Annales des Mines, Union numérique européenne, Réalités industrielles

The European digital union

This issue of Réalités Industrielles is devoted to several subjects central to European Commission’s strategy, such as the data economy, the economic and social functions of online platforms, and cybersecurity.

 

To build a Digital Single Market is to construct Europe’s future. Given the many crises facing Europe, it is more important than ever to project ourselves into the future and lay the foundations for a European Union where all citizens will be able to live better.

We are convinced that our future is digital, since the present is already digital. Day after day, the new technology accompanies us, as we buy, sell, study or work on line. This technology, now part of our environment, is evolving in fields ranging from health to education and culture, not to mention transportation or research and development. It does not reckon with borders.

For this reason, the European Commission has set as one of its ten policy priorities the creation of a Digital Single Market. After six months of exercising this mandate, we presented, in May 2015, an ambitious strategy with no fewer than sixteen major work areas. We stand at the midpoint, having presented half of our proposals to the members of the EU Parliament and Council of Ministers. We want to modernize existing regulations in the key areas of e-commerce, telecommunications, audiovisual media, cybersecurity and copyright law. By doing this, we want to stimulate innovation propelled, in particular, by the data economy. We are delighted to see this issue of Réalités Industrielles devoted to several subjects central to our strategy, such as the data economy, the economic and social functions of on-line platforms, and cybersecurity.

Through its articles (far from exhaustive) from persons active in this domain, this issue of Réalités Industrielles discusses some of the most important topics for conceiving of a digitized European Union.

It opens with a firsthand account from a Polish entrepreneur, Éric Salvat in data-mining, a lively field of activity in all countries, whether in the EU or not.

This article is followed by a series of viewpoints about a “digital  Europe” with focus on, respectively: the geopolitics of data; the geopolitics of European policies and the policy of constructing common interests and defending EU achievements.

Policies directly related to the Digital Single Market are then brought under discussion: competition, integration of the socially vulnerable, personal data and digital platforms, defense and security, and health. Topics related to data or platforms are, directly or indirectly, well represented herein.

 

Foreword by Andrus Ansip, vice-president of the European Commission in charge of a Digital Single Market and Günther Hermann Oettinger, European Commissioner on the Digital Economy and Society

Introduction by Jean-Pierre Dardayrol, engineer from École des Mines, Conseil Général de l’Économie

Download full texts of the articles

Gender, TIC, Mixité, Chantal Morley, Télécom École de Management

Gender diversity in ICT as a topic of research

Chantal Morley, a researcher at Institut Mines-Telecom Business School, works on the social construction of the masculinity of Information and Communication Technologies (ICT). Various empirical studies analyzed using a structurationist framework have allowed her to understand how stereotypes linking gender and technology are maintained or broken down through interactions, often spoken, on a daily basis. The notion of social inclusion led her to propose a framework for considering the inclusion of women in the professional world of IT as a change of culture and practices.

 

For Chantal Morley, the small number of women in ICT professions is a managerial and societal concern. Women take little part in the design of products and processes linked to ICT, which nevertheless shape the world we live in. These technologies are a major source of innovation and development, but women profit little from the fact. They also offer a potential for growth that is not being explored (European Commission 2013). Businesses that have implemented diversity policies struggle to recruit women in these technical professions (AFMD & CIGREF 2013) despite the fact that girls’ results, both in the scientific Baccalaureate and preparatory classes, demonstrate the existence of a pool of competent young women (French Ministry of Education, Higher Education and Research 2015).

 

Explaining the phenomenon

Chantal Morley believes that the small proportion of women in the field of ICT is not unrelated to instances of discrimination. A gender stereotype continues to prevail which notably upholds the belief of less talent and/or lower professional value among women in ICT professions compared with men, a form of the “differential valence of the sexes”, according to the expression by Anthropologist Françoise Héritier.

The continued existence of a stereotype that devalues women with regards to technology is a source of discrimination (fewer opportunities to advance professionally, difficulty entering informal networks, low tolerance of leadership behavior etc.). In seeking to understand how this stereotype can continue to exist in spheres which are subject to a gender equality regime (equality of pathways, diplomas, competitive exams etc.), Chantal Morley has shown that it slips subtly into daily interactions, usually without the people involved or those targeted noticing. Although barely noticeable, the inclusion of this behavior in practices helps maintain the idea that technical skills are part of a male identity. Chantal Morley has proposed a typology of gender typification behavior which provides a tool for identifying elements of discourse and micro-actions, often hard to spot, which reinforce or undermine the gender stereotype.

 

A change of culture is needed

People often think that adjusting the gender balance in digital technology will transform the image of technology, modify cultural practices and remove all obstacles facing women. However, the Researcher has highlighted that the gender stereotype is reinforced by both sexes. This observation, alongside an understanding of gender as a rational concept, led her to reflect on programs to encourage women to enter the field of technology. While they all target women, they all contribute to maintaining gender stereotypes.

Using reflections, research and practices in the social field, which highlighted the changes brought about by a switch from an approach in terms of exclusion to an approach based on the notion of inclusion, Chantal Morley has transposed this approach to analyze how ICT professions could cease to be the strongholds of a culture that maintains the “gendering” of digital technologies, according to the expression by Chabaud-Rychter & Gardey (2002). She has proposed a framework in which the inclusion of women in the professional world of ICT can be considered through the individual and collective capacity to act. This framework was used during a period of study leave at the University of Geneva to establish a diagnosis in several schools specializing in ICT in French-speaking Switzerland, and to establish guidelines for greater gender diversity.

 

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Recognition on a national level

Chantal Morley leads the Gender@Telecom teaching and research group which works on the social construction of gender representations and associated stereotypes. As a result of the group’s work, Télécom SudParis was awarded the Ingénieuses prize by the CDEFI (Conference of Deans of French Schools of Engineering) in 2016. This prize is in recognition of the online course titled “Féminin-masculin dans le monde du numérique : voyages et découvertes” and the educational measures for diversity first implemented in 2009. In November 2016, the course also won the “Coup de Cœur” (judges’ favorite) from the panel of judges for the Responsible Campus trophies.

Supported by Fondation Télécom, Gender@Telecom is looking for patrons in order to turn its SPOC into a MOOC (Massive Online Open Course) to be able to reach a wider audience.[/box]

 

Unveiling the history of women in ICT

To spread this culture of diversity across the Télécom SudParis and IMT BS campuses, Chantal Morley and the Gender@Telecom group have added to the offering of classes on gender and diversity with an online course called “Féminin-Masculin dans le monde du numérique : voyages et découvertes” (see inset). This SPOC (Small Private Online Course), launched at the start of 2016, is composed of three sections: the first sheds light on the little-known place of women in the history of ICT in the USA and Europe; the second section leads to reflections on the gender of a profession through the discovery of parity in ICT professions in countries such as Malaysia; the third section focusses on current stereotypes in the fields of ICT in order to learn how to recognize and break them down (How do they function? What are the effects? How are they developing today?) An in-depth analysis of the course revealed its contribution to the breaking-down of stereotypes and the empowerment of women with regards professions in digital technology.

 

Chantal Morley, Télécom École de Management, Sociologie du genre

From Management Information Systems to gender sociology

Chantal Morley is a Professor at Institut Mines-Telecom Business School. She holds a PhD in management science from HEC, an Accreditation to Lead Research (HDR) from IAE Montpellier-II, and a Masters in Gender Sociology from the EHESS (School of Higher Education in Social Sciences).

She began her career in the information systems consultancy sector. After writing a thesis on design methods, she entered the world of higher education and research with the creation of the Information Systems Department (DSI) at IMT BS.

She is the author of a reference work on managing information systems projects, and has co-written several works on management information systems, as well as a book on women in the workplace. She is a member of the editorial committee of the Systèmes d’Information et Management review. Over the past decade her research has mainly focused on the relationship between gender and IT.

 

Petros Elia, ERC, Eurecom, DUALITY

Petros Elia was awarded an ERC grant for its research on wireless networks

To obtain a grant from the European Research Council is one of the ultimate goals for a scientist based in Europe. That’s exactly what Prof. Petros Elia, a reseacher at Eurecom, achieved last November. This makes a total of two ERC grants at Eurecom in two years.

 

 

Petros Elia, Eurecom, ERC grant

No doubt, getting the ERC grant is a very important milestone in one’s career” says Petros Elia, Professor in Mobile Communications. The prestigious nature of this honor also reflects very well on Eurecom as a whole, and on the Communications Systems Department in particular which now boasts two ERC grants (Prof. David Gesbert received it in 2015). Petros admits that the ERC has the potential to bring about some changes and challenges: “It could change my day-to-day work since it could allow me to pursue more ambitious research goals and riskier funding endeavors.” Petros will also be involved in the recently created Eurecom committee specialized in ERC grants that helps scientists benefit from the experience of other scientists who already received such grants: “Of course, I’m very available to help Eurecom professors write their ERC proposals,” adds Petros Elia. The five-year grant he received represents €2 million, which is the maximum for “Consolidator grants”, the type of ERC Petros Elia applied for. It will help him develop DUALITY, his ground-breaking project that aims to revolutionize the way wireless networks are working.

 

DUALITY Project

For some, the explosion in the volumes of data may mean the end of wireless networks, but for Petros Elia, increased data storage capabilities could actually lead to major gains in data transmission rates in wireless networks. This shows how big and challenging DUALITY is. For some months, Petros has been feeling that “something exciting was coming up” in this area. He actually proved – in a specific setting (a broadcast channel) – there was some synergy between cache memory and feedback information theory. He now needs to prove it for all sorts of configurations. “Even without the ERC grant, I would be doing this type of research. I strongly believe that this approach can lead to something very new and powerful. It’s a very exciting area of research,” he adds. For him, DUALITY deals with concepts that will have an impact far beyond 5G. It is typically a high-risk/high-gain topic, which he nicely demonstrated in his ERC proposal. The big challenge of DUALITY is to lay the theoretical foundations of transforming memory into better data rates through wireless communications. In other words, that means creating a new theory. Nothing less. A theory that would reveal how, with a little feedback and a splash of smart caching of a small fraction of popular content, it would be possible to adequately handle the anticipated extreme increase in users and demand.

It is actually urgent to find solutions since “we are running out of available resources for transmitting signals over wireless networks – whose traffic is expected to increase by 10 in just 5 years,” Petros explains. And there is an unexplored synergy between two seemingly very different structural worlds: Feedback information theory and distributed storage.Seemingly disconnected, both theories have severe limitations when used separately, especially in the presence of an increasing number of users. “But the mathematical convergence of them could lead to something powerful. Each method could build on the imperfections of the other.” Hence the name of the project, DUALITY, that says it all.

Petros Elia’s idea is to use distributed memory at some nodes of the network in a way that it absorbs structure from the data and converts it into structure for the network. This would reconstruct the structure of the network, yielding faster networks with less unwanted interferences. How would it work? The first step is to be able to predict probable interfering data streams so they can be cleverly placed in advance in some collective cache memory of subgroups of users. And then, when time comes, the system should be able to cleverly transmit the right signals/information to the right users. For example, the system would predict that shows like “The Big Bang Theory” or “The Man in the High Castle” could be downloaded on Wednesday. So, the day before, it would store some of these in specific places across the wireless network, so it – with a single common transmission! – can deliver different series to different people; the key is to create interferences on purpose! It is easy to understand that multiple users and multiple data make the whole process a lot more complicated and interesting. The basics of the new theory imagined by Petros can be summarized in three words: maths, maths and maths – Feedback information theory, Coding theory and Algebraic combinatorics… These are the main tools that will help Eurecom scientists find how and where to place memory across the network, so that restructuring phenomena can happen.

 

Scientific and technological impacts

Getting to this result will obviously take a few years and some major milestones have to be reached in the research process. First, fundamental limits of memory-aided wireless communications will be explored so that the relationship between feedback information and storage-capacity can be better understood. This will lead to the design of specific algorithms that will focus, for example, on “feedback-boosted coded caching” or memory-aided interference alignment. A third important step will be about the use of memory to simplify the structure of wireless networks; it turns out that a bit of feedback-aided caching can fundamentally alter the structure of the network into something much simpler. All these results will then be able to lead to a unified theory stating how memory can be converted into throughput in the case of very large networks such as ultra-high frequency networks, optical networks or the cloud. Finally, “all this will be validated with a series of wireless testbed experiments”, explains Petros, “either on the OpenAirInterface simulator – the EURECOM wireless technology platform – or with the help of companies like a German start-up that has the right receivers and base stations to perform the experiments”. The results of these experiments will hopefully show if a novel class of algorithms placed directly on mobile devices, can efficiently manage memory and feedback, in order to boost network performance.

According to Petros, it is possible that in 5-6 years from now, memory-aided algorithms will guarantee ultra-fast massive downloads, no matter how the network load increases. Actually, the more storage we will have, the better wireless networks will work! Increasing storage capacities could even mean endless resources for wireless networks, making us gradually enter a new period of the wireless history: the “Eldorado of Memory” as Petros Elia likes to call it. Future wireless standards will then have to take this entirely new paradigm into account.

 

Learn more about ERC Grants