Changes between Version 5 and Version 6 of Documentation/About/cEWP


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Timestamp:
Jul 15, 2013, 1:08:50 PM (11 years ago)
Author:
seskar
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  • Documentation/About/cEWP

    v5 v6  
    1 == Original Experimental Work Packages ==
     1=== Original Experimental Work Packages ===
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    3 [[TOC(Documentation*, depth=1)]]
     3[[TOC(heading=About Orbit, Documentation/About*, depth=3)]]
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    5 === EWP1: Ad hoc Networking in 802.11x WLAN Scenarios (Raychaudhuri, Seskar, Rutgers & Acharya, IBM) ===
     5==== EWP1: Ad hoc Networking in 802.11x WLAN Scenarios (Raychaudhuri, Seskar, Rutgers & Acharya, IBM) ====
    66This experimental work package aims to investigate the use of ad hoc networking techniques to extend the capacity, range and QoS of 802.11x WLANs
    7 === EWP2: Message-based Multimedia Delivery (Schulzrinne, Columbia & Yates, Rutgers) ===
     7==== EWP2: Message-based Multimedia Delivery (Schulzrinne, Columbia & Yates, Rutgers) ====
    88This project will explore the possibility of exploiting short-range, high-speed wireless communication between mobile devices to study message passing systems to support comunications.
    9 === EWP3: XML-based Content Multicasting for Mobile Information Services (Ott, Raychaudhuri, Rutgers) ===
     9==== EWP3: XML-based Content Multicasting for Mobile Information Services (Ott, Raychaudhuri, Rutgers) ====
    1010This project investigates an overlay content multicasting scheme that uses routing based on XML content tags to distribute information within the network
    11 === EWP4: Location-based mobile network services (Schulzrinne, Columbia) ===
     11==== EWP4: Location-based mobile network services (Schulzrinne, Columbia) ====
    1212This project explores development of new services using the underlying available location information.
    13 === EWP5: Pervasive computing models for sensor networks (Parashar, Zhang, Ott,Rutgers) ===
     13==== EWP5: Pervasive computing models for sensor networks (Parashar, Zhang, Ott,Rutgers) ====
    1414This project investigates innovative programming approaches based on autonomic components that export information and policies about their behavior, resource requirements, performance, interactivity and adaptability to system and application dynamics.
    15 === EWP6: Security protocols for next-generation wireless networks (Kobayashi, Princeton & Trappe, Rutgers) ===
     15==== EWP6: Security protocols for next-generation wireless networks (Kobayashi, Princeton & Trappe, Rutgers) ====
    1616This project shall examine the problem of securing ad hoc networks, and develop a suite of secure routing protocols, authentication protocols, and tools for studying distributed denial of service (DDoS) attacks. Also, the task of providing confidentiality to multicast applications deployed on a UMTS 3G network will be studied.
    17 === EWP7: Peer-to-peer infrastructure for VoIP and IM with cooperative multi-hop MAC (Acharya, Saha, IBM) ===
     17==== EWP7: Peer-to-peer infrastructure for VoIP and IM with cooperative multi-hop MAC (Acharya, Saha, IBM) ====
    1818The primary goal of the project is to support peer-to-peer SIP-based time-critical applications (VoIP and IM) on wireless mesh networks.
    19 === EWP8: Intelligent Network Middleware for Mobile Data Services (Paul, Lucent Bell Labs) ===
     19==== EWP8: Intelligent Network Middleware for Mobile Data Services (Paul, Lucent Bell Labs) ====
    2020This experimental work package aims to investigate the use of modular service creation blocks for the composition of novel services on the 4G networks
    21 === EWP9: Power & Bandwidth Efficient Media Delivery to Portable Platforms (Ramaswamy, Wang - Thomson) ===
     21==== EWP9: Power & Bandwidth Efficient Media Delivery to Portable Platforms (Ramaswamy, Wang - Thomson) ====
    2222This work package will address the power efficiency of audio/video compression codecs via a systematic approach that account for both the power consumption of the coding method, as well as the hardware/software architecture of the platform. It will also deal with optimizing WLANs for bandwidth efficiency and resiliency for media transport. The problem of error control for WLANs in media streaming scenarios will be examined using real-world error data from the field testbed. It will also involve testbed prototyping of seamless interworking of media services over hybrid 3G/WLAN scenarios.
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