10 results where author includes Mark D. Corner.
[All entries] This page as [Text] or [Bibtex]

  • @inproceedings{Corner:2018,
    Author = { Mark D. Corner and Brian Neil Levine},
    Booktitle = {Proceedings ACM International Conference on Mobile Systems, Applications, and Services (MobiSys)},
    Keywords = {advertising;cellular},
    Url = {https://people.cs.umass.edu/~mcorner/papers/mobisys18-micromobile.pdf},
    Month = {June},
    Title = {{MicroMobile: Leveraging Mobile Advertising for Large-Scale Experimentation}},
    Year = 2018}
    [link][PDF]

  • @inproceedings{Corner:2017,
    Author = { Mark D. Corner and Brian Neil Levine and Omar Ismail and Angela Upreti},
    Booktitle = {ACM International Conference on Mobile Computing and Networking (MobiCom)},
    Keywords = {wireless; cellular; advertising},
    Url = {http://forensics.cs.umass.edu/pubs/corner.mobicom.2017.pdf},
    Addendum_Url = {http://forensics.cs.umass.edu/pubs/censorship-corner-levine.pdf},
    Month = {{October}},
    Title = {{Advertising-based Measurement: A Platform of 7 Billion Mobile Devices}},
    Year = {2017}}

    [link][PDF]

  • @inproceedings{Soroush:2011a,
    Author = { Hamed Soroush and Peter Gilbert and Nilanjan Banerjee and Brian Neil Levine and Mark D. Corner and Landon Cox},
    Booktitle = {Proc.\ ACM International Conference on emerging Networking EXperiments and Technologies (CoNEXT)},
    Keywords = {DOME; wireless},
    Month = {December},
    Pages = {12},
    Sponsors = {CNS-0519881, CNS-0447877, CNS-0720717, CNS-1018112, CNS-1055061, CNS-1115728},
    Title = {{Concurrent Wi-Fi for Mobile Users: Analysis and Measurements}},
    Url = {http://forensics.umass.edu/pubs/soroush.conext.2011.pdf},
    Year = {2011},
    Bdsk-Url-1 = {http://forensics.umass.edu/pubs/soroush.conext.2011.pdf}}

    [link][PDF]

  • @inproceedings{Soroush:2011,
    Author = { Hamed Soroush and Peter Gilbert and Nilanjan Banerjee and Brian Neil Levine and Mark D. Corner and Landon Cox},
    Booktitle = {Proc.\ ACM SIGCOMM},
    Keywords = {DOME; wireless},
    Month = {August},
    Title = {{Spider: Improving Mobile Networking with Concurrent Wi-Fi Connections (Poster)}},
    Url = {http://forensics.umass.edu/pubs/soroush.sigcomm.2011.poster.pdf},
    Year = {2011},
    Bdsk-Url-1 = {http://forensics.umass.edu/pubs/soroush.sigcomm.2011.poster.pdf}}

    [link][PDF]

  • @article{Banerjee:2010,
    Abstract = {Disruption Tolerant Networks rely on intermittent contacts between mobile nodes to deliver packets using store- carry-and-forward paradigm. The key to improving performance in DTNs is to engineer a greater number of transfer opportunities. We earlier proposed the use of throwbox nodes, which are stationary, battery powered nodes with storage and processing, to enhance the capacity of DTNs. However, the use of throwboxes without efficient power management is minimally effective. If the nodes are too liberal with their energy consumption, they will fail prematurely. However if they are too conservative, they may miss important transfer opportunities, hence increasing lifetime without improving performance. In this paper, we present a hardware and software architecture for energy efficient throwboxes in DTNs. We propose a hardware platform that uses a multi-tiered, multi-radio, scalable, solar powered platform. The throwbox employs an approximate heuristic for solving the NP-Hard problem of meeting an average power constraint while maximizing the number of bytes forwarded by it. We built and deployed prototype throwboxes in UMassDieselNet -- a bus DTN testbed. Through extensive trace-driven simulations and prototype deployment we show that a single throwbox with a 270 cm2 solar panel can run perpetually while improving packet delivery by 37% and reducing message delivery latency by at least 10% in the network. },
    Author = {Banerjee, Nilanjan and Corner, Mark D. and Levine, Brian Neil},
    Journal = {IEEE/ACM Transactions on Networking},
    Keywords = {Power Management; DTN; Journal Paper; DOME},
    Month = {April},
    Number = {2},
    Pages = {554--567},
    Sponsors = {CNS-0447877, NSF-0133055, CNS-0520729, CNS-0519881, DUE-0416863},
    Title = {{Design and Field Experimentation of an Energy-Efficient Architecture for DTN Throwboxes}},
    Url = {http://forensics.umass.edu/pubs/Banerjee.ToN.2010.pdf},
    Volume = {18},
    Year = {2010},
    Bdsk-Url-1 = {http://forensics.umass.edu/pubs/Banerjee.ToN.2010.pdf}}

    [link][PDF]

  • @inproceedings{Soroush:2009,
    Author = { Hamed Soroush and Nilanjan Banerjee and Aruna Balasubramanian and Mark D. Corner and Brian Neil Levine and Brian Lynn},
    Booktitle = {Proc. ACM Intl. Workshop on Hot Topics of Planet-Scale Mobility Measurements (HotPlanet)},
    Keywords = {Wireless, DTN; DOME},
    Month = {June},
    Sponsors = {CNS-0519881, CNS-0447877},
    Techreport_Url = {https://web.cs.umass.edu/publication/docs/2009/UM-CS-2009-023.pdf},
    Title = {{DOME: A Diverse Outdoor Mobile Testbed}},
    Url = {http://forensics.umass.edu/pubs/soroush.hotplanet09.pdf},
    Year = {2009},
    Bdsk-Url-1 = {http://forensics.umass.edu/pubs/soroush.hotplanet09.pdf}}

    [link][PDF]

  • @inproceedings{BanerjeeMobicom08,
    Address = {San Francisco, CA, USA},
    Author = {Banerjee, Nilanjan and Corner, Mark D. and Towsley, Don and Levine, Brian Neil},
    Booktitle = {Proc. ACM Mobicom},
    Keywords = {Wireless; DTN; DOME},
    Month = {September},
    Pages = {81--91},
    Sponsors = {CNS-0519881,NSF-0133055,CNS-0615075,CNS-0520729,CNS-0447877, W911NF-07-1-0281},
    Title = {{Relays, Base Stations, and Meshes: Enhancing Mobile Networks with Infrastructure}},
    Traces_Url = {brian.php/Network},
    Url = {http://forensics.umass.edu/pubs/balasubramanian.mobicom.2008.pdf},
    Year = {2008},
    Bdsk-Url-1 = {http://forensics.umass.edu/pubs/balasubramanian.mobicom.2008.pdf}}

    [link][PDF]

  • @inproceedings{Burgess:2007,
    Abstract = {Disruption-Tolerant Networks (DTNs) deliver data in network environments composed of intermittently connected nodes. Just as in traditional networks, malicious nodes within a DTN may attempt to delay or destroy data in transit to its destination. Such attacks include dropping data, flooding the network with extra messages, corrupting routing tables, and counterfeiting network acknowledgments. Many existing methods for securing routing protocols require authentication supported by mechanisms such as a public key infrastructure, which is difficult to deploy and operate in a DTN, where connectivity is sporadic. Furthermore, the complexity of such mechanisms may dissuade node participation so strongly that potential attacker impacts are dwarfed by the loss of contributing participants. In this paper, we use connectivity traces from our UMass DieselNet project and the Haggle project to quantify routing attack effectiveness on a DTN that lacks security. We introduce plausible attackers and attack modalities and provide complexity results for the strongest of attackers. We show that the same routing with packet replication used to provide robustness in the face of unpredictable mobility allows the network to gracefully survive attacks. In the case of the most effective attack, acknowledgment counterfeiting, we show a straightforward defense that uses cryptographic hashes but not a central authority. We conclude that disruption-tolerant networks are extremely robust to attack; in our trace-driven evaluations, an attacker that has compromised 30% of all nodes reduces delivery rates from 70% to 55%, and to 20% with knowledge of future events. By comparison, contemporaneously connected networks are significantly more fragile. },
    Address = {Montreal, Quebec, Canada},
    Author = {Burgess, John and Bissias, George and Corner, Mark D. and Levine, Brian Neil},
    Booktitle = {Proc. ACM International Symposium on Mobile Ad hoc Networking and Computing (MobiHoc)},
    Keywords = {DTN; wireless; security; routing; DOME},
    Month = {September},
    Pages = {61--70},
    Slides_Url = {http://forensics.umass.edu/pubs/mcorner/mobihoc07.ppt},
    Sponsors = {CNS-0133055, CNS-0519881, and CNS 0447877},
    Title = {{Surviving Attacks on Disruption-Tolerant Networks without Authentication}},
    Traces_Url = {http://traces.cs.umass.edu},
    Url = {http://forensics.umass.edu/pubs/burgess.mobihoc.2007.pdf},
    Year = {2007},
    Bdsk-Url-1 = {http://forensics.umass.edu/pubs/burgess.mobihoc.2007.pdf}}

    [link][PDF]

  • @inproceedings{BanerjeeInfocom07:Throwbox,
    Abstract = {Disruption Tolerant Networks rely on intermittent contacts between mobile nodes to deliver packets using store- carry-and-forward paradigm. The key to improving performance in DTNs is to engineer a greater number of transfer opportunities. We earlier proposed the use of throwbox nodes, which are stationary, battery powered nodes with storage and processing, to enhance the capacity of DTNs. However, the use of throwboxes without efficient power management is minimally effective. If the nodes are too liberal with their energy consumption, they will fail prematurely. However if they are too conservative, they may miss important transfer opportunities, hence increasing lifetime without improving performance. In this paper, we present a hardware and software architecture for energy efficient throwboxes in DTNs. We propose a hardware platform that uses a multi-tiered, multi-radio, scalable, solar powered platform. The throwbox employs an approximate heuristic for solving the NP-Hard problem of meeting an average power constraint while maximizing the number of bytes forwarded by it. We built and deployed prototype throwboxes in UMassDieselNet -- a bus DTN testbed. Through extensive trace-driven simulations and prototype deployment we show that a single throwbox with a 270 cm2 solar panel can run perpetually while improving packet delivery by 37% and reducing message delivery latency by at least 10% in the network. },
    Address = {Anchorage, Alaska},
    Author = {Banerjee, Nilanjan and Corner, Mark D. and Levine, Brian Neil},
    Booktitle = {Proceedings of IEEE Infocom},
    Keywords = {Power Management; DTN; DOME},
    Month = {May},
    Pages = {776--784},
    Slides_Url = {http://forensics.umass.edu/pubs/slides/banerjee.infocom.2007.ppt},
    Sponsors = {CNS-0447877, NSF-0133055, CNS-0520729, CNS-0519881, DUE-0416863},
    Techreport_Url = {http://forensics.umass.edu/pubs/mcorner/banerjee06-39.pdf},
    Title = {{An Energy-Efficient Architecture for DTN Throwboxes}},
    Url = {http://forensics.umass.edu/pubs/banerjee.infocom07.pdf},
    Year = {2007},
    Bdsk-Url-1 = {http://forensics.umass.edu/pubs/banerjee.infocom07.pdf}}

    [link][PDF]

  • @inproceedings{Zhao:2006,
    Abstract = {Disruption Tolerant Networks (DTNs) are designed to overcome limitations in connectivity due to conditions such as mobility, poor infrastructure, and short range radios. DTNs rely on the inherent mobility in the network to deliver packets around frequent and extended network partitions using a store-carry-and-forward paradigm. However, missed contact opportunities decrease throughput and increase delay in the network. We propose the use of throwboxes in mobile DTNs to create a greater number of contact opportunities, consequently improving the performance of the network. Throwboxes are wireless nodes that act as relays, creating additional contact opportunities in the DTN. We propose algorithms to deploy stationary throwboxes in the network that simultaneously consider routing as well as placement. We also present placement algorithms that use more limited knowledge about the network structure. We perform an extensive evaluation of our algorithms by varying both the underlying routing and mobility models. Our results suggest several findings to guide the design and operation of throwbox-augmented DTNs.},
    Author = {Zhao, Wenrui and Chen, Yang and Ammar, Mostafa and Corner, Mark D. and Levine, Brian Neil and Zegura, Ellen},
    Booktitle = {Proceedings of IEEE International Conf on Mobile Ad hoc and Sensor Systems (MASS)},
    Keywords = {DTN; wireless; DOME},
    Month = {October},
    Pages = {31-40},
    Presentation_Url = {http://forensics.umass.edu/pubs/slides/chen.mass.2006.pdf},
    Sponsors = {NSF-0519784 and NSF-0519881 and W15P7T-05-C-P213},
    Title = {{Capacity Enhancement using Throwboxes in DTNs}},
    Url = {http://forensics.umass.edu/pubs/mcorner/mass06.pdf},
    Year = {2006},
    Bdsk-Url-1 = {http://forensics.umass.edu/pubs/mcorner/mass06.pdf}}

    [link][PDF]

 
Keywords
2018
2017
2016
2015
2014
2013
2012
2011
2010
2009
2008
2007
2006
2005
2004
2003
2002
2001
2000
1999
1998
1997
1996