Ethical Concerns of the General Public regarding the Use of Robots
for Older Adults
Esther Ruf
a
, Stephanie Lehmann
b
and Sabina Misoch
c
Institute for Ageing Research, OST Eastern Switzerland University of Applied Sciences, Rosenbergstrasse 59,
St. Gallen, Switzerland
Keywords: Ethics, Ethical Concerns, Robot Use, Older Adults.
Abstract: Due to demographic change the proportion of older adults in the population is increasing, which means that
the proportion of people with limitations making it difficult to live independently at home or in institutions is
also increasing. As a nursing shortage is evident today and expected to increase in the coming years, several
strategies are needed to address these challenges. One possibility is the use of robots to support older adults
and their caregivers. Taking ethical considerations into account is an essential task. Agreement with ethical
concerns identified in the literature was surveyed in a Swiss sample. The participants expressed their
agreement with seven predetermined items but to varying degrees. Possible reduced human contact or
problems with sensitive data received the most agreement. Nearly half of the respondents expressed no
concerns about job loss or violation of privacy. Additional concerns that the older adults would be deceived,
their self-determination compromised, or their dignity violated received less agreement. Further ethical
considerations for future studies are discussed.
1 INTRODUCTION
As demographic change is evident in Europe due to
low birth rates and increased life expectancy (Eatock,
2019), especially in industrialized countries the
proportion of older adults is growing (Vaupel, 2000).
Within a few decades, the proportion of people aged
65 or older is expected to rise from 19.4 % in 2017 to
28.5 % in 2050 in the European Union (EU)
(Bundeszentrale für politische Bildung, 2018). In 30
years, more than a quarter of the population will be
over 65 years and thus in most European countries in
retirement age. Although life expectancy after
retirement differs in EU-countries, it is on average 21
years for women and nearly 17 years for men
(European Data Journalism Network, 2020). With
this increased number of years of life, the number of
years with limitations such as infirmities also
increases (Hautzinger and Reimer, 2007) and
independence in activities of daily living (ADL)
decreases (Eurostat, 2019), leading to an increase in
the need for care (Statista, 2020). Currently, a
a
https://orcid.org/0000-0002-0520-9538
b
https://orcid.org/0000-0002-1086-3075
c
https://orcid.org/0000-0003-0791-4991
shortage of nursing staff has been acknowledged (Die
Presse, 2019), which will increase in the coming
years. Further, in the inpatient geriatric sector staff
shortages, time pressure and a high workload are
evident today (Baisch, Kolling, Rühl, Klein, Pantel,
Oswald and Knopf, 2018). Different strategies are
needed to respond to these developments, and one
possibility is seen in using robots to support older
adults and their caregivers.
Different types of robots are being developed for
use with older adults. These can be divided for
example into rehabilitation robots and socially
assistive robots with the subcategories service and
companion robots (Broekens, Heerink and Rosendal,
2009, p. 94). Robotic systems are developed for older
adults in various settings and for different tasks: at
home or in retirement and nursing homes, to support
activities of daily living (ADL), to maintain
independence and well-being, and to provide
entertainment (Graf, Heyer, Klein and Wallhoff,
2013; Lehoux and Grimard, 2018; Ray, Mondada and
Siegwart, 2008; Stahl and Coeckelbergh, 2016; Wu,
Ruf, E., Lehmann, S. and Misoch, S.
Ethical Concerns of the General Public regarding the Use of Robots for Older Adults.
DOI: 10.5220/0010478202210227
In Proceedings of the 7th International Conference on Information and Communication Technologies for Ageing Well and e-Health (ICT4AWE 2021), pages 221-227
ISBN: 978-989-758-506-7
Copyright
c
2021 by SCITEPRESS – Science and Technology Publications, Lda. All rights reserved
221
Wrobel, Cornuet, Kerhervé, Damnée and Rigaud,
2014). Nursing staff in outpatient and inpatient
settings can be relieved by robotic systems by
reducing remote and routine activities and physically
demanding tasks (Becker, Scheermesser, Früh,
Treusch, Auerbach, Hüppi and Meier, 2013).
Relatives could benefit, knowing their relatives in
need of care are entertained and comfortable (Moyle
et al., 2019). This shows that motives for and goals of
robot use can differ. In their review,
Vandemeulenbroucke, Dierckx de Casterlé and
Gastmans (2018) summarize that many studies have
examined how robots can be used for older adults,
how effective they are, what factors influence
acceptance, and attitudes toward socially assistive
robots.
The high-tech-strategy of the federal government
of Germany states that possibilities of robotic
solutions should be exploited, but at the same time,
challenges should not be overlooked (BMBF, 2015).
A mere orientation towards the needs of different
groups is not enough; research and innovation should
also be steered in directions desired by end users and
society (Kehl, 2018).
In addition to technical functionality, social
acceptance is crucial for the diffusion of robots. The
ethical discussion as well as legal and social
implications play a decisive role (Radic and Vosen,
2020; Remmers, 2020). With increasing technical
development and the use of robotic systems for older
adults, there are not only advantages but also
disadvantages (Lehoux and Grimard, 2018), which
particularly raise ethical questions.
Therefore, in addition to questions of usability and
acceptance, the discussion of various ethical aspects
is essential and is being conducted intensively
(Körtner, 2016; Misselhorn, Pompe and Stapleton,
2013; Portacolone, Halpern, Luxenberg, Harrison and
Covinsky, 2020).
One factor to be considered is that older adults
may be a vulnerable group in need of support due to
potential cognitive and physical limitations. The
German Ethics Council (2020) emphasizes "robotics
should fundamentally represent a complementary and
not a substitutive element of care, which must always
be embedded in a personal relationship" (p.13).
In principle, basic biomedical ethical values
(Beauchamp and Childress 2009, from Körtner,
2016) such as protection from harm, care, self-
determination, and justice must also be applied to the
use of robots for older adults. Additional aspects such
as digital ethics which translates existing ethical
standards need to be systematically considered
(BVDW, 2019). With increasing digitization,
recording, and storing data is possible with robots. As
the data collected from older and/or vulnerable adults
is particularly sensitive, it must be protected from
unauthorized access. Only necessary data on the
person in need or on the supporting person should be
collected. Already today, robots must comply with
data protection regulations and are not allowed to
collect and disseminate data without informed
consent (EGE, 2018, p. 22).
In a systematic review for argument-based ethics
publications, it was shown that two different forms of
the ethical debate on care robots use in aged care
exist: an ethical assessment of or an ethical reflection
about care robots (Vandemeulebroucke et al., 2018).
From the point of view of older adults, concerns
could be that they could experience reduced social
and emotional support using robots and could be
subjected to intrusions on their privacy, as well as
being deceived and infantilized. The point of view of
professional caregivers could include a change in
their work towards less relationship-oriented care,
and that the preferred financing of robotic systems is
at the expense of improvements in personnel (instead
of higher remuneration, lower work density, general
upgrading of the nursing profession) (German Ethics
Council, 2020). According to Yew (2020), ethical
challenges in the use of robots in care concern the
extent of care provided by robots, the possibility of
deception of vulnerable individuals, (over)trust and
(over)commitment to robots, the lack of informed
consent, and the potential violation of user privacy.
There is a broad theoretical discussion of the
ethical points with different emphases depending on
the subject area or focus on user groups. To obtain an
initial indication of whether the ethical concerns
regarding the use of robots in the care and support of
older adults that have been frequently mentioned in
the theoretical literature are also considered important
by the population, a survey study was conducted.
2 METHOD
2.1 Recording Ethical Concerns
Data on general ethical concerns were collected as
part of a broad survey on attitudes, wishes and
concerns of Swiss people regarding robot use for
older adults, with a robot acceptance questionnaire
self-developed in 2018. Regarding ethical aspects,
seven items were created that cover the most
frequently mentioned ethical topics in literature
regarding robot use and older adults (Körtner, 2016;
Sharkey and Sharkey, 2012; Sorell and Draper, 2014;
ICT4AWE 2021 - 7th International Conference on Information and Communication Technologies for Ageing Well and e-Health
222
Vandemeulebroucke et al., 2018): (I) deception, (II)
violation of dignity, (III) restriction of self-
determination, (IV) reduced human contact, (V)
violation of privacy, (VI) problems with sensitive
data, (VII) job loss.
Data were collected via an online and a paper
questionnaire between January 2019 and December
2020. Participants were asked: “If robots are used to
assist in care or service activities with the older
adults, I would have concerns that...” and had to
indicate their agreement on a six-point Likert scale
(1 = strongly disagree, 2 = disagree, 3 = somewhat
disagree, 4 = somewhat agree, 5 = agree, 6 = strongly
agree). For a detailed description of the overall study,
the entire survey, the item selection process, the
recruitment procedure, and the pretest see Lehmann,
Ruf and Misoch (2020).
2.2 Analysis
In this paper, the results for the seven ethical concern
items are reported. For data analysis IBM SPSS 26
was used. Before analysing data, cases with more than
70 % missings were deleted. Consent to ethical
concerns is shown descriptively (n for sample size, %
for frequencies, M for mean value, SD for standard
deviation), according to the scale level. To determine
agreement or disagreement with a given ethical
concern, the answers "strongly disagree" (1),
“disagree” (2) and “somewhat disagree” (3) were
taken together to calculate disagreement, the answers
“somewhat agree” (4), “agree” (5), strongly agree” (6)
were taken together to calculate agreement. To
analyse differences between two groups regarding
ethical concerns, t-tests were calculated. When
comparing more than one group, one-way analysis of
variance (ANOVA) was calculated.
2.3 Participants
Until December 2020, 188 persons participated, most
of them used the online version of the questionnaire.
The participants were between 17 and 96 years old
(M = 65,7, SD = 16,7). More women participated
(57,6 %), most were married or living with a partner
(64,5 %) and Swiss (89,4 %). 65,8 % had tertiary
education. Most participants lived in a private
household (96,8 %) consisting of two people (53,7
%). They lived in 14 different cantons, in St.Gallen
(28,2 %), Aargau (20,7 %) and Zurich (18,1 %), 50,3
% rated their residential area as rather rural. 81,8 %
rated themselves as interested or very interested in
technology. 59,7 % had collected more experience
with technology during their life and 41,6 % had
already experience with a robot. Table 1 shows the
characteristics of the study population.
Table 1: Participants.
Variable (n = number)
Gender
(
n = 184
)
57,6 % female
42,4 % male
Marital status
(n = 183)
64,5 % married or living
with a partner
13,1 % single
12,6 % widowed
9,8 % divorced or living
without a
p
artne
r
Nationality
(n = 179)
89,4 % Swiss
10,6 % othe
r
Education level
(n = 184)
65,8 % tertiary level
24,5 % secondary level
9,2 % mandatory school
0,5 % unknown
Occupational field
(current or former)
(n = 187)
44,9 % other field
31,6 % social, nursing, or
medical field
22,5 % technical field
1,1 % not working
Type of living
(n = 185)
96,8 % private household
1,6 % care home
1,1 % other
0,5 % retirement home
Residential area
(
n = 183
)
50,3 % rather rural
49,7 % rathe
r
urban
Interest in technology
(n = 187)
52,4 % yes, interested
29,4 % yes, very interested
14,4 % no, rather less
interested
3,7 % no, not at all
intereste
d
Experience with
technology
(
n = 186
)
59,7 % yes
40,3 % no
Experience with a
robot
(n = 183)
54,6 % no
15,8 % yes, somewhere else
11,5 % yes, at work
7,7 % yes, at a shop, hotel,
restaurant
6,6 % yes, at home
3,8 % don’t know
3 RESULTS
The study population expressed their agreement with
all seven predetermined factors regarding the use of
robots with older adults, but to varying degrees
(figure 1). Agreement with concerns regarding
deception, dignity of older adults, restricted self-
determination, violation of privacy and job loss were
expressed by fewer than 50 % of the study population.
Ethical Concerns of the General Public regarding the Use of Robots for Older Adults
223
76,5 % reported the concern that older adults could
have reduced human contact. 60,4 % reported the
concern that the handling of personal or sensitive data
could cause problems. The strength of agreement
varied (table 2).
Figure 1: Frequencies of ethical concerns of the study
population.
Table 2: Reported ethical concerns.
Number Mean
Standard
deviation
(
I
)
Dece
p
tion 179 3,3 1,3
(II) Violation of
di
g
nit
y
184 3,2 1,4
(III) Restriction of
self-determination
182 3,2 1,4
(IV) Reduced
human contact
183 4,4 1,4
(V) Violation of
p
rivac
y
184 3,5 1,5
(VI) Problems
with sensitive data
182 4,0 1,4
(
VII
)
Job loss 185 3,6 1,6
Comparing male and female participants there
was no significant difference in ethical concerns.
When comparing age-groups (oneway ANOVA with
three age groups: up to 65 years (N = 65), 66-74 years
(N = 63), from 75 years (N = 56)), no statistically
significant differences in means of ethical concerns
could be shown, as well as when comparing
participants with and without interest in technology,
and when comparing participants with and without
technology experience, or when comparing
participants from different professional backgrounds
(oneway ANOVA with four groups: technical field
(N = 42), social field (N = 59), other field (N = 84),
not working (N = 2)).
Regarding participants with and without previous
contact with robots, only the ethical concern “reduced
human contact” was significant. Persons with no prior
contact had more concerns that older adults would
have reduced human contact when robots are used to
support care or service activities for older adults
(table 3).
Table 3: Ethical concerns by participants with and without
prior contact with a robot.
No prior
contact
Prior
contact
t-test
I
M = 3,4
(SD = 1,2;
n = 99)
M = 3,3
(SD = 1,4;
n = 76)
t(144,788) = ,121,
p = ,904
II
M = 3,3
(SD = 1,4;
n = 105)
M = 3,0
(SD = 1,4;
n = 75)
t(178) = 1,271, p
= ,205
III
M = 3,3
(SD = 1,5;
n = 103
)
M = 3,1
(SD = 1,4;
n=75
)
t(176) = ,912, p =
,363
IV
M = 4,6
(SD = 1,3;
n = 103
)
M = 4,1
(SD = 1,4;
n=76
)
t(177) = 2,271, p
= ,024
V
M = 3,6
(SD = 1,4;
n = 105)
M = 3,3
(SD = 1,6;
n = 75)
t(178) = 1,298, p
= ,196
VI
M = 4,0
(SD = 1,3;
n = 103)
M = 4,1
(SD = 1,4;
n = 75)
t(176) = -,228, p
= ,820
VII
M = 3,8
(SD = 1,4;
n = 106)
M = 3,4
(SD = 1,7;
n = 75)
t(179) = 1,744, p
= ,083
4 DISCUSSION
In the present study, ethical concerns of the Swiss
population concerning the use of robots for older
adults were collected based on the main ethical issues
discussed in literature. Ethical concerns with the
highest agreement were reduced human contact and
problems with sensitive data. Nearly half of the
respondents also agreed to concerns about workers
losing their jobs and violation of privacy. Other
expressed agreements were concerns that older adults
would be deceived, their self-determination
compromised, and their dignity violated. However,
this means conversely that for five of the seven
questions, the respondents were ambivalent, with
51−62 % of respondents not agreeing that these issues
were of ethical concern.
Arras and Cerqui (2005) reported that individuals
with more prior knowledge had a more positive
attitude toward robots. In the present study, when
ICT4AWE 2021 - 7th International Conference on Information and Communication Technologies for Ageing Well and e-Health
224
comparing the agreement to ethical concerns by
participants with and without prior contact with a
robot it seems that real-world contact with robots
lessens the concerns that robot use might reduce
human contact.
The focus of the present study was intentionally
on the general population's viewpoint. The main
ethical points to be assessed were taken from the
literature and theoretical discussions. In doing so, the
results fit with Ray et al. (2008) who found the lack
of interpersonal relationships as negative aspects in
their questionnaire survey (N = 240, 6 % over 65
years). However, it must be considered that there can
be discrepancies between ethical concerns raised in
theory, and those of end users in practice when they
must decide to use or buy a robot. For example, in
their study, Bradwell, Winnington, Thill and Jones
(2020) asked 67 young adults (M = 28 years, SD =
10,99, range 18 – 65) about their concerns after
interacting with four companion robots. When
surveyed with an open-end question, the majority (60
%) reported having no ethical concerns, reduced
human contact was the most likely. However, this
was not evident in the standardised question. The
(younger) participants in the study of Bradwell et al.
(2020) were more concerned about economic issues
and equality of access, as this is an important
consideration for those involved in the care of older
adults. The concerns proposed by ethicists seemed
not to be a barrier to use robots.
Such studies are very important to be able to make
a comparison between what is mentioned as a concern
from a theoretical ethical perspective and what the
actual fears and concerns of the end users are. The
implementation of a robot is more likely to be
determined by the attitudes and concerns of end users,
for example, care facility personnel, the older adults
themselves, or their relatives who purchase a robot.
Some important limitations of the study must be
mentioned. As shown by the sociodemographic data
of the participants, the sample is composed of highly
educated participants with a high interest in
technology and therefore not representative of the
general population. The fact that mainly well-
educated and technology-oriented people participate
in such studies is also known from other studies
(Classen, Oswald, Doh, Kleinemas and Wahl, 2014;
Kubiak, 2015; Mies, 2011; Stadelhofer, 2000).
Further, since it was a questionnaire study the
participants had to make their assessment globally,
without being shown a concrete robot and without
interacting with a robot. This could have influenced
their judgement, and as people have different
backgrounds and experiences, some could have relied
on experience, others only on an internal picture
(Savela, Turja and Oksanen, 2018). Therefore, it
cannot be excluded that the assessments would be
different if a concrete robot or a concrete interaction
or decision had to be assessed. Another limitation was
that there were no open-ended questions where
people could formulate ethical concerns. Thus
important areas beyond those mentioned may have
been overlooked.
To stimulate societal discourse, important ethical
concerns were identified. It became clear that not just
theoretical ethical concerns, but actual concerns and
fears of end users should be considered. For future
research, it would be important to survey specific
ethical concerns of individual user groups and
specific settings or related to specific types of robots,
and to raise these concerns more openly.
Since we noticed that some important issues are
not yet considered, in future projects and studies we
will include five more ethical concerns derived from
discussions with researchers, lawyers, and caregivers:
(1) robots could be hacked; (2) robots could hurt the
older adults; (3) older adults could feel controlled; (4)
caregivers could feel controlled; (5) older adults
could be afraid of the robot. In addition, inequality in
terms of financial possibilities should be considered.
Interviewing end users will ensure that they have the
opportunity to formulate and express their concerns
freely.
Moreover, it is necessary to consider ethical
aspects at the stage of programming and designing
robots (Yew, 2020). The robot’s potential actions and
decisions must be based on a basic ethical framework
and the robot must also learn ethical values through
interaction with its environment. Ethical guidelines,
standards and regulations specifically related to the
design of robots and other artificial intelligent
systems are available from the European Commission
(2020).
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