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[PVS] Deadline extension | CfP: INTERNET 2012 || June 24-29,2012 - Venice, Italy




INVITATION:

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Please, consider contributing to and/or forwarding to the appropriate groups the following opportunity to submit and publish original scientific results to INTERNET 2012.

The submission deadline is set to February 16, 2012.

In addition, authors of selected papers will be invited to submit extended article versions to one of the IARIA Journals: http://www.iariajournals.org

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============== INTERNET 2012 | Call for Papers ===============

CALL FOR PAPERS, TUTORIALS, PANELS

INTERNET 2012, The Fourth International Conference on Evolving Internet

June 24-29, 2012 - Venice, Italy


General page: http://www.iaria.org/conferences2012/INTERNET12.html

Call for Papers: http://www.iaria.org/conferences2012/CfPINTERNET12.html

- regular papers

- short papers (work in progress)

- posters

Submission page: http://www.iaria.org/conferences2012/SubmitINTERNET12.html


Submission deadline: February 16, 2012

Sponsored by IARIA, www.iaria.org


Extended versions of selected papers will be published in IARIA Journals: http://www.iariajournals.org


Please, note the Poster and Work in Progress options.

The topics suggested by the conference can be discussed in term of concepts, state of the art, research, standards, implementations, running experiments, applications, and industrial case studies. Authors are invited to submit complete unpublished papers, which are not under review in any other conference or journal in the following, but not limited to, topic areas.

All tracks are open to both research and industry contributions, in terms of Regular papers, Posters, Work in progress, Technical/marketing/business presentations, Demos, Tutorials, and Panels.

Before submission, please check and conform with the Editorial rules: http://www.iaria.org/editorialrules.html
 

INTERNET 2012 Topics (topics and submission details: see CfP on the site)


Advanced Internet mechanisms

    Access: call admission control vs. QoE vs. structural QoS / capability-based access control vs. role-based access control vs. attribute-based access control; Routing and pricing models: BGP, pricing peering agreements using microeconomics, topological routing vs. table-based routing vs. network coding, power-efficient routing; Optimization in P2P/CDN networks: peer placement for streaming P2P, analysis of P2P networks; Traffic engineering: estimating traffic matrices, constrained routing, exponentially bounded burstness; Behavioral traffic recognition: identifying applications from traffic behavior; Traffic analysis: methods for analysis and visualization of multidimensional measurements, characterizing protocols; Software defined radio networks: low power signal processing methods, applications of machine learning; Cognitive radio: medium access, spatiotemporality, complexity, spectrum sharing and leasing, channel selection, multi-stage pricing, cyclostationary signatu
res, frame synchronization; Streaming video: learning from video, techniques for in-network modulation; Location: statistical location, partial measurements, delay estimation

Graph theory/topology/routing Internet support

    Information theory: distributed network coding, Shannon's entropy, Nash equilibrium; Optimization: LP, NLP, NeuroP, quadratic, convex programming, compressed sensing; Graph theory: random graphs, spectra graph theory, percolations and phase transitions, methods from statistical physics, geometric random graphs; Algebraic techniques: tensor analysis, matrix decomposition; Processing: signal processing techniques, equalization, point-process, source coding vs. network coding, recoverability; Statistical machine learning: probabilistic graphical models, classification, clustering, regression, classification, neural networks, support vector machines, decision forests; Game Theory/Microeconomic theory: social choice theory, equilibria, arbitrage and incentive oriented distributed mechanism design, cooperative games, and games on graphs; Stochastic network calculus; Fractal behavior and stability mechanisms; Kolmogorov complexity for performance evaluation; Complexity theory

Internet security mechanisms

    Cryptography: design and analysis of cryptographic algorithms, applied cryptography, cryptographic protocols and functions; Specification, validation design of security  and dependability: security and trust models, semantics and computational models for security and trust, business models in security management, security policies models, security architectures, formal methods for verification and certification, multi-level security specification;  Vulnerabilities, attacks and risks: methods of detection, analysis, prevention, intrusion detection, tolerance, response and prevention, attacks and prevention of on-line fraud, denial of services attacks and prevention methods; Access Control:  authentication and non-repudiation, accounting and audit, anonymity and pseudonymity; identity and trust management, biometric methods;  Anti-malware techniques: detection, analysis, prevention; Cyber-crime response: anti-phishing, anti-spam, anti-fraud methods

Internet trust, security, and dependability levels

    Network and transport level security; Network edge security controls: firewalls, packet filters, application gateways; Wireless and mobile network security: risks of wireless insecurity, wireless vulnerabilities and intrusion detection, WLAN and WMAN MAC layer security technologies, key management mechanisms and protocols, security in ad hoc, sensor, mesh and personal communication  networks; Security of Internet protocols: routing security, naming, network management,  signaling security, transport layer security; Network security policies: specification, implementation, deployment and management; Security of P2P and overlay/middleware  systems; Security for multiple domains, large-scale systems and critical infrastructures; Applications and high level services security: Web-based applications and services, VoIP, multimedia streaming services, VoD and IPTV, collaborative applications (conferencing), electronic commerce and eBusiness,  eVoting, grid computing, security o!
 f eGovernment; Intellectual propert
y protection: digital rights management, licensing, metering, watermarking, information hiding, implementations; Security services integration in complex architectures; Tradeoffs between security and efficiency, usability, reliability and cost.

Internet performance

    Performance degradation and anomaly detection mechanisms; User-oriented performance metrics; Network and service provider-oriented performance metrics; Hybrid (chip and network) performance calculi; Intrusive and non-intrusive performance measurement mechanisms; Mechanisms for performance degradation-tolerant applications; Mechanisms for application performance and network performance; Performance enhancement mechanisms; Performance and traffic entropy algorithms; Performance prediction algorithms

Internet AQM/QoS

    Buffer sizing, majorization, QoS routing, finite buffer queue vs. infinite buffer queue and performance; Control theoretic framework for modeling of TCP and AQM schemes; Discrete mathematics to model buffer occupancy at queues of a network (given workloads); Game theoretic modeling of AQMs (mathematics to model selfish traffic); Fairness models (proportional fairness, max-min fairness, low state global fairness); Optimization framework for congestion control, fairness and utility maximization; Modeling and simulation of large network scenarios using queuing theory

Internet monitoring and control

    Visualization mechanisms; Sub-network/device isolation mechanisms; Control feedback mechanisms (limited feedback, delay and disruption tolerance, optimal and adaptive feedback); Optimal control; Adaptive behavior control; Network resiliency; Self-adaptable and tunable performance; Mechanisms for anticipative measurements and control

Internet and wireless

    Capacity of wireless networks; Potential based routing; Algebraic techniques to mine patterns from wireless networks; QoS/QoE translation; Wireless ad hoc / mesh networks: MAC protocols, routing, congestion control, P2P CDNs on wireless meshes

Internet and data streaming/mining algorithms

    Mathematics for clustering massive data streams; Randomized algorithms etc and impossibility results; Dimension reduction in metric spaces; Tensor and multidimensional algebraic techniques; Non linear dimension reduction; Optimal collector positioning; Data fusion and correlation algorithms

Internet and sensor-oriented networks/algorithms

    Optimal sensor placement; Inference models for sensing; Congestion control; Resource allocation; Mathematics to model different diffusion processes and applications to routing; Algorithms for data fusion; Algorithms for computing dormant/active sending periods; Energy-driven adaptive communication protocols

Internet challenges

    Future Internet architecture and design; Next generation Internet infrastructure; Internet cross-layer design and optimization; Internet security enforcement and validation; Future cross-Internet computing; Configurable Internet protocols; Internet-scale overlay content hosting; Internet citizen-centric services; End-user customizable Internet; Mobile Internet; Internet imaging; Internet coding; Internet resilience; Internet QoS/QoE; Context-aware, ambient, and adaptive Internet; Virtualization and Internet; Privacy Enhancing Technologies - PETs

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Committee: http://www.iaria.org/conferences2012/ComINTERNET12.html
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