Polska adaptacja Kwestionariusza Presence Igroup

Poczucie bycia obecnym to kluczowy konstrukt w badaniach nad wirtualnymi środowiskami, a w szczególności nad wirtualną rzeczywistością – najpopularniejszym typem takich środowisk. Poczucie bycia obecnym ma wpływ na efektywność symulacji. W celu stworzenia polskiej wersji Kwestionariusza Presence Igroup (IPQ-PL) oryginalne narzędzie zostało przetłumaczone i użyte w badaniu ankietowym (n = 245) testującym strukturę i związki z innymi konstruktami. Wyniki wskazują, że IPQ-PL można uznać za trafne narzędzie do pomiaru poczucia bycia obecnym i wykorzystywać w badaniach na polskich próbach.Presence, defined as a psychological state of "being there", is experienced during an interaction with Immersive Virtual Environments, particularly with Virtual Reality – the most popular type of such environment. Measuring presence is crucial because its level determines the effectiveness of virtual environments. The authors conducted a translation and a study (n = 245) that aimed to provide a Polish version of the Igroup Presence Questionnaire (IPQ-PL). The structure of the questionnaire and relations with other constructs were tested. The results indicate that IPQ-PL may be considered a valid tool for measuring presence and may be used in studies conducted on Polish samples

Assessing engagement during rescue operation simulated in virtual reality: a psychophysiological study

The goal of this study was to investigate the patterns of engagement among professional firefighters during a rescue operation challenge simulated in a virtual reality (VR). The simulator offers a training that would otherwise be impossible or very difficult to arrange in the real world, here a mass-casualty incident. We measured engagement with cardiovascular reactivity as well as subjective perceptions of workload. We found that both a VR rescue challenge and a VR control condition lead to engagement evident in the decrease in parasympathetic activation from baseline (measured as high-frequency heart rate variability). However, the rescue operation leads to a stronger increase in sympathetic activity (shorter pre-ejection period and RZ-interval) than the control condition. Furthermore, the subjective workload ratings corroborate the results from the objective engagement indices. These results demonstrate that it is possible to create a virtual environment that elicits engagement among professional rescuers

Effectiveness analysis of traditional and mixed reality simulations in medical training: a methodological approach for the assessment of stress, cognitive load and performance

La simulazione nell'educazione in medicina è considerata un metodo di formazione in grado di migliorare le competenze cliniche e il comportamento degli operatori sanitari e, di conseguenza, la qualità dell'assistenza per il paziente. Inoltre, l'utilizzo di nuove tecnologie come la Realtà Aumentata, offre ai discenti l'opportunità di esercitarsi in un ambiente immersivo. L'opportunità di sperimentare questo innovativo metodo didattico è efficace non solo nel ridurre il rischio di errori e approcci sbagliati ma anche nel provare ansia e stress simili a quelli avvertiti nella pratica reale. La sfida sta nel trovare il giusto equilibrio. I discenti devono infatti provare lo stesso stress che avvertirebbero lavorando ad un vero caso clinico ma, allo stesso tempo, devono essere controllati ed evitati possibili disturbi da stress post-traumatico, verificabili soprattutto nel campo della gestione delle emergenze (pronto soccorso). Inoltre, è fondamentale anche ottenere alte prestazioni e un apprendimento adeguato, evitando sovraccarichi cognitivi che influenzerebbero negativamente l’apprendimento. Tuttavia, ad oggi mancano ancora studi approfonditi sull'impatto che le simulazioni mediche hanno su stress, frustrazione, carico cognitivo e apprendimento dei discenti. Per questo motivo, l'obiettivo principale di questo studio è valutare l'efficacia del training tramite simulazione, analizzando prestazioni, ansia, stress e carico cognitivo durante simulazioni cliniche tradizionali (con manichino) ed avanzate (in realtà mista). A questo scopo, è stato sviluppato un approccio metodologico strutturato e completo per valutare le prestazioni, le condizioni emotive e cognitive degli studenti. Questo comprende l'acquisizione e l'analisi di parametri psicologici (valutazione soggettiva), segnali biometrici (valutazione oggettiva) e prestazioni. Questa indagine consente di evidenziare i punti deboli delle simulazioni e offre l'opportunità di definire utili linee guida per la riprogettazione e l'ottimizzazione delle stesse. La metodologia è stata applicata su tre casi studio: il primo si riferisce a simulazioni ad alta fedeltà per la gestione del paziente in pronto soccorso, il secondo si riferisce a simulazioni a bassa fedeltà per la pratica della rachicentesi. Per il terzo caso studio, è stato progettato e sviluppato un prototipo di simulatore in realtà mista per la rachicentesi, con l'obiettivo di migliorare il senso di realismo e immersione della simulazione a bassa fedeltà. 148 studenti sono stati coinvolti nei primi due casi studio osservazionali, mentre soltanto 36 studenti hanno preso parte allo studio pilota sulla simulazione in realtà mista. In tutti i casi di studio sono state effettuate analisi descrittive delle prestazioni, degli stati cognitivi ed emotivi. Per le simulazioni ad alta e bassa fedeltà, le analisi di regressione statistica hanno evidenziato quali variabili influenzano le prestazioni, lo stress e il carico cognitivo degli studenti. Per lo studio pilota sulla realtà mista, l'analisi della user experience ha sottolineato i limiti tecnici della nuova tecnologia.Simulation in medical education is considered a training method capable of improving clinical competence and practitioners’ behaviour, and, consequently quality of care and patient’s outcome. Moreover, the use of new technologies, such as augmented reality, offers to the learners the opportunity to engage themselves in an immersive environment. The opportunity to experiment with this innovative instructional method is effective not only in reducing the risk of errors and wrong approaches but also in experiencing anxiety and stress as in real practice. The challenge is to find the right stress balance: learners have to feel as if they were practicing in the real stressful clinical case, and, at the same time, post-traumatic stress disorders, verifiable especially in the emergency field, must be controlled and avoided. Moreover, it is fundamental also to obtain high performance and learning, thus avoiding cognitive overloads. However, extensive researches about the impact of medical simulations on students’ stress, frustration, cognitive load, and learning are still lacking. For this reason, the main objective of this study is to assess simulation training effectiveness by analysing performance, anxiety, stress, and cognitive load during traditional (with manikin) and advanced (with augmented reality) clinical simulations. A structured and comprehensive methodological approach to assess performance, emotional and cognitive conditions of students has been developed. It includes the acquisition and analysis of psychological parameters (subjective assessment), biometric signals (objective assessment), and task performance. This investigation allows to point out simulations’ weaknesses and offers the opportunity to define useful optimisation guidelines. The methodology has been applied to three case studies: the first one refers to high-fidelity simulations, for the patient management in the emergency room, the second one refers to low-fidelity simulation for rachicentesis. For the third case study, a prototype of a mixed reality simulator for the rachicentesis practice has been designed and developed aiming at improving the sense of realism and immersion of the low-fidelity simulation. While 148 students have been enrolled in the first two case studies, only 36 students have taken part in the pilot study about mixed reality simulation. Descriptive analysis about performance, cognitive and emotional states have been done in all the case studies. For the high-fidelity and low-fidelity simulations, the statistical regression analysis has pointed out which variables affect students’ performance, stress, and cognitive load. For the pilot study about mixed reality, the user experience analysis highlighted the technical limitations of the new technology

Virtual Reality Games for Motor Rehabilitation

This paper presents a fuzzy logic based method to track user satisfaction without the need for devices to monitor users physiological conditions. User satisfaction is the key to any product’s acceptance; computer applications and video games provide a unique opportunity to provide a tailored environment for each user to better suit their needs. We have implemented a non-adaptive fuzzy logic model of emotion, based on the emotional component of the Fuzzy Logic Adaptive Model of Emotion (FLAME) proposed by El-Nasr, to estimate player emotion in UnrealTournament 2004. In this paper we describe the implementation of this system and present the results of one of several play tests. Our research contradicts the current literature that suggests physiological measurements are needed. We show that it is possible to use a software only method to estimate user emotion

Anxiety activating virtual environments for investigating social phobias

Social phobia has become one of the commonest manifestations of fear in any society. This fear is often accompanied by major depression or social disabilities. With the awareness that fear can be aggravated in social situations, virtual reality researchers and psychologists have investigated the feasibility of a virtual reality system as a psychotherapeutic intervention to combat social phobia. Virtual reality technology has rapidly improved over the past few years, making for better interactions. Nevertheless, the field of virtual reality exposure therapy for social phobia is still in its infancy and various issues have yet to be resolved or event uncovered. The key concept of virtual reality exposure therapy in the treatment of social phobia is based on its characteristic of perceptual illusion - the sense of presence - as an anxiety-activating system, instead of conventional imaginal or in-vivo exposure techniques. Therefore, in order to provoke a significant level of anxiety in virtual environments, it is very important to understand the impact of perceptual presence factors in virtual reality exposure therapy. Hence, this research mainly aims to investigate all the aspects of the correlation between anxiety and the components of the virtual environment in a computer-generated social simulation. By understanding this, this thesis aims to provide a framework for the construction of effective virtual reality exposure therapy for social phobia care which enables anxiety stimuli to be controlled in a gradual manner as a conventional clinical approach. This thesis presents a series of experimental studies that have been conducted with a common theme: the function of 3D inhabitants and visual apparatus in anxiety-activating virtual social simulation, a job-interview. However, each study is conducted using different research objectives. The experimental results are presented in this thesis, with psycho-physiological approach, revealing a variation of the distribution of participants' anxiety states across various VR conditions. The overall conclusion of this research is that an appropriate realism of VR stimuli is essential in sustaining the state of anxiety over the course of VR exposure. The high fidelity of virtual environment generally provoke a greater degree of anxiety, but this research also shows that aspects of VR fidelity is more related to the mental representation of individuals to the context of the stressful situation rather than any technology that is being used.EThOS - Electronic Theses Online ServiceGBUnited Kingdo