=Paper=
{{Paper
|id=None
|storemode=property
|title=Preliminary Findings from Experts Opinions on the Future of e-Accessibility
|pdfUrl=https://ceur-ws.org/Vol-792/Kouroupetroglou.pdf
|volume=Vol-792
}}
==Preliminary Findings from Experts Opinions on the Future of e-Accessibility==
https://ceur-ws.org/Vol-792/Kouroupetroglou.pdf
Preliminary Findings from Experts’ Opinions on the
Future of e-Accessibility
Christos Kouroupetroglou1, Adamantios Koumpis2, Dimitris Papageorgiou3
1
ALTEC Software S.A., M. Kalou 6, GR 546 29 Thessaloniki, Greece
+30 2310 595 646, akou@altec.gr
2
ALTEC Software S.A., M. Kalou 6, GR 546 29 Thessaloniki, Greece
+30 2310 595 646, chris.kourou@gmail.com
3
Innovation Management Consultants, 16 Dimitrakopoulou Str, GR 546 55 Thessaloniki,
Greece, +30 2310 422780, dimpap70@otenet.gr
Abstract. Subject of our work is to explore and analyze the referred
relationships between the emerging ICT landscape in the European societal and
economic context, and the development and provision of e-Accessibility, within
a perspective of 10 years. Some core areas of concern we deal with are
represented by the following questions: Which are the trends that may affect the
future of e-Accessibility (incorporating web-accessibility, design for all and
assistive technology) in Europe and internationally? What may be the impact of
those trends on the course of e-Accessibility? What are the dynamics of e-
Accessibility actors in Europe and globally? Where is the industry heading to?
Keywords: e-Accessibility, metaphors, interaction environments, e-
Accessibility standards
1 Introduction
This paper reports work carried as part of the study on e-Accessibility2020 (“Study
on Implications from Future ICT Trends on Assistive Technology and Accessibility”,
SMART 2010/0077) which aims to provide the European Commission with
recommendations on future research policy, especially regarding Framework
Programme 8 (ICT & FET) and the next Competitiveness & Innovation Programme
(CIP).
Also, the study will make suggestions on relevant standardisation issues and on EC
policy activities for the wider mainstreaming and adoption of e-Accessibility. To do
so the study team will elaborate and validate specific use and technology-scenarios
for 2020.
These scenarios will result from vigorous interaction with e-Accessibility-related
stakeholders and experts, which will involve among other the identification and
assessment of ‘Drivers of Change’ affecting the course of e-Accessibility (i.e. key-
trends, micro-trends and weak-signals).
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The study approach adopts a variety of methodologies, tools and activities and it is
presented at www.e-accessibility2020.eu together with news, e-surveys and
eventually the study results.
The study is conducted by ALTEC Software Development, Greece in partnership
with CKA, Belgium for the European Commission, DG Information Society &
Media, Unit ‘ICT for Inclusion’.
e-Accessibility aims at ensuring that people with disabilities and elderly people
access ICTs on an equal basis with others. People with disabilities in Europe continue
to be confronted with many barriers to usage of the everyday ICT products and
services that are now essential elements of social and economic life. Subject of our
study is to explore and analyse the referred relationships between the emerging ICT
landscape in the European societal and economic context, and the development and
provision of e-Accessibility, within a perspective of 10 years.
Some questions we deal within our study are:
• Which are the trends that may affect the future of e-Accessibility (incorporating
web-accessibility, design for all and assistive technology) in Europe and
internationally?
• What may be the impact of those trends on the course of e-Accessibility?
• What visible interdependences exist between various trends affecting the future of
e-Accessibility?
• What are the dynamics of e-Accessibility actors in Europe and globally? Where is
the industry heading to?
• Are there different ‘schools of thought’ among e-Accessibility stakeholders/
experts? Do these schools follow the typical categorisation? (e.g. industry versus
academy)
• What can be the alternative futures for e-Accessibility?
• How can the EC and other e-Accessibility stakeholders influence the future of e-
Accessibility?
• What relevant research priorities and policy measures are realistic for 2020?
2 Subject and methodology of the study
The subject of the study is broken down into 3 objectives:
i. Validated analysis of the relationships between the emerging ICT landscape,
the societal and economic context and the development and provision of
assistive technologies (AT) and e-Accessibility, building on a sound
understanding of relevant trends and challenges.
This is achieved by identifying the ‘Drivers of Change’ (i.e. key-trends, micro-
trends and weak-signals) that (may) affect the evolution/ future of e-Accessibility and
AT. Such drivers are partly already defined within the ‘abundance’ of relevant work
recently carried out, while another part are identified through creative work under the
proposed methodology. Indicators that characterise the ‘Drivers of Change’ are
collected, calculated or estimated to help assessing the impact that the latter may have
on e-Accessibility and AT. This assessment is made with the active involvement of
representatives of relevant stakeholder as well as expert that also help to validate the
� Preliminary Findings from Experts’ Opinions on the Future of e-Accessibility 3
results. Relationships between the different categories of trends (i.e. ICT, societal,
technology/market: ISTeM) are obtained by grouping the results of the impact
assessment per category of trend or by comparing the impact of different drivers.
Furthermore, dynamics on the evolution of e-Accessibility and AT networks in
research are examined and assessed through a Social Network Analysis (SNA). Value
Chain Insights (VCI), a methodology specially designed for the needs of opur
research and explained later in this paper, also has an important contribution on the
above. A thorough data/info gathering, organisation and initial analysis process
precedes all the above.
ii. To elaborate and discuss a series of hypothetical scenarios on the future
evolution of AT and e-Accessibility
The results of the impact assessment of the ‘Drivers of Change’ and of the SNA
provide the input for the elaboration of the Use-Scenarios for e-Accessibility 2020.
The study team and group(s) of experts/stakeholders work in parallel to form 10 draft
use-scenarios according to common guidelines and templates, while the study team is
assisted by a specialised software application. The top 4 scenarios (after an evaluation
of the draft 10) are selected and further analysed. Then Technology-Scenarios are
developed to ‘show’ the alternative technology paths that e-Accessibility and AT
should follow to fulfil the 4 Use-Scenarios. These scenarios are exposed to the study
stakeholders and are further discussed during the 2nd workshop.
iii. To provide validated recommendations for research priorities and policy
measures that are usable at European level
Study recommendations will include: (a) Suggestions for specific and more general
research priorities on the development of technologies, applications and solutions that
may have a significant and positive effect on meeting future user needs. (b)
Recommendations for soft-actions in relation to networking and coordination of
research, standardisation and policy efforts and related actors at European,
international and national level. (c) Suggestions for policy initiatives aiming at the
further penetration – diffusion of e-Accessibility and AT (particularly in the public
administration). For instance, recommendations on policy measures that may ‘boost’
specific trends having a significant and positive impact on e-Accessibility. (d) Other
recommendations concerning the role and the evolution of e-Accessibility and AT in
Europe, etc.
The methodology we follow in our work is divided into 3 phases:
(a) The Groundwork phase, where the proposed methodology is further
specified and refined, while data/info are gathered, organised and initially
analysed in such a way so as to facilitate search, retrieval and use in the
following phases.
(b) The Divergent Phase introduces the core creative activities of the study
aiming to assess key trends and identify & assess micro-trends and weak-
signals of future e-Accessibility developments. Initial scenarios are roughly
drafted.
(c) The Convergent Phase places in order the outcome of the Divergent phase,
involves a more structured and consolidated approach towards scenario
building, validation and final recommendations and conclusions.
�Groundwork Divergent
4 Convergen
t
The Divergent phase includes all the ‘discovery’ work, while the Convergent phase
focuses on synthesis and validation. The following diagram depicts the 3 phases of
the adopted methodology.
Figure 1: Methodology for the adopted work approach
3 Current status of the study
Currently the study is in the Groundwork phase where it utilises a variety of research
tools to identify key-trends, micro-trends and weak signals that are related to
accessibility of ICT. The research tools used in this groundwork phase are the
following
Desk research: The study team gathers relevant data from research projects in the
form of research papers in conferences and journals, deliverables and reports
available from EU RTD projects. The resources gathered are organised and
categorised in a data repository.
Interviews: The study team selected 46 RTD projects from a corpus of 140 RTD
projects. The selection was made based on the projects relevance to accessibility of
ICT. Apart from projects tightly connected to eAccessibility issues the study team
also selected a number of projects relevant to technologies that could possibly help
the accessibility of ICT, such as sensor technologies, brain-computer interfaces,
multimodal interfaces etc. Following the selection we contacted members of selected
members and requested a short interview about their opinions on the future of
accessibility of ICT and their specific domain wherever applicable.
� Preliminary Findings from Experts’ Opinions on the Future of e-Accessibility 5
Questionnaire: A questionnaire is built to investigate stakeholders’ opinion on
accessibility of ICT and the possible impact of specific policies and technologies in
that direction. The questionnaire will be sent to users, experts and a variety of
stakeholders both on the research and on industry domain. The results of the
questionnaire will be analysed quantitative and qualitative so that the study team will
identify key or micro trends in technologies and policies about eAccessibility.
In this paper we are focusing on the on-going research based on interviews with
experts thus it is necessary to explain our approach in the analysis of experts opinion
before presenting some preliminary results from our interviews so far. The analysis on
experts’ opinion will also take under account the results from the questionnaires and
tie them with the findings from the interviews under a common umbrella.
3.1 Advanced analysis on experts opinion
Since experts play a major role in the study, we analyze and attempt to uncover
hidden groups (based on their quantitative responses on expected impact and
demographic data) that go beyond the obvious categorizations (such as expertise, or
sector). It is valuable to see whether the thinking of experts follows such patterns that
(i) constitute significant grouping elements (e.g. positivists, technology enthusiasts,
risk averters, scepticists) and (ii) which elements are dominant in this shaping.
The inclusion of basic categorization variables in this analysis and the testing of
whether these variables play a role in the shaping of groups, might also be useful in
busting the hypothesis that such variables are significant (e.g. an academic Vs an
industry expert). Ultimately the analysis and specification of these expert’s groups
might play an important role in understanding and decrypting expert opinion
(provided that meaningful clusters occur in our dataset). The resulting groups are
data-driven, which means that the actual questions they answered define the
categorization. The interpretation of the meaning of groups (cluster centroids) is a
non-standardized procedure and will be assessed by the study team during the cluster
analysis, and will be evaluated accordingly.
Complementary to the above, we want to test whether these experts (who represent
a balanced part of the e-Accessibility value chain) share grouped opinions towards
their regards/beliefs of the innovation process. Different attitudes towards
innovation/change could mean different level/reach of impact. Our hypothesis that the
Value Chain grouping (grouping actors by their position on the value chain) does not
correlate with their Innovation/Change attitude could mean that there are
heterogenous groups of actors that think differently with regards to innovation
(followers, imitators, innovators and so on). We believe that i) such groups will
include actors from different parts of the value chain, and ii) these groups have
different needs and perhaps more importantly iii) they will catalyze impact arising
from key trends accordingly. Insights from this analysis will give first-time evidence
on what we need to look for before addressing policies to e-Accessibility actors.
A similar analysis to the above has been successfully tested/ implemented in
combination with SNA in the study “Social Network Analysis in ePractice” [3].
Associations in experts thinking
Experts are expected to give their opinions and estimations over a large number of
trends and variables (e.g. growth, impact severity, impact potential). Instead of (or
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complementary to) asking directly for associations among trends, we will employ a
data-mining method to check for preliminary associations among the answers. A set
of useful and strong association rules will be mined from the experts’ responses to
check for hints of associations among trends (e.g. 80% of experts that predict low
impact of the active ageing indicated a low importance of socioeconomic benefits).
These associations are well hidden within the datasets and need to be data-mined with
association-rules algorithms (Breadth-First Search (BFS) & counting occurrences
Apriori algorithm).
These rules involve all possible Trend2Trend relationships and include searching
for complex patterns among answers. The analysis will be performed with the
Tanagra O/S package. Cleaning and constituting the table of useful associations will
be done by enforcing strict confidence level and face validity checks (rules have to
make sense). It should be mentioned beforehand that such rules do not constitute
statistical significance, but should be viewed as insights that will help us identify and
understand hidden relationships among complex variables.
These preliminary findings will be thoroughly analyzed in collaboration with
experts to check whether the identified links do exist, to what extent, and what their
impact is before feeding the scenario building process.
A major benefit that VCI will have on the recommendations stage is that it will
allow us to suggest policy-related measures tailored to specific groups of experts,
while at the same time VCI will reveal smart strategies towards the realisation of
policy objectives. For instance, by knowing hidden relationships between trends/
drivers, decision makers can direct available resources towards a limited number of
drivers (the change on these drivers however, will indirectly affect all other drivers
with which they are connected).
To conclude we illustrate the Value Chain Insights in relation to the identification
and impact assessment of the ‘Drivers of Change’ (preceding step) and the scenario-
building and recommendations/conclusions (following step) in the diagram below:
4 Some preliminary findings
Below we present some of our first preliminary findings that have been collected as
part of our interviews with experts. These findings are not exhaustive or conclusive
but they can trigger a discussion and thus help drive the innovation process. For the
extraction process of the findings below we would like to express our thanks to
Assistant Professor Dr.Yeliz Yesilada of Middle East Technical University –
Northern Cyprus Campus and Dr Simon Harper of the School of Computer Science,
University of Manchester, U.K.:
1. It is difficult to define accessibility same way as it is difficult to define disability.
Currently when we talk about disability we rather mean cases of people being
disabled by a device: a blind user not being able to use a tablet PC or a
touchscreen. This is wrong as in certain circumstances we are all situationally
disabled.
2. Accessibility for all people and to all devices and applications is a dream or a
utopia which may become a chimera for the industry in terms of unaffordable
costs. How can the owner of a small hotel in Antalya of Turkey or in Serifos of
� Preliminary Findings from Experts’ Opinions on the Future of e-Accessibility 7
Greece be able to offer fully a accessible Web site? There is lack of knowhow
and expertise in designing accessible interfaces. The last mile of accessibility
should not be satisfied by the leaders who set the game and produce the
infrastructures of all the previous miles.
3. How can the entirety of Web sites become accessible? It is out of any logical
process to expect all people who design Web pages to become aware or experts
in the adoption of accessibility guidelines. It is only the leaders of the ICT
markets who can change the rules of the game and automate accessibility.
Because unfortunately accessibility is still a manual process that in certain special
cases and fields has been semi-automated.
4. As already mentioned, accessibility is currently approached with respect to
disability. In the future this is expected to change: a user of a World of Warcraft
similar game that uses currently his or her mouse device to play the game, in the
future will need a haptic e.g. glove device or Kinect to access the game in its
newer versions. So a user with a mouse device only is not any more able to
access the game or at least make use of its full range of functionality and
experience.
5. In a ten years horizon, accessibility will be related more with flexibility plus
personalisation plus adaptation to the individual needs of a person.
6. Though inclusion is more general, there is certainly an overlap between the two
terms (i.e. accessibility and inclusion): people who are not having access to
knowledge and information because they lack the money or the technology
means, they are actually excluded from the use of this technology – for them this
technology is simply not there as long as they can not enjoy any benefit out of it.
7. Accessibility is primarily not a technical or technological issue only. The socio-
economic aspect of accessibility should be given equal significance. So to play
with the words, one can discriminate between
• accessible accessibility and inaccessible one: a blind user who is unable
to pay for a certain device adaptor to make his or her IPAD accessible to
him or her pays the cost of inaccessible accessibility;
• inclusive accessibility and non-inclusive one: a blind user from Nigeria
who is unable to use an ATM machine in Greece because the only
supported languages are Greek, English and Albanian faces a case of
non-inclusive accessibility (we assume that blind people who speak
Greek, English or Albanian are able to use the ATM).
8. The divergence of devices means there is a possibility of convergence of devices
and access technologies. With many different devices being created the gulf
between these and access technology does not seem so great, or as polarised as it
used to: desktop on one side and AT on the other.
9. Mainstreaming of accessibility will remain a dream: there will be always
designers of new systems and applications who will come up with ideas for new
devices (or applications) that require all physical capabilities for controlling the
device (or the application).
10. Mainstreaming of accessibility technology under the guise of extreme adaptation,
extreme customisation, or extreme personalisation or termed as edge cases of
personalisation, customisation, or adaptation may well have traction as these
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terms have business cases in the form of the flexibility required for delivery on
disjoint personal consumer devices such as iPhone and Android platforms.
11. Accessibility means Flexibility – flexibility has a business case – economics may
in the end provide the necessary impetus to make accessible software; we have
just been waiting for the right disjoint set of mainstream consumer devices to
encourage this flexibility.
12. One cannot hinder the evolution and the progress in the ICT field by imposing
penalties to those who don’t follow certain accessibility guidelines; but we won’t
have if we use flexibility as the reason for making software adaptable and
therefore amenable to assistive technology.
13. The socially responsible stance would be that the market itself and the customers
who constitute the markets favour accessible products and penalise non-
accessible ones. This stance is too naïve to think that it will ever happen.
However, self interest in that flexible products work on anything anywhere
means that flexibility is a 'first class citizen' of the distributed devices world; and
by implication so is accessibility.
14. Guidelines and standards are a very useful tool in the hands of designers and
developers of new products, however there is a growing need for them to become
even more specific so that the evaluation of a product’s accessibility will become
even more objective.
15. No matter how strict of definite guidelines and standards for accessibility become
there will still be a need to involve users in the design process and accessibility
evaluation of products. As the technologies are evolving so are the users’ needs
thus the community should always involve them in the proper stages of the
design process.
16. Ageing will play a significant role in bringing even more industry in thinking
about accessibility. More and more aged people need assistive technology
solutions for their everyday life. In addition, there is a societal trend for people to
stay in work for even longer periods and since many jobs are using ICT it
generates the need for solutions to their problems. An interesting viewpoint of the
ageing factor is that designers of todays products are also going to need assistive
technology solutions in the future so there might be an even better understanding
from the industry.
17. Context – aware devices and applications which are starting to appear as a trend
can play a significant role in mainstreaming accessibility solutions. A phone that
realizes you are driving when you plug it in your car power and automatically
activates a voice dialog interface can also be used similarly by a blind user.
5 Conclusions
Markets don’t operate in their own; markets don’t exist in vacuo; it is the people that
make markets respond to needs of the society; and it is the society at large that adapts
the markets to the people’s needs and wants.
It is a pressing need to find cooperative ways to address our unexplored potential:
our schools need visions and the means to realize them; our industries need strategies
and the resources to make them work and leave a positive impact on the economies;
� Preliminary Findings from Experts’ Opinions on the Future of e-Accessibility 9
our governments and our institutions need to redefine their reason of existence and
change paradigms of seeing the world and their role within the society.
Accessibility has been regarded as a measure of the extent to which a product or
service can be used by a person with a disability as effectively as it can be used by a
person without that disability [4].
Especially e-Accessibility aims at ensuring that “people with disabilities and
elderly people access ICTs on an equal basis with others. This includes removing the
barriers encountered when trying to access and use ICT products, services and
applications”. E-Accessibility incorporates all three of web-accessibility, design for
all and assistive technology [1].
As such, e-Accessibility is considered a crucial component of eInclusion and one
that will become even more important as the European population ages. In fact,
improvement of the accessibility of ICT goods can be beneficial to everyone, by
making ICTs more usable as well as by facilitating their usage in a wide variety of
situations (e.g. hands-free usage, in noisy or poor lighting environments, etc.) [2].
In the scope of this paper aimed to shed light on a set of issues related with the
definition of e-Accessibility and how this could help the process for companies,
organisations as well as individuals to accept it as a mainstream good that improves
life conditions for all.
In the past the borders between able-bodied and disabled persons were rigid and
impenetrable. Information and Communication Technologies in their origins escalated
the situation and instead of helping close the gap, they incrementally opened it
unbearably: a blind person would definitely not have access to computerized
information while a motor impaired person would definitely be unable to operate a
keyboard or a mouse device.
The first attempts were made – as in all cases throughout the human history of
inventions – on a voluntary and apospasmatic basis: an IT techie with some relative or
friend facing a disability adapted a mouse device or constructed a new one to help
facilitate access to him or her. A visually impaired or blind person would make use of
some low quality speech synthesis functionality of old computers. This era started of
course with the introduction of the personal computer and at some point there was a
critical mass of needs and demands from the population’s side to support supply from
the industry side. Industry in this case meant both the mainstream industry of ICT and
the specialized Assistive Technology and accessibility industry that was created.
There have always been channels of interaction between these two industries that
helped both to mutually benefit from knowhow, inventions and the shaping of a
broadening market.
However, and in contrast with the mainstream markets of ICT products and
services where marketing responds more and more to unexpressed needs of the people
with novel concepts and types of offerings, the market of accessible products and
services has always lagging behind the actual needs of the people affected.
To reverse this situation we need to make a brave confession: the nucleus of our
ideas did not take into account the needs of a blind person; the centre of gravity of our
research efforts put emphasis and focus to the average able-bodies user. A big mistake
that we all of us shall continue to pay till the situation reverses. Which will happen
only, if our mentality and attitude towards accessibility change.
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The current buyers of consumer electronic products and services who are expected
to live for many years in a fast-aging world will be partly blind, partly deaf, partly
motor-impaired and partly dysfunctional in cognitive, language and speech-related
processes.
So to whom exactly will the ICT industry continue to sell its products?
In a fair and just world, everything should be made accessible to serve the potential
needs of even one customer of an ICT product or a buyer of a ICT service. However,
all of us know that life is not fair and from an economic point of view it would be
unbearable such a case. But what about the case of an incrementally growing
population to whom all the currently available interaction means, access techniques
and technologies are incapable to support their most basic access needs?
Though we have been living with it for years, we have systematically deluded
ourselves of the very nature of accessibility: it does not affect only the disabled; it
affects all of us same much for the present moment as for the future.
ACK1OWLEDGME1TS
Our thanks to the group of experts working closely with us for the success of our
assignment.
REFERE1CES
Wissenbach, U. (2009) “e-Inclusion Policy and e-Accessibility for Persons with Disabilities in
the EU”, 2nd Regional Workshop on the Enhancement of ICT Accessibility for Persons with
Disabilities, Incheon.
e-Accessibility – Opening up the Information Society,
http://ec.europa.eu/information_society/activities/einclusion/policy/accessibility/index_en.ht
m , accessed 21 April 2011.
Altsitsiadis, E. (2009) Social Network Analysis in ePractice, ePractice.eu Communities
Workshop, Brussels, March 2009
Narasimhan N. (2010) e-Accessibility Policy Handbook for Persons with Disabilities,
Based upon the ITU-G3ict e-Accessibility Policy, 2010
�