| | Publications
44 results where author includes Mark D. Corner.
- @article{gummeson2010,
Author = {
Jeremy Gummeson and
Deepak Ganesan and
Mark D. Corner and
Prashant Shenoy},
Journal = {IEEE JSAC Special Issue on Simple Wireless Sensor Networking Solutions},
Keywords = {Journal Paper; wireless; Power Management;},
Month = {September},
Number = {7},
Pages = {1094--1104},
Sponsors = {CNS-0626873, CNS-0615075, CNS-0520729, CNS-0546177, EEC-0313747, CNS-0916577, and CNS-0855128},
Title = {{An Adaptive Link Layer for Heterogeneous Multi-radio Mobile Sensor Networks}},
Url = {http://ieeexplore.ieee.org/xpls/abs_all.jsp?arnumber=5555908},
Volume = {28},
Year = {2010}}
[link][PDF]
- @inproceedings{compass2010,
Address = {Helsinki, Finland},
Author = {
Nilanjan Banerjee and
Sharad Agarwal and
Victor Bahl and
Ranveer Chandra and
Alec Wolman and
Mark D. Corner},
Booktitle = {Proc. Eighth International Conference on Pervasive Computing},
Keywords = {Pervasive/UbiComp; Power Management; wireless},
Month = {May},
Number = {LNCS 6030},
Pages = {1--21},
Sponsors = {NSF CNS-0519881, NSF CNS-0447877, and DARPA HR0011-09-1-0020},
Title = {{Virtual Compass: relative positioning to sense mobile social interactions}},
Url = {http://www.springerlink.com/content/k81h08u2767n2117},
Year = {2010}}
[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}}
[link][PDF]
- @article{Jun2009,
Author = {
Hyewon Jun and
Mostafa H. Ammar and
Mark D. Corner and
Ellen W. Zegura},
Journal = {Computer Communications},
Keywords = {Journal Paper; Power Management; DTN; wireless; DOME},
Month = {October},
Number = {16},
Pages = {1710-1723},
Title = {Hierarchical Power Management in Disruption Tolerant Networks using Traffic Aware Optimization},
Volume = {32},
Year = {2009}}
[link]
- @article{SEVA2008,
Author = {Liu, Xiaotao and Corner, Mark D. and Shenoy, Prashant},
Journal = {ACM Transactions on Multimedia Computing, Communications and Applications (ACM TOMCCAP)},
Keywords = {Pervasive/UbiComp;RFID; Journal Paper;wireless},
Month = {August},
Number = {3},
Pages = {1--26},
Title = {{SEVA: Sensor Enhanced Video Annotation}},
Volume = {5},
Year = {2009}}
[link]
- @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}}
[link][PDF]
- @inproceedings{gummeson2009,
Address = {Rio de Janeiro, Brazil},
Author = {Gummeson, Jeremy and Ganesan, Deepak and Corner, Mark D. and Shenoy, Prashant},
Booktitle = {The 28th IEEE International Conference on Computer Communications (INFOCOM)},
Keywords = {wireless; Power Management;},
Month = {April},
Pages = {154-162},
Sponsors = {CNS-0626873, CNS-0615075, CNS-0520729, CNS-0546177, and EEC-0313747.},
Title = {{An Adaptive Link Layer for Range Diversity in Multi-radio Mobile Sensor Networks}},
Url = {http://forensics.umass.edu/pubs/mcorner/infocom09-radio.pdf},
Year = {2009}}
[link][PDF]
- @inproceedings{buddies09,
Address = {Washington, DC, USA},
Author = {Wood, Timothy and Tarasuk-Levin, Gabriel and Shenoy, Prashant and Desnoyers, Peter and Cecchet, Emmanuel and Corner, Mark D.},
Booktitle = {Proceedings of the ACM SIGPLAN/SIGOPS International Conference on Virtual Execution Environments (VEE)},
Keywords = {Operating Systems;},
Month = {January},
Pages = {31--40},
Title = {{Memory Buddies: Exploiting Page Sharing for Smart Colocation in Virtualized Data Centers}},
Url = {http://forensics.umass.edu/pubs/mcorner/vee07-wood.pdf},
Year = {2009}}
[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 = {http://traces.cs.umass.edu/index.php/Network},
Url = {http://forensics.umass.edu/pubs/balasubramanian.mobicom.2008.pdf},
Year = {2008}}
[link][PDF]
- @article{ChameleonJournal,
Author = {Liu, Xiaotao and Shenoy, Prashant and Corner, Mark D.},
Journal = {IEEE Transactions on Mobile Computing},
Keywords = {Power Management; Journal Paper},
Month = {August},
Number = {8},
Pages = {995-1010},
Title = {{Chameleon: Application Level Power Management}},
Volume = {7},
Year = {2008}}
[link]
- @inproceedings{sherlock08,
Address = {Breckenridge, CO},
Author = {Nemmaluri, Aditya and Corner, Mark D. and Shenoy, Prashant},
Booktitle = {Proceedings of MobiSys},
Keywords = {Pervasive/UbiComp,RFID},
Month = {June},
Pages = {187-198},
Slides_Url = {http://forensics.umass.edu/pubs/mcorner/sherlock.ppt},
Title = {Sherlock: Automatically Locating Objects for Humans},
Url = {http://forensics.umass.edu/pubs/mcorner/sherlock.pdf},
Year = {2008}}
[link][PDF]
- @inproceedings{Eon2007,
Abstract = {Embedded systems can operate perpetually without being
connected to a power source by harvesting environmental
energy from motion, the sun, wind, or heat differentials.
However, programming these perpetual systems is challenging.
In response to changing energy levels, programmers can
adjust the execution frequency of energy-intensive tasks, or
provide higher service levels when energy is plentiful and
lower service levels when energy is scarce. However, it is
often difficult for programmers to predict the energy consumption
resulting from these adjustments. Worse, explicit
energy management can tie a program to a particular hardware
platform, limiting portability.
This paper introduces Eon, a programming language and
runtime system designed to support the development of perpetual
systems. To our knowledge, Eon is the first energyaware
programming language. Eon is a declarative coordination
language that lets programmers compose programs
from components written in C or nesC. Paths through the
program (``flows'') may be annotated with different energy
states. Eon's automatic energy management then dynamically
adapts these states to current and predicted energy levels.
It chooses flows to execute and adjusts their rates of execution,
maximizing the quality of service under available
energy constraints.
We demonstrate the utility and portability of Eon by deploying
two perpetual applications on widely different hardware
platforms: a GPS-based location tracking sensor deployed
on a threatened species of turtle and on automobiles,
and a solar-powered camera sensor for remote, ad-hoc deployments.
We also evaluate the simplicity and effectiveness
of Eon with a user study, in which novice Eon programmers
produced more efficient efficient energy-adaptive systems in
substantially less time than experienced C programmers.},
Address = {Sydney, Australia},
Author = {Sorber, Jacob and Kostadinov, Alexander and Garber, Matthew and Brennan, Matthew and Corner, Mark D. and Berger, Emery D.},
Booktitle = {Proceedings of The Fifth International ACM Conference on Embedded Networked Sensor Systems (SenSys)},
Keywords = {DOME; wireless; Power Management; Programming Languages},
Month = {November},
Pages = {161-174},
Slides_Url = {http://forensics.umass.edu/pubs/mcorner/eon_sensys07.ppt},
Sponsors = {CNS-0519881, CNS 0520729, CNS 0347339, and CNS 0447877},
Title = {{Eon: A Language and Runtime System for Perpetual Systems}},
Url = {http://forensics.umass.edu/pubs/mcorner/sorber07sensys.pdf},
Year = {2007}}
[link][PDF]
- @article{TFS_TOS,
Author = {Cipar, James and Corner, Mark D. and Berger, Emery D.},
Journal = {ACM Transactions on Storage},
Keywords = {Operating Systems;Journal Paper},
Month = {October},
Number = {3},
Pages = {12:1-12:26},
Title = {{Contributing Storage using the Transparent File System}},
Volume = {3},
Year = {2007}}
[link]
- @inproceedings{banerjeebattery07,
Address = {Innsbruck, Austria},
Author = {Banerjee, Nilanjan and Rahmati, Ahmad and Corner, Mark D. and Rollins, Sami and Zhong, Lin},
Booktitle = {Proceedings of Ubicomp},
Keywords = {Power Management; Pervasive/UbiComp; Operating Systems},
Month = {September},
Pages = {217-234},
Slides_Url = {http://forensics.umass.edu/pubs/mcorner/ubicomp_llama.ppt},
Sponsors = {CNS-0519881},
Title = {{Users and Batteries: Interactions and Adaptive Energy Management in Mobile Systems}},
Traces_Url = {http://traces.cs.umass.edu/index.php/Power/Power},
Url = {http://forensics.umass.edu/pubs/mcorner/ubicomp_2007_llama.pdf},
Year = {2007}}
[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}}
[link][PDF]
- @inproceedings{triage,
Address = {Puerto Rico},
Author = {Banerjee, Nilanjan and Sorber, Jacob and Corner, Mark D. and Rollins, Sami and Ganesan, Deepak},
Booktitle = {Proceedings of The Fifth International ACM/USENIX Conference on Mobile Systems, Applications, and Services (MobiSys)},
Keywords = {Power Management, Operating Systems, DOME},
Month = {June},
Pages = {152--164},
Slides_Url = {{http://www.cs.umass.edu/~nilanb/talks/Triage-mobisys.ppt}},
Sponsors = {CNS-0447877 and CNS-0546177, CNS-0520729, CNS-0519881, DUE-0416863, CNS-0615075},
Techreport_Url = {http://forensics.umass.edu/pubs/mcorner/banerjee-05-22.pdf},
Title = {{Triage: Balancing Energy Consumption and Quality of Service in a Microserver}},
Url = {http://forensics.umass.edu/pubs/mcorner/mobisys_triage.pdf},
Year = {2007}}
[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}}
[link][PDF]
- @inproceedings{TFS2007,
Address = {San Jose, CA},
Author = {Cipar, James and Corner, Mark D. and Berger, Emery D.},
Booktitle = {Proceedings of USENIX Conference on File and Storage Technologies (FAST)},
Keywords = {Operating Systems;Award Paper},
Month = {February},
Pages = {215-229},
Slides_Url = {http://forensics.umass.edu/pubs/mcorner/TFS.ppt},
Techreport_Url = {http://forensics.umass.edu/pubs/mcorner/tfs-tr-06-05.pdf},
Title = {{TFS: A Transparent File System for Contributory Storage (Best Paper Award)}},
Url = {http://forensics.umass.edu/pubs/mcorner/fast_2007_tfs.pdf},
Year = {2007}}
[link][PDF]
- @techreport{Sorber:eFluxTR06,
Author = {Sorber, Jacob and Kostadinov, Alexander and Garber, Matthew and Brennan, Matthew and Corner, Mark D. and Berger, Emery D.},
Institution = {University of Massachusetts Amherst},
Keywords = {Power Management, Programming Languages, Tech report},
Month = {December},
Number = {TR 06-61},
Title = {{eFlux: A Language and Runtime System for Perpetual Systems}},
Url = {http://forensics.umass.edu/pubs/mcorner/eflux-tr06-61.pdf},
Year = {2006}}
[link][PDF]
- @article{AnthonyTA2006,
Author = {Nicholson, Anthony and Corner, Mark D. and Noble, Brian D.},
Journal = {IEEE Transactions on Mobile Computing},
Keywords = {Transient Authentication;Journal Paper},
Month = {November},
Number = {11},
Pages = {1489-1502},
Title = {{Mobile Device Security using Transient Authentication}},
Url = {http://forensics.umass.edu/pubs/mcorner/tmc_2005.pdf},
Volume = {5},
Year = {2006}}
[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}}
[link][PDF]
- @inproceedings{Jun:2006,
Address = {Pisa, Italy},
Author = {Jun, Hyewon and Ammar, Mostafa H. and Corner, Mark D. and Zegura, Ellen},
Booktitle = {Proceedings of the ACM SIGCOMM Workshop on Challenged Networks (CHANTS)},
Keywords = {DTN;wireless; DOME},
Month = {September},
Pages = {245-252},
Sponsors = {NETS-0519784, CNS-0519881, CNS-0520729, CNS-0447877, and ITR-0313062},
Title = {{Hierarchical Power Management in Disruption Tolerant Networks with Traffic-Aware Optimization}},
Url = {http://forensics.umass.edu/pubs/mcorner/chants06.pdf},
Year = {2006}}
[link][PDF]
- @techreport{DeniPervasive06:Llama,
Address = {Amherst, MA},
Author = {Tilkidjieva, Denitsa and Banerjee, Nilanjan and Kazandjieva, Maria and Rollins, Sami and Corner, Mark D.},
Institution = {University of Massachusetts Amherst},
Keywords = {Power Management, Pervasive/UbiComp; Tech report},
Month = {September},
Number = {06-44},
Title = {{LLAMA: An Adaptive Strategy for Utilizing Excess Energy to Perform Background Tasks on Mobile Devices}},
Url = {http://forensics.umass.edu/pubs/mcorner/deni-06-44.pdf},
Year = {2006}}
[link][PDF]
- @inproceedings{LiuFerret2006,
Address = {Irvine, CA},
Author = {Liu, Xiaotao and Corner, Mark D. and Shenoy, Prashant},
Booktitle = {Proceedings of Ubicomp},
Keywords = {Pervasive/UbiComp,RFID},
Month = {September},
Pages = {422-440},
Slides_Url = {http://forensics.umass.edu/pubs/mcorner/Ferret.ppt},
Techreport_Url = {http://forensics.umass.edu/pubs/mcorner/liu-06-22.pdf},
Title = {{Ferret: RFID Locationing for Pervasive Multimedia}},
Url = {http://forensics.umass.edu/pubs/mcorner/ubicomp_2006_ferret.pdf},
Year = {2006}}
[link][PDF]
- @inproceedings{TMM2006,
Address = {Boston, MA},
Author = {Cipar, James and Corner, Mark D. and Berger, Emery D.},
Booktitle = {Proceedings of USENIX Annual Technical Conference},
Keywords = {Operating Systems},
Month = {May},
Pages = {109-114},
Slides_Url = {http://forensics.umass.edu/pubs/mcorner/TMM-Slides.ppt},
Techreport_Url = {http://forensics.umass.edu/pubs/mcorner/tfs-tr-06-05.pdf},
Title = {{Transparent Contribution of Memory (Short Paper)}},
Url = {http://forensics.umass.edu/pubs/mcorner/usenix_2006_tmm.pdf},
Year = {2006}}
[link][PDF]
- @inproceedings{DeniAdaptive2006,
Address = {Semiahmoo Resort, Washington},
Author = {Tilkidjieva, Denitsa and Banerjee, Nilanjan and Kazandjieva, Maria and Rollins, Sami and Corner, Mark D.},
Booktitle = {7th IEEE Workshop on Mobile Computing Systems and Applications (HotMobile/WMCSA)},
Keywords = {Operating Systems,Power Management},
Month = {April},
Title = {{An Adaptive Strategy for Performing Background Tasks on Mobile Devices. (Poster/Demo)}},
Url = {http://forensics.umass.edu/pubs/mcorner/wmcsa_llama_demo.pdf},
Year = {2006}}
[link][PDF]
- @inproceedings{eflux2006,
Address = {Semiahmoo Resort, Washington},
Author = {Sorber, Jacob and Kostadinov, Alexander and Brennan, Matthew and Corner, Mark D. and Berger, Emery D.},
Booktitle = {7th IEEE Workshop on Mobile Computing Systems and Applications (HotMobile/WMCSA)},
Keywords = {Operating Systems,Power Management,Programming Languages},
Month = {April},
Title = {{eFlux: Simple Automatic Adaptation for Environmentally Powered Devices (Poster/Demo)}},
Url = {http://forensics.umass.edu/pubs/mcorner/wmcsa_turtle_demo.pdf},
Year = {2006}}
[link][PDF]
- @inproceedings{Liu2005,
Address = {Singapore},
Author = {Liu, Xiaotao and Shenoy, Prashant and Corner, Mark D.},
Booktitle = {Proceedings of ACM Multimedia},
Keywords = {Power Management},
Month = {November},
Pages = {839-848},
Title = {{Chameleon: Application Controlled Power Management with Performance Isolation}},
Url = {http://forensics.umass.edu/pubs/mcorner/chameleon.pdf},
Year = {2005}}
[link][PDF]
- @inproceedings{Liu2005b,
Address = {Singapore},
Author = {Liu, Xiaotao and Corner, Mark D. and Shenoy, Prashant},
Booktitle = {Proceedings of ACM Multimedia},
Keywords = {Pervasive/UbiComp;Award Paper},
Month = {November},
Pages = {618-627},
Slides_Url = {http://forensics.umass.edu/pubs/mcorner/sevaslides.ppt},
Title = {{SEVA: Sensor-Enhanced Video Annotation (Best Paper Award)}},
Url = {http://forensics.umass.edu/pubs/mcorner/seva.pdf},
Year = {2005}}
[link][PDF]
- @inproceedings{Sorber2005,
Address = {Seattle, WA},
Author = {Sorber, Jacob and Banerjee, Nilanjan and Corner, Mark D. and Rollins, Sami},
Booktitle = {Proceedings of The Third International Conference on Mobile Systems, Applications, and Services (MobiSys)},
Keywords = {Power Management},
Month = {June},
Pages = {261-274},
Slides_Url = {http://forensics.umass.edu/pubs/mcorner/mobisys2005slides.ppt},
Title = {{Turducken: Hierarchical Power Management for Mobile Devices}},
Url = {http://forensics.umass.edu/pubs/mcorner/mobisys05.pdf},
Year = {2005}}
[link][PDF]
- @article{CornerProtectingFile2005,
Author = {Corner, Mark D. and Noble, Brian D.},
Journal = {ACM/Kluwer Wireless Networks},
Keywords = {Transient Authentication;Journal Paper},
Month = {January},
Number = {1},
Pages = {7},
Title = {{Protecting File Systems with Transient Authentication}},
Volume = {11},
Year = {2005}}
[link]
- @phdthesis{CornerThesis2003,
Author = {Corner, Mark D.},
Keywords = {Transient Authentication,Thesis},
Month = {August},
School = {University of Michigan},
Title = {{Transient Authentication for Mobile Devices}},
Url = {http://forensics.umass.edu/pubs/mcorner/diss.pdf},
Year = {2003}}
[link][PDF]
- @inproceedings{CornerNoble03,
Address = {San Francisco, CA},
Author = {Corner, Mark D. and Noble, Brian D.},
Booktitle = {Proceedings of The First International Conference on Mobile Systems, Applications, and Services (MobiSys)},
Keywords = {Transient Authentication},
Month = {May},
Pages = {57-70},
Slides_Url = {http://forensics.umass.edu/pubs/mcorner/mobisys03slides.ppt},
Title = {{Protecting Applications with Transient Authentication}},
Url = {http://forensics.umass.edu/pubs/mcorner/mobisys03.pdf},
Year = {2003}}
[link][PDF]
- @inproceedings{CornerNoble02,
Address = {Atlanta, GA},
Author = {Corner, Mark D. and Noble, Brian D.},
Booktitle = {Proceedings of the ACM International Conference on Mobile Computing and Communications (MobiCom)},
Keywords = {Transient Authentication,Award Paper},
Month = {September},
Pages = {1-11},
Slides_Url = {http://forensics.umass.edu/pubs/mcorner/mobicom02slides.ppt},
Title = {{Zero-Interaction Authentication (Best Student Paper Award)}},
Url = {http://forensics.umass.edu/pubs/mcorner/mobicom02.pdf},
Year = {2002}}
[link][PDF]
- @inproceedings{NobleCorner2002,
Address = {Saint-Emillion, France},
Author = {Noble, Brian D. and Corner, Mark D.},
Booktitle = {Proceedings of the 10th ACM SIGOPS European Workshop},
Keywords = {Transient Authentication},
Month = {September},
Pages = {24-29},
Title = {{The Case for Transient Authentication}},
Url = {http://forensics.umass.edu/pubs/mcorner/sigops02.pdf},
Year = {2002}}
[link][PDF]
- @inproceedings{CornerNoble2001,
Address = {San Jose, CA},
Author = {Corner, Mark D. and Noble, Brian D. and Wasserman, Kimberly M.},
Booktitle = {Proceedings of the SPIE Multimedia Computing and Networking Conference (MMCN)},
Keywords = {Power Management},
Month = {January},
Pages = {75-87},
Techreport_Url = {http://www.eecs.umich.edu/techreports/cse/2000/CSE-TR-431-00.pdf},
Title = {{Fugue: Time Scales of Adaptation in Mobile Video}},
Url = {http://forensics.umass.edu/pubs/mcorner/mmcn01.pdf},
Year = {2001}}
[link][PDF]
- @article{CornerPriority2000,
Author = {Corner, Mark D. and Liebeherr, Jorg and Golmie, Nada and Bisdikian, Chatschik and Su, David},
Journal = {IEEE/ACM Transactions on Networking},
Keywords = {MAC Protocols;Journal Paper},
Month = {April},
Number = {2},
Pages = {200-211},
Title = {{A Priority Scheme for the IEEE 802.14 MAC Protocol for Hybrid Fiber-Coax Networks}},
Url = {http://forensics.umass.edu/pubs/mcorner/ton-2000.pdf},
Volume = {8},
Year = {2000}}
[link][PDF]
- @article{GolmieTraffic1999,
Author = {Golmie, Nada and Corner, Mark D. and Liebeherr, Jorg and Su, David},
Journal = {Computer Communications},
Keywords = {MAC Protocols;Journal Paper},
Month = {January},
Number = {1},
Pages = {30-39},
Title = {{ATM Traffic Control in Hybrid Fiber-Coax Networks - Problems and Solutions}},
Url = {http://forensics.umass.edu/pubs/mcorner/cc99.pdf},
Volume = {22},
Year = {1999}}
[link][PDF]
- @inproceedings{GolmieLanman1998,
Address = {Banff, Canada},
Author = {Golmie, Nada and Corner, Mark D. and Su, David},
Booktitle = {LANMAN Workshop},
Keywords = {MAC Protocols},
Month = {May},
Slides_Url = {http://forensics.umass.edu/pubs/mcorner/LANMAN_slides.pdf},
Title = {{Choice of Medium Access Control Protocol for HFC Networks (Workshop)}},
Url = {http://forensics.umass.edu/pubs/mcorner/LANMAN_abstract.pdf},
Year = {1998}}
[link][PDF]
- @mastersthesis{corner-masters,
Author = {Corner, Mark D.},
Keywords = {MAC Protocols,Thesis},
Month = {May},
School = {University of Virginia},
Title = {{Quality of Service Issues in Hybrid Fiber-Coax Networks}},
Url = {http://forensics.umass.edu/pubs/mcorner/thesis.pdf},
Year = {1998}}
[link][PDF]
- @inproceedings{CornerPriority1998,
Address = {San Francisco, CA},
Author = {Corner, Mark D. and Golmie, Nada and Liebeherr, Jorg and Su, David},
Booktitle = {Proceedings of IEEE Infocom},
Keywords = {MAC Protocols},
Month = {April},
Pages = {1400--1407},
Title = {{A Priority Scheme for the IEEE 802.14 MAC Protocol for Hybrid Fiber-Coax Networks}},
Url = {http://forensics.umass.edu/pubs/mcorner/80214infocom98.pdf},
Year = {1998}}
[link][PDF]
- @inproceedings{GolmieImproving1997,
Address = {Phoenix, AZ},
Author = {Golmie, Nada and Corner, Mark D. and Liebeherr, Jorg and Su, David},
Booktitle = {Proceedings of IEEE Globecom},
Keywords = {MAC Protocols},
Month = {November},
Title = {{Improving the Effectiveness of ATM Traffic Control over Hybrid Fiber-Coax Networks}},
Url = {http://forensics.umass.edu/pubs/mcorner/globecom97.pdf},
Year = {1997}}
[link][PDF]
- @inproceedings{GolmieSimulation1997,
Author = {Golmie, Nada and Su, David and Corner, Mark D. and Liebeherr, Jorg},
Booktitle = {IEEE Project 802.14, Cable TV Protocol Working Group},
Keywords = {MAC Protocols},
Month = {January},
Note = {Contribution IEEE 802.14/97-011},
Title = {{Simulation Study of ABR Service over IEEE 802.14 MAC (Working Group)}},
Url = {http://forensics.umass.edu/pubs/mcorner/97-011.pdf},
Year = {1997}}
[link][PDF]
- @inproceedings{CornerContention:1996,
Address = {Reston, VA},
Author = {Liebeherr, Jorg and Corner, Mark D.},
Booktitle = {11th Annual Workshop on Computer Communications},
Keywords = {MAC Protocols},
Month = {September},
Title = {{Contention Resolution Schemes for Community Networks: A Comparative Evaluation (Workshop)}},
Year = {1996}}
[link]
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