immersive systems
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2022 ◽  
Vol 54 (8) ◽  
pp. 1-38
Author(s):  
Lik-Hang Lee ◽  
Tristan Braud ◽  
Simo Hosio ◽  
Pan Hui

Interaction design for Augmented Reality (AR) is gaining attention from both academia and industry. This survey discusses 260 articles (68.8% of articles published between 2015–2019) to review the field of human interaction in connected cities with emphasis on augmented reality-driven interaction. We provide an overview of Human-City Interaction and related technological approaches, followed by reviewing the latest trends of information visualization, constrained interfaces, and embodied interaction for AR headsets. We highlight under-explored issues in interface design and input techniques that warrant further research and conjecture that AR with complementary Conversational User Interfaces (CUIs) is a crucial enabler for ubiquitous interaction with immersive systems in smart cities. Our work helps researchers understand the current potential and future needs of AR in Human-City Interaction.


2021 ◽  
Author(s):  
◽  
Brandon Wang

<p>Technology inevitably evolves and develops rapidly in the modern era, industries and professions continue to strive in integrating, adapting and utilising these advancements to improve, optimise and improve the process of design to manufacture to the user experience.  Although disruptive at first causing a reluctance of technological adoption within a workplace and ultimately progression of an industry, the eventual impact and benefits noticeably outweigh the initial time and cost within industry adoption, adaptation and development. Architecture and design is not immune to this phenomenon; from computational 2D and 3D modeling, BIM and cloud based data to physical prototyping with 3D printing, laser cutting and automated CNC routing, these are a few select examples that has forced the industry of design to rethink processes, possibilities and realistic opportunities where none existed prior.  One such system that fits into this category is the advent of Virtual Reality and Augmented Reality. The numerous possibilities to which these visually and spatially immersive systems opportune for immense innovation often lacks direction or an ultimate goal thus rendering this piece of software to often be little more than a visualisation tool.  This thesis recognises the unique position that VR allows and seeks to interrogate and deconstruct current, traditional design processes to better utilise VR in aiding and reinforcing the idea of partial testing of ideas and concepts throughout the design cycle. Different sciences such as psychology, processes and automation from computational design and considerations within software development will be employed and injected into the broader architectural context in which this research presides. In addition to the VR headset, external hardware that better capture human metrics such as EEG, eye tracking, GSR will be considered to developed a seamless tool and workflow that allows us, as designers to better interrogate clients behaviour within our designed digital representations which leads to validations, evaluations and criticisms of our actions within the architectural realm.</p>


2021 ◽  
Author(s):  
◽  
Brandon Wang

<p>Technology inevitably evolves and develops rapidly in the modern era, industries and professions continue to strive in integrating, adapting and utilising these advancements to improve, optimise and improve the process of design to manufacture to the user experience.  Although disruptive at first causing a reluctance of technological adoption within a workplace and ultimately progression of an industry, the eventual impact and benefits noticeably outweigh the initial time and cost within industry adoption, adaptation and development. Architecture and design is not immune to this phenomenon; from computational 2D and 3D modeling, BIM and cloud based data to physical prototyping with 3D printing, laser cutting and automated CNC routing, these are a few select examples that has forced the industry of design to rethink processes, possibilities and realistic opportunities where none existed prior.  One such system that fits into this category is the advent of Virtual Reality and Augmented Reality. The numerous possibilities to which these visually and spatially immersive systems opportune for immense innovation often lacks direction or an ultimate goal thus rendering this piece of software to often be little more than a visualisation tool.  This thesis recognises the unique position that VR allows and seeks to interrogate and deconstruct current, traditional design processes to better utilise VR in aiding and reinforcing the idea of partial testing of ideas and concepts throughout the design cycle. Different sciences such as psychology, processes and automation from computational design and considerations within software development will be employed and injected into the broader architectural context in which this research presides. In addition to the VR headset, external hardware that better capture human metrics such as EEG, eye tracking, GSR will be considered to developed a seamless tool and workflow that allows us, as designers to better interrogate clients behaviour within our designed digital representations which leads to validations, evaluations and criticisms of our actions within the architectural realm.</p>


2021 ◽  
Author(s):  
B Wang ◽  
Tane Moleta ◽  
Marc Aurel Schnabel

Technology inevitably evolves and develops rapidly in the modern era, industries and professions continue to strive in integrating, adapting and utilising these advancements to improve, optimise and improve the process of design to manufacture to the user experience. One such system that fits into this category is the advent of Virtual Reality and Augmented Reality. The numerous possibilities to which these visually and spatially immersive systems opportunities for immense innovation often lacks direction or an ultimate goal thus rendering this piece of software to often be little more than a visualisation tool.This paper recognises the unique position that VR allows and seeks to interrogate and deconstruct current, traditional design processes to better utilise VR in aiding and reinforcing the idea of partial testing of ideas and concepts throughout the design cycle. Different sciences such as psychology, processes and automation from computational design and considerations within software development will be employed and injected into the broader architectural context in which this research presides. In addition to the VR headset, eye tracking external hardware are integrated to develop a seamless tool and workflow that allows us, as designers to better interrogate clients behaviour within our designed digital representations which leads to validations, evaluations and criticisms of our actions within the architectural realm.


2021 ◽  
Author(s):  
B Wang ◽  
Tane Moleta ◽  
Marc Aurel Schnabel

Technology inevitably evolves and develops rapidly in the modern era, industries and professions continue to strive in integrating, adapting and utilising these advancements to improve, optimise and improve the process of design to manufacture to the user experience. One such system that fits into this category is the advent of Virtual Reality and Augmented Reality. The numerous possibilities to which these visually and spatially immersive systems opportunities for immense innovation often lacks direction or an ultimate goal thus rendering this piece of software to often be little more than a visualisation tool.This paper recognises the unique position that VR allows and seeks to interrogate and deconstruct current, traditional design processes to better utilise VR in aiding and reinforcing the idea of partial testing of ideas and concepts throughout the design cycle. Different sciences such as psychology, processes and automation from computational design and considerations within software development will be employed and injected into the broader architectural context in which this research presides. In addition to the VR headset, eye tracking external hardware are integrated to develop a seamless tool and workflow that allows us, as designers to better interrogate clients behaviour within our designed digital representations which leads to validations, evaluations and criticisms of our actions within the architectural realm.


2021 ◽  
Author(s):  
B Wang ◽  
Tane Moleta ◽  
Marc Aurel Schnabel

Technology inevitably evolves and develops rapidly in the modern era, industries and professions continue to strive in integrating, adapting and utilising these advancements to improve, optimise and improve the process of design to manufacture to the user experience. One such system that fits into this category is the advent of Virtual Reality and Augmented Reality. The numerous possibilities to which these visually and spatially immersive systems opportunities for immense innovation often lacks direction or an ultimate goal thus rendering this piece of software to often be little more than a visualisation tool.This paper recognises the unique position that VR allows and seeks to interrogate and deconstruct current, traditional design processes to better utilise VR in aiding and reinforcing the idea of partial testing of ideas and concepts throughout the design cycle. Different sciences such as psychology, processes and automation from computational design and considerations within software development will be employed and injected into the broader architectural context in which this research presides. In addition to the VR headset, eye tracking external hardware are integrated to develop a seamless tool and workflow that allows us, as designers to better interrogate clients behaviour within our designed digital representations which leads to validations, evaluations and criticisms of our actions within the architectural realm.


2021 ◽  
Vol 11 (11) ◽  
pp. 5067
Author(s):  
Paulo Veloso Gomes ◽  
António Marques ◽  
João Donga ◽  
Catarina Sá ◽  
António Correia ◽  
...  

The interactivity of an immersive environment comes up from the relationship that is established between the user and the system. This relationship results in a set of data exchanges between human and technological actors. The real-time biofeedback devices allow to collect in real time the biodata generated by the user during the exhibition. The analysis, processing and conversion of these biodata into multimodal data allows to relate the stimuli with the emotions they trigger. This work describes an adaptive model for biofeedback data flows management used in the design of interactive immersive systems. The use of an affective algorithm allows to identify the types of emotions felt by the user and the respective intensities. The mapping between stimuli and emotions creates a set of biodata that can be used as elements of interaction that will readjust the stimuli generated by the system. The real-time interaction generated by the evolution of the user’s emotional state and the stimuli generated by the system allows him to adapt attitudes and behaviors to the situations he faces.


Computers ◽  
2021 ◽  
Vol 10 (5) ◽  
pp. 66
Author(s):  
Lingwei Tong ◽  
Robert W. Lindeman ◽  
Holger Regenbrecht

Cinematic Virtual Reality (CVR) is a form of immersive storytelling widely used to create engaging and enjoyable experiences. However, issues related to the Narrative Paradox and Fear of Missing Out (FOMO) can negatively affect the user experience. In this paper, we review the literature about designing CVR content with the consideration of the viewer’s role in the story, the target scenario, and the level of viewer interaction, all aimed to resolve these issues. Based on our explorations, we propose a “Continuum of Interactivity” to explore appropriate spaces for creating CVR experiences to archive high levels of engagement and immersion. We also discuss two properties to consider when enabling interaction in CVR, the depth of impact and the visibility. We then propose the concept framework Adaptive Playback Control (APC), a machine-mediated narrative system with implicit user interaction and backstage authorial control. We focus on “swivel-chair” 360-degree video CVR with the aim of providing a framework of mediated CVR storytelling with interactivity. We target content creators who develop engaging CVR experiences for education, entertainment, and other applications without requiring professional knowledge in VR and immersive systems design.


2021 ◽  
pp. 135-150
Author(s):  
Jella Pfeiffer ◽  
Jonas Fegert ◽  
Anke Greif-Winzrieth ◽  
Greta Hoffmann ◽  
Christian Peukert

AbstractSeveral developments in recent years have highlighted the urgent need for an increase in sustainable behavior. In an effort to systematically achieve global human well-being and create a more sustainable and equal world by 2030, the United Nations passed the Sustainable Development Goals in 2015. In this chapter, we discuss several different approaches for Information Systems (IS) to contribute to these goals. We present ideas and first results from different research approaches in which we analyze how immersive systems, in particular, are capable of addressing challenges regarding awareness, motivation, information transfer, and educating citizens to act in a sustainable manner. We conclude that the main features of immersive systems are particularly suited to approach challenges related to sustainable behavior and attitude change. With this chapter, we hope to inspire further research efforts on how IS can make a contribution to a more sustainable world.


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