default search action
Tim Brecht
Person information
- affiliation: University of Waterloo, Canada
- affiliation (PhD 1994): University of Toronto, Canada
Refine list
refinements active!
zoomed in on ?? of ?? records
view refined list in
export refined list as
2020 – today
- 2024
- [c58]Miles Pitassi, Tim Brecht, Mingyue Xie:
Puck Possessions and Team Success in the NHL. LINHAC 2024: 51-66 - [e3]Tim Brecht, Niklas Carlsson, Mikael Vernblom, Patrick Lambrix:
Proceedings of the Linköping Hockey Analytics Conference LINHAC 2024 Research Track, LINHAC 2024, Linköping, Sweden, June 3-5, 2024. Linköping Electronic Conference Proceedings 2024, ISBN 978-91-8075-710-2 [contents] - 2023
- [c57]David Radke, Kate Larson, Tim Brecht:
The Importance of Credo in Multiagent Learning. AAMAS 2023: 2243-2252 - [c56]David Radke, Kate Larson, Tim Brecht, Kyle Tilbury:
Towards a Better Understanding of Learning with Multiagent Teams. IJCAI 2023: 271-279 - [c55]David Radke, Jaxin Lu, Jackson Woloschuk, Tin Le, Daniel Radke, Charlie Liu, Tim Brecht:
Analyzing Passing Metrics in Ice Hockey using Puck and Player Tracking Data. LINHAC 2023: 25-39 - [e2]Tim Brecht, Niklas Carlsson, Mikael Vernblom, Patrick Lambrix:
Proceedings of the Linköping Hockey Analytics Conference 2023 Research Track, LINHAC 2023, Linköping, Sweden, June 7-9, 2023. Linköping Electronic Conference Proceedings 201, Linköping University Electronic Press 2023, ISBN 978-91-8075-357-9 [contents] - [i4]David Radke, Kate Larson, Tim Brecht, Kyle Tilbury:
Towards a Better Understanding of Learning with Multiagent Teams. CoRR abs/2306.16205 (2023) - 2022
- [j22]Farzan Dehbashi, Ali Abedi, Tim Brecht, Omid Abari:
Are WiFi Backscatter Systems Ready for the Real World? GetMobile Mob. Comput. Commun. 26(1): 30-34 (2022) - [c54]David Radke, Kate Larson, Tim Brecht:
Exploring the Benefits of Teams in Multiagent Learning. IJCAI 2022: 454-460 - [c53]Tim Brecht:
Puck and Player Tracking: Challenges and Opportunities. LINHAC 2022: 10 - [c52]David Radke, Tim Brecht, Daniel Radke:
Identifying Completed Pass Types and Improving Passing Lane Models. LINHAC 2022: 71-86 - [i3]David Radke, Kate Larson, Tim Brecht:
The Importance of Credo in Multiagent Learning. CoRR abs/2204.07471 (2022) - [i2]David Radke, Kate Larson, Tim Brecht:
Exploring the Benefits of Teams in Multiagent Learning. CoRR abs/2205.02328 (2022) - 2021
- [j21]Ali Abedi, Tim Brecht, Omid Abari:
Demystifying frame aggregation in 802.11 networks: Understanding and approximating optimality. Comput. Commun. 180: 259-270 (2021) - [c51]Farzan Dehbashi, Ali Abedi, Tim Brecht, Omid Abari:
Verification: can wifi backscatter replace RFID? MobiCom 2021: 97-107 - 2020
- [c50]Huy Hoang, Benjamin Cassell, Tim Brecht, Samer Al-Kiswany:
RocketBufs: a framework for building efficient, in-memory, message-oriented middleware. DEBS 2020: 121-132 - [c49]Ali Abedi, Tim Brecht, Omid Abari:
PNOFA: Practical, Near-Optimal Frame Aggregation for Modern 802.11 Networks. MSWiM 2020: 63-72 - [c48]Shervin Khastoo, Tim Brecht, Ali Abedi:
NeuRA: Using Neural Networks to Improve WiFi Rate Adaptation. MSWiM 2020: 161-170 - [c47]David Radke, Omid Abari, Tim Brecht, Kate Larson:
Can Future Wireless Networks Detect Fires? BuildSys 2020: 286-289 - [c46]Ali Abedi, Farzan Dehbashi, Mohammad Hossein Mazaheri, Omid Abari, Tim Brecht:
WiTAG: Seamless WiFi Backscatter Communication. SIGCOMM 2020: 240-252
2010 – 2019
- 2019
- [c45]Benjamin Cassell, Huy Hoang, Tim Brecht:
RocketStreams: A Framework for the Efficient Dissemination of Live Streaming Video. APSys 2019: 84-90 - [c44]Ali Abedi, Omid Abari, Tim Brecht:
Wi-LE: Can WiFi Replace Bluetooth? HotNets 2019: 117-124 - [c43]Marcel Rumez, Jürgen Dürrwang, Tim Brecht, Timo Steinshorn, Peter Neugebauer, Reiner Kriesten, Eric Sax:
CAN Radar: Sensing Physical Devices in CAN Networks based on Time Domain Reflectometry. VNC 2019: 1-8 - [e1]Tim Brecht, Carey Williamson:
Proceedings of the 27th ACM Symposium on Operating Systems Principles, SOSP 2019, Huntsville, ON, Canada, October 27-30, 2019. ACM 2019, ISBN 978-1-4503-6873-5 [contents] - [i1]Marcel Rumez, Jürgen Dürrwang, Tim Brecht, Timo Steinshorn, Peter Neugebauer, Reiner Kriesten, Eric Sax:
CAN Radar: Sensing Physical Devices in CAN Networks based on Time Domain Reflectometry. CoRR abs/1910.02847 (2019) - 2018
- [j20]Ali Abedi, Tim Brecht, Andrew Heard:
T-SIMn: A trace collection and simulation framework for 802.11n networks. Comput. Commun. 117: 116-132 (2018) - [j19]Benjamin Cassell, Tyler Szepesi, Jim Summers, Tim Brecht, Derek L. Eager, Bernard Wong:
Disk Prefetching Mechanisms for Increasing HTTP Streaming Video Server Throughput. ACM Trans. Model. Perform. Evaluation Comput. Syst. 3(2): 7:1-7:30 (2018) - [j18]Nikolas Herbst, André Bauer, Samuel Kounev, Giorgos Oikonomou, Erwin Van Eyk, George Kousiouris, Athanasia Evangelinou, Rouven Krebs, Tim Brecht, Cristina L. Abad, Alexandru Iosup:
Quantifying Cloud Performance and Dependability: Taxonomy, Metric Design, and Emerging Challenges. ACM Trans. Model. Perform. Evaluation Comput. Syst. 3(4): 19:1-19:36 (2018) - [c42]Babar Naveed Memon, Xiayue Charles Lin, Arshia Mufti, Arthur Scott Wesley, Tim Brecht, Kenneth Salem, Bernard Wong, Benjamin Cassell:
RaMP: A Lightweight RDMA Abstraction for Loosely Coupled Applications. HotCloud 2018 - [c41]Ali Abedi, Mohammad Hossein Mazaheri, Omid Abari, Tim Brecht:
WiTAG: Rethinking Backscatter Communication for WiFi Networks. HotNets 2018: 148-154 - [c40]Yixuan Gao, Ali Abedi, Tim Brecht, Ramya Bhagavatula:
Poster: Analyzing Bitrates in Modern Wi-Fi Networks. MobiCom 2018: 717-719 - [c39]Xinan Yan, Linguan Yang, Hongbo Zhang, Xiayue Charles Lin, Bernard Wong, Kenneth Salem, Tim Brecht:
Carousel: Low-Latency Transaction Processing for Globally-Distributed Data. SIGMOD Conference 2018: 231-243 - 2017
- [j17]Benjamin Cassell, Tyler Szepesi, Bernard Wong, Tim Brecht, Jonathan Ma, Xiaoyi Liu:
Nessie: A Decoupled, Client-Driven Key-Value Store Using RDMA. IEEE Trans. Parallel Distributed Syst. 28(12): 3537-3552 (2017) - [c38]David Pariag, Tim Brecht:
Application Bandwidth and Flow Rates from 3 Trillion Flows Across 45 Carrier Networks. PAM 2017: 129-141 - [c37]Tyler Szepesi, Benjamin Cassell, Tim Brecht, Derek L. Eager, Jim Summers, Bernard Wong:
Using Libception to Understand and Improve HTTP Streaming Video Server Throughput. ICPE 2017: 51-62 - [c36]Ali Abedi, Tim Brecht:
Conducting Repeatable Experiments in Highly Variable Cloud Computing Environments. ICPE 2017: 287-292 - 2016
- [j16]Rayman Preet Singh, Benjamin Cassell, Srinivasan Keshav, Tim Brecht:
TussleOS: managing privacy versus functionality trade-offs on IoT devices. Comput. Commun. Rev. 46(3): 3:1-3:8 (2016) - [j15]Stephen M. Blackburn, Amer Diwan, Matthias Hauswirth, Peter F. Sweeney, José Nelson Amaral, Tim Brecht, Lubomír Bulej, Cliff Click, Lieven Eeckhout, Sebastian Fischmeister, Daniel Frampton, Laurie J. Hendren, Michael Hind, Antony L. Hosking, Richard E. Jones, Tomas Kalibera, Nathan Keynes, Nathaniel Nystrom, Andreas Zeller:
The Truth, The Whole Truth, and Nothing But the Truth: A Pragmatic Guide to Assessing Empirical Evaluations. ACM Trans. Program. Lang. Syst. 38(4): 15:1-15:20 (2016) - [c35]Jim Summers, Tim Brecht, Derek L. Eager, Alex Gutarin:
Characterizing the workload of a netflix streaming video server. IISWC 2016: 43-54 - [c34]Ali Abedi, Andrew Heard, Tim Brecht:
T-SIMn: Towards the High Fidelity Trace-Based Simulation of 802.11n Networks. MSWiM 2016: 83-92 - [c33]Ali Abedi, Tim Brecht:
Examining Relationships Between 802.11n Physical Layer Transmission Feature Combinations. MSWiM 2016: 229-238 - 2015
- [j14]Ali Abedi, Andrew Heard, Tim Brecht:
Conducting Repeatable Experiments and Fair Comparisons using 802.11n MIMO Networks. ACM SIGOPS Oper. Syst. Rev. 49(1): 41-50 (2015) - [c32]Rayman Preet Singh, Tim Brecht, Srinivasan Keshav:
Towards VM Consolidation Using a Hierarchy of Idle States. VEE 2015: 107-119 - 2014
- [j13]Rayman Preet Singh, Tim Brecht, Srinivasan Keshav:
IP address multiplexing for VEEs. Comput. Commun. Rev. 44(2): 36-43 (2014) - [c31]Ali Abedi, Tim Brecht:
T-RATE: A Framework for the Trace-Driven Evaluation of 802.11 Rate Adaptation Algorithms. MASCOTS 2014: 1-10 - [c30]Jim Summers, Tim Brecht, Derek L. Eager, Tyler Szepesi, Ben Cassell, Bernard Wong:
Automated Control of Aggressive Prefetching for HTTP Streaming Video Servers. SYSTOR 2014: 5:1-5:11 - 2013
- [j12]Ashif S. Harji, Peter A. Buhr, Tim Brecht:
Our troubles with Linux Kernel upgrades and why you should care. ACM SIGOPS Oper. Syst. Rev. 47(2): 66-72 (2013) - [c29]Rayman Preet Singh, Srinivasan Keshav, Tim Brecht:
A cloud-based consumer-centric architecture for energy data analytics. e-Energy 2013: 63-74 - 2012
- [c28]Jim Summers, Tim Brecht, Derek L. Eager, Bernard Wong:
To chunk or not to chunk: implications for HTTP streaming video server performance. NOSSDAV 2012: 15-20 - [c27]Ashif S. Harji, Peter A. Buhr, Tim Brecht:
Comparing high-performance multi-core web-server architectures. SYSTOR 2012: 2 - [c26]Jim Summers, Tim Brecht, Derek L. Eager, Bernard Wong:
Methodologies for generating HTTP streaming video workloads to evaluate web server performance. SYSTOR 2012: 13 - 2011
- [c25]Ashif S. Harji, Peter A. Buhr, Tim Brecht:
Our troubles with Linux and why you should care. APSys 2011: 2 - 2010
- [c24]Sean Tozer, Tim Brecht, Ashraf Aboulnaga:
Q-Cop: Avoiding bad query mixes to minimize client timeouts under heavy loads. ICDE 2010: 397-408
2000 – 2009
- 2008
- [j11]Willem van Heiningen, Steve MacDonald, Tim Brecht:
Babylon: middleware for distributed, parallel, and mobile Java applications. Concurr. Comput. Pract. Exp. 20(10): 1195-1224 (2008) - [c23]Elad Lahav, Martin Karsten, Tim Brecht, Weihan Wang, Tony Zhao:
Group unicast for the real world. NOSSDAV 2008: 27-32 - 2007
- [c22]David Pariag, Tim Brecht, Ashif S. Harji, Peter A. Buhr, Amol Shukla, David R. Cheriton:
Comparing the performance of web server architectures. EuroSys 2007: 231-243 - [c21]David Hadaller, Srinivasan Keshav, Tim Brecht, Shubham Agarwal:
Vehicular opportunistic communication under the microscope. MobiSys 2007: 206-219 - 2006
- [j10]Tim Brecht, Eshrat Arjomandi, Chang Li, Hang Pham:
Controlling garbage collection and heap growth to reduce the execution time of Java applications. ACM Trans. Program. Lang. Syst. 28(5): 908-941 (2006) - [c20]Tim Brecht, G. John Janakiraman, Brian Lynn, Vikram A. Saletore, Yoshio Turner:
Evaluating network processing efficiency with processor partitioning and asynchronous I/O. EuroSys 2006: 265-278 - [c19]Amol Shukla, Tim Brecht:
TCP Connection Management Mechanisms for Improving Internet Server Performance. HotWeb 2006: 1-12 - [c18]Willem van Heiningen, Tim Brecht, Steve MacDonald:
Babylon v2.0: middleware for distributed, parallel, and mobile Java applications. IPDPS 2006 - [c17]Willem van Heiningen, Tim Brecht, Steve MacDonald:
Exploiting dynamic proxies in middleware for distributed, parallel, and mobile Java applications. IPDPS 2006 - [c16]Michael Kwok, Tim Brecht, Martin Karsten, Jialin Song:
Modelling and Improving Group Communication in Server Operating Systems. MASCOTS 2006: 207-217 - [c15]David Hadaller, Srinivasan Keshav, Tim Brecht:
MV-MAX: improving wireless infrastructure access for multi-vehicular communication. CHANTS@SIGCOMM 2006: 269-276 - 2005
- [c14]Martin Karsten, Jialin Song, Michael Kwok, Tim Brecht:
Efficient operating system support for group unicast. NOSSDAV 2005: 153-158 - 2004
- [c13]Amol Shukla, Lily Li, Anand Subramanian, Paul A. S. Ward, Tim Brecht:
Evaluating the performance of user-space and kernel-space web servers. CASCON 2004: 189-201 - [c12]Tim Brecht, David Pariag, Louay Gammo:
accept()able Strategies for Improving Web Server Performance. USENIX ATC, General Track 2004: 227-240 - 2003
- [j9]Jeff Edmonds, Donald D. Chinn, Tim Brecht, Xiaotie Deng:
Non-Clairvoyant Multiprocessor Scheduling of Jobs with Changing Execution Characteristics. J. Sched. 6(3): 231-250 (2003) - 2001
- [c11]Tim Brecht, Eshrat Arjomandi, Chang Li, Hang Pham:
Controlling Garbage Collection and Heap Growth to Reduce the Execution Time of Java Applications. OOPSLA 2001: 353-366 - 2000
- [j8]Matthew Izatt, Patrick Chan, Tim Brecht:
Ajents: towards an environment for parallel, distributed and mobile Java applications. Concurr. Pract. Exp. 12(8): 667-685 (2000) - [j7]Xiaotie Deng, Nian Gu, Tim Brecht, KaiCheng Lu:
Preemptive Scheduling of Parallel Jobs on Multiprocessors. SIAM J. Comput. 30(1): 145-160 (2000) - [c10]Biswaroop Mukherjee, Tim Brecht:
Time-Lined TCP for the TCP-Friendly Delivery of Streaming Media. ICNP 2000: 165-176
1990 – 1999
- 1999
- [j6]Harjinder S. Sandhu, Tim Brecht, D. Moscoso:
Multiple-Writer Entry Consistency. Parallel Distributed Comput. Pract. 2(2) (1999) - [c9]Matthew Izatt, Patrick Chan, Tim Brecht:
Ajents: Towards an Environment for Parallel, Distributed and Mobile Java Applications. Java Grande 1999: 15-24 - [c8]Tim Brecht, Harjinder S. Sandhu:
The Region Trap Library: Handling Traps on Application-Defined Regions of Memory. USENIX ATC, General Track 1999: 85-99 - 1997
- [j5]Tim Brecht, Xiaotie Deng, Nian Gu:
Competitive Dynamic Multiprocessor Allocation for Parallel Applications. Parallel Process. Lett. 7(1): 89-100 (1997) - [c7]Tim Brecht:
An Experimental Evaluation of Processor Pool-Based Scheduling for Shared-Memory NUMA Multiprocessors. JSSPP 1997: 139-165 - [c6]Jeff Edmonds, Donald D. Chinn, Tim Brecht, Xiaotie Deng:
Non-clairvoyant Multiprocessor Scheduling of Jobs with Changing Execution Characteristics (Extended Abstract). STOC 1997: 120-129 - 1996
- [j4]Tim Brecht, Kaushik Guha:
Using Parallel Program Characteristics in Dynamic Processor Allocation Policies. Perform. Evaluation 27/28(4): 519-539 (1996) - [c5]Tim Brecht, Harjinder S. Sandhu, Meijuan Shan, Jimmy Talbot:
ParaWeb: towards world-wide supercomputing. ACM SIGOPS European Workshop 1996: 181-188 - [c4]Xiaotie Deng, Nian Gu, Tim Brecht, KaiCheng Lu:
Preemptive Scheduling of Parallel Jobs on Multiprocessors. SODA 1996: 159-167 - 1995
- [c3]Tim Brecht, Xiaotie Deng, Nian Gu:
Competitive dynamic multiprocessor allocation for parallel applications. SPDP 1995: 448-455 - 1994
- [b1]Timothy B. Brecht:
Multiprogrammed parallel application scheduling in NUMA multiprocessors. University of Toronto, Canada, 1994 - 1991
- [c2]Songnian Zhou, Tim Brecht:
Processor-Pool-Based Scheduling for Large-Scale NUMA Multiprocessors. SIGMETRICS 1991: 133-142
1980 – 1989
- 1989
- [j3]Timothy B. Brecht, Charles J. Colbourn:
Multiplicative improvements in network reliability bounds. Networks 19(5): 521-529 (1989) - 1988
- [j2]Timothy B. Brecht, Charles J. Colbourn:
Lower bounds on two-terminal network reliability. Discret. Appl. Math. 21(3): 185-198 (1988) - 1986
- [j1]Timothy B. Brecht, Charles J. Colbourn:
Improving reliability bounds in computer networks. Networks 16(4): 369-380 (1986) - 1984
- [c1]Darwyn R. Peachey, Richard B. Bunt, Carey L. Williamson, Tim Brecht:
An Experimental Investigation of Scheduling Strategies for UNIX. SIGMETRICS 1984: 158-166
Coauthor Index
manage site settings
To protect your privacy, all features that rely on external API calls from your browser are turned off by default. You need to opt-in for them to become active. All settings here will be stored as cookies with your web browser. For more information see our F.A.Q.
Unpaywalled article links
Add open access links from to the list of external document links (if available).
Privacy notice: By enabling the option above, your browser will contact the API of unpaywall.org to load hyperlinks to open access articles. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the Unpaywall privacy policy.
Archived links via Wayback Machine
For web page which are no longer available, try to retrieve content from the of the Internet Archive (if available).
Privacy notice: By enabling the option above, your browser will contact the API of archive.org to check for archived content of web pages that are no longer available. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the Internet Archive privacy policy.
Reference lists
Add a list of references from , , and to record detail pages.
load references from crossref.org and opencitations.net
Privacy notice: By enabling the option above, your browser will contact the APIs of crossref.org, opencitations.net, and semanticscholar.org to load article reference information. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the Crossref privacy policy and the OpenCitations privacy policy, as well as the AI2 Privacy Policy covering Semantic Scholar.
Citation data
Add a list of citing articles from and to record detail pages.
load citations from opencitations.net
Privacy notice: By enabling the option above, your browser will contact the API of opencitations.net and semanticscholar.org to load citation information. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the OpenCitations privacy policy as well as the AI2 Privacy Policy covering Semantic Scholar.
OpenAlex data
Load additional information about publications from .
Privacy notice: By enabling the option above, your browser will contact the API of openalex.org to load additional information. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the information given by OpenAlex.
last updated on 2024-12-05 20:46 CET by the dblp team
all metadata released as open data under CC0 1.0 license
see also: Terms of Use | Privacy Policy | Imprint