Abstract
Service and personal care robots are starting to cross the threshold into the wilderness of everyday life, where they are supposed to interact with inexperienced lay users in a changing environment. In order to function as intended, robots must become independent entities that monitor themselves and improve their own behaviours based on learning outcomes in practice. This poses a great challenge to robotics, which we are calling the “autonomy-safety-paradox” (ASP). The integration of robot applications into society requires the reconciliation of two conflicting aspects: increasing machine autonomy and ensuring safety in end-use. As the level of robot autonomy grows, the risk of accidents will increase, and it will become more and more difficult to identify who is responsible for any damage incurred. However, emphasizing safety impairs the autonomous functioning of the robot. This problem implies the need for a broadened concept of product safety. Our comparative study shows that the institutional framing of the ASP as well as concrete solutions to this problem differs between Europe and Japan in two respects: (1) the understanding of robot agency and (2) the concept of “appropriate” user–robot interaction.
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Notes
For an in-depth discussion of self-responsibility concepts, see Henkel and Åkerstrøm Andersen 2015.
For example, the research agenda of the European Robotics Platform (2009) states that alongside the developing industry, “[e]xisting national laws and international conventions, as well as different ethical and cultural perspectives and societal expectations across the different states of Europe need to be taken into consideration” (p. 8).
Robot Companions for Citizens, http://www.robotcompanions.eu/ (accessed 29 Dec 2014).
RoboLaw: Project Overview, http://www.robolaw.eu/projectdetails.htm (accessed 19 Dec 2014).
Even the term “robot” can have different meanings for different academics or experts; there is as yet no general agreement on its definition (euRobotics 2012, p. 15).
According to this view, it would be absurd to categorize a robotic system as a perpetrator to be punished (euRobotics 2012, p. 51).
The project was funded by the European Commission within the Seventh Framework Programme of the Information and Communication Technology (2010–2012).
RoboLaw: Project Overview, http://www.robolaw.eu/projectdetails.htm (accessed 19 Dec 2014).
The possibility of attributing legal personality to contracting software programmes (under a civil law framework) has been discussed for many years (e.g. Solum 1992; Karnow 1994; Allen and Widdison 1996; Andrade et al. 2007). In the countries featured in these studies, there are no special regulations that would explicitly grant legal or contractual capacity to a software programme. To recognize the legal personhood of computational entities requires either expanding the current legal framework or creating a completely new one. For this reason, the discussions mainly focus on the question of how the existing legal institutions, e.g. the rules concerning “messengers”, “minors” or “representatives” (in terms of agency law), could be analogously applied to software programmes in electronic transactions. The conclusion is that electronic entities could have, if any, only a minimal status under existing legal norms; responsibility and liability fall back after all on natural persons or corporate bodies.
According to the “Annual Report on the Aging Society” released by the Cabinet Office of the Japanese government in 2013, Japan is the world’s fastest ageing society (p. 7). In the year 2012, the number of people aged 65 and over reached 24.1 % of the total population (pp. 2–3).
See, for example, http://www.orixliving.jp/company/pdf/pressinfo_141104.pdf (in Japanese, accessed 6 Jan 2015).
See http://www.nedo.go.jp/news/press/AA5_0095A.html (in Japanese, accessed 17 Nov 2014).
See http://www.bengo4.com/topics/2352/ (in Japanese, accessed 11 Dec 2014).
See the overview of the project, http://www.nedo.go.jp/content/100147025.pdf (in Japanese, accessed 16 Sept 2014).
See http://www.nedo.go.jp/activities/EP_00270.html (in Japanese, accessed 16 Sept 2014).
See, for example, “Who is responsible for the safety of robot use?”, Mynavi News, 20 Aug 2014, http://news.mynavi.jp/series/service_robot/006/ (in Japanese, accessed 16 Sept 2014).
The author adopts a cautious stance towards the idea of assigning legal responsibility to robots, describing it as a science-fiction-type thought experiment (p. 104).
Personal interview, 29 August 2011.
References
Akasaka R (2014) Product liability for autonomous robots: in regard to concept of defect and state-of-art. Inf Netw Law Rev 13:103–121 (in Japanese)
Allen T, Widdison R (1996) Can computers make contracts? Harv J Law Technol 9:25–52
Allen C et al (2005) Artificial morality: top-down, bottom-up, and hybrid approaches. Ethics Inf Technol 7:149–155
Andrade F et al (2007) Contracting agents: legal personality and representation. Artif Intell Law 15:357–373
Asaro PM (2012) A body to kick, but still no soul to damn: legal perspectives on robotics. In: Lin P et al (eds) Robot ethics: the ethical and social implications of robotics. MIT Press, Cambridge, pp 169–186
Babaguchi N, Nishio S (2008) Sensing and privacy protection of network robots. J Inst Electron Inf Commun Eng 91:380–386 (in Japanese)
Beck S (2013) Über Sinn und Unsinn von Statusfragen – zu Vor- und Nachteilen der Einführung einer elektronischen Person. In: Hilgendorf E, Günther J-P (eds) Robotik und Gesetzgebung. Nomos, Baden-Baden, pp 239–260
Bekey GA et al (2011) Ethical implications of intelligent robots. In: Krichmar JL, Wagatsuma H (eds) Neuromorphic and brain-based robots. Cambridge University Press, Cambridge, pp 323–344
Boscarato C (2011) Who is responsible for a robot’s actions? In: van den Berg B, Klaming L (eds) Technologies on the stand: legal and ethical questions in neuroscience and robotics. Wolf, Nijmegen, pp 383–402
Cabinet Office, Government of Japan (2013) Annual report on the aging society: section 1 situation on aging. http://www8.cao.go.jp/kourei/english/annualreport/2013/pdf/1-1.pdf. Accessed 24 Sept 2014
Calo MR (2011) Open robotics. MD Law Rev 70:571–613
Calverley DJ (2008) Imagining a non-biological machine as a legal person. AI Soc 22:523–537
Coeckelbergh M (2010) Robot rights? Towards a social-relational justification of moral consideration. Ethics Inf Technol 12:209–221
Corbin J, Strauss AL (1990) Grounded theory research: procedures, canons and evaluative criteria. Z Soziol 19:418–427
Dahiyat EAR (2010) Intelligent agents and liability: is it a doctrinal problem or merely a problem of explanation? Artif Intell Law 18:103–121
Decker M (2008) Caregiving robots and ethical reflection: the perspective of interdisciplinary technology assessment. AI Soc 22:315–330
Dennett D (1997) When HAL kills, who’s to blame? Computer ethics. In: Stork D, Clarke AC (eds) HAL’s legacy: 2001’s computer as dream and reality. MIT Press, Cambridge, pp 351–365
Doi M et al (2007) Yubikitasu gijutsu “nettowāku robotto”: gijutsu to hōteki mondai [Ubiquitous technology “network robot”: technique and legal questions]. Ōmusha, Tokyo
euRobotics (2012) In: Leroux C, Labruto R (eds) Suggestion for a green paper on legal issues in robotics. http://www.eu-robotics.net/cms/upload/PDF/euRobotics_Deliverable_D.3.2.1_Annex_Suggestion_GreenPaper_ELS_IssuesInRobotics.pdf. Accessed 8 Nov 2014
European Robotics Platform (2009) Robotic visions to 2020 and beyond. http://robotics.h2214467.stratoserver.net/cms/upload/SRA/2010-06_SRA_A4_low.pdf. Accessed 13 Nov 2014
Feil-Seifer D et al (2007) Benchmarks for evaluating socially assistive robotics. Interact Stud 8:423–429
Floridi L, Sanders JW (2004) On the morality of artificial agents. Mind Mach 14:349–379
Fujie MG et al (2011) Case study of research ethics application in experimental joint project. J Robot Soc Jpn 29:257–258 (in Japanese)
Glaser BG, Strauss AL (1967) The discovery of grounded theory: strategies for qualitative research. Aldine, Chicago
Gruber M-C (2013a) Gefährdungshaftung für informationstechnologische Risiken: Verantwortungszurechnung im “Tanz der Agenzien”. Krit Justiz 46:356–371
Gruber M-C (2013b) Zumutung und Zumutbarkeit von Verantwortung in Mensch-Maschine-Assoziationen. In: Hilgendorf E, Günther J-P (eds) Robotik und Gesetzgebung. Nomos, Baden-Baden, pp 123–161
Haselager WFG (2005) Robotics, philosophy and the problems of autonomy. Pragmat Cogn 13:515–532
Hashimoto S (2005) Hito no kokoro ga wakaru robotto wa tanjō suruno? [Can we build a robot that understands people’s minds?] Waseda Univ Shinshō 72. http://www.waseda.jp/student/shinsho/html/72/7217.html. Accessed 17 Dec 2014
Hatamura Y (2011) Mizou to sōteigai: higashinihon daishinsai ni manabu [Unprecedented crisis and unintended harm: lessons learned from the aftermath of the 2011 Tōhoku earthquake and tsunami]. Kōdansha, Tokyo
Henkel A, Åkerstrøm Andersen N (eds) (2015) Special issue “Precarious responsibility: attribution of responsibility under conditions of trust in systems”. Soz Syst (accepted for publication)
Hirano S (2014) Robot-car liability. Chuo online—opinion. http://www.yomiuri.co.jp/adv/chuo/dy/opinion/20140916.html. Accessed 10 Dec 2014
Hornyak TN (2006) Loing the machine: the art and science of Japanese robots. Kōdansha International, Tokyo
Inoue H (2004) Humanoid R&D creates fertile society and new industries. J Robot Soc Jpn 22:2–5 (in Japanese)
Ishii K (2006) Cognitive robotics to understand human beings. NISTEP Q Rev 20:11–32
Japan Economic Research Institute (2011) Robotto gijutsu (RT) ga hiraku yutakana nihon: kaigo saabisu eno sangyōteki chōsen [Creating a prosperous future of Japane by means of robotics technologies (RT): industrial challenges for the supply of nursing care services]. http://www.nikkeicho.or.jp/wp/wp-content/uploads/fukukawa_honron.pdf. Accessed 14 Sept 2014
Johnson DG (2006) Computer systems: moral entities but not moral agents. Ethical Theory Moral Pract 8:195–204
Jonas H (1982) Technology as a subject for ethics. Soc Res 49:891–898
Kabe T (2010) Safety design of service robot: concept and methodology. J Jpn Soc Des Eng 45:521–526 (in Japanese)
Kabe T et al (2009) Criterion for the validity of safety design of service robot: critical hazard (CH) and reasonably alternative design (RAD) standard (machine elements, design and manufacturing). Trans Jpn Soc Mech Eng C 75(758):2837–2845 (in Japanese)
Kaplan F (2004) Who is afraid of the humanoid? Investigating cultural differences in the acceptance of robots. Int J Hum Robot 1:465–480
Karnow CEA (1994) The encrypted self: fleshing out the rights of electronic personalities. John Marshall J Comput Inf Law 13:1–16
Kishi N (2011) Robotto ga nihon wo sukuu [Robot saves Japan]. Bungeishunjū, Tokyo
Kishi Y (2013) On special issue “Technologies for intelligent next-generation robots”. J Robot Soc Jpn 31:1 (in Japanese)
Kobayashi M (2007) Legal problems and solutions about network surveillance system. IPSJ Mag 48:37–42 (in Japanese)
Kobayashi M (2010) Legal problems of next generation robots. J Soc Instrum Control Eng 49:373–378 (in Japanese)
Koops B-J et al (2010) Bridging the accountability gap: rights for new entities in the information society? Minn J Law Sci Technol 11:497–561
Koops B-J et al (2013) Robotic technologies and fundamental rights: robotics challenging the European constitutional framework. Int J Technoethics 4:15–35
Leis MJS (2006) Robots – our future partners?! A sociologist’s view from a German and Japanese perspective. Tectum, Marburg
Leroux C, Labruto R (2012) euRobotics project—deliverable D3.2.1 Ethical legal and societal issues in robotics. http://www.eurobotics-project.eu/cms/upload/PDF/euRobotics_Deliverable_D.3.2.1_ELS_IssuesInRobotics.pdf. Accessed 8 Dec 2014
Łichocki P et al (2011) The ethical landscape of robotics: bringing ethics into the design and use of robotics. IEEE Robot Autom Mag 18:39–50
Lie J (1997) The “problem” of foreign workers in contemporary Japan. In: Moore J (ed) The other Japan: conflict, compromise, and resistance since 1945. M.E. Sharpe, Armonk, pp 288–304
Lindemann G (2014) Weltzugänge. Die mehrdimensionale Ordnung des Sozialen. Velbrück Wissenschaft, Weilerswist
Lindemann G, Matsuzaki H (2014) Constructing the robot’s position in time and space—the spatio-temporal preconditions of artificial social agency. Sci Technol Innov Stud 10:85–106
Luhmann N (1972/2014) A sociological theory of law, 2nd edn. Routledge, Abingdon
Luhmann N (1984/1995) Social systems. Stanford University Press, Stanford
Luhmann N (1993/2004) Law as a social system. Oxford University Press, Oxford
MacDorman KF et al (2009) Does Japan really have robot mania? Comparing attitudes by implicit and explicit measures. AI Soc 23:485–510
Marino D, Tamburrini G (2006) Learning robots and human responsibility. Int Rev Inf Ethics 6:46–51
Matsuhira N, Ogawa H (2009) Robot technologies aiming for coexistence with social environment. Toshiba Rev 64:2–7
Matsuhira N et al (2005) Life support robots that coexist in harmony with people. Toshiba Rev 60:112–115
Matsuzaki H (2010) Gehorsamer Diener oder gleichberechtigter Partner? Überlegungen zum gesellschaftlichen Status von humanoiden Robotern in Japan. Technikgeschichte 77:373–390
Matthias A (2004) The responsibility gap: ascribing responsibility for the actions of learning automata. Ethics Inf Technol 6:175–183
Matthias A (2008) Automaten als Träger von Rechten. Plädoyer für eine Gesetzesänderung, Logos, Berlin
Menciassi A, Laschi C (2012) Biorobotics. In: Abu-Faraj ZO (ed) Handbook of research on biomedical engineering education and advanced bioengineering learning: interdisciplinary concepts. Med Inf Sci Ref, Hershey, pp 490–520
Menju T (2014) Nihon no imin ukeire wa jitsugen suruka? Imin ukeire giron no kappatsuka to kongo no tenbō [Will Japan open up to foreign labour? The debate on promotion of immigration intake and future prospects]. http://www.jcie.org/japan/j/pdf/cn_csm/2014/csm14j.pdf. Accessed 9 Oct 2014
METI (2008) Bunyaōdangata kagakugijutsu akademikku rōdomappu hōkokusho [Report on academic roadmap concerning trans-sectional technologies]. http://www.meti.go.jp/policy/economy/gijutsu_kakushin/kenkyu_kaihatu/20fy-pj/oudan2.pdf. Accessed 29 Dec 2014
METI (2013) 2012-nen robotto sangyō no shijō dōkō [Trends in the market for the robot industry in 2012]. http://www.meti.go.jp/press/2013/07/20130718002/20130718002-3.pdf. Accessed 4 Sept 2014
Mukai T (2011) Research ethics review for experiments of our robot RIBA using human subjects. J Robot Soc Jpn 29:263–264 (in Japanese)
Nagenborg M et al (2008) Ethical regulations on robotics in Europe. AI Soc 22:349–366
Nakada M (2010) A critical essay on HRI and robot’s autonomy. Matsuyama Univ Rev 21:209–232 (in Japanese)
Nambu T, Hashimoto T (2010) Robotto ni kansuru hōteki mondai to rōdōsha eno eikyō [Legal issues of robots and their impacts on workers]. Rōdō no kagaku 65:659–662
NEDO (2009) Brochure of the “NEDO Project for Practical Applications of Service Robots”. http://www.nedo.go.jp/content/100388880.pdf. Accessed 9 Dec 2014 (in Japanese)
NEDO (2014) White paper on robotization of industry, business and our life. http://www.nedo.go.jp/content/100563893.pdf. Accessed 6 Jan 2015
Nissenbaum H (1995) Computing and accountability. In: Johnson DG, Nissenbaum H (eds) Computers, ethics and social values. Prentice Hall, Englewood Cliffs, pp 526–538
Ohba K (2014) Toward a safety integration of robots into society. J Ind-Acad-Gov Collab 10:17–19 (in Japanese)
Okamoto S (2013) Nihon ni okeru robotto rinrigaku [Robot ethics in Japan]. Shakai to rinri 28:5–19
Operto F (2011) Ethics in advanced robotics: ELS issues in advanced robotics. IEEE Robot Autom Mag 18:72–78
Parks JA (2010) Lifting the burden of women’s care work: should robots replace the “human touch”? Hypatia 25:100–120
Powers TM (2011) Incremental machine ethics. IEEE Robot Autom Mag 18:51–58
Robertson J (2007) Robo sapiens japanicus: humanoid robots and the posthuman family. Crit Asian Stud 39:369–398
RoboLaw Project (2014) D6.2 Guidelines on regulating robotics. http://www.robolaw.eu/RoboLaw_files/documents/robolaw_d6.2_guidelinesregulatingrobotics_20140922.pdf. Accessed 19 Dec 2014
Robot Companions for Citizens (2012) RCC manifesto. http://www.robotcompanions.eu/drupal-robocom-files/page-files/RCC_MANIFESTO.pdf. Accessed 28 Dec 2014
Šabanović S (2014) Inventing Japan’s ‘robotics culture’: the repeated assembly of science, technology, and culture in social robotics. Soc Stud Sci 44:342–367
Sanfeliu A et al (2010) Influence of the privacy issue in the deployment and design of networking robots in European urban areas. Adv Robot 24:1873–1899
Sato T, Ariki T (2013) Outline of the project—special issue “Technologies for intelligent next-generation robots”. J Robot Soc Jpn 31:2–4 (in Japanese)
Schodt FL (1998) Inside the robot kingdom—Japan, mechatronics, and the coming robotopia. K Kōdansha International, Tokyo
Sekiya N (2011a) Fūhyōhigai: sono mekanizumu wo kangaeru [Fūhyōhigai and its mechanism]. Kōbunsha, Tokyo
Sekiya N (2011b) What is fuhyohigai? Fukushima J Med Sci 57:93–99
Sena H (2001) Robotto 21-seiki [Robots—a key figure of the 21st century]. Bungeishunjū, Tokyo
Sena H (2004) Robotto kyōzon shakai to hyūmanitii [human–robot co-existence society and humanity]. In: Inoue H et al (eds) Robotto gaku sōsei [Construction of robotics science]. Iwanami Shoten, Tokyo, pp 77–187
Sharkey A, Sharkey N (2012) Granny and the robots: ethical issues in robot care for the elderly. Ethics Inf Technol 14:27–40
Solum LB (1992) Legal personhood for artificial intelligences. North Carol Law Rev 70:1231–1287
Sparrow R (2007) Killer robots. J Appl Philos 24:62–77
Stahl BC (2006) Responsible computers? A case for ascribing quasi-responsibility to computers independent of personhood or agency. Ethical Theory Moral Pract 8:205–213
Sugimoto N (2003) PLP (product liability prevention) and new developments in robotic technology (3): on the possibility of safety authentication by third-party organizations. Robotto 150:61–70 (in Japanese)
Sugimoto N (2006) Safety standards and authentication of service robots. Robotto 168:4–9 (in Japanese)
Sugiura K (2012) Robot dialogue: robots that learn physically-situated communication. J Jpn Soc Artif Intell 27:580–586 (in Japanese)
Sullins JP (2006) When is a robot a moral agent? Int Rev Inf Ethics 6:23–30
Tarumoto H (2012) Towards a new migration management: care immigration policy in Japan. IMIS Beiträge 40:157–172
Teubner G (2006) Rights of non-humans? Electronic agents and animals as new actors in politics and law. J Law Soc 33:497–521
Tonkens R (2009) A challenge for machine ethics. Mind Mach 19:421–438
Torrance S (2008) Ethics and consciousness in artificial agents. AI Soc 22:495–521
Turkle S (2011) Alone together: why we expect more from technology and less from each other. Basic Books, New York
Veruggio G, Operto F (2008) Roboethics: social and ethical implications of robotics. In: Siciliano B, Khatib O (eds) Springer handbook of robotics. Springer, Berlin, pp 1499–1524
Veruggio G et al (2011) Roboethics: ethics applied to robotics. IEEE Robot Autom Mag 18:21–22
Wagner C (2009) „Tele-Altenpflege“und „Robotertherapie“: Leben mit Robotern als Vision und Realität für die alternde Gesellschaft Japans. In: Godzik M (ed) Japanstudien 21. Altern in Japan. Iudicium, Munich, pp 271–298
Wagner C (2013) Robotopia Nipponica – Recherchen zur Akzeptanz von Robotern in Japan. Tectum, Marburg
Wallach W, Allen C (2009) Moral machines: teaching robots right from wrong. Oxford University Press, Oxford
Wettig S, Zehendner E (2004) A legal analysis of human and electronic agents. Artif Intell Law 12:111–135
Zheng K et al (2011) How many social robots can one operator control? In: Proceedings of the 6th ACM/IEEE international conference on human–robot interaction (HRI2011), Lausanne, Switzerland, March 6–9, 2011, pp 379–386
Acknowledgments
The paper presented here draws on findings of the research project “Development of Humanoid and Service Robots: An International Comparative Research Project—Europe and Japan”, funded by the German Research Foundation (DFG). We are grateful to the DFG for their support. We also would like to thank the two reviewers for their instructive comments which helped us to enhance our paper.
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Matsuzaki, H., Lindemann, G. The autonomy-safety-paradox of service robotics in Europe and Japan: a comparative analysis. AI & Soc 31, 501–517 (2016). https://doi.org/10.1007/s00146-015-0630-7
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DOI: https://doi.org/10.1007/s00146-015-0630-7