When an interface becomes the face am 5. December 2016
ungefähr 9 Minuten
Themen: Robotics , semester question , Sociology

When an interface becomes the face

Glenda Hannibal works in the department of sociology as a junior assistant (Universitätsassistentin). Her research centers around the sense-making processes of human-robot encounter and the  way in which ‘everyday life’ is constructed within the practice of social robotics. Contributing to the  Semesterfrage “How are we living in tomorrow’s digital world?” Glenda reflects upon how humans will experience interacting with digital technologies in a robot-supported society in the near future:

Photo 1: The robot BUDDY, developed by Blue Frog Robotics, is designed to improve the everyday life of people. Source: https://upload.wikimedia.org/wikipedia/commons/6/6e/Buddy-robot.jpg
The robot BUDDY, developed by Blue Frog Robotics, is designed to improve the everyday life of people.

Today most of us have integrated all sorts of digital devices as part of our lives so far that it is hard to imagine life without smartphones, tablets and computers. All aspect of our lives have been transformed by their use, from entertainment, through work and socializing, even to love. As media they significantly shape our reality, but when it comes to social relationships they remain just that – tools that help us connect to others.

But could we imagine a future in which we do not use digital tools but rather interact with them as with independent beings? Where we do not use the computer to socialize with friends, but socialize with the computer? In such future interfaces would become faces. This future is already becoming a reality and it is best seen in recent developments in social robotics. While social media help mediate already existing relationships, robots may soon become beings with whom we will develop completely new kinds of relationships, eventually changing the landscape of social reality.

From myths to tangible robots

Ideas and myths about building human-like creatures date back to old Jewish myth about the Golem – an anthropomorphic clay being that could be brought to life by placing a parchment with a spell in its mouth. In the early modern period advancements in mechanics allowed for construction of automatons in the shape of both humans and animals. Not only did the science-fictional play R.U.R. (Rossum’s Universal Robots) from 1920 by Czech writer Karel Čapek revolve around the fabrication of artificial people and how they eventually rebelled against their creators but also introduced the word ‘robot’, which is now commonly used to denote autonomous machines.

It was, however, first in the late 1950’s that we have acquired the scientific knowledge and technical skills that allowed for development of robots as we normally see them portrayed in various pop-cultural narratives such as Star Wars. As technology became available it was quickly integrated into society mostly in research and industry. Today robots are commonly found in factories where they are used on production lines to replace manual workers. Robots have also been used to carry out tasks that are deemed too dangerous for humans like dismantling of bombs used in warfare. In research labs scientists are using robots as a testbed for scientific theories. These robots remain, however, far from our everyday lives and are mainly treated and experienced as mere instruments for a human and societal end.

Photo 2: A scene from the science-fiction play R.U.R. (1920). Source: https://upload.wikimedia.org/wikipedia/commons/d/d9/Capek_RUR.jpg
A scene from the science-fiction play R.U.R. (1920).

A different trend appeared in the late 1990s, when robot toys for children, such as the robot dog AIBO and the robot bird FURBY, were first developed. They were made to entertain children and provide alternatives to real, living pets. Quickly moving beyond entertainment context, robots started to be viewed as the new technological solution to problems western countries had to face in relation to demographic changes. Robotics engineers begun developing robots that were capable of carrying out not merely physical work but could also perform social functions. Several countries, such as Japan, Germany, the US, Denmark and the Netherlands, have already introduced into elder care the robotic seal-pup PARO whose purpose is to engage nursing home residents in interactions that contribute to their mental health and keep them company.

These kind of robots are now also developed and tested in other social practices such as education and therapy. In all these instances the main idea remains the same: these robots are no longer seen as mere instruments, but rather as crucial interaction partners for those people in our society who might be in need of some special help or care. But the ultimate goal in social robotics is a possibility of building more advanced robots that could eventually become true companions, and not only in the context of therapy or elder care.

In line with this aspiration the most recent developments in social robotics aim for developing robot companions for families. No longer seen as merely playthings for children or companions for the lonely, these robots are marketed as universal assistance that can help all members of the family and carry out various daily chores around the house. Robot like JIBO, BUDDY and ZENBO, developed with the idea of becoming an integral part of everyday life, mark an important shift from thinking about robots as something exceptional and futuristic to something ordinary: just another member of family giving a helping hand in carrying out the tasks in our day-to-day life.

Dealing with ambiguity

Robots and digital technologies have always been of interest to social sciences. Automatization have transformed the whole world of work. Social media have changed the way we engage with both friends and strangers. Today social robotics are poised to challenge the very idea of what role technological objects play in our social reality. However, unlike computers and other digital tools social robots have not yet gone into general public as common element of life, and so it is hard to give any concrete ideas on future developments. Still, speculations are possible.

Photo 3: The robot NAO, developed by Softbank Robotics, is an interactive and personalized robot already tested for educational and therapeutic purposes. Source: Glenda Hannibal
The robot NAO, developed by Softbank Robotics, is an interactive and personalized robot already tested for educational and therapeutic purposes.

Science-fiction narratives have long speculated on how reality with all-present robots would look. Consistently they presented such future as a dystopian nightmare, perhaps exploiting our fear of the unknown for dramatic effect and box-office success. A more cautious, more realistic prediction is that we will co-develop with robots. Humans will become more sensitive to how we can engage with technological interface (or face) and in turn robots will adapt to human needs. It is therefore not a questions of whether humans or robots will be the master of the future but rather how humans and robots together will create and cultivate new forms of social realities.

This means that a digital future might open up a possibility for development of new kinds of social relations we have never seen before. If that happens it will be less an occasion for panic than for deep wonder: the generation of today and the future will most probably live in a time when development of social relations are no longer defined and reserved for humans but always in co-construction with those very technologies people use on a daily basis. We do not know how we came to develop partnership relations with animals like dogs and cats but now it is a well-established and highly valued part of reality and similarly the near future might let us see the arising of new partnerships with robots. This does not mean that robots will replace current relationships with people, that instead of human friends and lovers we will have robotic ones. Rather the possibility is of developing separate, new kinds of relationships with robots that will exist alongside already present human-human and human-animal relationships.

How would such relationships look? Judging by our current interactions with robots, they will probably involve certain ambiguity, in that we will constantly shift in our experience of robots as both tools and social beings. The way we will understand and come to terms with this ambiguity is precisely the question and the task at hand when reflecting on how people live in a digital future.

Acknowledgement: I would like to thank Mateusz Tokarski for giving feedback on the content and editing the text for this blog post.

If you liked this blogpost on our current #Semesterquestion keep reading in our uni:view magazine (in German): http://semesterfrage.univie.ac.at. Additionally, in the online forum of derStandard four expert articles will be published until January. You can pose your questions there too. And don’t forget to come to our final discussion, which takes place on January 16th! More information here.



Robot-supported health

Glenda Hannibal is a junior assistant at the department of sociology where she is exploring and addressing some of the hidden assumptions and enabling conditions driving the development of social robotics. For our campaign “semester question” (Semesterfrage) Glenda gives some examples of how robots are currently developed and used to improve the health of people and … Continued


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Jana Gurinova is a Master student of Pharmacy at the University of Vienna, a NaturTalent of the High Potential Program NaturTalente of the University of Vienna and a researcher in the Pharmacoinformatics Research Group at the Department of Pharmaceutical Chemistry. The project TransQST she is currently involved in revolves around the transferability of lab data to … Continued

2 comments

  1. I am requesting for a PHD Thesis which was referenced in a technical paper. Could you please send me the thesis entitled:

    Integrated Microwave Power Amplifiers, PhD dissertation, Technical University Vienna, 2003 thesis By Bakalski.

    Thank you.

    Best regards
    J Raza

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