Internet of Things (IoT): Societal Challenges & Scientific Research Fields for IoT
Résumé
Just as the Internet radically reshaped society, the Internet of Things (IoT) will
have an impact on all areas of human life: from our homes, vehicles, workplaces
and factories, to our cities and towns, agriculture and healthcare systems. It will
also affect all levels of society (individuals, companies and state-level), from urban
to rural and the natural world beyond. This makes it essential to have a proper
understanding of IoT and the challenges which relate to it. The primary aims of
this document are to (i) determine the scope of IoT, its origins, current developments and perspectives, and (ii) identify the main societal, technical and scientific challenges linked to IoT.
It seems inevitable that IoT will become increasingly omnipresent. Indeed, it
is set to penetrate every aspect of all of our lives, connecting everything (billions
of new heterogeneous machines communicating with each other) and measuring
everything: from the collective action we take at a global level, right down to our
smallest individual physiological signals, in real-time. This is a double-edged sword,
in that it simultaneously gives people cause for hope (automation, optimisation,
innovative new functionalities etc.) and cause for fear (surveillance, dependency,
cyberattacks, etc.). Given the ever-evolving nature of the IoT, new challenges linked to privacy, transparency, security appear, while new civil and industrial
responsibilities are starting to emerge.
IoT is centred around an increasingly complex set of interlinked concepts and
embedded technologies. At an industrial level, this growing complexity is making
the idea of having full control over all components of IoT increasingly difficult, or
even infeasible. However, as a society, we must get to grips with the technological
foundations of IoT. One challenge for education will therefore be to gradually
increase awareness of IoT, both in order to protect individuals’ sovereignty and
free will, and to initiate the training of our future scientists and technicians. A
public research institute such as Inria can contribute towards understanding
and explaining the technological foundations of IoT, in addition to preserving
sovereignty in Europe.
IoT will inevitably increase dependency on certain types of embedded
t echnology. It is hence necessary to identify the new risks that entail, and to
devise new strategies in order to take full advantage of IoT, while minimising these
risks. Similarly to the situation in other domains where one must continually seek
to preserve ethics without hindering innovation, creating a legal framework for
IoT is both necessary and challenging. It nevertheless seems clear already that
the best way of facing up to industrial giants or superpowers is to take action at
the EU level, as shown by recent examples such as GDPR. Furthermore, given the
growing influence of technological standards on society, playing an active role
in the process of standardising IoT technology is essential. Open standards and
open source – conceived as a common public good – will be pivotal for IoT, just
as they have been for the Internet. Last but not least, massive use of IoT can help
better capture and understand the environmental challenges we are currently
facing – it is also expected IoT will help to mitigate these challenges. The goals in
this context are not only to reduce the quantities of natural resources consumed
by IoT (for production, deployment, maintenance and recycling). We must also
aim to more accurately evaluate the overall net benefit of IoT on the environment,
at a global level. This requires determining and subtracting IoT’s environmental
costs from its (measured) benefits, which is currently a challenge. The growing
impact of IoT underscores the importance of remaining at the cutting edge when
it comes to scientific research and technological development. This document
therefore aims to (i) highlight the wide range of research fields which are fundamental to IoT, and
(ii) take stock of current and future research problems in each of these fields. A number of links are made throughout the document to contributions
made by Inria. These contributions are, by their nature, diverse (basic and applied
research, open source software, startup incubation) and concern the majority of
research fields on which IoT is based.
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