensors 2012, 12, 6075-6101
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 [8] Zanchettin A. (2012). Human-centric behavior of redundant manipulators under kinematic control, PhD thesis, Politecnico di Milano (2012) [8] Zanchettin A. (2012). Human-centric behavior of redundant manipulators under kinematic control, PhD thesis, Politecnico di Milano (2012)
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 [9] McDuff D.,Gontarek S., Picard R. (2014). Remote Measurement of Cognitive Stress via Heart Rate Variability. In the 36th Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBC) [9] McDuff D.,Gontarek S., Picard R. (2014). Remote Measurement of Cognitive Stress via Heart Rate Variability. In the 36th Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBC)