Nick Wainwright & Nick Papanikolaou HP Labs / Effectsplus project The report of a consultation of the Future Internet Assembly – a.
Download ReportTranscript Nick Wainwright & Nick Papanikolaou HP Labs / Effectsplus project The report of a consultation of the Future Internet Assembly – a.
Nick Wainwright & Nick Papanikolaou HP Labs / Effectsplus project The report of a consultation of the Future Internet Assembly – a cross disciplinary assembly of researchers – on the research priorities for Future Internet Research in Framework 8 Consultation carried out by the FIA Research Roadmap Working Group by the Effectsplus Project (www.effectsplus.eu) and supported by Future Internet Support Action projects http://fisa.future-internet.eu . The full report can be downloaded by following the download page which is linked from http://fisa.future-internet.eu/index.php/FIA_Research_Roadmap Research having impact in the Framework 8 timeframe, at the start of the next decade and beyond …. … which will take place in a context vastly different from that which prevailed at the start of the current framework programme. New Current We want to spot these Technology, approaches, techniques, Applications, … … early enough to get ahead of the game Inputs from ◦ ◦ ◦ ◦ Challenge 1 Support Action Projects Open Meeting March 2011 Individual Contributions Editing meetings of the FIA RR Working Group V1 prepared for FIA Budapest Taking a crossdisciplinary approach Positioning our vision in a Future Internet world Identifying challenges and gaps Highlighting research priorities FIA Roadmap – Contributors & Table of Contents WARNING – Do not try to read the next six slides! Future Internet Support Actions 3.1 Shifts In the Economic Landscape Will Shape the Future Internet ◦ ◦ ◦ ◦ ◦ ◦ ◦ Towards enterprise globalisation, and the emergence of new markets Towards a service economy, where everything is provided as a service Trust is a fundamental factor in services Towards a high-knowledge specialist manufacturing developing the Knowledge Supply Chain 3.2 Significant Changes in Society Will Drive Changes in the Internet ◦ Cities and urban environments will become fully “digital” spaces with joined-up digital services and innovative digital businesses Older people are expected to reach almost one third of the total EU population by 2025 Sustainability continues to drive Internet applications and as a factor in the IT industry through focus on energy consumption and sustainability. Cybercrime and cyber-attacks have the potential to be much more serious than they were ten years earlier 3.3 What We Use the Internet For Will Become Even Broader By 2020+ ◦ ◦ ◦ ◦ ◦ ◦ We rely on the Internet to manage and control our critical infrastructures Our real and our digital lives are ever more intertwined as we rely on Internet services for all aspects of our daily life. Games are a technology driver for future Internet experiences “Gameification” will apply game techniques across many economic sectors in which SMS play a big part Social platforms evolve and develop. Applications to business, the growing ‘Internet of people’, new insights into ◦ ◦ ◦ 3.4 The Capabilities of the Internet Will Be Significantly Greater and Broader By 2020 And Beyond ◦ ◦ ◦ ◦ ◦ ◦ opinion, attitudes, reputation. Media and Content is a continues to grow and forms a huge part of the Future Internet, becoming more pervasive, more complex and more sophisticated 3D in many different forms becomes a significant part of FI content Aspects of the ‘Internet of things’ become widely deployed, machine-machine interaction increases, and massive quantities of data are generated The mobile device becomes an interface to the networked things that (physically and virtually) surround you Smart applications based on network support Networks are becoming more polymorphic, self-managing and sustainable Widespread take-up of IPv6 The future Internet is cloud – blending network, computing, and storage into a seamless service platform Interaction A 3D world 3.5 Current Research Will Create Technological Opportunities in the 2020+ Timeframe ◦ ◦ ◦ ◦ ◦ ◦ ◦ Future Networks Cloud Computing Internet connected objects Trustworthy ICT Networked Media Experimental Facilities Future research agenda 4.1 ◦ ◦ ◦ ◦ ◦ ◦ ◦ ◦ ◦ Future Internet and Business Enterprise is ‘virtual’, transforming roles of customer and employee, and exploiting knowledge through open innovation Future Internet enables high knowledge-content innovation, manufacturing agility, early exploitation of emerging technologies, and collaborative manufacturing Manufacturing Agility Exploiting emerging technologies Collaborative Manufacturing Services link the real world to the cyber world We will have the tools to build secure systems and services and the ability to verify that they are secure End user (businesses, and individuals) will have the tools and understanding to manage and make decisions about digital risks Content, Creative and Media 4.2 Future Internet Addressing Societal Challenges ◦ ◦ ◦ Future Internet Services are fully inclusive and accessible to everyone, everywhere and every time they wish to use them Smart cities are connected, citizen centric environments with innovative services and sustainable economies Users are empowered over privacy and personal ◦ ◦ ◦ ◦ ◦ ◦ ◦ ◦ ◦ data Vision for Green ICT Our meetings, interaction, remotely really works Presence in space and time Gameification is mainstream A User-Centric Internet Fostering Innovation and Collaboration The Internet of Services for the Internet of Things A Future Internet Based on Privacy, Security and Trust New Service Environments and Infrastructures New Ways of Developing Software 4.3 ◦ ◦ ◦ ◦ ◦ Future Internet Technology Polymorphic networks support smart applications and services Edge Systems 3D assets are seamlessly integrated into a complete ‘mixed reality’ Nano communications Augmented Living 5.1 ◦ ◦ ◦ ◦ ◦ ◦ ◦ ◦ ◦ Future Manufacturing challenges: Interoperable Enterprise environments; risk management and forecasting; and tacit knowledge management across the supply chain Extensive Monitoring, Evaluation, Risk Management and Forecasting Enterprise Social knowledge media Knowledge Clouds Digital Commoditization Interoperability Service Utility We can’t make all the risks disappear - Business must be able understand and make decisions about risk, based holistic view of threats and security situation Turning security management from an art into a science; metrics, assurance and policy. 5.2 ◦ ◦ ◦ ◦ Business, Economy ◦ 5.3 ◦ ◦ ◦ ◦ ◦ ◦ People, Users, Societal Challenges Cities Challenges for accessibility: familiarity with accessibility requirements, implementing design for accessibility, and making interactive multimedia applications accessible. People must understand and be in control of their exposure to Internet risks Identity and privacy capabilities in the future Internet must respond to changing policy, services, and individuals needs and requirements New forms of digital content, evolving business models, whither DRM? ◦ Technological Challenges Developing Correct Software The challenge of capacity and resource management in the network (limits of capacity and performance) Networks that support smart applications embedded in everything from infrastructure to cities to services will be challenging to develop Developing and operating secure future Internet systems necessitates taking a systems approach and having the tools to address Services The framework for capturing, storing, and managing sophisticated multidimensional objects that could support real augmented realities does not exist Future Internet clients will be sophisticated collections of smart devices, situated computing, and services. Today’s programming paradigms for web-clients do not support this model well at all. 6.1 Business ◦ Overview of research areas to be addressed ◦ Future Internet Enterprise Systems ◦ R&D Theme: Future Internet Enterprise Systems for Manufacturing 6.2 People / Social Telepresence Interaction Cities Societally important applications of FI – ◦ Privacy ◦ Inclusiveness ◦ ◦ ◦ ◦ 6.3 Technical ◦ Performance of Future Networks ◦ Making IT Greener (reducing ◦ ◦ ◦ ◦ ◦ ◦ ◦ ◦ ◦ energy consumption, lifecycle, resources,) Internet of Things Security 3D Cross disciplinary research Open to different cultures and excluded/ disadvantaged groups Innovation, Involving, benefiting, stimulating startup business and SMEs Evaluation methodologies Experimental approaches Architecture Generational shift in attitudes to Internet A networked society and economy Smarter cities Faster networks Sophisticated devices High definition experiences Massive data Emerging technologies Resource constrained world Global competition in innovation Huge demographic changes Not equal access for all Congested networks Infrastructure costs Digital rights Cyber conflicts Internet restrictions Knowledge-rich collaborative networked innovation Flexible, networked enterprises Cities filled with rich, connected services, Citizens, SME’s, industry, public sector empowered to innovate Internet deeply embedded in all sectors of the economy People empowered to control networked personal data, but also free to exploit and benefit from it An inclusive Future Internet with no barriers to access Future Internet Innovation Rich experiences enabled by 3D, data, and displays Rich in exploitable knowledge and data Reliable enough to support critical infrastructures Secure for users, business, and service operators Able to meet huge increase in demand Supporting complex smart apps Enhancing activities in life and work Predicable and manageable Future Internet Technology Demand grows and changes ◦ ◦ ◦ ◦ Huge demands on capacity, New complex traffic from smart apps and devices Services/ infrastructure boundaries blurring Even smarter devices at the edges of networks Beyond converged infrastructure towards an execution environment for services ◦ ◦ ◦ Polymorphic networks Expanding the cloud Smart systems at the edges No end to the growth in Networked data in sight ◦ ◦ ◦ ◦ More More More More sources, applications, sectors valuable, sensitive, personal, analysed types, apps, and services connected, linked, distributed The Future Internet will need a sophisticated and comprehensive approach to data ◦ Hosting huge, comprehensive, connectable data resources in everything from data factories to devices ◦ About spaces, places, people, media, experiences, behaviours and knowledge, and more ◦ Providing sound data governance, blending rights, obligations and control at fine granularity ◦ Enabling services to use massive data in real time distributed, streaming, fast, and accountable A complex technical-socioeconomic system ◦ More targets to attack ◦ Increasing sophistication and scale of threats ◦ Greater potential rewards ◦ More serious consequences Securing it is challenging ◦ Understanding risks, costs, business impact ◦ Making the user part of the system of security ◦ Providing differentiated security levels ◦ Detection, Metrics and Countermeasures ◦ Robust system architectures http://www.flickr.com/photos/plastanka/ An abundance of need A plethora of capabilities: ◦ Industrial and enterprise, collaboration, visualisation, ◦ Health, inclusion, education, creative, buildings, and more ◦ Multidimensional, wall sized displays, smart devices, situated systems, haptics, sensing, and more Complex technical, systems, social, and user challenges http://www.flickr.com/photos/jeanbaptisteparis/ Internet of things + Internet of services = Internet doing things Integrating internet technologies and systems to support complex future industry, environmental, and societal challenges Exploiting network scale Building working systems, working code, Using Infrastructures that are open to innovation Enabling Innovation at the boundaries between sectors Engaging SMEs and start-ups Using cities as testbeds http://www.flickr.com/photos/marc_smith/ Scientific Experimental Architectural Open Quantitative approaches at every level, technical and socio-economic Experimentation and discovery at scale, building virtualised experimental facilities in the fabric Interoperable and scaleable through consistent architectural approaches Open, accessible for innovation, empowerment, and inclusion Future Internet Assembly Research Roadmap Towards Framework 8: Research Priorities for the Future Internet Augmented world – an Internet doing things Networked Interaction – people, data, phsical world Beyond converged infrastructure Architectural, open, scientific, experimental Exploiting, organising, governance of networked data Internetstyle Innovation – applications and services Secure Internet, services, users