Textile Futures: Smart Garments and E-Textiles: Well-being and our Connected ...Barbara Trippeer
Presentation on the development of SMART garment systems for healthcare and fashion/apparel, and proposals for new methods of user engagement to enhance project development.
In the following pages, PSFK Labs has
summarized 10 trends related to wearable
technologies that sit under three larger
themes - Connected Intimacy, Tailored
Ecosystem and Co-Evolved Possibilities -
with the goal of helping people understand
the basic features, form and functions of
these devices and what they might replace.
To support this, PSFK has described each of
the themes and trends, along with three bestin-
class examples that show how these ideas
are manifesting within the marketplace and
provided relevant stats that convey potential
for growth. Additionally, each trend page
includes a list of experts who write about the
larger significance of these ideas
The Future of Wearable Tech report in collaboration with iQ by intel identifies 10 trends and three major themes that point to the evolving form and function of wearable devices and their influence on the way we live, work and socialize. In our Connected Intimacy theme, we explore how wearables are revolutionizing the way we communicate information about ourselves and maintain relationships over any distance. With the Tailored Ecosystem theme, we look at how these devices are personalizing the world around us and adapting to our ever-changing needs. While the Co-Evolved Possibilities theme considers the potential and promise of a closer union between humans and technology and its impacts on our natural abilities.
Within these themes, we take an in-depth look at each of the key trends, bringing them to life with best-in-class examples and connecting the dots with takeaways to help spark thinking and discussion. As you click through the following slides, we hope you find inspiration and innovation that you can leverage and share within your own organization.
For more information about the report visit:
http://www.psfk.com/publishing/future-of-wearable-tech
Want to Learn More About This Topic or Any Other?
Go to labs.psfk.com to learn more about accessing in-depth trend reports on industries, markets, and topics, database access, workshops, presentati
Open Grid Forum workshop on Social Networks, Semantic Grids and WebNoshir Contractor
Workshop organized by David De Roure at the Open Grid Forum XIX. Other participants included Carole Gobler, Jeremy Frey, Pamela Fox.
January 29, 2007, Chapel Hill, NC
The health club industry is being transformed through the adoption of new technologies and the overall trends of wellness and networked health and fitness.
Seminar at CSAIL, MIT, Cambridge, Mass. Date: Friday October 30, 2015. Time: 4:00 pm - 5:00 pm, Location: D463 (Star)
Abstract:
Today we are witnessing several shifts in scholarly practice, in and across multiple disciplines, as researchers embrace digital techniques to tackle established research questions in new ways and new questions afforded by digital and digitized collections, approaches, and technologies. Pervasive adoption of technology, coupled with the co-creation of new social processes, has created a new and complex space for scholarship where citizens both generate and analyse data as they interact at the intersection of the physical and digital. Drawing on a background in distributed computing, and adopting the lens of Social Machines, this talk discusses current activity in digital scholarship, framing it in its interdisciplinary settings.
Bio:
David De Roure is Professor of e-Research at University of Oxford, Director of the Oxford e-Research Centre, and chairs Oxford’s Digital Humanities research programme. He previously directed the Digital Social Research programme for the UK Economic and Social Research Council, and serves as a strategic advisor in new forms of data and realtime analytics. Trained in electronics and computer science, his career has involved interdisciplinary collaborations in chemistry, astrophysics, bioinformatics, social computing, digital libraries, and sensor networks. His personal research is in Computational Musicology, Web Science, and Internet of Things. He is a frequent speaker and writer on digital research and the future of scholarly communications. URL: http://www.oerc.ox.ac.uk/people/dder
Textile Futures: Smart Garments and E-Textiles: Well-being and our Connected ...Barbara Trippeer
Presentation on the development of SMART garment systems for healthcare and fashion/apparel, and proposals for new methods of user engagement to enhance project development.
In the following pages, PSFK Labs has
summarized 10 trends related to wearable
technologies that sit under three larger
themes - Connected Intimacy, Tailored
Ecosystem and Co-Evolved Possibilities -
with the goal of helping people understand
the basic features, form and functions of
these devices and what they might replace.
To support this, PSFK has described each of
the themes and trends, along with three bestin-
class examples that show how these ideas
are manifesting within the marketplace and
provided relevant stats that convey potential
for growth. Additionally, each trend page
includes a list of experts who write about the
larger significance of these ideas
The Future of Wearable Tech report in collaboration with iQ by intel identifies 10 trends and three major themes that point to the evolving form and function of wearable devices and their influence on the way we live, work and socialize. In our Connected Intimacy theme, we explore how wearables are revolutionizing the way we communicate information about ourselves and maintain relationships over any distance. With the Tailored Ecosystem theme, we look at how these devices are personalizing the world around us and adapting to our ever-changing needs. While the Co-Evolved Possibilities theme considers the potential and promise of a closer union between humans and technology and its impacts on our natural abilities.
Within these themes, we take an in-depth look at each of the key trends, bringing them to life with best-in-class examples and connecting the dots with takeaways to help spark thinking and discussion. As you click through the following slides, we hope you find inspiration and innovation that you can leverage and share within your own organization.
For more information about the report visit:
http://www.psfk.com/publishing/future-of-wearable-tech
Want to Learn More About This Topic or Any Other?
Go to labs.psfk.com to learn more about accessing in-depth trend reports on industries, markets, and topics, database access, workshops, presentati
Open Grid Forum workshop on Social Networks, Semantic Grids and WebNoshir Contractor
Workshop organized by David De Roure at the Open Grid Forum XIX. Other participants included Carole Gobler, Jeremy Frey, Pamela Fox.
January 29, 2007, Chapel Hill, NC
The health club industry is being transformed through the adoption of new technologies and the overall trends of wellness and networked health and fitness.
Seminar at CSAIL, MIT, Cambridge, Mass. Date: Friday October 30, 2015. Time: 4:00 pm - 5:00 pm, Location: D463 (Star)
Abstract:
Today we are witnessing several shifts in scholarly practice, in and across multiple disciplines, as researchers embrace digital techniques to tackle established research questions in new ways and new questions afforded by digital and digitized collections, approaches, and technologies. Pervasive adoption of technology, coupled with the co-creation of new social processes, has created a new and complex space for scholarship where citizens both generate and analyse data as they interact at the intersection of the physical and digital. Drawing on a background in distributed computing, and adopting the lens of Social Machines, this talk discusses current activity in digital scholarship, framing it in its interdisciplinary settings.
Bio:
David De Roure is Professor of e-Research at University of Oxford, Director of the Oxford e-Research Centre, and chairs Oxford’s Digital Humanities research programme. He previously directed the Digital Social Research programme for the UK Economic and Social Research Council, and serves as a strategic advisor in new forms of data and realtime analytics. Trained in electronics and computer science, his career has involved interdisciplinary collaborations in chemistry, astrophysics, bioinformatics, social computing, digital libraries, and sensor networks. His personal research is in Computational Musicology, Web Science, and Internet of Things. He is a frequent speaker and writer on digital research and the future of scholarly communications. URL: http://www.oerc.ox.ac.uk/people/dder
Smart Data - How you and I will exploit Big Data for personalized digital hea...Amit Sheth
Amit Sheth's keynote at IEEE BigData 2014, Oct 29, 2014.
Abstract from:
http://cci.drexel.edu/bigdata/bigdata2014/keynotespeech.htm
Big Data has captured a lot of interest in industry, with the emphasis on the challenges of the four Vs of Big Data: Volume, Variety, Velocity, and Veracity, and their applications to drive value for businesses. Recently, there is rapid growth in situations where a big data challenge relates to making individually relevant decisions. A key example is personalized digital health that related to taking better decisions about our health, fitness, and well-being. Consider for instance, understanding the reasons for and avoiding an asthma attack based on Big Data in the form of personal health signals (e.g., physiological data measured by devices/sensors or Internet of Things around humans, on the humans, and inside/within the humans), public health signals (e.g., information coming from the healthcare system such as hospital admissions), and population health signals (such as Tweets by people related to asthma occurrences and allergens, Web services providing pollen and smog information). However, no individual has the ability to process all these data without the help of appropriate technology, and each human has different set of relevant data!
In this talk, I will describe Smart Data that is realized by extracting value from Big Data, to benefit not just large companies but each individual. If my child is an asthma patient, for all the data relevant to my child with the four V-challenges, what I care about is simply, “How is her current health, and what are the risk of having an asthma attack in her current situation (now and today), especially if that risk has changed?” As I will show, Smart Data that gives such personalized and actionable information will need to utilize metadata, use domain specific knowledge, employ semantics and intelligent processing, and go beyond traditional reliance on ML and NLP. I will motivate the need for a synergistic combination of techniques similar to the close interworking of the top brain and the bottom brain in the cognitive models.
For harnessing volume, I will discuss the concept of Semantic Perception, that is, how to convert massive amounts of data into information, meaning, and insight useful for human decision-making. For dealing with Variety, I will discuss experience in using agreement represented in the form of ontologies, domain models, or vocabularies, to support semantic interoperability and integration. For Velocity, I will discuss somewhat more recent work on Continuous Semantics, which seeks to use dynamically created models of new objects, concepts, and relationships, using them to better understand new cues in the data that capture rapidly evolving events and situations.
Smart Data applications in development at Kno.e.sis come from the domains of personalized health, energy, disaster response, and smart city.
This is an overview of the Performance Media Art research project Hacking the Body conducted by media artist and academic, Camille Baker and choreographer/media artist, Kate. Presented by Camille Baker at the Maker's Guild event in London, July 17th, 2013
Talk presented at the conference on the Philosophy of Emerging Media, Boston University, October 26-27, 2013
If you try to find information about a gene or a molecule or a restaurant or a sports team or a politician on the web, it’s likely that some ontology will be involved in your search. An ontology is (briefly put) a semantically organized consensus representation of the types of entities in a given domain and of the relations between these entities – it is something like a large graph of the way some part of the world is structured. So important have ontologies become to organizations such as the BBC or the New York Times, that there is a running joke in the Semantic Web community to the effect that the Columbia School of Journalism is about to be renamed the Columbia School of Journalism and Ontology. I will attempt to draw conclusions from these phenomena concerning the ways in which social interactions are being influenced, and to some degree also transformed, by digital media.
In this paper we define the notion of the Hybrid Social Learning Network. We propose mechanisms for interlinking and enhancing both the practice of professional learning and theories on informal learning. Our approach shows how we employ empirical and design work and a participatory pattern workshop to move from (kernel) theories via Design Principles and prototypes to social machines articulating the notion of a HSLN. We illustrate this approach with the example of Help Seeking for healthcare professionals.
Presentation given at the HEA Social Sciences learning and teaching summit 'Exploring the implications of ‘the era of big data’ for learning and teaching'.
A blog post outlining the issues discussed at the summit is available via: http://bit.ly/1lCBUIB
Keynote talk at the Web Science Summer School, Singapore, 8 December 2014. Today we see the rise of Social Machines, like Twitter, Wikipedia and Galaxy Zoo—where communities identify and solve their own problems, harnessing commitment, local knowledge and embedded skills, without having to rely on experts or governments.
The Social Machines paradigm provides a lens onto the interacting sociotechnical systems of our hybrid digital-physical world, citizen-centric and at scale—emphasising empowerment and sociality in a world of pervasive technology adoption and automation.
This talk will present the Social Machines paradigm as an approach to social media analytics and a rethinking of our scholarly practices and knowledge infrastructure.
Social Group Recommendation based on Big Dataijtsrd
Current life involves physical enjoyment, social activities and content, profile and cyber resources. Now it is easy to merge computing, networking and society with physical systems to create new revolutionary science, technical capabilities and better quality of life. That all possible through Cyber Physical Social Content and Profile Based System (CPSCPs).In this propose system, a group-centric intelligent recommender system named as GroRec, which integrates social, mobile and big data technologies to provide effective, objective and accurate recommendation services. This provides group recommendation in CPSCPs domain. In which activity oriented cluster discovery, the revision of rating information for improved accuracy and cluster preferences modelling that supports descent context mining from multiple sources. Group recommendation is based on profile and content based approach. Our main goal is make several interactions with group members by using specific technique and methods. The recommender system is economical, objective and correct. Ms. Nikita S. Mohite | Mr. H. P. Khandagale"Social Group Recommendation based on Big Data" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-2 | Issue-3 , April 2018, URL: http://www.ijtsrd.com/papers/ijtsrd7097.pdf http://www.ijtsrd.com/computer-science/data-miining/7097/social-group-recommendation-based-on-big-data/ms-nikita-s-mohite
A co-authored paper and presentation by myself, Evan Raskob, Fiona French and Nick Rothwell, on the "Life Project" a robot art project led by Evan Raskob
Smart Data - How you and I will exploit Big Data for personalized digital hea...Amit Sheth
Amit Sheth's keynote at IEEE BigData 2014, Oct 29, 2014.
Abstract from:
http://cci.drexel.edu/bigdata/bigdata2014/keynotespeech.htm
Big Data has captured a lot of interest in industry, with the emphasis on the challenges of the four Vs of Big Data: Volume, Variety, Velocity, and Veracity, and their applications to drive value for businesses. Recently, there is rapid growth in situations where a big data challenge relates to making individually relevant decisions. A key example is personalized digital health that related to taking better decisions about our health, fitness, and well-being. Consider for instance, understanding the reasons for and avoiding an asthma attack based on Big Data in the form of personal health signals (e.g., physiological data measured by devices/sensors or Internet of Things around humans, on the humans, and inside/within the humans), public health signals (e.g., information coming from the healthcare system such as hospital admissions), and population health signals (such as Tweets by people related to asthma occurrences and allergens, Web services providing pollen and smog information). However, no individual has the ability to process all these data without the help of appropriate technology, and each human has different set of relevant data!
In this talk, I will describe Smart Data that is realized by extracting value from Big Data, to benefit not just large companies but each individual. If my child is an asthma patient, for all the data relevant to my child with the four V-challenges, what I care about is simply, “How is her current health, and what are the risk of having an asthma attack in her current situation (now and today), especially if that risk has changed?” As I will show, Smart Data that gives such personalized and actionable information will need to utilize metadata, use domain specific knowledge, employ semantics and intelligent processing, and go beyond traditional reliance on ML and NLP. I will motivate the need for a synergistic combination of techniques similar to the close interworking of the top brain and the bottom brain in the cognitive models.
For harnessing volume, I will discuss the concept of Semantic Perception, that is, how to convert massive amounts of data into information, meaning, and insight useful for human decision-making. For dealing with Variety, I will discuss experience in using agreement represented in the form of ontologies, domain models, or vocabularies, to support semantic interoperability and integration. For Velocity, I will discuss somewhat more recent work on Continuous Semantics, which seeks to use dynamically created models of new objects, concepts, and relationships, using them to better understand new cues in the data that capture rapidly evolving events and situations.
Smart Data applications in development at Kno.e.sis come from the domains of personalized health, energy, disaster response, and smart city.
This is an overview of the Performance Media Art research project Hacking the Body conducted by media artist and academic, Camille Baker and choreographer/media artist, Kate. Presented by Camille Baker at the Maker's Guild event in London, July 17th, 2013
Talk presented at the conference on the Philosophy of Emerging Media, Boston University, October 26-27, 2013
If you try to find information about a gene or a molecule or a restaurant or a sports team or a politician on the web, it’s likely that some ontology will be involved in your search. An ontology is (briefly put) a semantically organized consensus representation of the types of entities in a given domain and of the relations between these entities – it is something like a large graph of the way some part of the world is structured. So important have ontologies become to organizations such as the BBC or the New York Times, that there is a running joke in the Semantic Web community to the effect that the Columbia School of Journalism is about to be renamed the Columbia School of Journalism and Ontology. I will attempt to draw conclusions from these phenomena concerning the ways in which social interactions are being influenced, and to some degree also transformed, by digital media.
In this paper we define the notion of the Hybrid Social Learning Network. We propose mechanisms for interlinking and enhancing both the practice of professional learning and theories on informal learning. Our approach shows how we employ empirical and design work and a participatory pattern workshop to move from (kernel) theories via Design Principles and prototypes to social machines articulating the notion of a HSLN. We illustrate this approach with the example of Help Seeking for healthcare professionals.
Presentation given at the HEA Social Sciences learning and teaching summit 'Exploring the implications of ‘the era of big data’ for learning and teaching'.
A blog post outlining the issues discussed at the summit is available via: http://bit.ly/1lCBUIB
Keynote talk at the Web Science Summer School, Singapore, 8 December 2014. Today we see the rise of Social Machines, like Twitter, Wikipedia and Galaxy Zoo—where communities identify and solve their own problems, harnessing commitment, local knowledge and embedded skills, without having to rely on experts or governments.
The Social Machines paradigm provides a lens onto the interacting sociotechnical systems of our hybrid digital-physical world, citizen-centric and at scale—emphasising empowerment and sociality in a world of pervasive technology adoption and automation.
This talk will present the Social Machines paradigm as an approach to social media analytics and a rethinking of our scholarly practices and knowledge infrastructure.
Social Group Recommendation based on Big Dataijtsrd
Current life involves physical enjoyment, social activities and content, profile and cyber resources. Now it is easy to merge computing, networking and society with physical systems to create new revolutionary science, technical capabilities and better quality of life. That all possible through Cyber Physical Social Content and Profile Based System (CPSCPs).In this propose system, a group-centric intelligent recommender system named as GroRec, which integrates social, mobile and big data technologies to provide effective, objective and accurate recommendation services. This provides group recommendation in CPSCPs domain. In which activity oriented cluster discovery, the revision of rating information for improved accuracy and cluster preferences modelling that supports descent context mining from multiple sources. Group recommendation is based on profile and content based approach. Our main goal is make several interactions with group members by using specific technique and methods. The recommender system is economical, objective and correct. Ms. Nikita S. Mohite | Mr. H. P. Khandagale"Social Group Recommendation based on Big Data" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-2 | Issue-3 , April 2018, URL: http://www.ijtsrd.com/papers/ijtsrd7097.pdf http://www.ijtsrd.com/computer-science/data-miining/7097/social-group-recommendation-based-on-big-data/ms-nikita-s-mohite
A co-authored paper and presentation by myself, Evan Raskob, Fiona French and Nick Rothwell, on the "Life Project" a robot art project led by Evan Raskob
Presented a paper on “Hacking the Body”, the collaborative project with Lincoln University collaborator dancer/choreographer Kate Sicchio for the Mediamorphosis Symposium, at the University of Brighton, presented by The REFRAME Digital Platform for Research in Media, Film and Music research group (http://reframe.sussex.ac.uk/) and the Creative Critical Practice Research Group at the University of Sussex
A presentation for Research in Humanities and the Arts 2017 (DRHA): DataAche, Plymouth, UK - on the WEAR Sustain EU funded project progress, challenges and values on ethical and sustainable wearable technologies and e-textiles.
New Directions in Mobile Media and Performance - book previewCamille Baker, PhD
A detailed presentation of forthcoming monograph New Directions in Mobile Media and Performance for The 6th International Symposium of the Mobile and Creation Research Group (IRCAV / Paris 3-Labex ICCA): Colloque Corps Et Mobiles: mobile body
Mastering the Concepts Tested in the Databricks Certified Data Engineer Assoc...SkillCertProExams
• For a full set of 760+ questions. Go to
https://skillcertpro.com/product/databricks-certified-data-engineer-associate-exam-questions/
• SkillCertPro offers detailed explanations to each question which helps to understand the concepts better.
• It is recommended to score above 85% in SkillCertPro exams before attempting a real exam.
• SkillCertPro updates exam questions every 2 weeks.
• You will get life time access and life time free updates
• SkillCertPro assures 100% pass guarantee in first attempt.
Collapsing Narratives: Exploring Non-Linearity • a micro report by Rosie WellsRosie Wells
Insight: In a landscape where traditional narrative structures are giving way to fragmented and non-linear forms of storytelling, there lies immense potential for creativity and exploration.
'Collapsing Narratives: Exploring Non-Linearity' is a micro report from Rosie Wells.
Rosie Wells is an Arts & Cultural Strategist uniquely positioned at the intersection of grassroots and mainstream storytelling.
Their work is focused on developing meaningful and lasting connections that can drive social change.
Please download this presentation to enjoy the hyperlinks!
This presentation, created by Syed Faiz ul Hassan, explores the profound influence of media on public perception and behavior. It delves into the evolution of media from oral traditions to modern digital and social media platforms. Key topics include the role of media in information propagation, socialization, crisis awareness, globalization, and education. The presentation also examines media influence through agenda setting, propaganda, and manipulative techniques used by advertisers and marketers. Furthermore, it highlights the impact of surveillance enabled by media technologies on personal behavior and preferences. Through this comprehensive overview, the presentation aims to shed light on how media shapes collective consciousness and public opinion.
Announcement of 18th IEEE International Conference on Software Testing, Verif...
HCII 2017 Vancouver Poster Presentation
1. Hacking the Body 20 Ethics in Wearable Tech Etextiles Design & Data Collection in Performance
Camille Baker, PhD, University for the Creative Arts, School of Communication Design, Epsom, UK - CBaker10@uca.ac.uk
& Kate Sicchio, PhD, New York University, Tandon School of Engineering, Brooklyn, NY USA, sicchio@nyu.edu
Keywords: wearable tech and e-textiles, performance, personal identity, ethics of data collection.
The fervour over the last 2-3 years around wearable technology that
collects user’s personal body data, under the pretense of medical or
fitness monitoring, highlights the timeliness of raising critical ques-
tions. The ethics of corporate data collection is only now being dis-
cussed publically, not only in the fine print for wearable sports and
health devices and corresponding mobile apps. More public aware-
ness and education about body data mining is critical, everyone
should have the right to access, own, explore, and use their own body
data.
Wearable companies should be required to provide users open ac-
cess and ownership of their own body data, as well as to grant rights
it, to enable them new ways to express their personal identity, as well
as to interpret or reinterpret this data however they choose – which is
presently not easy since the companies hold it as proprietary and only
sell it to insurance or medical companies (Forrester, June 2014).
Hacking the Body 2.0 (HTB2.0) is an on-going practical investigation by media artist/choreographer/re-
searcher Kate Sicchio and Camille Baker, which explores the issues of personal data collection and data as
identity. The focus of HTB 2.0 has been in interpreting inner processes in order to try define them as part of
one’s personal identity, which may (or may not influence) one’s movement and interaction with others.
Conceptually, Hacking the Body and HTB 2.0 started by examining rhetoric within the online computing
community on code, hacking, networks, the quantified self, and data as a new approach to examining inner
and outer states of the human body, measured by sensing devices within performance. By using modern
DIY wearable electronics and smart materials alongside hacked corporate fitness tech, we explore issues of
data identity and data ethics that are adding a new dimension to the evolution of technology in performance.
As researchers and artists, we question corporate and government agendas, and explore ways to access
body data locally (not ‘in the cloud’), to uniquely demonstrate who we are, our physiological changes, move-
ment, and interaction–like language. While examining these issues, we believe we can create new forms of
non-verbal interaction and communication, and empower ourselves through access to our own body data,
to express and perform our identity, outside the cloud.
The participatory performance activities and choreography developed by HTB 2.0 are informed by physi-
ological code and data collection as a means for performers to interact with their own body data, through
experiential, sensual, haptic engagement with the custom-made garments on their bodies and those of oth-
er performers as such, they become co-creators in the work. HTB 2.0 is not only focused on the making of
physiological sensing and actuating garments, but also on enabling performers to understand, express and
perform their ‘data-as-identity’ to reclaim control over it. It is also another technique to devise movement
and interaction, for performers co-create the performance. As with other forms of data, body-as-information
can be hacked and re-purposed, and re-physicalised, yet we argue this should only done by the owner of
that body - putting the data ownership literally back into the hands of the body from which it originates and
is collected from.
Practically, the HTB 2.0 performance instantiations have helped to
develop our electronics making skills using soft-circuits and smart
textiles. We have created non-data-collecting tech garments that
trigger expression and portray personal identity through move-
ment responses and haptic interaction. In the process, performers
express their own body code during the performance ‘hacks’. Re-
cent iterations have focussed on garment aesthetics, ethical use
of fabrics, housing for the electronics, and interaction design of
the sensing and actuation, not to mentions movement vocabulary
and gestural responses of the dancers triggering the actuation to
further develop into dance phrasing. This process allows dancers
to interact and respond to touch and haptics and their response to
actuation or output through vibration - developing new movement
‘dialogue’ between performers exploring their identities.
HTB 2.0 took to the stage in early spring 2016. We hacked into
off-the-shelf devices to enable the dancers to interact directly with
the embedded electronics in the garments, to trigger the dancers in
conversation, with an added feature allowing the choreographer (or
the audience) to intervene directly with the dancers’ and their move-
ment. Two pieces were developed: 1) Flutter/ Stutter – costumes
with haptic garments and motor actuation ‘tickles’; 2) feel me –
costumes with custom etextiles breath sensors and vibe actuation.
feel me, had hacked corporate devices, is a very structured piece
choreographically with a strict form of repetition, so as one dancer
exhales, the other dancer stops moving for a breath. The movement
is intentionally forced to emphasise the interaction.
References: 1) Dixon, Steve. 2004. Digital Performance A History of New Media in Theater, Dance, Performance Art, and Installation. Cambridge: MIT Press. 2) Forrester, Ian. “Quantified Self and the ethics of personal data”, (IN BBC R&D blog, June 2014), http://www.bbc.co.uk/rd/blog/2014/06/qs-ethics-ofdata (accessed November 26, 2014) 3) Grosz, Elizabeth. 2001. Architecture from the outside Essays on Virtual and Real Space.
Cambridge: MIT Press. 4) Howe, Daniel C. (2015) “Surveillance Countermeasures: Expressive Privacy via Obfuscation” IN (APRJA) A Peer-Reviewed Journal About Datafied Research 2015, volume 4.1, available online at http://www.aprja.net/?Page_id=2283 accessed January 22, 2016. 5) Kozel, Susan. 2008. Closer: Performance, Technologies, Phenomenology. Cambridge: MIT Press. 6) Manning, E. 2009. Relationscapes: Movement,
Art, Philosophy. Cambridge: MIT Press. 7) Nebeker, Camille. Edd, MS, “Examining the ethical dimensions of wearable and sensing technologies”, (IN mhealth Research, Health Informatics Information Technology (HIIT) Section Poster Session # 5, 4378.0, November 2014). Online at https://apha.confex.com/apha/142am/webprogram/Paper309689.html (accessed November 26, 2014) 8) Reese, Stephen. “Preparing for the digital health
revolution”, (IN Digital Health The Guardian, November 2014), Online at http://www.theguardian.com/media-network/olswang-partner-zone/2014/nov/07/preparing-for-the-digital-health-revolution (accessed November 26, 2014) 9) Ridgway, Renée (2015) “Personalisation as currency”, IN (APRJA) A Peer-Reviewed Journal About Datafied Research 2015, volume 4.1, available online at http://www.aprja.net/?P=2531. 9) Rose, Ian. “Every step
you take: Who owns our mobile health data?” ((IN BBC Business, November 12, 2014), Online at http://www.bbc.com/news/business-29952998 (accessed November 26, 2014) 10) Ryan, Susan.E. 2014 Garments of Paradise. Cambridge: MIT Press. 11) Salter, Chris. 2010. Entangled Technology and the Transformation of Performance. Cambridge: MIT Press. 12) Schiphorst, T and Anderson, K. 2004. Between Bodies: using Experience
Modeling to Create Gestural Protocols for Physiological Data Transfer, International Conference For Human-Computer Interaction Systems, Vienna, Austria: Conference Proceedings.13) Schiphorst, T. 2007. The Varieties of User Experience: Bridging Embodied Methodologies from Somatics and Performance to Human Computer Interaction, PhD Dissertation, School of Computing, Plymouth, United Kingdom: CAiiA Star at the University of
Plymouth. 14) Zizek, Slavoj. 2006. How to Read Lacan London: Granta Books.
Figure 1. Image from February 2016 in London, UK - dancers interacting with the textile touch
sensors embedded in the pink pleated fabric.
Figure 2. Image from January 2016 in London, UK - new bespoke garment for flutter/stutter: made from recycled materials with textile touch
sensors embedded in the pink pleated fabric.
Figure 3. Image from February 2016 in London, UK - feel me: where the breath is felt by the
other dancers and interferes with the choreography