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2020 – today
- 2024
- [c80]Tobias Pfandzelter, David Bermbach:
Komet: A Serverless Platform for Low-Earth Orbit Edge Services. SoCC 2024: 866-882 - [c79]Minghe Wang
, Trever Schirmer
ShutPub: Publisher-side Filtering for Content-based Pub/Sub on the Edge. EdgeSys@EuroSys 2024: 13-18 - [c78]Mohammadreza Malekabbasi, Tobias Pfandzelter, Trever Schirmer, David Bermbach:
GeoFaaS: An Edge-to-Cloud FaaS Platform. IC2E 2024: 66-71 - [c77]Trever Schirmer, Tobias Pfandzelter, David Bermbach:
ElastiBench: Scalable Continuous Benchmarking on Cloud FaaS Platforms. IC2E 2024: 83-92 - [c76]Tim C. Rese, Nils Japke, Sebastian Koch, Tobias Pfandzelter, David Bermbach:
Increasing Efficiency and Result Reliability of Continuous Benchmarking for FaaS Applications. IC2E 2024: 93-100 - [c75]Felix Moebius, Tobias Pfandzelter, David Bermbach:
Are Unikernels Ready for Serverless on the Edge? IC2E 2024: 133-143 - [c74]Valentin Carl, Trever Schirmer, Tobias Pfandzelter, David Bermbach:
GeoFF: Federated Serverless Workflows with Data Pre-Fetching. IC2E 2024: 144-151 - [c73]Tobias Pfandzelter, David Bermbach, Robert Vilter, Ingo Friese, Sergiy Melnyk, Qiuheng Zhou, Hans D. Schotten:
Towards Anti-Collision Coordination for UAVs with Serverless Edge Computing. IC2E 2024: 247-248 - [i52]Felix Moebius, Tobias Pfandzelter, David Bermbach:
Are Unikernels Ready for Serverless on the Edge? CoRR abs/2403.00515 (2024) - [i51]Tobias Pfandzelter, David Bermbach:
Lessons Learned from Building Edge Software System Testbeds. CoRR abs/2403.16869 (2024) - [i50]Trever Schirmer, Tobias Pfandzelter, David Bermbach:
ElastiBench: Scalable Continuous Benchmarking on Cloud FaaS Platforms. CoRR abs/2405.13528 (2024) - [i49]Valentin Carl, Trever Schirmer, Tobias Pfandzelter, David Bermbach:
GeoFF: Federated Serverless Workflows with Data Pre-Fetching. CoRR abs/2405.13594 (2024) - [i48]Mohammadreza Malekabbasi, Tobias Pfandzelter, Trever Schirmer, David Bermbach:
GeoFaaS: An Edge-to-Cloud FaaS Platform. CoRR abs/2405.14413 (2024) - [i47]Tim C. Rese, Nils Japke, Sebastian Koch, Tobias Pfandzelter, David Bermbach:
Increasing Efficiency and Result Reliability of Continuous Benchmarking for FaaS Applications. CoRR abs/2405.15610 (2024) - [i46]Tobias Pfandzelter, David Bermbach:
Komet: A Serverless Platform for Low-Earth Orbit Edge Services. CoRR abs/2410.05973 (2024) - 2023
- [j16]Ahmet-Serdar Karakaya
Achieving realistic cyclist behavior in SUMO using the SimRa dataset. Comput. Commun. 205: 97-107 (2023) - [j15]Ahmet-Serdar Karakaya
CycleSense: Detecting near miss incidents in bicycle traffic from mobile motion sensors. Pervasive Mob. Comput. 91: 101779 (2023) - [j14]Tobias Pfandzelter
Managing data replication and distribution in the fog with FReD. Softw. Pract. Exp. 53(10): 1958-1981 (2023) - [j13]Lauritz Thamsen, David Bermbach, Demetris Trihinas:
Special Issue on benchmarking, experimentation tools, and reproducible practices for data-intensive systems from edge to cloud. Softw. Pract. Exp. 53(12): 2325-2326 (2023) - [j12]Jonathan Hasenburg
MockFog 2.0: Automated Execution of Fog Application Experiments in the Cloud. IEEE Trans. Cloud Comput. 11(1): 58-70 (2023) - [j11]Martin Grambow
Using Microbenchmark Suites to Detect Application Performance Changes. IEEE Trans. Cloud Comput. 11(3): 2575-2590 (2023) - [c72]Ingo Friese, Mandy Galkow-Schneider, Louay Bassbouss, Alexander Zoubarev, Andy Neparidze, Sergiy Melnyk, Qiuheng Zhou, Hans D. Schotten, Tobias Pfandzelter, David Bermbach, Arndt Kritzner, Enrico Zschau, Prasenjit Dhara, Steve Göring, William Menz, Alexander Raake, Wolfgang Rüther-Kindel, Fabian Quaeck, Nick Stuckert, Robert Vilter:
True 3D Holography: A Communication Service of Tomorrow and Its Requirements for a New Converged Cloud and Network Architecture on the Path to 6G. 6GNet 2023: 1-8 - [c71]Minghe Wang
Lotus: Serverless In-Transit Data Processing for Edge-based Pub/Sub. EdgeSys@EuroSys 2023: 31-35 - [c70]Tobias Pfandzelter, David Bermbach:
Towards a Benchmark for Fog Data Processing. IC2E 2023: 92-98 - [c69]Ahmet-Serdar Karakaya, Leonard Thomas, Denis Koljada
A Crowdsensing Approach for Deriving Surface Quality of Cycling Infrastructure. IC2E 2023: 212-219 - [c68]Nick Stender, Tobias Pfandzelter, David Bermbach:
Eventually Consistent Configuration Management in Fog Systems With CRDTs. IC2E 2023: 220-221 - [c67]Simon Huber, Tobias Pfandzelter, David Bermbach:
Identifying Nearest Fog Nodes With Network Coordinate Systems. IC2E 2023: 222-223 - [c66]Tobias Pfandzelter, David Bermbach:
Evaluating LEO Edge Software in the Cloud with Celestial. IC2E 2023: 224-225 - [c65]Tobias Pfandzelter
Edge Computing in Low-Earth Orbit - What Could Possibly Go Wrong? LEO-NET 2023: 19-24 - [c64]Tobias Pfandzelter
Kernel-as-a-Service: A Serverless Programming Model for Heterogeneous Hardware Accelerators. Middleware 2023: 192-206 - [c63]Tobias Pfandzelter
Enoki: Stateful Distributed FaaS from Edge to Cloud. MIDDLEWEDGE@Middleware 2023: 19-24 - [c62]Tobias Pfandzelter
Can Orbital Servers Provide Mars-Wide Edge Computing? SatCom@MobiCom 2023: 7-12 - [c61]Trever Schirmer
The Night Shift: Understanding Performance Variability of Cloud Serverless Platforms. SESAME@EuroSys 2023: 27-33 - [c60]Nils Japke
The Early Microbenchmark Catches the Bug - Studying Performance Issues Using Micro- and Application Benchmarks. UCC 2023: 4 - [c59]Marvin Kruber, Tobias Pfandzelter
A Hybrid Communication Approach for Metadata Exchange in Geo-Distributed Fog Environments. UCC 2023: 66 - [c58]Trever Schirmer
ProFaaStinate: Delaying Serverless Function Calls to Optimize Platform Performance. WOSC@Middleware 2023: 1-6 - [c57]Martin Grambow
Efficiently Detecting Performance Changes in FaaS Application Releases. WOSC@Middleware 2023: 13-17 - [i45]Tobias Pfandzelter, David Bermbach:
Failure is not an Option: Considerations for Software Fault-Tolerance in LEO Satellite Edge Computing. CoRR abs/2302.08952 (2023) - [i44]Tobias Pfandzelter, Nils Japke, Trever Schirmer, Jonathan Hasenburg, David Bermbach:
Managing Data Replication and Distribution in the Fog with FReD. CoRR abs/2303.05256 (2023) - [i43]Minghe Wang, Trever Schirmer, Tobias Pfandzelter, David Bermbach:
Lotus: Serverless In-Transit Data Processing for Edge-based Pub/Sub. CoRR abs/2303.07779 (2023) - [i42]Trever Schirmer, Nils Japke, Sofia Greten, Tobias Pfandzelter, David Bermbach:
The Night Shift: Understanding Performance Variability of Cloud Serverless Platforms. CoRR abs/2304.07177 (2023) - [i41]Tobias Pfandzelter, David Bermbach:
Towards a Benchmark for Fog Data Processing. CoRR abs/2304.09026 (2023) - [i40]Ahmet-Serdar Karakaya, Leonard Thomas, Denis Koljada, David Bermbach:
A Crowdsensing Approach for Deriving Surface Quality of Cycling Infrastructure. CoRR abs/2305.01712 (2023) - [i39]Marvin Kruber, Tobias Pfandzelter, David Bermbach:
Efficient Exchange of Metadata Information in Geo-Distributed Fog Systems. CoRR abs/2305.13385 (2023) - [i38]Emil Balitzki, Tobias Pfandzelter, David Bermbach:
Predicting Temporal Aspects of Movement for Predictive Replication in Fog Environments. CoRR abs/2306.00575 (2023) - [i37]Nick Stender, Tobias Pfandzelter, David Bermbach:
Eventually Consistent Configuration Management in Fog Systems with CRDTs. CoRR abs/2306.01595 (2023) - [i36]Tobias Pfandzelter, David Bermbach:
Can Orbital Servers Provide Mars-Wide Edge Computing? CoRR abs/2306.09756 (2023) - [i35]Simon Huber, Tobias Pfandzelter, David Bermbach:
Identifying Nearest Fog Nodes With Network Coordinate Systems. CoRR abs/2306.10321 (2023) - [i34]Tobias Pfandzelter, David Bermbach:
Enoki: Stateful Distributed FaaS from Edge to Cloud. CoRR abs/2309.03584 (2023) - [i33]Trever Schirmer, Valentin Carl, Tobias Pfandzelter, David Bermbach:
ProFaaStinate: Delaying Serverless Function Calls to Optimize Platform Performance. CoRR abs/2309.15471 (2023) - [i32]Malte Janßen, Tobias Pfandzelter, Minghe Wang, David Bermbach:
Supporting UAVs with Edge Computing: A Review of Opportunities and Challenges. CoRR abs/2310.11957 (2023) - [i31]Martin Grambow, Tim Dockenfuß, Trever Schirmer, Nils Japke, David Bermbach:
Efficiently Detecting Performance Changes in FaaS Application Releases. CoRR abs/2311.03889 (2023) - [i30]Nils Japke, Christoph Witzko, Martin Grambow, David Bermbach:
The Early Microbenchmark Catches the Bug - Studying Performance Issues Using Micro- and Application Benchmarks. CoRR abs/2311.04108 (2023) - [i29]Trever Schirmer, Joel Scheuner, Tobias Pfandzelter, David Bermbach:
Fusionize++: Improving Serverless Application Performance Using Dynamic Task Inlining and Infrastructure Optimization. CoRR abs/2311.04875 (2023) - [i28]Martin Grambow, Tobias Pfandzelter, David Bermbach:
Application-Centric Benchmarking of Distributed FaaS Platforms using BeFaaS. CoRR abs/2311.09745 (2023) - 2022
- [j10]Blesson Varghese
A Survey on Edge Performance Benchmarking. ACM Comput. Surv. 54(3): 66:1-66:33 (2022) - [j9]Monica Vitali, Pierluigi Plebani, David Bermbach, Erik Elmroth:
Special issue on co-design of data and computation management in Fog Computing. Future Gener. Comput. Syst. 129: 423-424 (2022) - [j8]David Bermbach, Jonathan Bader, Jonathan Hasenburg, Tobias Pfandzelter, Lauritz Thamsen:
AuctionWhisk: Using an auction-inspired approach for function placement in serverless fog platforms. Softw. Pract. Exp. 52(5): 1143-1169 (2022) - [c56]Tobias Pfandzelter, Trever Schirmer, David Bermbach:
Towards Distributed Coordination for Fog Platforms. CCGRID 2022: 760-762 - [c55]Soeren Becker, Tobias Pfandzelter, Nils Japke
Network Emulation in Large-Scale Virtual Edge Testbeds: A Note of Caution and the Way Forward. IC2E 2022: 1-7 - [c54]Tobias Pfandzelter, Sören Henning, Trever Schirmer, Wilhelm Hasselbring
Streaming vs. Functions: A Cost Perspective on Cloud Event Processing. IC2E 2022: 67-78 - [c53]Trever Schirmer, Joel Scheuner, Tobias Pfandzelter, David Bermbach:
Fusionize: Improving Serverless Application Performance through Feedback-Driven Function Fusion. IC2E 2022: 85-95 - [c52]Tobias Pfandzelter, David Bermbach:
QoS-Aware Resource Placement for LEO Satellite Edge Computing. ICFEC 2022: 66-72 - [c51]Ahmet-Serdar Karakaya
A Realistic Cyclist Model for SUMO Based on the SimRa Dataset. MedComNet 2022: 166-173 - [c50]Tobias Pfandzelter, David Bermbach:
Celestial: Virtual Software System Testbeds for the LEO Edge. Middleware 2022: 69-81 - [c49]Vincenzo De Maio
TAROT: Spatio-Temporal Function Placement for Serverless Smart City Applications. UCC 2022: 21-30 - [d1]Tobias Pfandzelter
Replication Package for: Streaming vs. Functions: A Cost Perspective on Cloud Event Processing. Zenodo, 2022 - [i27]David Bermbach, Sergio Lucia, Vlado Handziski, Adam Wolisz:
Towards Grassroots Peering at the Edge. CoRR abs/2201.03462 (2022) - [i26]Tobias Pfandzelter, David Bermbach:
QoS-Aware Resource Placement for LEO Satellite Edge Computing. CoRR abs/2201.05872 (2022) - [i25]Tobias Pfandzelter, Trever Schirmer, David Bermbach:
Towards Distributed Coordination for Fog Platforms. CoRR abs/2203.07934 (2022) - [i24]Tobias Pfandzelter, David Bermbach:
Celestial: Virtual Software System Testbeds for the LEO Edge. CoRR abs/2204.06282 (2022) - [i23]Ahmet-Serdar Karakaya, Thomas Ritter, Felix Biessmann, David Bermbach:
CycleSense: Detecting Near Miss Incidents in Bicycle Traffic from Mobile Motion Sensors. CoRR abs/2204.10416 (2022) - [i22]Tobias Pfandzelter, Sören Henning, Trever Schirmer, Wilhelm Hasselbring, David Bermbach:
Streaming vs. Functions: A Cost Perspective on Cloud Event Processing. CoRR abs/2204.11509 (2022) - [i21]Trever Schirmer, Joel Scheuner, Tobias Pfandzelter, David Bermbach:
Fusionize: Improving Serverless Application Performance through Feedback-Driven Function Fusion. CoRR abs/2204.11533 (2022) - [i20]Ahmet-Serdar Karakaya, Konstantin Köhler, Julian Heinovski, Falko Dressler, David Bermbach:
A Realistic Cyclist Model for SUMO Based on the SimRa Dataset. CoRR abs/2205.04538 (2022) - [i19]Soeren Becker, Tobias Pfandzelter, Nils Japke, David Bermbach, Odej Kao:
Network Emulation in Large-Scale Virtual Edge Testbeds: A Note of Caution and the Way Forward. CoRR abs/2208.05862 (2022) - [i18]Martin Grambow, Denis Kovalev, Christoph Laaber, Philipp Leitner, David Bermbach:
Using Microbenchmark Suites to Detect Application Performance Changes. CoRR abs/2212.09515 (2022) - 2021
- [j7]Martin Grambow, Christoph Laaber
Using application benchmark call graphs to quantify and improve the practical relevance of microbenchmark suites. PeerJ Comput. Sci. 7: e548 (2021) - [j6]Tobias Pfandzelter
From zero to fog: Efficient engineering of fog-based Internet of Things applications. Softw. Pract. Exp. 51(8): 1798-1821 (2021) - [c48]Tobias Pfandzelter
Edge (of the Earth) Replication: Optimizing Content Delivery in Large LEO Satellite Communication Networks. CCGRID 2021: 565-575 - [c47]Tobias Pfandzelter
Towards a Computing Platform for the LEO Edge. EdgeSys@EuroSys 2021: 43-48 - [c46]Martin Grambow, Tobias Pfandzelter, Luk Burchard, Carsten Schubert, Max Xiaohang Zhao
BeFaaS: An Application-Centric Benchmarking Framework for FaaS Platforms. IC2E 2021: 1-8 - [c45]David Bermbach, Abhishek Chandra, Chandra Krintz, Aniruddha Gokhale, Aleksander Slominski
On the Future of Cloud Engineering. IC2E 2021: 264-275 - [c44]Tobias Pfandzelter, David Bermbach:
Towards Predictive Replica Placement for Distributed Data Stores in Fog Environments. IC2E 2021: 280-281 - [c43]David Bermbach, Sergio Lucia, Vlado Handziski, Adam Wolisz:
Towards grassroots peering at the edge. M4IoT@Middleware 2021: 14-17 - [c42]Malte Bellmann, Tobias Pfandzelter, David Bermbach:
Predictive replica placement for mobile users in distributed fog data stores with client-side markov models. UCC Companion 2021: 30:1-30:8 - [e2]David Bermbach, Everton Cavalcante, Stéphane Delbruel, David M. Eyers:
M4IoT@Middleware 2021: Proceedings of the 8th International Workshop on Middleware and Applications for the Internet of Things, Virtual Event, Canada, December 6 - 10, 2021. ACM 2021, ISBN 978-1-4503-9167-2 [contents] - [i17]Martin Grambow, Tobias Pfandzelter, Luk Burchard, Carsten Schubert, Max Xiaohang Zhao, David Bermbach:
BeFaaS: An Application-Centric Benchmarking Framework for FaaS Platforms. CoRR abs/2102.12770 (2021) - [i16]Tobias Pfandzelter, Jonathan Hasenburg, David Bermbach:
Towards a Computing Platform for the LEO Edge. CoRR abs/2104.02396 (2021) - [i15]David Bermbach, Abhishek Chandra, Chandra Krintz, Aniruddha Gokhale, Aleksander Slominski, Lauritz Thamsen, Everton Cavalcante, Tian Guo, Ivona Brandic, Rich Wolski:
On the Future of Cloud Engineering. CoRR abs/2108.08685 (2021) - [i14]Tobias Pfandzelter, David Bermbach:
Towards Predictive Replica Placement for Distributed Data Stores in Fog Environments. CoRR abs/2108.10628 (2021) - [i13]David Bermbach, Jonathan Bader, Jonathan Hasenburg, Tobias Pfandzelter, Lauritz Thamsen:
AuctionWhisk: Using an Auction-Inspired Approach for Function Placement in Serverless Fog Platforms. CoRR abs/2108.13222 (2021) - [i12]Malte Bellmann, Tobias Pfandzelter, David Bermbach:
Predictive Replica Placement for Mobile Users in Distributed Fog Data Stores with Client-Side Markov Models. CoRR abs/2111.03395 (2021) - 2020
- [j5]Jonathan Hasenburg
GeoBroker: Leveraging geo-contexts for IoT data distribution. Comput. Commun. 151: 473-484 (2020) - [j4]Frank Pallas, Philip Raschke, David Bermbach:
Fog Computing as Privacy Enabler. IEEE Internet Comput. 24(4): 15-21 (2020) - [j3]Ahmet-Serdar Karakaya
SimRa: Using crowdsourcing to identify near miss hotspots in bicycle traffic. Pervasive Mob. Comput. 67: 101197 (2020) - [j2]Jonathan Hasenburg, David Bermbach
GeoBroker: A pub/sub broker considering geo-context information. Softw. Impacts 6: 100029 (2020) - [c41]Jonathan Hasenburg
Managing Latency and Excess Data Dissemination in Fog-Based Publish/Subscribe Systems. ICFC 2020: 9-16 - [c40]Tobias Pfandzelter
tinyFaaS: A Lightweight FaaS Platform for Edge Environments. ICFC 2020: 17-24 - [c39]David Bermbach, Setareh Maghsudi, Jonathan Hasenburg
Towards Auction-Based Function Placement in Serverless Fog Platforms. ICFC 2020: 25-31 - [c38]David Bermbach, Ahmet-Serdar Karakaya, Simon Buchholz:
Using application knowledge to reduce cold starts in FaaS services. SAC 2020: 134-143 - [c37]Martin Grambow, Lukas Meusel, Erik Wittern, David Bermbach:
Benchmarking microservice performance: a pattern-based approach. SAC 2020: 232-241 - [c36]Jonathan Hasenburg
Towards a replication service for data-intensive fog applications. SAC 2020: 267-270 - [c35]Jonathan Hasenburg
DisGB: Using Geo-Context Information for Efficient Routing in Geo-Distributed Pub/Sub Systems. UCC 2020: 67-78 - [i11]Jonathan Hasenburg, David Bermbach:
GeoBroker: Leveraging Geo-Contexts for IoT Data Distribution. CoRR abs/2001.01603 (2020) - [i10]Blesson Varghese, Nan Wang, David Bermbach, Cheol-Ho Hong, Eyal de Lara, Weisong Shi, Christopher Stewart:
A Survey on Edge Benchmarking. CoRR abs/2004.11725 (2020) - [i9]Ahmet-Serdar Karakaya, Jonathan Hasenburg, David Bermbach:
SimRa: Using Crowdsourcing to Identify Near Miss Hotspots in Bicycle Traffic. CoRR abs/2006.08481 (2020) - [i8]Tobias Pfandzelter, Jonathan Hasenburg, David Bermbach:
From Zero to Fog: Efficient Engineering of Fog-Based IoT Applications. CoRR abs/2008.07891 (2020) - [i7]Jonathan Hasenburg, Martin Grambow, David Bermbach:
MockFog 2.0: Automated Execution of Fog Application Experiments in the Cloud. CoRR abs/2009.10579 (2020) - [i6]Tobias Pfandzelter, David Bermbach:
Edge (of the Earth) Replication: Optimizing Content Delivery in Large LEO Satellite Communication Networks. CoRR abs/2012.08979 (2020)
2010 – 2019
- 2019
- [c34]Martin Grambow, Fabian Lehmann
Continuous Benchmarking: Using System Benchmarking in Build Pipelines. IC2E 2019: 241-246 - [c33]Jonathan Hasenburg
MockFog: Emulating Fog Computing Infrastructure in the Cloud. ICFC 2019: 144-152 - [c32]Tobias Pfandzelter
IoT Data Processing in the Fog: Functions, Streams, or Batch Processing? ICFC 2019: 201-206 - [c31]Jonathan Hasenburg
Towards Geo-Context Aware IoT Data Distribution. ICSOC Workshops 2019: 111-121 - [c30]Martin Grambow, Jonathan Hasenburg
Is it safe to dockerize my database benchmark? SAC 2019: 341-344 - [i5]David Bermbach, Erik Wittern:
Benchmarking Web API Quality - Revisited. CoRR abs/1903.07712 (2019) - [i4]Frank Pallas, Philip Raschke, David Bermbach:
Fog Computing as Privacy Enabler. CoRR abs/1910.04032 (2019) - [i3]Jonathan Hasenburg, Martin Grambow, David Bermbach:
FBase: A Replication Service for Data-Intensive Fog Applications. CoRR abs/1912.03107 (2019) - [i2]David Bermbach, Setareh Maghsudi, Jonathan Hasenburg, Tobias Pfandzelter:
Towards Auction-Based Function Placement in Serverless Fog Platforms. CoRR abs/1912.06096 (2019) - 2018
- [c29]Jonathan Hasenburg
Supporting the Evaluation of Fog-based IoT Applications During the Design Phase. M4IoT@Middleware 2018: 1-6 - [c28]Jonathan Hasenburg
FogExplorer. Middleware (Posters) 2018: 1-2 - [c27]Martin Grambow, Jonathan Hasenburg
Public Video Surveillance: Using the Fog to Increase Privacy. M4IoT@Middleware 2018: 11-14 - [r2]Stefan Tai, David Bermbach:
Cloud Computing. Encyclopedia of Social Network Analysis and Mining. 2nd Ed. 2018 - [i1]Martin Grambow, Jonathan Hasenburg, Tobias Pfandzelter, David Bermbach:
Dockerization Impacts in Database Performance Benchmarking. CoRR abs/1812.04362 (2018) - 2017
- [b2]David Bermbach, Erik Wittern, Stefan Tai:
Cloud Service Benchmarking - Measuring Quality of Cloud Services from a Client Perspective. Springer 2017, ISBN 978-3-319-55482-2, pp. 1-167 - [j1]David Bermbach:
Quality of Cloud Services: Expect the Unexpected. IEEE Internet Comput. 21(1): 68-72 (2017) - [c26]Pierluigi Plebani, David García-Pérez, Maya Anderson, David Bermbach, Cinzia Cappiello, Ronen I. Kat, Frank Pallas, Barbara Pernici, Stefan Tai, Monica Vitali:
Information Logistics and Fog Computing: The DITAS* Approach. CAiSE-Forum-DC 2017: 129-136 - [c25]David Bermbach, Jacob Eberhardt:
Audio-visual Cues for Cloud Service Monitoring. CLOSER 2017: 439-446 - [c24]Pierluigi Plebani
DITAS: Unleashing the Potential of Fog Computing to Improve Data-Intensive Applications. ESOCC Workshops 2017: 154-158 - [c23]David Bermbach, Frank Pallas, David García-Pérez, Pierluigi Plebani
A Research Perspective on Fog Computing. ICSOC Workshops 2017: 198-210 - [c22]Sebastian Werner
Designing Suitable Access Control for Web-Connected Smart Home Platforms. ICSOC Workshops 2017: 240-251 - [c21]David Bermbach, Jörn Kuhlenkamp, Akon Dey, Arunmoezhi Ramachandran
BenchFoundry: A Benchmarking Framework for Cloud Storage Services. ICSOC 2017: 314-330 - [c20]Frank Pallas, David Bermbach, Steffen Müller, Stefan Tai:
Evidence-based security configurations for cloud datastores. SAC 2017: 424-430 - [e1]Thaís Vasconcelos Batista, Stéphane Delbruel, David Bermbach, David M. Eyers, Danny Hughes, Chantal Taconet, Erik Wittern:
Proceedings of the 4th Workshop on Middleware and Applications for the Internet of Things, M4IoT@Middleware 2017, Las Vegas, NV, USA, December 11, 2017. ACM 2017, ISBN 978-1-4503-5170-6 [contents] - 2016
- [c19]Frank Pallas, Johannes Günther, David Bermbach:
Pick your choice in HBase: Security or performance. IEEE BigData 2016: 548-554 - [c18]David Bermbach, Dominik Ernst:
Cloud Engineering in Education. IC2E Workshops 2016: 190 - [c17]David Bermbach, Jacob Eberhardt:
Towards Audio-Visual Cues for Cloud Infrastructure Monitoring. IC2E 2016: 218-219 - [c16]David Bermbach, Erik Wittern:
Benchmarking Web API Quality. ICWE 2016: 188-206 - 2015
- [c15]David Bermbach:
An Introduction to Cloud Benchmarking. IC2E 2015: 3 - [c14]Jörn Kuhlenkamp, Kevin Rudolph, David Bermbach:
AISLE: Assessment of Provisioned Service Levels in Public IaaS-Based Database Systems. ICSOC 2015: 154-168 - [c13]David Bermbach, Steffen Müller, Jacob Eberhardt, Stefan Tai:
Informed Schema Design for Column Store-Based Database Services. SOCA 2015: 163-172 - 2014
- [b1]David Bermbach:
Benchmarking eventually consistent distributed storage systems. KIT Scientific Publishing 2014, ISBN 978-3-7315-0186-2, pp. I-VIII, 1-183 - [c12]Steffen Müller, David Bermbach, Stefan Tai, Frank Pallas:
Benchmarking the Performance Impact of Transport Layer Security in Cloud Database Systems. IC2E 2014: 27-36 - [c11]David Bermbach, Stefan Tai:
Benchmarking Eventual Consistency: Lessons Learned from Long-Term Experimental Studies. IC2E 2014: 47-56 - [c10]David Bermbach, Jörn Kuhlenkamp, Akon Dey, Sherif Sakr
Towards an Extensible Middleware for Database Benchmarking. TPCTC 2014: 82-96 - [p1]David Bermbach:
Messbarkeit und Beeinflussung von Eventual-Consistency in verteilten Datenspeichersystemen. Ausgezeichnete Informatikdissertationen 2014: 41-50 - [r1]Stefan Tai, David Bermbach:
Cloud Computing. Encyclopedia of Social Network Analysis and Mining 2014: 94-100 - 2013
- [c9]David Bermbach, Tobias Kurze, Stefan Tai:
Cloud Federation: Effects of Federated Compute Resources on Quality of Service and Cost. IC2E 2013: 31-37 - [c8]David Bermbach, Jörn Kuhlenkamp, Bugra Derre, Markus Klems, Stefan Tai:
A Middleware Guaranteeing Client-Centric Consistency on Top of Eventually Consistent Datastores. IC2E 2013: 114-123 - [c7]David Bermbach, Jörn Kuhlenkamp:
Consistency in Distributed Storage Systems - An Overview of Models, Metrics and Measurement Approaches. NETYS 2013: 175-189 - [c6]David Bermbach, Liang Zhao, Sherif Sakr
Towards Comprehensive Measurement of Consistency Guarantees for Cloud-Hosted Data Storage Services. TPCTC 2013: 32-47 - 2012
- [c5]Markus Klems, David Bermbach, Rene Weinert:
A Runtime Quality Measurement Framework for Cloud Database Service Systems. QUATIC 2012: 38-46 - 2011
- [c4]David Bermbach, Markus Klems, Stefan Tai, Michael Menzel:
MetaStorage: A Federated Cloud Storage System to Manage Consistency-Latency Tradeoffs. IEEE CLOUD 2011: 452-459 - [c3]David Bermbach, Robert Kern, Pascal Wichmann, Sandra Rath, Christian Zirpins:
An Extendable Toolkit for Managing Quality of Human-Based Electronic Services. Human Computation 2011 - [c2]David Bermbach, Stefan Tai:
Eventual consistency: How soon is eventual? An evaluation of Amazon S3's consistency behavior. MW4SOC 2011: 1 - [c1]Alexander Lenk, Carsten Dänschel, Markus Klems, David Bermbach, Tobias Kurze:
Requirements for an IaaS deployment language in federated Clouds. SOCA 2011: 1-4
Coauthor Index
[c80] [c79] [c78] [c77] [c76] [c75] [c74] [c73] [i52] [i51] [i50] [i49] [i48] [i47] [i46] [j14] [c72] [c71] [c70] [c68] [c67] [c66] [c65] [c64] [c63] [c62] [c61] [c59] [c58] [i45] [i44] [i43] [i42] [i41] [i39] [i38] [i37] [i36] [i35] [i34] [i33] [i32] [i29] [i28] [j8] [c56] [c55] [c54] [c53] [c52] [c50] [d1] [i26] [i25] [i24] [i22] [i21] [i19] [j6] [c48] [c47] [c46] [c44] [c42] [i17] [i16] [i14] [i13] [i12] [c40] [c39] [i8] [i6] [c32] [c30] [i2] [i1]
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