An approach to develop intelligent learning environments by means of immersive virtual worlds

Merging Immersive Virtual Environments, Natural Language Processing and Artificial Intelligence techniques provides a number of advantages to develop Intelligent Environments for multiple applications. This paper is focused on the application of these technologies to develop intelligent learning environments. Education is one of the most interesting applications of immersive virtual environments, as their flexibility can be exploited in order to create heterogeneous groups from all over the world who can collaborate synchronously in different virtual spaces. We highlight the potential of virtual worlds as an educative tool and propose a model to create learning environments within Second Life or OpenSimulator combining the Moodle learning management system, embodied conversational metabots, and programmable 3D objects. Our proposal has been applied in several subjects of the Computer Science degree in the Carlos III University of Madrid. The results of the evaluation show that developed learning environment fosters engagement and collaboration and helps students to better understand complex concepts.This work was supported in part by Projects MINECO TEC2012-37832-C02-01, CICYT TEC2011-28626-C02-02, CAM CONTEXTS (S2009/TIC-1485).Publicad

An approach to develop intelligent learning environments by means of immersive virtual worlds

Merging Immersive Virtual Environments, Natural Language Processing and Artificial Intelligence techniques provides a number of advantages to develop Intelligent Environments for multiple applications. This paper is focused on the application of these technologies to develop intelligent learning environments. Education is one of the most interesting applications of immersive virtual environments, as their flexibility can be exploited in order to create heterogeneous groups from all over the world who can collaborate synchronously in different virtual spaces. We highlight the potential of virtual worlds as an educative tool and propose a model to create learning environments within Second Life or OpenSimulator combining the Moodle learning management system, embodied conversational metabots, and programmable 3D objects. Our proposal has been applied in several subjects of the Computer Science degree in the Carlos III University of Madrid. The results of the evaluation show that developed learning environment fosters engagement and collaboration and helps students to better understand complex concepts.Spanish Government TEC2012-37832-C02-01Consejo Interinstitucional de Ciencia y Tecnologia (CICYT) TEC2011-28626-C02-02Project CAM CONTEXTS S2009/TIC-148

Role of three-dimensional virtual environments in the globalisation of science education

In this poster, we illustrate how 3D virtual environments can facilitate science education in distance and blended education contexts, and can support collaboration amongst students and educators in geographically distributed settings and in different institutions. Three-dimensional (3D) virtual environments, also called synthetic worlds, are multimedia, simulated environments, often managed over the web, which users can ‘inhabit’ and interact via their graphical self-representations known as ‘avatars’. In a 3D virtual environment, the users, represented as avatars, experience others as being present in the same environment even though they may be geographically distributed. Users converse in real time through gestures, audio, text-based chat, and instant messaging. Three-dimensional virtual environments support synchronous communication and collaboration more effectively than two-dimensional (2D) web-based environments: by extending the user’s ability to employ traditional communication cues of face-to-face interactions, and having a sense of presence and a sense of place in a way that 2D environments do not. A 3D environment can enable students to carry out a range of authentic and practical scientific enquiries: interacting with 3D models, participating in virtual field trips; learning to control instruments; assembling apparatus and instruments; and creating 3D models. The social aspects of a 3D environment support scientific discourse and dialogues at different levels. For example, in an avatar-based 3D virtual world, the avatar can navigate, encounter other avatars, and communicate with them in real-time through gestures, voice, text, and instant messaging. They can critique experimental designs, compare results, share good practice, and look over each other’s work just as one would do in a real-life laboratory. The sense of working together in a place with other avatars provides an immersive experience that drives sustained engagement and aids visual memory

Exploitation of Novel Multiplayer Gesture-based Interaction and Virtual Puppetry for Digital Storytelling to Develop Children’s Narrative Skills

In recent years, digital storytelling has demonstrated powerful pedagogical functions by improving creativity, collaboration and intimacy among young children. Saturated with digital media technologies in their daily lives, the young generation demands natural interactive learning environments which offer multimodalities of feedback and meaningful immersive learning experiences. Virtual puppetry assisted storytelling system for young children, which utilises depth motion sensing technology and gesture control as the Human-Computer Interaction (HCI) method, has been proved to provide natural interactive learning experience for single player. In this paper, we designed and developed a novel system that allows multiple players to narrate, and most importantly, to interact with other characters and interactive virtual items in the virtual environment. We have conducted one user experiment with four young children for pedagogical evaluation and another user experiment with five postgraduate students for system evaluation. Our user study shows this novel digital storytelling system has great potential to stimulate learning abilities of young children through collaboration tasks

Metaverse magic: Unveiling the pedagogical potential and transformative effects on intercultural communication in English language teaching

The emergence of Metaverse, a three-dimensional virtual space that enables users to interact in computer-generated environments, has opened up new possibilities for language learning and instruction. This study explored the pedagogical potential and transformative effects of incorporating Metaverse environments in English language teaching, with a specific focus on intercultural communication. Drawing on theories such as social constructivism, intercultural communication, and autonomous language learning, this research investigated the impact of Metaverse on language acquisition, intercultural competence, and learner autonomy. The study employed a qualitative approach, including interviews with experts in Metaverse development and English language instructors. The findings revealed several pedagogical implications, including the promotion of immersive language learning experiences, enhanced interaction and collaboration, personalized learning opportunities, and increased motivation. Additionally, the study uncovered the positive impacts of Metaverse environments on intercultural communication and cultural understanding in English language learning. The research contributed to the understanding of how Metaverse could support language education and provides valuable insights for language teachers and students to optimize their language learning experience in virtual environments

A comparison of immersive realities and interaction methods: cultural learning in virtual heritage

In recent years, Augmented Reality (AR), Virtual Reality (VR), Augmented Virtuality (AV), and Mixed Reality (MxR) have become popular immersive reality technologies for cultural knowledge dissemination in Virtual Heritage (VH). These technologies have been utilized for enriching museums with a personalized visiting experience and digital content tailored to the historical and cultural context of the museums and heritage sites. Various interaction methods, such as sensor-based, device-based, tangible, collaborative, multimodal, and hybrid interaction methods, have also been employed by these immersive reality technologies to enable interaction with the virtual environments. However, the utilization of these technologies and interaction methods isn’t often supported by a guideline that can assist Cultural Heritage Professionals (CHP) to predetermine their relevance to attain the intended objectives of the VH applications. In this regard, our paper attempts to compare the existing immersive reality technologies and interaction methods against their potential to enhance cultural learning in VH applications. To objectify the comparison, three factors have been borrowed from existing scholarly arguments in the Cultural Heritage (CH) domain. These factors are the technology’s or the interaction method’s potential and/or demonstrated capability to: (1) establish a contextual relationship between users, virtual content, and cultural context, (2) allow collaboration between users, and (3) enable engagement with the cultural context in the virtual environments and the virtual environment itself. Following the comparison, we have also proposed a specific integration of collaborative and multimodal interaction methods into a Mixed Reality (MxR) scenario that can be applied to VH applications that aim at enhancing cultural learning in situ

Social Virtual Reality: Neurodivergence and Inclusivity in the Metaverse

Whereas traditional teaching environments encourage lively and engaged interaction and reward extrovert qualities, introverts, and others with symptoms that make social engagement difficult, such as autism spectrum disorder (ASD), are often disadvantaged. This population is often more engaged in quieter, low-key learning environments and often does not speak up and answer questions in traditional lecture-style classes. These individuals are often passed over in school and later in their careers for not speaking up and are assumed to not be as competent as their gregarious and outgoing colleagues. With the rise of the metaverse and democratization of virtual reality (VR) technology, post-secondary education is especially poised to capitalize on the immersive learning environments social VR provides and prepare students for the future of work, where virtual collaboration will be key. This study seeks to reconsider the role of VR and the metaverse for introverts and those with ASD. The metaverse has the potential to continue the social and workplace changes already accelerated by the pandemic and open new avenues for communication and collaboration for a more inclusive audience and tomorrow

Collaborative virtual 3D environment for internet-accessible physics experiments

Immersive 3D worlds have increasingly raised the interest of researchers and practitioners for various learning and training settings over the last decade. These virtual worlds can provide multiple communication channels betweeen users and improve presence and awareness in the learning process. Consequently virtual 3D environments facilitate collaborative learning and training scenarios. In this paper we focus on the integration of internet-accessible physics experiments (iLabs) combined with the TEALsim 3D simulation toolkit in project Wonderland, Sun's toolkit for creating collaborative 3D virtual worlds. Within such a collaborative environment these tools provide the opportunity for teachers and students to work together as avatars as they control actual equipment, visualize physical phenomenon generated by the experiment, and discuss the results. In particular we will outline the steps of integration, future goals, as well as the value of a collaboration space in Wonderland's virtual world

Collaborative virtual 3D environment for internet-accessible physics experiments

Immersive 3D worlds have increasingly raised the interest of researchers and practitioners for various learning and training settings over the last decade. These virtual worlds can provide multiple communication channels between users and improve presence and awareness in the learning process. Consequently virtual 3D environments facilitate collaborative learning and training scenarios. In this paper we focus on the integration of internet accessible physics experiments (iLabs) combined with the TEALsim 3D simulation toolkit in Project Wonderland, Sun's toolkit for creating collaborative 3D virtual worlds. Within such a collaborative environment these tools provide the opportunity for teachers and students to work together as avatars as they control actual equipment, visualize physical phenomenon generated by the experiment, and discuss the results. In particular we will outline the steps of integration, future goals, as well as the value of a collaboration space in Wonderland's virtual world

The use of virtual environments as an extended classroom – A case study with adult learners in tertiary education

This study was conducted in immersive 3D virtual environment Second Life®, with the support of web 2.0 tools as a complement to physical classroom - extended classroom. It was assumed that socialization is a key factor for collaborative learning and knowledge construction. The study aims to identify the variables that may influence knowledge sharing in learning contexts using virtual environments; with the aim of contributing to the improvement of learning situations using the online tools. This research is exploratory in nature and falls within the field of phenomenological studies. The study was implemented in a tertiary education institution involving regular and adult learners. We conclude that in virtual environments learners tend to feel more confident, open, participatory, creative, understanding and seem to participate in training sessions because they are indeed interested in learning. On the other hand, the possibility of providing online tutorial session allows reaching a larger number of learners. These online sessions can be established in a time and place (virtual) free of constraints and can be tailored, allowing a more effective participation from learners.info:eu-repo/semantics/publishedVersio