H2020 V1
Moderaattori:smxb (katso kaikki)
Sivun edistymistä ei ole arvioitu. Arvostuksen määrää ei ole arvioitu (ks. peer review). |
Lisää dataa
|
Johdanto
Horizon2020-puiteohjelma käynnistyi vuoden 2014 alussa. Ohjelmakomiteoiden työohjelmat vuosille 2014-2015 on julkaistu, ja ensimmäiset H2020-haut ovat jo sulkeutuneet. Vuosien 2014-2015 tulevat haut ovat jo selvillä, ja niiden sisältöön ei enää pysty vaikuttamaan. EU-komissiossa valmistellaan kuitenkin jo vuosien 2016-2017 työohjelmia. Niiden sisältöön vaikuttamisen aika on nyt! Tulevien työohjelmien hakuihin pitää saada aiheita, jotka kiinnostavat suomalaisia hakijoita ja joiden hauissa suomalaisilla hakijoilla on mahdollisuus menestyä. Tällä sivustolla kerätään suomalaisten osallistujien aiheidoita Horizon2020-ohjelman ICT-työohjelmaan 2016-2017.
Tämä sivusto on julkinen eli sitä pystyy kuka tahansa lukemaan. Kommentointia varten pitää rekisteröityä.
Yhteyshenkilöt:
Katja Ahola (Tekes), Sami Majaniemi (LVM), Marko Heikkinen (Tekes), Juha Latikka (Suomen Akatemia), Elina Holmberg (Tekes), Hannu Hämäläinen (STM) ja Jouko Hautamäki (Tekes)
Virallinen kommentointiaika: 6.5.2014 - 28.5.2014.
Kontaktoitavat tahot
- Yritykset
- Tutkimuslaitokset
- Yliopistot
- Muut tahot
Tutkimusaiheet / Research topics
Tähän kohtaan toivomme erityisesti aihe-ehdotuksia ja kommentteja. Kirjoitathan tekstin mielellään englanniksi.
Mitä aihepiirejä halutaan saada aukaistua tuleviin H2020 ICT-hakuihin? Voidaanko/kannattaako samalla tehdä avointa ennakointityötä sen suhteen mitä Suomessa pitää lähitulevaisuudessa tutkia/opettaa?
NOKIA’s (Networks) contribution to H2020 Work Programme 2016-2017
From Nokia’s (Networks) perspectives, new research is needed on the following Mobile Broadband key development areas (Note: the summary or the 5G requirements have been listed after these development areas):
1. Enable 1,000 times more capacity
Näytä yksityiskohdat |
---|
More spectrum, higher spectral efficiency and small cells shall provide up to 1,000 times more
capacity in wireless access. Although the industry today has not defined what 5G will look like and the discussions about this are in the earliest stages, flexible spectrum use, more base stations and high spectral efficiency will be key cornerstones, and research on it needs to be continued in Work Programme 2016-2017. Some details: The increased capacity needs shall be supported by the new spectrum sharing methods and intelligent antennas. The new methods shall support administration and optimization of the shared spectrum across different access technologies and across different administrative domains. For instance, several operators may share the same frequency band to their overlapping networks and the interferences/disturbances from one network to another have to be taken into account for the optimal allocation of the frequencies. This may have implications also on the traffic management of the shared networks. New methods and tools are needed for testing the new network functions (development phase) and for verifying the performance of the deployed networks. All functions and parameters are interdependent, and new methods are needed to analyze and find out the overall dependencies and impacts between functions. |
2. Reduce latency to milliseconds
Näytä yksityiskohdat |
---|
In addition to pure network capacity, the user experience of many data applications depends
on the end-to-end network latency. Advanced audio-visual real-time applications such as cloud gaming, tactile touch/response applications and machine-to-machine interactions (M2M, IoT, Industry 4.0) will push latency requirements down to single digit milliseconds in the future. Also, the network and application level protocols have to be faster and more efficient for enabling higher network performance and better energy efficiency. |
3. Teach networks to be self-aware
Näytä yksityiskohdat |
---|
Today, network operators spend about 15-20% of their total OPEX on operating, managing and optimizing their networks. The introduction of additional radio access technologies, multiple cell layers and diverse backhaul options will increase complexity and risks driving up network OPEX substantially. The application of big data analytics and Artificial Intelligence technologies are needed to create the Cognitive Network that can autonomously handle complex end-to-end network and service management.
The heterogeneity of the network accesses increases the need for the more intelligent traffic management and off-loading functions. New, efficient and self-learning traffic management methods have to be researched and understand more. The intelligent traffic management is very important when a general communication network is used to connect different kind of industrial internet, machine-to-machine and health-care systems together with heavily varying traffic demands. |
4. Personalize the network experience
Näytä yksityiskohdat |
---|
Customer experience management (CEM) has become an industry priority over the last few years. In the future, the capabilities of CEM shall be enhanced substantially when combined with the Cognitive Network approach outlined above. In short, cognitive networks shall dynamically optimize the experience of selected users in response to a changing environment. |
5. Telco Clouds
Näytä yksityiskohdat |
---|
Cloud technologies being able to provide computing and storage resource on-demand have brought substantial gains in efficiency and flexibility to the IT industry. Similar gains could be achieved when applying cloud principles to telco networks with virtualization decoupling traditional, vertically-integrated network elements into hardware and software.
The migration of network elements in combination with software defined networking (SDN) will transform today’s networks into a fully software defined infrastructure that is both highly efficient and flexible. A key research area in the telco clouds is also Security & Privacy. It is not sufficient if the network itself is safe, but at the same time it is used for cheating. The methods have to be developed for the cloud environment to prevent any kind of fraud by the users of networks. |
6. Flattening total energy consumption
Näytä yksityiskohdat |
---|
In mature markets, energy consumption already accounts for 10-15% of the total network operational costs and may hit 50% in developing markets. The focal point for improving energy efficiency is the radio access, which accounts for around 80% of all mobile network energy consumption. Advanced power amplifier technologies, baseband efficiency and heterogeneous network architecture evolution are the key ingredients for the efficient radio access network of the future. |
7. Requirements for 5G
In the following, the requirements for 5G have been summarized:
Näytä yksityiskohdat |
---|
The use cases, key design principles and vision of the 5G system lead to requirements that the future mobile broadband system will need to meet:
|
Demos Helsinki suggestions to H2020 WP 2016-2017
The core contribution of technology to society is usually the behavior change that new technologies enable. Demos Helsinki proposes
1. Retrofitting ICT in cities and buildings to make us behave smarter in smarter environments
2. Using ICT to enable preventive and inclusive healthcare and allow autonomy in healthy behavior for everyone.
3. Building tools and interfaces to enable socially responsible and participatory behavior
4. Using ICT to support sustainable lifestyles
Further, Demos Helsinki proposes ICT intensive futures forecasting to improve resilience in investments, education goals and science projects.
Qlu Oy: Proposal for a co-operation program to the Horizon 2020 EUI Research and Innovation program
Program Description
The goal for this program is to cost-efficient methods for building teching environments optimized for the needs of hard-of-hearing (HOH) students, but also serving efficiently the needs set by the new network based teaching methods. The main goal is to make it possible for everybody, also the HOH students, to participate efficiently in the bi-directional discussions in the teaching environment. This is especially important in learning foreign languages and also in the discussion based teamwork. These environments also have value in business and social life, which also are more and more operating in the network environment.
Working group
We propose that this program will be executed as a co-operation between our company, Qlu Oy and one or several finnish communal operators. If seen feasible, the community could be expanded toi include one or several communiocation technology companies and/or academic research groups.
Contact: Juha Nikula, Managing director, Qlu Oy, +358 40 5881138, juha.nikula(at)qlu.fi
Eero Hyvönen, Aalto yliopisto:
Linked Data
Linked Data quality and re-use
Knowledge Discovery in Linked Data
Visualization and exploration of Linked Data
Semantic knowledge extraction from unstructured data
Linked Big Data
Lisää oma aihe
Lisää tekstisi tähän
Priorisointiperiaatteet
Koordinaatioryhmä määrittää yhteistyössä osallistujien kanssa, kuinka aihe-ehdotukset asetetaan tärkeysjärjestykseen. Koordinaatioryhmän muodostaa H2020-ohjelman virallisen ICT-komitean asiantuntijaryhmä, jossa on edustajat Tekesistä, Suomen Akatemiasta, LVM:stä ja STM:stä.
Viestinvälitys EU:n organisaatioissa
Tähän listaan kerätään vaikuttajaverkostoa, joka pystyy vaikuttamaan ICT-työohjelmien sisältöön.
- H2020 ICT-asiantuntijaryhmä (Tekes, Akatemia, LVM, STM)
- TEM
- CONNECT ADVISORY FORUM FOR ICT RESEARCH AND INNOVATION" (CAF), http://ec.europa.eu/digital-agenda/en/research-advisors
Kommentoi kirjautumatta