The 5th VERDIKT ConferenceResearch Challenges in Networked SystemsTorsten BraunResearch Group ―Communications and Distribu...
Torsten Braun: Research Challenges in Networked Systems       Overview       >     Recommendations from Evaluation of ICT ...
Torsten Braun: Research Challenges in Networked Systems       Statements about the Future I       >     It is difficult to...
Torsten Braun: Research Challenges in Networked Systems       Evaluation of ICT Research in Norway       Recommendations: ...
Torsten Braun: Research Challenges in Networked Systems       Networked Systems       25. April 2012                      ...
Torsten Braun: Research Challenges in Networked Systems     Looking Back: ToCs in the Year 2000     >      Wireless sensor...
Torsten Braun: Research Challenges in Networked Systems       Potential Future Research Areas in       Networked Systems  ...
Torsten Braun: Research Challenges in Networked Systems       Energy Consumption by       Communications and Computing    ...
Torsten Braun: Research Challenges in Networked Systems       Energy-Efficient       Communications and Computing       > ...
Torsten Braun: Research Challenges in Networked Systems       Cloud Computing: Problems       >     Long delay between use...
Torsten Braun: Research Challenges in Networked Systems       Cloud Computing: Challenges       >     Use data centres clo...
Torsten Braun: Research Challenges in Networked Systems       Software-Defined Communications       More and more function...
Torsten Braun: Research Challenges in Networked Systems       Cognitive Networks       >     Cognitive Radio              ...
Torsten Braun: Research Challenges in Networked Systems       Smart Grids       >     Automatic and distributed monitoring...
Torsten Braun: Research Challenges in Networked Systems       Smart Grids: Challenges       >     Intelligent, distributed...
Torsten Braun: Research Challenges in Networked Systems        Cyber-Physical Systems    >       Control / Computing Co-De...
Torsten Braun: Research Challenges in Networked Systems        Cyber-Physical Systems:        Application Examples    >   ...
Torsten Braun: Research Challenges in Networked Systems       Cyber-Physical Systems: Challenges       >     Distributed r...
Torsten Braun: Research Challenges in Networked Systems       Participatory and Opportunistic Sensing       >     Motivati...
Torsten Braun: Research Challenges in Networked Systems       Federated Social Networks       >     Today: centralized soc...
Torsten Braun: Research Challenges in Networked Systems       Future Internet       >     The current Internet is based on...
Torsten Braun: Research Challenges in Networked Systems       Security       >     Internet infrastructure security, e.g.,...
Torsten Braun: Research Challenges in Networked Systems       Remarks on Research Organization       >     Experimental re...
Torsten Braun: Research Challenges in Networked Systems       ICT in EU Horizon 2020       >     New generation of compone...
Torsten Braun: Research Challenges in Networked Systems       Conclusions       >     Increasing importance of software,  ...
Torsten Braun: Research Challenges in Networked Systems       Statements about the Future II       >     The best way to p...
Torsten Braun: Research Challenges in Networked Systems       Thanks for your attention !       >     Contact             ...
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Research Challenges in Networked Systems

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Research Challenges in Networked Systems

  1. 1. The 5th VERDIKT ConferenceResearch Challenges in Networked SystemsTorsten BraunResearch Group ―Communications and Distributed Systems‖Institute of Computer Science and Applied MathematicsUniversität Bern
  2. 2. Torsten Braun: Research Challenges in Networked Systems Overview > Recommendations from Evaluation of ICT Research in Norway > Looking Back: Topics in the Year 2000 > Future Research Topics and Challenges > Remarks on Research Organization > ICT in EU Horizon 2020 > Conclusions 25. April 2012 2
  3. 3. Torsten Braun: Research Challenges in Networked Systems Statements about the Future I > It is difficult to make predictions, especially about the future. (Karl Valentin, Mark Twain, Winston Churchill, Albert Einstein, Niels Bohr etc.) > Most technologies that will be used widely in 5-10 years are already existing in a lab today. We just do not know which of them will be successful. (Paul Kühn, KiVS Conference 1999) 25. April 2012 3
  4. 4. Torsten Braun: Research Challenges in Networked Systems Evaluation of ICT Research in Norway Recommendations: ―Research areas are often fragmented and not well aligned with Norwegian industry. A bottom-up «free academic» approach is dominating …. Although the outcome of this funding is not bad, coordination is lacking …. An obvious strategic area is ICT in life sciences, but also industrial robotics in dangerous environments such as off-shore, and cyber‐security. ICT in Energy and Power Engineering also seems also an obvious strategic research area of national interest.‖ 25. April 2012 4
  5. 5. Torsten Braun: Research Challenges in Networked Systems Networked Systems 25. April 2012 5
  6. 6. Torsten Braun: Research Challenges in Networked Systems Looking Back: ToCs in the Year 2000 > Wireless sensor networks > Software defined radio and multi-sensor data fusion > Programmable networks > Denial of service and > Voice over IP intrusion detection > Mobile ad-hoc networks > Internet-connected robots > Beyond 3G mobile networks > Ubiquitous computing > Mobile agents > E-commerce > Digital libraries > Web services > Multimedia over ATM 25. April 2012 6
  7. 7. Torsten Braun: Research Challenges in Networked Systems Potential Future Research Areas in Networked Systems Cyber- Smart Physical Grids Energy- Cloud Systems Efficiency Computing Software- Future Defined Internet Communi- Partici- cations patory/ Security Opportunistic Sensing Cognitive Federated Networks Social Networks 25. April 2012 7
  8. 8. Torsten Braun: Research Challenges in Networked Systems Energy Consumption by Communications and Computing > ICT already consumes approximately 2 % of energy, which is similar to air traffic. Trend is increasing. > Approximately 10 % of ICT energy consumption by mobile communications (mainly base stations and mobile devices) > LTE is even more energy consuming due to complex signal processing (MIMO, OFDM, etc.) than 3G. > Trade-off between performance and energy consumption (→ optimization using power models, heuristics, and analytical techniques) 25. April 2012 8
  9. 9. Torsten Braun: Research Challenges in Networked Systems Energy-Efficient Communications and Computing > 25. April 2012 9
  10. 10. Torsten Braun: Research Challenges in Networked Systems Cloud Computing: Problems > Long delay between users and cloud computing infrastructure > Cloud computing assumes permanently connected (mobile) devices and heavy communications. > Processing and storage of sensitive data > Availability and robustness > High energy costs for data centres, in particular cooling 25. April 2012 10
  11. 11. Torsten Braun: Research Challenges in Networked Systems Cloud Computing: Challenges > Use data centres close to user, data might follow mobile users > Virtualization / isolation of computer and network resources > Disruption-tolerant mechanisms and protocols for cloud computing > Privacy and trust mechanisms > Protection against denial-of-service attacks > Replication vs. consistency > Green data centres > … 25. April 2012 11
  12. 12. Torsten Braun: Research Challenges in Networked Systems Software-Defined Communications More and more functions previously implemented in hardware or special-purpose devices will be implemented in software on general-purpose computers, e.g., > Software-Defined Radio — High flexibility in terms of frequencies and protocols, cf. cognitive radio/networks, although energy consumption could be an issue — Future wireless systems might process even physical and medium access layers in software — Signal and protocol processing in the cloud allow global mobile telecommunication networks. > Software-Defined Networks — control network devices (routers, switches, access points) via open APIs from external control plane software, e.g., OpenFlow — could simplify network configuration, e.g., in home networks 25. April 2012 12
  13. 13. Torsten Braun: Research Challenges in Networked Systems Cognitive Networks > Cognitive Radio — Flexible adaptation to unused frequencies to better exploit the frequency spectrum (higher bandwidth and reliability) > Generalization → Cognitive Networks — Application of cognitive radio approach Orient to higher protocol layers — Full parameterization of protocols based on learning and intelligent algorithms Observe Learn Decide — Generation of tailored / customized software based on protocol descriptions Environment Act 25. April 2012 13
  14. 14. Torsten Braun: Research Challenges in Networked Systems Smart Grids > Automatic and distributed monitoring and control/adaptation of energy consumption, production, storage, distribution, pricing based on — accurate usage measurements by metering devices / sensors — interconnection of all components of the electricity grid (sensors, control elements, actors) > Most electricity networks have not been designed for asymmetric and varying flow of energy and information. 25. April 2012 14
  15. 15. Torsten Braun: Research Challenges in Networked Systems Smart Grids: Challenges > Intelligent, distributed, automated control and coordination possibly based on processing large amount of data, learning, and prediction > Heterogeneous, adaptive, reliable, secure, self-managing networks > Secure systems and networks (privacy, authentication, intrusion detection, etc.) > … 25. April 2012 15
  16. 16. Torsten Braun: Research Challenges in Networked Systems Cyber-Physical Systems > Control / Computing Co-Design > actor/sensor networks & robots integrated into physical world > have typically real-time requirements > might use distributed / high-performance / cloud computing infrastructures 25. April 2012 16
  17. 17. Torsten Braun: Research Challenges in Networked Systems Cyber-Physical Systems: Application Examples > Critical infrastructures: power grid, transportation > Traffic management > Manufacturing > Teams of (mobile) autonomous robots > Building control > Medical care 25. April 2012 17
  18. 18. Torsten Braun: Research Challenges in Networked Systems Cyber-Physical Systems: Challenges > Distributed real-time systems and control processing > Robustness > Communications and interoperability between systems and devices > Security of systems and devices (confidentiality, data and service integrity), in particular to prevent attacks on control systems > Machine-to-machine communication (→ security) > Mobile CPS > … 25. April 2012 18
  19. 19. Torsten Braun: Research Challenges in Networked Systems Participatory and Opportunistic Sensing > Motivation: Mobile end systems, cars etc. with several sensors > Approach: Exploit — sensors, storage and processing capabilities of mobile end systems — mobility of users for sensing instead of deploying huge amount of static sensors. > Application Examples — Environmental monitoring — Traffic monitoring and management > Challenges — Feature extraction and data fusion — Reliability, authenticity and accuracy of data — Privacy — Incentives for and coordination of users — Relations to social networking, e.g., tagging of events 25. April 2012 19
  20. 20. Torsten Braun: Research Challenges in Networked Systems Federated Social Networks > Today: centralized social network architectures — Social network provider knows all data about users and their relations — Disadvantages of central solutions, e.g., robustness, security > Tomorrow (?): distributed/federated social network architecture require — Open protocols and APIs, standardized data formats — Federated authentication and authorization, access control — Distributed storage — Mechanisms to search distributed information 25. April 2012 20
  21. 21. Torsten Braun: Research Challenges in Networked Systems Future Internet > The current Internet is based on principles of the 1960s with the main purpose to interconnect large computers. Issues such as mobility, security, multimedia had lower importance. > Today, Internet users are mainly interested in retrieving content and accessing services. > Increasing bandwidth demand due to — (personalized) multimedia data streams — Cloud computing and storage, visualization on (mobile / high-resolution) end systems — Huge amounts of data from measurements and scientific experiments — Internet of Things, Internet of Services, … > New approaches, e.g., Information-Centric Networking, need more research, development, testing etc. > World-wide Future Internet research programs, e.g., GENI, FIRE 25. April 2012 21
  22. 22. Torsten Braun: Research Challenges in Networked Systems Security > Internet infrastructure security, e.g., DNS, routing > Security in new network paradigms, e.g., Future Internet > System security > Application security > Cloud computing security > Usability and security > Network forensics vs. privacy > Machine-to-machine communication, smart grids, CPS > Federated social networks 25. April 2012 22
  23. 23. Torsten Braun: Research Challenges in Networked Systems Remarks on Research Organization > Experimental research — Increasing importance of evaluation in testbeds, e.g., sensor network conferences — shared research infrastructures and repositories for results to – save costs – support comparability / repeatability of results > Collaboration — High quality research benefits from joint research activities with a critical mass of persons. – Example: ACM EuroSys 2012 – Average number of authors of accepted papers: 4.37 – Average number of authors of rejected papers: 2.87 — But avoid massive coordination overhead and free riding > Evaluation — Articles in CS conferences with low acceptance rates (15-30 %) have often more impact than most journals. 25. April 2012 23
  24. 24. Torsten Braun: Research Challenges in Networked Systems ICT in EU Horizon 2020 > New generation of components and systems including micro/nano-electronics and photonics technologies, components and embedded systems engineering > Next generation computing, advanced computing systems and technologies > Infrastructures, technologies and services for the future Internet > Content technologies and information management including ICT for digital content and creativity. > Advanced interfaces and robots and robotics and smart spaces 25. April 2012 24
  25. 25. Torsten Braun: Research Challenges in Networked Systems Conclusions > Increasing importance of software, also in control and communication technology, possibly using cognitive approaches > Security issues everywhere > Energy efficiency as a grand challenge > Complexity requires (interdisciplinary) research collaboration 25. April 2012 25
  26. 26. Torsten Braun: Research Challenges in Networked Systems Statements about the Future II > The best way to predict the future is to invent it. (Alan Kay) 25. April 2012 26
  27. 27. Torsten Braun: Research Challenges in Networked Systems Thanks for your attention ! > Contact — braun@iam.unibe.ch — http://cds.unibe.ch 25. April 2012 27

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