Changes between Version 21 and Version 22 of GENIBibliography


Ignore:
Timestamp:
01/07/15 16:00:08 (4 years ago)
Author:
Mark Berman
Comment:

--

Legend:

Unmodified
Added
Removed
Modified
  • GENIBibliography

    v21 v22  
    10151015<li>
    10161016<b>Krishnappa, Dilip K. and Lyons, Eric and Irwin, David and Zink, Michael</b>
     1017, &quot;Performance of GENI Cloud Testbeds for Real Time Scientific Application.&quot;
     1018First GENI Research and Educational Experiment Workshop (GREE 2012), Los Angeles,
     10192012.
     1020
     1021
     1022<br><br><b>Abstract: </b>Dedicating high end servers for short-term execution of scientific applications such as weather forecasting wastes resources. Cloud platforms IaaS model seems well suited for applications which are executed on an irregular basis and for short duration. In this paper, we evaluate the performance of research testbed cloud platforms such as GENICloud and ORCA cloud clusters for our real-time scientific application of short-term weather forecasting called Nowcasting. In this paper, we evaluate the network capabilities of these research cloud testbeds for our real-time application of weather forecasting. In addition, we evaluate the computation time of executing Nowcasting on each cloud platform for weather data collected from real weather events. We also evaluate the total time taken to generate and transmit short-term forecast images to end users with live data from our own radar on campus. We also compare the performance of each of these clusters for Nowcasting with commercial cloud services such as Amazon's EC2. The results obtained from our measurement show that cloud testbeds are suitable for real-time application experiments to be carried out on a cloud platform.
     1023</li>
     1024<br>
     1025
     1026<li>
     1027<b>Krishnappa, Dilip K. and Lyons, Eric and Irwin, David and Zink, Michael</b>
    10171028, &quot;Network capabilities of cloud services for a real time scientific application.&quot;
    1018102937th Annual IEEE Conference on Local Computer Networks, Clearwater Beach, FL, USA, IEEE,
     
    10241035<br>
    10251036
    1026 <li>
    1027 <b>Krishnappa, Dilip K. and Lyons, Eric and Irwin, David and Zink, Michael</b>
    1028 , &quot;Performance of GENI Cloud Testbeds for Real Time Scientific Application.&quot;
    1029 First GENI Research and Educational Experiment Workshop (GREE 2012), Los Angeles,
    1030 2012.
    1031 
    1032 
    1033 <br><br><b>Abstract: </b>Dedicating high end servers for short-term execution of scientific applications such as weather forecasting wastes resources. Cloud platforms IaaS model seems well suited for applications which are executed on an irregular basis and for short duration. In this paper, we evaluate the performance of research testbed cloud platforms such as GENICloud and ORCA cloud clusters for our real-time scientific application of short-term weather forecasting called Nowcasting. In this paper, we evaluate the network capabilities of these research cloud testbeds for our real-time application of weather forecasting. In addition, we evaluate the computation time of executing Nowcasting on each cloud platform for weather data collected from real weather events. We also evaluate the total time taken to generate and transmit short-term forecast images to end users with live data from our own radar on campus. We also compare the performance of each of these clusters for Nowcasting with commercial cloud services such as Amazon's EC2. The results obtained from our measurement show that cloud testbeds are suitable for real-time application experiments to be carried out on a cloud platform.
    1034 </li>
    1035 <br>
    1036 
    10371037
    10381038
     
    14731473<b>Jin, Ruofan and Wang, Bing</b>
    14741474, &quot;Malware Detection for Mobile Devices Using Software-Defined Networking.&quot;
    1475 2013 Proceedings Second GENI Research and Educational Experiment Workshop, Salt Lake City, UT, IEEE,
    1476 2013.
    1477 doi:10.1109/GREE.2013.24.
    1478 <a href="http://dx.doi.org/10.1109/GREE.2013.24">http://dx.doi.org/10.1109/GREE.2013.24</a>
    1479 
    1480 </li>
    1481 <br>
    1482 
    1483 <li>
    1484 <b>Jin, Ruofan and Wang, Bing</b>
    1485 , &quot;Malware Detection for Mobile Devices Using Software-Defined Networking.&quot;
    14861475Research and Educational Experiment Workshop (GREE), 2013 Second GENI, IEEE,
    148714762013.
     
    14921481<br>
    14931482
     1483<li>
     1484<b>Jin, Ruofan and Wang, Bing</b>
     1485, &quot;Malware Detection for Mobile Devices Using Software-Defined Networking.&quot;
     14862013 Proceedings Second GENI Research and Educational Experiment Workshop, Salt Lake City, UT, IEEE,
     14872013.
     1488doi:10.1109/GREE.2013.24.
     1489<a href="http://dx.doi.org/10.1109/GREE.2013.24">http://dx.doi.org/10.1109/GREE.2013.24</a>
     1490
     1491</li>
     1492<br>
     1493
    14941494
    14951495
     
    19021902
    19031903<li>
     1904<b>Brown, D. and Ascigil, O. and Nasir, H. and Carpenter, C. and Griffioen, J. and Calvert, K.</b>
     1905, &quot;Designing a GENI Experimenter Tool to Support the Choice Net Internet Architecture.&quot;
     1906Network Protocols (ICNP), 2014 IEEE 22nd International Conference on, IEEE,
     19072014.
     1908doi:10.1109/icnp.2014.88.
     1909<a href="http://dx.doi.org/10.1109/icnp.2014.88">http://dx.doi.org/10.1109/icnp.2014.88</a>
     1910<br><br><b>Abstract: </b>Test beds such as GENI provide an ideal environment for experimenting with future internet architectures such as Choice Net. Unlike the narrow waist of the current Internet (IP), Choice Net encourages alternatives and competition at the network layer via an economic plane that allows users to choose and purchase precisely the services they need. In this paper we describe our experiences implementing the Choice Net architecture on GENI. Some features of GENI, such as the ability to program the network layer, to leverage existing protocols and software, to run real applications generating realistic traffic, and the ability to perform long-running experiments made GENI an ideal platform for Choice Net experimentation. However, we found that GENI currently lacks the tools needed to make it easy to use these features. To address this issue, we designed and implemented a GENI Experimenter Tool specifically designed and tailored to perform tasks commonly needed by experimenters such as dynamically configuring nodes, loading and compiling node-specific code, executing Click modules, running commands on sets of nodes, accessing the local file system on nodes, and dynamically logging into nodes.
     1911</li>
     1912<br>
     1913
     1914
     1915
     1916<li>
    19041917<b>Brown, D. and Nasir, H. and Carpenter, C. and Ascigil, O. and Griffioen, J. and Calvert, K.</b>
    19051918, &quot;ChoiceNet gaming: Changing the gaming experience with economics.&quot;
     
    22382251
    22392252<li>
     2253<b>Risdianto, Aris C. and Kim, JongWon</b>
     2254, &quot;Prototyping Media Distribution Experiments over OF@TEIN SDN-enabled Testbed.&quot;
     2255Proceedings of the Asia-Pacific Advanced Network,
     22562014.
     2257doi:10.7125/apan.38.2.
     2258<a href="http://dx.doi.org/10.7125/apan.38.2">http://dx.doi.org/10.7125/apan.38.2</a>
     2259<br><br><b>Abstract: </b>The lifecycle of service realization experiment is composed of multiple stages, where tasks and responsibilities are well-defined between users and operators. In this paper, we prototype media distribution experiments over an OF@TEIN SDN (Software-Defined Networking)-enabled testbed while paying attention to the automated resource provisioning and experiment execution.
     2260</li>
     2261<br>
     2262
     2263
     2264
     2265<li>
    22402266<b>Schwerdel, Dennis and Reuther, Bernd and Zinner, Thomas and M\\uller, Paul and Tran-Gia, Phouc</b>
    22412267, &quot;Future Internet research and experimentation: The G-Lab approach.&quot;
     
    22972323<a href="http://dx.doi.org/10.1016/j.bjp.2013.12.021">http://dx.doi.org/10.1016/j.bjp.2013.12.021</a>
    22982324<br><br><b>Abstract: </b>The North American Electric Reliability Corporation (NERC) envisions a smart grid that aggressively explores advance communication network solutions to facilitate real-time monitoring and dynamic control of the bulk electric power system. At the distribution level, the smart grid integrates renewable generation and energy storage mechanisms to improve the reliability of the grid. Furthermore, dynamic pricing and demand management provide customers an avenue to interact with the power system to determine the electricity usage that best satisfies their lifestyle. At the transmission level, efficient communication and a highly automated architecture provide visibility in the power system and as a result, faults are mitigated faster than they can propagate. However, such higher levels of reliability and efficiency rest on the supporting communication infrastructure. To date, utility companies are moving towards Multiprotocol Label Switching (MPLS) because it supports traffic engineering and virtual private networks (VPNs). Furthermore, it provides Quality of Service (QoS) guarantees and fail-over mechanisms in addition to meeting the requirement of non-routability as stipulated by NERC. However, these benefits come at a cost for the infrastructure that supports the full MPLS specification. With this realization and given a two week implementation and deployment window in GENI, we explore the modularity and flexibility provided by the low cost OpenFlow Software Defined Networking (SDN) solution. In particular, we use OpenFlow to provide (1) automatic fail-over mechanisms, (2) a load balancing, and (3) Quality of Service guarantees: all essential mechanisms for smart grid networks.
     2325</li>
     2326<br>
     2327
     2328
     2329
     2330<li>
     2331<b>Tredger, Stephen</b>
     2332, &quot;SageFS: The Location Aware Wide Area Distributed Filesystem.&quot;
     2333
     23342014.
     2335
     2336<a href="http://dspace.library.uvic.ca/bitstream/handle/1828/5824/Tredger&#x005F;Stephen&#x005F;MSc&#x005F;2014.pdf?sequence=3&#x0026;&#x0023;38;isAllowed=y">http://dspace.library.uvic.ca/bitstream/handle/1828/5824/Tredger&#x005F;Stephen&#x005F;MSc&#x005F;2014.pdf?sequence=3&#x0026;&#x0023;38;isAllowed=y</a>
     2337<br><br><b>Abstract: </b>Modern distributed applications often have to make a choice about how to maintain data within the system. Distributed storage systems are often self- contained in a single cluster or are a black box as data placement is unknown by an application. Using wide area distributed storage either means using multiple APIs or loss of control of data placement. This work introduces Sage, a distributed filesystem that aggregates multiple backends under a common API. It also gives applications the ability to decide where file data is stored in the aggregation. By leveraging Sage, users can create applications using multiple distributed backends with the same API, and still decide where to physically store any given file. Sage uses a layered design where API calls are translated into the appropriate set of backend calls then sent to the correct physical backend. This way Sage can hold many backends at once making them appear as the same filesystem. The performance overhead of using Sage is shown to be minimal over directly using the backend stores, and Sage is also shown to scale with respect to backends used. A case study shows file placement in action and how applications can take advantage of the feature.
    22992338</li>
    23002339<br>
     
    32693308<li>
    32703309<b>Krishnappa, Dilip K. and Lyons, Eric and Irwin, David and Zink, Michael</b>
     3310, &quot;Performance of GENI Cloud Testbeds for Real Time Scientific Application.&quot
     3311First GENI Research and Educational Experiment Workshop (GREE 2012), Los Angeles,
     33122012.
     3313
     3314</li>
     3315<br>
     3316
     3317<li>
     3318<b>Krishnappa, Dilip K. and Lyons, Eric and Irwin, David and Zink, Michael</b>
    32713319, &quot;Network capabilities of cloud services for a real time scientific application.&quot
    3272332037th Annual IEEE Conference on Local Computer Networks, Clearwater Beach, FL, USA, IEEE,
    327333212012.
    32743322doi:10.1109/lcn.2012.6423665.
    3275 </li>
    3276 <br>
    3277 
    3278 <li>
    3279 <b>Krishnappa, Dilip K. and Lyons, Eric and Irwin, David and Zink, Michael</b>
    3280 , &quot;Performance of GENI Cloud Testbeds for Real Time Scientific Application.&quot
    3281 First GENI Research and Educational Experiment Workshop (GREE 2012), Los Angeles,
    3282 2012.
    3283 
    32843323</li>
    32853324<br>
     
    36573696<b>Jin, Ruofan and Wang, Bing</b>
    36583697, &quot;Malware Detection for Mobile Devices Using Software-Defined Networking.&quot
    3659 2013 Proceedings Second GENI Research and Educational Experiment Workshop, Salt Lake City, UT, IEEE,
    3660 2013.
    3661 doi:10.1109/GREE.2013.24.
     3698Research and Educational Experiment Workshop (GREE), 2013 Second GENI, IEEE,
     36992013.
     3700doi:10.1109/gree.2013.24.
    36623701</li>
    36633702<br>
     
    36663705<b>Jin, Ruofan and Wang, Bing</b>
    36673706, &quot;Malware Detection for Mobile Devices Using Software-Defined Networking.&quot
    3668 Research and Educational Experiment Workshop (GREE), 2013 Second GENI, IEEE,
    3669 2013.
    3670 doi:10.1109/gree.2013.24.
     37072013 Proceedings Second GENI Research and Educational Experiment Workshop, Salt Lake City, UT, IEEE,
     37082013.
     3709doi:10.1109/GREE.2013.24.
    36713710</li>
    36723711<br>
     
    40204059
    40214060<li>
     4061<b>Brown, D. and Ascigil, O. and Nasir, H. and Carpenter, C. and Griffioen, J. and Calvert, K.</b>
     4062, &quot;Designing a GENI Experimenter Tool to Support the Choice Net Internet Architecture.&quot
     4063Network Protocols (ICNP), 2014 IEEE 22nd International Conference on, IEEE,
     40642014.
     4065doi:10.1109/icnp.2014.88.
     4066</li>
     4067<br>
     4068
     4069
     4070
     4071<li>
    40224072<b>Brown, D. and Nasir, H. and Carpenter, C. and Ascigil, O. and Griffioen, J. and Calvert, K.</b>
    40234073, &quot;ChoiceNet gaming: Changing the gaming experience with economics.&quot
     
    43044354
    43054355<li>
     4356<b>Risdianto, Aris C. and Kim, JongWon</b>
     4357, &quot;Prototyping Media Distribution Experiments over OF@TEIN SDN-enabled Testbed.&quot
     4358Proceedings of the Asia-Pacific Advanced Network,
     43592014.
     4360doi:10.7125/apan.38.2.
     4361</li>
     4362<br>
     4363
     4364
     4365
     4366<li>
    43064367<b>Schwerdel, Dennis and Reuther, Bernd and Zinner, Thomas and M\\uller, Paul and Tran-Gia, Phouc</b>
    43074368, &quot;Future Internet research and experimentation: The G-Lab approach.&quot
     
    43594420
    43604421<li>
     4422<b>Tredger, Stephen</b>
     4423, &quot;SageFS: The Location Aware Wide Area Distributed Filesystem.&quot
     4424
     44252014.
     4426
     4427</li>
     4428<br>
     4429
     4430
     4431
     4432<li>
    43614433<b>Velusamy, G. and Gurkan, D. and Narayan, S. and Baily, S.</b>
    43624434, &quot;Fault-Tolerant OpenFlow-Based Software Switch Architecture with LINC Switches for a Reliable Network Data Exchange.&quot