Wearable performance

This is the post-print version of the article. The official published version can be accessed from the link below - Copyright @ 2009 Taylor & FrancisWearable computing devices worn on the body provide the potential for digital interaction in the world. A new stage of computing technology at the beginning of the 21st Century links the personal and the pervasive through mobile wearables. The convergence between the miniaturisation of microchips (nanotechnology), intelligent textile or interfacial materials production, advances in biotechnology and the growth of wireless, ubiquitous computing emphasises not only mobility but integration into clothing or the human body. In artistic contexts one expects such integrated wearable devices to have the two-way function of interface instruments (e.g. sensor data acquisition and exchange) worn for particular purposes, either for communication with the environment or various aesthetic and compositional expressions. 'Wearable performance' briefly surveys the context for wearables in the performance arts and distinguishes display and performative/interfacial garments. It then focuses on the authors' experiments with 'design in motion' and digital performance, examining prototyping at the DAP-Lab which involves transdisciplinary convergences between fashion and dance, interactive system architecture, electronic textiles, wearable technologies and digital animation. The concept of an 'evolving' garment design that is materialised (mobilised) in live performance between partners originates from DAP Lab's work with telepresence and distributed media addressing the 'connective tissues' and 'wearabilities' of projected bodies through a study of shared embodiment and perception/proprioception in the wearer (tactile sensory processing). Such notions of wearability are applied both to the immediate sensory processing on the performer's body and to the processing of the responsive, animate environment. Wearable computing devices worn on the body provide the potential for digital interaction in the world. A new stage of computing technology at the beginning of the 21st Century links the personal and the pervasive through mobile wearables. The convergence between the miniaturisation of microchips (nanotechnology), intelligent textile or interfacial materials production, advances in biotechnology and the growth of wireless, ubiquitous computing emphasises not only mobility but integration into clothing or the human body. In artistic contexts one expects such integrated wearable devices to have the two-way function of interface instruments (e.g. sensor data acquisition and exchange) worn for particular purposes, either for communication with the environment or various aesthetic and compositional expressions. 'Wearable performance' briefly surveys the context for wearables in the performance arts and distinguishes display and performative/interfacial garments. It then focuses on the authors' experiments with 'design in motion' and digital performance, examining prototyping at the DAP-Lab which involves transdisciplinary convergences between fashion and dance, interactive system architecture, electronic textiles, wearable technologies and digital animation. The concept of an 'evolving' garment design that is materialised (mobilised) in live performance between partners originates from DAP Lab's work with telepresence and distributed media addressing the 'connective tissues' and 'wearabilities' of projected bodies through a study of shared embodiment and perception/proprioception in the wearer (tactile sensory processing). Such notions of wearability are applied both to the immediate sensory processing on the performer's body and to the processing of the responsive, animate environment

Emerging Applications of Liquid Crystals Based on Nanotechnology.

Diverse functionalities of liquid crystals (LCs) offer enormous opportunities for their potential use in advanced mobile and smart displays, as well as novel non-display applications. Here, we present snapshots of the research carried out on emerging applications of LCs ranging from electronics to holography and self-powered systems. In addition, we will show our recent results focused on the development of new LC applications, such as programmable transistors, a transparent and active-type two-dimensional optical array and self-powered display systems based on LCs, and will briefly discuss their novel concepts and basic operating principles. Our research will give insights not only into comprehensively understanding technical and scientific applications of LCs, but also developing new discoveries of other LC-based devices

WEHST: Wearable Engine for Human-Mediated Telepresence

This dissertation reports on the industrial design of a wearable computational device created to enable better emergency medical intervention for situations where electronic remote assistance is necessary. The design created for this doctoral project, which assists practices by paramedics with mandates for search-and-rescue (SAR) in hazardous environments, contributes to the field of human-mediated teleparamedicine (HMTPM). Ethnographic and industrial design aspects of this research considered the intricate relationships at play in search-and-rescue operations, which lead to the design of the system created for this project known as WEHST: Wearable Engine for Human-Mediated Telepresence. Three case studies of different teams were carried out, each focusing on making improvements to the practices of teams of paramedics and search-and-rescue technicians who use combinations of ambulance, airplane, and helicopter transport in specific chemical, biological, radioactive, nuclear and explosive (CBRNE) scenarios. The three paramedicine groups included are the Canadian Air Force 442 Rescue Squadron, Nelson Search and Rescue, and the British Columbia Ambulance Service Infant Transport Team. Data was gathered over a seven-year period through a variety of methods including observation, interviews, examination of documents, and industrial design. The data collected included physiological, social, technical, and ecological information about the rescuers. Actor-network theory guided the research design, data analysis, and design synthesis. All of this leads to the creation of the WEHST system. As identified, the WEHST design created in this dissertation project addresses the difficulty case-study participants found in using their radios in hazardous settings. As the research identified, a means of controlling these radios without depending on hands, voice, or speech would greatly improve communication, as would wearing sensors and other computing resources better linking operators, radios, and environments. WEHST responds to this need. WEHST is an instance of industrial design for a wearable “engine” for human-situated telepresence that includes eight interoperable families of wearable electronic modules and accompanying textiles. These make up a platform technology for modular, scalable and adaptable toolsets for field practice, pedagogy, or research. This document details the considerations that went into the creation of the WEHST design

From Capture to Display: A Survey on Volumetric Video

Volumetric video, which offers immersive viewing experiences, is gaining increasing prominence. With its six degrees of freedom, it provides viewers with greater immersion and interactivity compared to traditional videos. Despite their potential, volumetric video services poses significant challenges. This survey conducts a comprehensive review of the existing literature on volumetric video. We firstly provide a general framework of volumetric video services, followed by a discussion on prerequisites for volumetric video, encompassing representations, open datasets, and quality assessment metrics. Then we delve into the current methodologies for each stage of the volumetric video service pipeline, detailing capturing, compression, transmission, rendering, and display techniques. Lastly, we explore various applications enabled by this pioneering technology and we present an array of research challenges and opportunities in the domain of volumetric video services. This survey aspires to provide a holistic understanding of this burgeoning field and shed light on potential future research trajectories, aiming to bring the vision of volumetric video to fruition.Comment: Submitte

Augmented Reality and Its Application

Augmented Reality (AR) is a discipline that includes the interactive experience of a real-world environment, in which real-world objects and elements are enhanced using computer perceptual information. It has many potential applications in education, medicine, and engineering, among other fields. This book explores these potential uses, presenting case studies and investigations of AR for vocational training, emergency response, interior design, architecture, and much more

Analysis and Classification of Shape-Changing Interfaces for Design and Application-based Research

Shape-changing interfaces are physically tangible, interactive devices, surfaces, or spaces that allow for rich, organic, and novel experiences with computational devices. Over the last 15 years, research has produced functional prototypes over many use applications; reviews have identified themes and possible future directions but have not yet looked at possible design or application-based research. Here, we gather this information together to provide a reference for designers and researchers wishing to build upon existing prototyping work, using synthesis and discussion of existing shape-changing interface reviews and comprehensive analysis and classification of 84 shape-changing interfaces. Eight categories of prototype are identified alongside recommendations for the field

Kehollistuneet vuorovaikutuskoreografiat. Kinesteettinen lähestymistapa älykkäiden ympäristöjen suunnitteluun

Research investigates interaction design through application of the concept of choreography. Special attention is paid to assess what kind of influences technological designs have on the user’s body and movements. Choreographic approach to interaction design emphasizes the felt experience of movement as content to interaction design and offers methods for conducting multi-level choreographic analysis. The concept of kinesthesia, which refers to the felt sensation of movement, is regarded as the foundational concept for both understanding and realizing the choreographic analysis. Choreographic method is applied in studying a future vision of intelligent information and communication environments. Intelligent environment refers to development where objects in everyday environments become connected and form a communicating-actuating network that possess abilities to collect information on the environment and of its users, and enables processing of this information for serving the user’s needs. The research data consists of two visions on intelligent environments in video format, introduced by Microsoft. Visions are analyzed through choreographic analysis with intention to investigate interactions between the user, the intelligent environment and the computer system. Micro level choreography analysis focuses on how the user experiences choreographies as movement continuums. Also local level choreographies that address the broader interaction context will be analyzed. Task based analysis focuses on two functions, first, sending and fetching digital information and, second, real time re-modelling of data and visualizations. Phenomenological methodology that enabled embodiment of the choreographies through dancing was applied in the analysis. Dancing aimed at internalizing the choreographies and enabled the analysis of felt sensation of movement. Key finding of the study is that choreographic analysis and hermeneutics of the body work well to be utilized in tandem in conducting a case study research on intelligent ICT environments. Dancing is considered as choreographic practice that provides understanding on the unfolding of interactions in space, time and movement. Furthermore, dancing integrates the designer’s explicit technological information to the design context and highlights the kinesthetic dimension of interaction. Presented methods provide relevant support for defining technological systems in intelligent ICT environments that are grounded in the embodied experience of interaction. I suggest that ‘dancing as choreographic practice’ is to be applied in user-centered design of intelligent information and communication environments.Tutkimus tarkastelee vuorovaikutussuunnittelua koreografian käsitteen kautta. Koreografinen lähestymistapa tarkastelee teknologian kokonaisvaltaista ohjausvaikutusta käyttäjän liikkeeseen teknologian käyttötilanteessa. Koreografinen suunnitteluote korostaa liikkeen kokemuksen huomioimisen tärkeyttä vuorovaikutussuunnittelussa ja tarjoaa menetelmiä monitasoisen vuorovaikutusanalyysin toteuttamiseen. Kinestesian käsite, jolla tarkoitetaan liikkeen kokemista kehossa, nousee yhdeksi koreografisen lähestymistavan keskeisistä käsitteistä. Sovellan koreografista menetelmää tulevaisuuden älykästä informaatio- ja kommunikaatioympäristöä kuvaavan vision tutkimiseen. Älykkäällä ympäristöllä viittaan kehityskulkuun, jossa jokapäiväisissä ympäristöissämme läsnä oleva teknologia verkottuu, kykenee keräämään ja jakamaan tietoa ympäristöstä ja käyttäjistä sekä mahdollistaa tiedon jalostuksen käyttäjän tarpeita palvelevalla tavalla. Aineistona on käytetty Microsoftin teknologiavisioita, joissa esitetyt kuvaukset älykkäistä ympäristöistä sekä esimerkit käyttäjän ja teknologian välisistä liikkeellisistä vuorovaikutuksista nousevat analyysin kohteeksi. Analyysissa keskitytään ensinnäkin käyttäjän toteuttamien mikroliikkeiden jatkumon kokemuksen analyysiin. Toiseksi analysoidaan yksilön kokemusta paikallisen tason koreografioissa. Tällä analyysitasolla huomiota kiinnitetään teknologista vuorovaikutusta laajemman vuorovaikutustapahtuman kontekstiin jolloin mm. sosiaaliset tapahtumat ja tilan vaikutus vuorovaikutukseen tulevat huomioiduksi. Analyysi toteutetaan tehtäväperusteisena ja analyysi käsittää kaksi toimintoa: tiedostojen jakaminen ja vastaanottaminen sekä datan ja visualisointien muokkaus. Toteutin tutkimuksen nojaten fenomenologiseen metodologiaan, joka mahdollisti koreografioiden henkilökohtaisen omaksumisen tanssin eli tutkimuksen kohteena olevien vuorovaikutustapojen kehollisen harjoittamisen kautta. Teknologiavisioissa esitetyn liikemateriaalin perusteella jäsentyi koreografia, jonka tanssiminen mahdollisti liiketiedon sisäistämisen ja vuorovaikutusten kehollisesti koettujen ulottuvuuksien arvioinnin. Tutkimus osoitti koreografisen analyysin ja osittain tanssimalla toteutetun ruumiin hermeneuttisen lähestymistavan soveltuvan hyvin sovellettavaksi yhdessä älykästä ympäristöä käsittelevässä tapaustutkimuksessa. Tutkimuksen johtopäätöksenä koreografisen menetelmän ja vuorovaikutusten kehollisen harjoittamisen todetaan auttavan suunnittelijaa tilassa, ajassa ja liikkeessä tapahtuvien vuorovaikutusten jäsentämisessä, ja arvioimaan miten teknologisen järjestelmän suunnitteluratkaisut vaikuttavat käyttäjän kehoon ja liikkeeseen vuorovaikutustapahtumassa. Esitän ’tanssimista koreografisena käytäntönä’ sovellettavaksi älykkäiden ympäristöjen käyttäjäkeskeisen suunnittelun menetelmänä