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ORCIDMarco Zimmerling
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- affiliation: TU Darmstadt, Germany
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2020 – today
- 2024
[j11]Saad Ahmed, Bashima Islam, Kasim Sinan Yildirim
, Marco Zimmerling, Przemyslaw Pawelczak, Muhammad Hamad Alizai, Brandon Lucia, Luca Mottola, Jacob Sorber, Josiah D. Hester:
The Internet of Batteryless Things. Commun. ACM 67(3): 64-73 (2024)- [c62]Max Granzow, Alexander Heinrich, Matthias Hollick, Marco Zimmerling:
Poster: Leveraging Apple's Find My Network for Large-Scale Distributed Sensing. MobiSys 2024: 666-667 - [c61]Kai Geissdoerfer, Marco Zimmerling:
Riotee: An Open-source Hardware and Software Platform for the Battery-free Internet of Things. SenSys 2024: 198-210 - [c60]Kai Geissdoerfer, Marco Zimmerling:
Demo: Battery-free TinyML Made Easy with Riotee. SenSys 2024: 883-884 - 2023
- [c59]Moid Sandhu, Milan Deumer, Brano Kusy, Marco Zimmerling, Raja Jurdak:
A battery-free wearable system for on-device human activity recognition using kinetic energy harvesting. EWSN 2023: 163-169 - [c58]Andreas Biri, Marco Zimmerling, Lothar Thiele:
Demos: Robust Orchestration for Autonomous Networking. EWSN 2023: 219-230 - [c57]Andreas Biri, Reto Da Forno, Tobias Kuonen, Fabian Mager, Marco Zimmerling, Lothar Thiele:
Hydra: Concurrent Coordination for Fault-tolerant Networking. IPSN 2023: 219-232 - [c56]Kai Geissdoerfer, Ingmar Splitt, Marco Zimmerling:
Demo Abstract: Building Battery-free Devices with Riotee✱. IPSN 2023: 354-355 - [i13]Haitham Hassanieh, Kyle Jamieson, Luca Mottola, Longfei Shangguan, Xia Zhou, Marco Zimmerling:
Novel Scenarios for the Wireless Internet of Things (Dagstuhl Seminar 23222). Dagstuhl Reports 13(5): 182-205 (2023) - 2022
- [j10]Fabian Mager, Dominik Baumann, Carsten Herrmann, Sebastian Trimpe, Marco Zimmerling:
Scaling beyond Bandwidth Limitations: Wireless Control with Stability Guarantees under Overload. ACM Trans. Cyber Phys. Syst. 6(3): 20:1-20:30 (2022) - [c55]Carsten Herrmann, Marco Zimmerling:
RSSISPY: Inspecting Concurrent Transmissions in the Wild. EWSN 2022: 48-59 - [c54]Fabian Mager, Andreas Biri, Lothar Thiele, Marco Zimmerling:
BUTLER: Increasing the Availability of Low-Power Wireless Communication Protocols. EWSN 2022: 108-119 - [c53]Carsten Herrmann, Marco Zimmerling:
Demo: Exploring Concurrent Transmissions with RSSISPY and TRAFFICBENCH. EWSN 2022: 220-221 - [c52]Kai Geissdoerfer, Marco Zimmerling:
Learning to Communicate Effectively Between Battery-free Devices. NSDI 2022: 419-435 - 2021
- [j9]Marco Zimmerling, Luca Mottola, Silvia Santini:
Synchronous Transmissions in Low-Power Wireless: A Survey of Communication Protocols and Network Services. ACM Comput. Surv. 53(6): 121:1-121:39 (2021) - [j8]Romain Jacob, Marco Zimmerling, Carlo Alberto Boano, Laurent Vanbever, Lothar Thiele:
[Tool] Designing Replicable Networking Experiments With Triscale. J. Syst. Res. 1(1) (2021) - [j7]Dominik Baumann, Fabian Mager, Ulf Wetzker, Lothar Thiele, Marco Zimmerling, Sebastian Trimpe:
Wireless Control for Smart Manufacturing: Recent Approaches and Open Challenges. Proc. IEEE 109(4): 441-467 (2021) - [c51]Kai Geissdoerfer, Marco Zimmerling:
Bootstrapping Battery-free Wireless Networks: Efficient Neighbor Discovery and Synchronization in the Face of Intermittency. NSDI 2021: 439-455 - [i12]Fabian Mager, Dominik Baumann, Carsten Herrmann, Sebastian Trimpe, Marco Zimmerling:
Scaling Beyond Bandwidth Limitations: Wireless Control With Stability Guarantees Under Overload. CoRR abs/2104.07989 (2021) - 2020
- [j6]Dominik Baumann, Fabian Mager, Marco Zimmerling, Sebastian Trimpe:
Control-Guided Communication: Efficient Resource Arbitration and Allocation in Multi-Hop Wireless Control Systems. IEEE Control. Syst. Lett. 4(1): 127-132 (2020) - [j5]Romain Jacob, Licong Zhang, Marco Zimmerling, Jan Beutel, Samarjit Chakraborty, Lothar Thiele:
The Time-Triggered Wireless Architecture (Artifact). Dagstuhl Artifacts Ser. 6(1): 05:1-05:3 (2020) - [j4]Kai Geissdoerfer, Mikolaj Chwalisz, Marco Zimmerling:
Taking a Deep Dive Into The Batteryless Internet of Things With Shepherd. GetMobile Mob. Comput. Commun. 24(3): 5-8 (2020) - [j3]Dominik Baumann, Fabian Mager, Romain Jacob, Lothar Thiele, Marco Zimmerling, Sebastian Trimpe:
Fast Feedback Control over Multi-hop Wireless Networks with Mode Changes and Stability Guarantees. ACM Trans. Cyber Phys. Syst. 4(2): 18:1-18:32 (2020) - [c50]Romain Jacob, Licong Zhang, Marco Zimmerling, Jan Beutel, Samarjit Chakraborty, Lothar Thiele:
The Time-Triggered Wireless Architecture. ECRTS 2020: 19:1-19:25 - [c49]Kai Geissdoerfer, Friedrich Schmidt, Brano Kusy, Marco Zimmerling:
Demo Abstract: Bootstrapping Batteryless Networks Using Fluorescent Light Properties. IPSN 2020: 357-358 - [i11]Marco Zimmerling, Luca Mottola, Silvia Santini:
Synchronous Transmissions in Low-Power Wireless: A Survey of Communication Protocols and Network Services. CoRR abs/2001.08557 (2020) - [i10]Romain Jacob, Licong Zhang, Marco Zimmerling, Samarjit Chakraborty, Lothar Thiele:
The Time-Triggered Wireless Architecture. CoRR abs/2002.07491 (2020) - [i9]Dominik Baumann, Fabian Mager, Ulf Wetzker, Lothar Thiele, Marco Zimmerling, Sebastian Trimpe:
Wireless Control for Smart Manufacturing: Recent Approaches and Open Challenges. CoRR abs/2010.09087 (2020)
2010 – 2019
- 2019
- [c48]Romain Jacob, Carlo Alberto Boano, Usman Raza, Marco Zimmerling, Lothar Thiele:
Towards a methodology for experimental evaluation in low-power wireless networking. Bench@CPSIoTWeek 2019: 18-23 - [c47]Fabian Mager, Romain Jacob, Reto Da Forno, Marco Zimmerling:
Competition: Low-Power Wireless Bus Baseline. EWSN 2019: 292-293 - [c46]Fabian Mager, Romain Jacob, Reto Da Forno, Marco Zimmerling:
Competition: Keep it Simple, Let Flooding Shine. EWSN 2019: 294-295 - [c45]Fabian Mager, Dominik Baumann, Romain Jacob, Lothar Thiele, Sebastian Trimpe, Marco Zimmerling:
Feedback control goes wireless: guaranteed stability over low-power multi-hop networks. ICCPS 2019: 97-108 - [c44]Kai Geissdoerfer, Raja Jurdak, Brano Kusy, Marco Zimmerling:
Getting more out of energy-harvesting systems: energy management under time-varying utility with PreAct. IPSN 2019: 109-120 - [c43]Fabian Mager, Dominik Baumann, Romain Jacob, Lothar Thiele, Sebastian Trimpe, Marco Zimmerling:
Fast feedback control and coordination with mode changes for wireless cyber-physical systems: demo abstract. IPSN 2019: 340-341 - [c42]Kai Geissdoerfer, Mikolaj Chwalisz, Marco Zimmerling:
Shepherd: a portable testbed for the batteryless IoT. SenSys 2019: 83-95 - [c41]Kai Geissdoerfer, Mikolaj Chwalisz, Marco Zimmerling:
Detailed recording and emulation of spatio-temporal energy environments with shepherd: demo abstract. SenSys 2019: 390-391 - [e2]Marco Zimmerling:
Proceedings of the 2nd Workshop on Benchmarking Cyber-Physical Systems and Internet of Things, Bench@CPSIoTWeek 2019, Montreal, QC, Canada, April 15, 2019. ACM 2019, ISBN 978-1-4503-6693-9 [contents] - [i8]Dominik Baumann, Fabian Mager, Marco Zimmerling, Sebastian Trimpe:
Control-guided Communication: Efficient Resource Arbitration and Allocation in Multi-hop Wireless Control Systems. CoRR abs/1906.03458 (2019) - [i7]Fabian Mager, Dominik Baumann, Romain Jacob, Lothar Thiele, Sebastian Trimpe, Marco Zimmerling:
Demo Abstract: Fast Feedback Control and Coordination with Mode Changes for Wireless Cyber-Physical Systems. CoRR abs/1906.05554 (2019) - [i6]Dominik Baumann, Fabian Mager, Romain Jacob, Lothar Thiele, Marco Zimmerling, Sebastian Trimpe:
Fast Feedback Control over Multi-hop Wireless Networks with Mode Changes and Stability Guarantees. CoRR abs/1909.10873 (2019) - 2018
- [c40]Dominik Baumann, Fabian Mager, Harsoveet Singh, Marco Zimmerling, Sebastian Trimpe:
Evaluating Low-Power Wireless Cyber-Physical Systems. Bench@CPSWeek 2018: 13-18 - [c39]Carlo Alberto Boano, Simon Duquennoy, Anna Förster, Omprakash Gnawali, Romain Jacob, Hyung-Sin Kim, Olaf Landsiedel, Ramona Marfievici, Luca Mottola, Gian Pietro Picco, Xavier Vilajosana, Thomas Watteyne, Marco Zimmerling:
IoTBench: Towards a Benchmark for Low-Power Wireless Networking. Bench@CPSWeek 2018: 36-41 - [c38]Romain Jacob, Licong Zhang, Marco Zimmerling, Jan Beutel, Samarjit Chakraborty, Lothar Thiele:
TTW: A Time-Triggered Wireless design for CPS. DATE 2018: 865-868 - [c37]Fabian Mager, Dominik Baumann, Sebastian Trimpe, Marco Zimmerling:
Toward fast closed-loop control over multi-hop low-power wireless networks: poster abstract. IPSN 2018: 158-159 - [c36]Carsten Herrmann, Fabian Mager, Marco Zimmerling:
Mixer: Efficient Many-to-All Broadcast in Dynamic Wireless Mesh Networks. SenSys 2018: 145-158 - [i5]Fabian Mager, Dominik Baumann, Romain Jacob, Lothar Thiele, Sebastian Trimpe, Marco Zimmerling:
Feedback Control Goes Wireless: Guaranteed Stability over Low-power Multi-hop Networks. CoRR abs/1804.08986 (2018) - [i4]Dominik Baumann, Fabian Mager, Harsoveet Singh, Marco Zimmerling, Sebastian Trimpe:
Evaluating Low-Power Wireless Cyber-Physical Systems. CoRR abs/1804.09582 (2018) - 2017
- [j2]Marco Zimmerling, Luca Mottola, Pratyush Kumar, Federico Ferrari, Lothar Thiele:
Adaptive Real-Time Communication for Wireless Cyber-Physical Systems. ACM Trans. Cyber Phys. Syst. 1(2): 8:1-8:29 (2017) - [c35]Alex Bereza, Ulf Wetzker, Carsten Herrmann, Carlo Alberto Boano, Marco Zimmerling:
Demo: Cross-Technology Communication between BLE and Wi-Fi using Commodity Hardware. EWSN 2017: 234-235 - [c34]Fabian Mager, Carsten Herrmann, Marco Zimmerling:
One for All, All for One: Toward Efficient Many-to-Many Broadcast in Dynamic Wireless Networks. HotWireless@MobiCom 2017: 19-23 - [c33]Michael Spörk, Carlo Alberto Boano, Marco Zimmerling, Kay Römer:
BLEach: Exploiting the Full Potential of IPv6 over BLE in Constrained Embedded IoT Devices. SenSys 2017: 2:1-2:14 - [c32]Romain Jacob, Jan Beutel, Lothar Thiele, Licong Zhang, Samarjit Chakraborty, Marco Zimmerling:
Stalwart: a Predictable Reliable Adaptive and Low-latency Real-time Wireless Protocol. SenSys 2017: 58:1-58:2 - [i3]Jens Karschau, Marco Zimmerling, Benjamin M. Friedrich:
Renormalization group theory for percolation in time-varying networks. CoRR abs/1708.05704 (2017) - [i2]Romain Jacob, Licong Zhang, Marco Zimmerling, Jan Beutel, Samarjit Chakraborty, Lothar Thiele:
TTW: A Time-Triggered-Wireless Design for CPS [ Extended version ]. CoRR abs/1711.05581 (2017) - 2016
- [c31]Ulf Wetzker, Ingmar Splitt, Marco Zimmerling, Carlo Alberto Boano, Kay Römer:
Troubleshooting Wireless Coexistence Problems in the Industrial Internet of Things. CSE/EUC/DCABES 2016: 98 - [c30]Romain Jacob, Marco Zimmerling, Pengcheng Huang, Jan Beutel, Lothar Thiele:
End-to-End Real-Time Guarantees in Wireless Cyber-Physical Systems. RTSS 2016: 167-178 - [c29]Marco Cattani, Andreas Loukas, Marco Zimmerling, Marco Zuniga, Koen Langendoen:
Staffetta: Smart Duty-Cycling for Opportunistic Data Collection. SenSys 2016: 56-69 - [c28]Simon Duquennoy, Olaf Landsiedel, Carlo Alberto Boano, Marco Zimmerling, Jan Beutel, Mun Choon Chan, Omprakash Gnawali, Mobashir Mohammad, Luca Mottola, Lothar Thiele, Xavier Vilajosana, Thiemo Voigt, Thomas Watteyne:
A Benchmark for Low-power Wireless Networking: Poster Abstract. SenSys 2016: 332-333 - [c27]Fabian Mager, Johannes Neumann, Carsten Herrmann, Marco Zimmerling, Frank H. P. Fitzek:
All-to-all Communication in Multi-hop Wireless Networks with Mixer: Poster Abstract. SenSys 2016: 360-361 - 2015
- [c26]Roman Lim, Marco Zimmerling, Lothar Thiele:
Passive, Privacy-Preserving Real-Time Counting of Unmodified Smartphones via ZigBee Interference. DCOSS 2015: 115-126 - [c25]Felix Sutton, Reto Da Forno, Marco Zimmerling, Roman Lim, Tonio Gsell, Federico Ferrari, Jan Beutel, Lothar Thiele:
Predictable wireless embedded platforms. IPSN 2015: 358-359 - [c24]Felix Sutton, Marco Zimmerling, Reto Da Forno, Roman Lim, Tonio Gsell, Georgia Giannopoulou, Federico Ferrari, Jan Beutel, Lothar Thiele:
Bolt: A Stateful Processor Interconnect. SenSys 2015: 267-280 - [c23]Felix Sutton, Marco Zimmerling, Reto Da Forno, Roman Lim, Tonio Gsell, Georgia Giannopoulou, Federico Ferrari, Jan Beutel, Lothar Thiele:
Demo: Building Reliable Wireless Embedded Platforms using the Bolt Processor Interconnect. SenSys 2015: 461-462 - 2014
- [c22]Felix Sutton, Reto Da Forno, Roman Lim, Marco Zimmerling, Lothar Thiele:
Demonstration abstract: automatic speech recognition for resource-constrained embedded systems. IPSN 2014: 323-324 - [c21]Felix Jonathan Oppermann, Carlo Alberto Boano, Marco Zimmerling, Kay Römer:
Automatic configuration of controlled interference experiments in sensornet testbeds. SenSys 2014: 342-343 - [e1]Koen Langendoen, Wen Hu, Federico Ferrari, Marco Zimmerling, Luca Mottola:
Real-World Wireless Sensor Networks - Proceedings of the 5th International Workshop, REALWSN 2013, Como, Italy, September 19-20, 2013. Lecture Notes in Electrical Engineering 281, Springer 2014, ISBN 978-3-319-03070-8 [contents] - 2013
- [c20]Roman Lim, Federico Ferrari, Marco Zimmerling, Christoph Walser, Philipp Sommer, Jan Beutel:
FlockLab: a testbed for distributed, synchronized tracing and profiling of wireless embedded systems. IPSN 2013: 153-166 - [c19]Marco Zimmerling, Federico Ferrari, Luca Mottola, Lothar Thiele:
On Modeling Low-Power Wireless Protocols Based on Synchronous Packet Transmissions. MASCOTS 2013: 546-555 - [c18]Olaf Landsiedel, Federico Ferrari, Marco Zimmerling:
Chaos: versatile and efficient all-to-all data sharing and in-network processing at scale. SenSys 2013: 1:1-1:14 - [c17]Marco Zimmerling, Federico Ferrari, Roman Lim, Olga Saukh, Felix Sutton, Reto Da Forno, Remo S. Schmidt, Marc André Wyss:
A reliable wireless nurse call system: overview and pilot results from a summer camp for teenagers with duchenne muscular dystrophy. SenSys 2013: 35:1-35:2 - [c16]Marco Zimmerling, Federico Ferrari, Luca Mottola, Lothar Thiele:
Synchronous transmissions enable simple yet accurate protocol modeling. SenSys 2013: 45:1-45:2 - [c15]Federico Ferrari, Marco Zimmerling, Luca Mottola, Lothar Thiele:
Virtual Synchrony Guarantees for Cyber-physical Systems. SRDS 2013: 20-30 - 2012
- [c14]Federico Ferrari, Marco Zimmerling, Lothar Thiele, Luca Mottola:
The low-power wireless bus: simplicity is (again) the soul of efficiency. IPSN 2012: 93-94 - [c13]Marco Zimmerling, Federico Ferrari, Luca Mottola, Thiemo Voigt, Lothar Thiele:
pTunes: runtime parameter adaptation for low-power MAC protocols. IPSN 2012: 173-184 - [c12]Federico Ferrari, Marco Zimmerling, Lothar Thiele, Luca Mottola:
The bus goes wireless: Routing-free data collection with QoS guarantees in sensor networks. PerCom Workshops 2012: 26-31 - [c11]Federico Ferrari, Marco Zimmerling, Luca Mottola, Lothar Thiele:
Low-power wireless bus. SenSys 2012: 1-14 - [c10]Olaf Landsiedel, Federico Ferrari, Marco Zimmerling:
Capture effect based communication primitives: closing the loop in wireless cyber-physical systems. SenSys 2012: 341-342 - [c9]Roman Lim, Christoph Walser, Federico Ferrari, Marco Zimmerling, Jan Beutel:
Distributed and synchronized measurements with FlockLab. SenSys 2012: 373-374 - 2011
- [c8]Jan Beutel, Bernhard Buchli, Federico Ferrari, Matthias Keller, Marco Zimmerling, Lothar Thiele:
X-SENSE: Sensing in extreme environments. DATE 2011: 1460-1465 - [c7]Federico Ferrari, Marco Zimmerling, Lothar Thiele, Olga Saukh:
Efficient network flooding and time synchronization with Glossy. IPSN 2011: 73-84 - [i1]David Hasenfratz, Andreas Meier, Matthias Woehrle, Marco Zimmerling, Lothar Thiele:
Poster Abstract: If You Have Time, Save Energy with Pull. CoRR abs/1103.5695 (2011) - 2010
- [c6]Andreas Meier, Matthias Woehrle, Marco Zimmerling, Lothar Thiele:
ZeroCal: Automatic MAC Protocol Calibration. DCOSS 2010: 31-44 - [c5]Marco Zimmerling, Federico Ferrari, Matthias Woehrle, Lothar Thiele:
Exploiting protocol models for generating feasible communication stack configurations. IPSN 2010: 380-381 - [c4]David Hasenfratz, Andreas Meier, Matthias Woehrle, Marco Zimmerling, Lothar Thiele:
If you have time, save energy with pull. SenSys 2010: 423-424
2000 – 2009
- 2009
- [j1]Marco Zimmerling:
Energieeffizientes Routing in linearen Sensornetzwerken. Inform. Spektrum 32(5): 410-415 (2009) - 2008
- [c3]Marco Zimmerling:
An Energy-Efficient Routing Protocol for Linear Wireless Sensor Networks. Informatiktage 2008: 239-242 - [c2]Marco Zimmerling, Waltenegus Dargie, Johnathan M. Reason:
Localized power-aware routing in linear wireless sensor networks. CASEMANS 2008: 24-33 - 2007
- [c1]Marco Zimmerling, Waltenegus Dargie, Johnathan M. Reason:
Energy-Efficient Routing in Linear Wireless Sensor Networks. MASS 2007: 1-3
Coauthor Index
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