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Maarten Weyn
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2020 – today
- 2024
- [j42]Priyesh Pappinisseri Puluckul, Maarten Weyn:
Harvesting Energy From Soil-Air Temperature Differences for Batteryless IoT Devices: A Case Study. IEEE Access 12: 85306-85323 (2024) - [j41]Priyesh Pappinisseri Puluckul, Ritesh Kumar Singh, Maarten Weyn:
TEGBed: A thermal energy harvesting testbed for batteryless internet of things. Internet Things 25: 101060 (2024) - [c41]Xinlei Liu, Andrey Belogaev, Jonathan Oostvogels, Bingwu Fang, Danny Hughes, Maarten Weyn, Jeroen Famaey:
Low-latency Symbol-Synchronous Communication for Multi-hop Sensor Networks. EuCNC/6G Summit 2024: 1096-1101 - [i3]Priyesh Pappinisseri Puluckul, Maarten Weyn:
InfiniteEn: A Multi-Source Energy Harvesting System with Load Monitoring Module for Batteryless Internet of Things. CoRR abs/2401.14216 (2024) - [i2]Priyesh Pappinisseri Puluckul, Maarten Weyn:
Harvesting Energy from Soil-Air Temperature Differences for Batteryless IoT Devices: A Case Study. CoRR abs/2405.02986 (2024) - [i1]Xinlei Liu, Andrey Belogaev, Jonathan Oostvogels, Bingwu Fang, Danny Hughes, Maarten Weyn, Jeroen Famaey:
Low-latency Symbol-Synchronous Communication for Multi-hop Sensor Networks. CoRR abs/2405.10063 (2024) - 2023
- [j40]Thomas Janssen, Axel Koppert, Rafael Berkvens, Maarten Weyn:
A Survey on IoT Positioning Leveraging LPWAN, GNSS, and LEO-PNT. IEEE Internet Things J. 10(13): 11135-11159 (2023) - [j39]Rreze Halili, Faqir Zarrar Yousaf, Nina Slamnik-Krijestorac, Girma M. Yilma, Marco Liebsch, Rafael Berkvens, Maarten Weyn:
Self-Correcting Algorithm for Estimated Time of Arrival of Emergency Responders on the Highway. IEEE Trans. Veh. Technol. 72(1): 340-356 (2023) - [j38]Jalal Jalali, Ata Khalili, Atefeh Rezaei, Rafael Berkvens, Maarten Weyn, Jeroen Famaey:
IRS-Based Energy Efficiency and Admission Control Maximization for IoT Users With Short Packet Lengths. IEEE Trans. Veh. Technol. 72(9): 12379-12384 (2023) - [c40]Mohammad Hasan Rahmani, Rafael Berkvens, Maarten Weyn:
ColEmo: A Flexible Open Source Software Interface for Collecting Emotion Data. ACIIW 2023: 1-8 - [c39]Dennis Joosens, Abdil Kaya, Maarten Weyn, Rafael Berkvens:
Crowd Size Estimation with Passive Electromagnetic Sensing. ICC Workshops 2023: 672-678 - [c38]Mohammad Hasan Rahmani, Maarten Weyn, Rafael Berkvens:
Low-Power and Cost-Effective Context Information Estimation for Wearables. PerCom Workshops 2023: 231-232 - [c37]Priyesh Pappinisseri Puluckul, Maarten Weyn:
InfiniteEn: A Multi-Source Energy Harvesting System with Load Monitoring Module for Batteryless Internet of Things. WF-IoT 2023: 1-8 - 2022
- [j37]Matteo Ridolfi, Abdil Kaya, Rafael Berkvens, Maarten Weyn, Wout Joseph, Eli De Poorter:
Self-calibration and Collaborative Localization for UWB Positioning Systems: A Survey and Future Research Directions. ACM Comput. Surv. 54(4): 88:1-88:27 (2022) - [j36]Michiel Aernouts, Thomas Janssen, Rafael Berkvens, Maarten Weyn:
LoRa Localization: With GNSS or Without? IEEE Internet Things Mag. 5(3): 152-157 (2022) - [j35]Rreze Halili, Noori BniLam, Marwan Yusuf, Emmeric Tanghe, Wout Joseph, Maarten Weyn, Rafael Berkvens:
Vehicle Localization Using Doppler Shift and Time of Arrival Measurements in a Tunnel Environment. Sensors 22(3): 847 (2022) - [j34]Ritesh Kumar Singh, Mohammad Hasan Rahmani, Maarten Weyn, Rafael Berkvens:
Joint Communication and Sensing: A Proof of Concept and Datasets for Greenhouse Monitoring Using LoRaWAN. Sensors 22(4): 1326 (2022) - [j33]Priyesh Pappinisseri Puluckul, Maarten Weyn:
Battery-Less Environment Sensor Using Thermoelectric Energy Harvesting from Soil-Ambient Air Temperature Differences. Sensors 22(13): 4737 (2022) - [j32]Abdil Kaya, Brecht De Beelde, Wout Joseph, Maarten Weyn, Rafael Berkvens:
Geodesic Path Model for Indoor Propagation Loss Prediction of Narrowband Channels. Sensors 22(13): 4903 (2022) - [c36]Wout Van Uytsel, Thomas Janssen, Rreze Halili, Maarten Weyn:
Exploring Positioning Through Pseudoranges Using Low Earth Orbit Satellites. 3PGCIC 2022: 278-287 - 2021
- [j31]Noori BniLam, Dennis Joosens, Rafael Berkvens, Jan Steckel, Maarten Weyn:
AoA-Based Localization System Using a Single IoT Gateway: An Application for Smart Pedestrian Crossing. IEEE Access 9: 13532-13541 (2021) - [j30]Ritesh Kumar Singh, Rafael Berkvens, Maarten Weyn:
AgriFusion: An Architecture for IoT and Emerging Technologies Based on a Precision Agriculture Survey. IEEE Access 9: 136253-136283 (2021) - [j29]Rreze Halili, Maarten Weyn, Rafael Berkvens:
Comparing Localization Performance of IEEE 802.11p and LTE-V V2I Communications. Sensors 21(6): 2031 (2021) - [j28]Mohammad Hasan Rahmani, Rafael Berkvens, Maarten Weyn:
Chest-Worn Inertial Sensors: A Survey of Applications and Methods. Sensors 21(8): 2875 (2021) - [j27]Stijn Denis, Ben Bellekens, Maarten Weyn, Rafael Berkvens:
Sensing Thousands of Visitors Using Radio Frequency. IEEE Syst. J. 15(4): 5090-5093 (2021) - [j26]Noori BniLam, Dennis Joosens, Michiel Aernouts, Jan Steckel, Maarten Weyn:
LoRay: AoA Estimation System for Long Range Communication Networks. IEEE Trans. Wirel. Commun. 20(3): 2005-2018 (2021) - [c35]Abdil Kaya, Maarten Weyn, Rafael Berkvens:
Sub-GHz Cooperative Container Stack Estimation. COMSNETS 2021: 384-386 - [c34]Jalal Jalali, Abdil Kaya, Maarten Weyn, Rafael Berkvens:
Activity Monitoring at an Intersection Using a Sub-GHz Wireless Sensor Network. VTC Fall 2021: 1-6 - 2020
- [j25]Noori BniLam, Emmeric Tanghe, Jan Steckel, Wout Joseph, Maarten Weyn:
ANGLE: ANGular Location Estimation Algorithms. IEEE Access 8: 14620-14629 (2020) - [j24]Abdil Kaya, Stijn Denis, Ben Bellekens, Maarten Weyn, Rafael Berkvens:
Large-Scale Dataset for Radio Frequency-Based Device-Free Crowd Estimation. Data 5(2): 52 (2020) - [j23]Ritesh Kumar Singh, Rafael Berkvens, Maarten Weyn:
Synchronization and efficient channel hopping for power efficiency in LoRa networks: A comprehensive study. Internet Things 11: 100233 (2020) - [j22]Thomas Janssen, Rafael Berkvens, Maarten Weyn:
Benchmarking RSS-based localization algorithms with LoRaWAN. Internet Things 11: 100235 (2020) - [j21]Michiel Aernouts, Noori BniLam, Rafael Berkvens, Maarten Weyn:
TDAoA: A combination of TDoA and AoA localization with LoRaWAN. Internet Things 11: 100236 (2020) - [j20]Ritesh Kumar Singh, Michiel Aernouts, Mats De Meyer, Maarten Weyn, Rafael Berkvens:
Leveraging LoRaWAN Technology for Precision Agriculture in Greenhouses. Sensors 20(7): 1827 (2020) - [j19]Stijn Denis, Ben Bellekens, Abdil Kaya, Rafael Berkvens, Maarten Weyn:
Large-Scale Crowd Analysis through the Use of Passive Radio Sensing Networks. Sensors 20(9): 2624 (2020) - [j18]Thomas Janssen, Noori BniLam, Michiel Aernouts, Rafael Berkvens, Maarten Weyn:
LoRa 2.4 GHz Communication Link and Range. Sensors 20(16): 4366 (2020) - [j17]Michiel Aernouts, Filip Lemic, Bart Moons, Jeroen Famaey, Jeroen Hoebeke, Maarten Weyn, Rafael Berkvens:
A Multimodal Localization Framework Design for IoT Applications. Sensors 20(16): 4622 (2020) - [j16]Ritesh Kumar Singh, Priyesh Pappinisseri Puluckul, Rafael Berkvens, Maarten Weyn:
Energy Consumption Analysis of LPWAN Technologies and Lifetime Estimation for IoT Application. Sensors 20(17): 4794 (2020) - [j15]Nico Podevijn, Jens Trogh, Michiel Aernouts, Rafael Berkvens, Luc Martens, Maarten Weyn, Wout Joseph, David Plets:
LoRaWAN Geo-Tracking Using Map Matching and Compass Sensor Fusion. Sensors 20(20): 5815 (2020) - [j14]Thomas Janssen, Rafael Berkvens, Maarten Weyn:
RSS-Based Localization and Mobility Evaluation Using a Single NB-IoT Cell. Sensors 20(21): 6172 (2020) - [j13]Thomas Janssen, Noori BniLam, Michiel Aernouts, Rafael Berkvens, Maarten Weyn:
Correction: Janssen, T., et al. LoRa 2.4 GHz Communication Link and Range. Sensors 2020, 20, 4366. Sensors 20(22): 6428 (2020) - [j12]Marwan Yusuf, Emmeric Tanghe, Pierre Laly, Frédéric Challita, Bart Lannoo, Rreze Halili, Rafael Berkvens, Maarten Weyn, Luc Martens, Davy Paul Gaillot, Martine Lienard, Wout Joseph:
Experimental Study on the Impact of Antenna Characteristics on Non-Stationary V2I Channel Parameters in Tunnels. IEEE Trans. Veh. Technol. 69(11): 12396-12407 (2020) - [c33]Ritesh Kumar Singh, Rafael Berkvens, Maarten Weyn:
Energy Efficient Wireless Communication for IoT Enabled Greenhouses. COMSNETS 2020: 885-887 - [c32]Thomas Janssen, Maarten Weyn, Rafael Berkvens:
A Primer on Real-world RSS-based Outdoor NB-IoT Localization. ICL-GNSS 2020: 1-6 - [c31]Rreze Halili, Faqir Zarrar Yousaf, Nina Slamnik-Krijestorac, Girma M. Yilma, Marco Liebsch, Erik de Britto e Silva, Seilendria A. Hadiwardoyo, Rafael Berkvens, Maarten Weyn:
Leveraging MEC in a 5G System for Enhanced Back Situation Awareness. LCN 2020: 309-320 - [c30]Michiel Aernouts, Noori BniLam, Nico Podevijn, David Plets, Wout Joseph, Rafael Berkvens, Maarten Weyn:
Combining TDoA and AoA with a particle filter in an outdoor LoRaWAN network. PLANS 2020: 1060-1069 - [c29]Nico Podevijn, Jens Trogh, Michiel Aernouts, Rafael Berkvens, Luc Martens, Maarten Weyn, Wout Joseph, David Plets:
Compass Aided TDoA Tracking in LoRaWAN networks. PLANS 2020: 1420-1424
2010 – 2019
- 2019
- [j11]Stijn Denis, Rafael Berkvens, Maarten Weyn:
A Survey on Detection, Tracking and Identification in Radio Frequency-Based Device-Free Localization. Sensors 19(23): 5329 (2019) - [c28]Thomas Janssen, Rafael Berkvens, Maarten Weyn:
Comparing Machine Learning Algorithms for RSS-Based Localization in LPWAN. 3PGCIC 2019: 726-735 - [c27]Michiel Aernouts, Noori BniLam, Rafael Berkvens, Maarten Weyn:
Simulating a Combination of TDoA and AoA Localization for LoRaWAN. 3PGCIC 2019: 756-765 - [c26]Rreze Halili, Maarten Weyn, Rafael Berkvens:
Localization Accuracy Performance Comparison Between LTE-V and IEEE 802.11p. 3PGCIC 2019: 766-775 - [c25]Ritesh Kumar Singh, Rafael Berkvens, Maarten Weyn:
Time Synchronization with Channel Hopping Scheme for LoRa Networks. 3PGCIC 2019: 786-797 - [c24]Yorick De Bock, Bart Braem, Dragan Subotic, Maarten Weyn, Johann M. Márquez-Barja:
Demo Abstract: Crowd analysis with infrared sensor arrays on the smart city edge. INFOCOM Workshops 2019: 983-984 - [c23]Nico Podevijn, David Plets, Michiel Aernouts, Rafael Berkvens, Luc Martens, Maarten Weyn, Wout Joseph:
Experimental TDoA localisation in real public LoRa networks. IPIN (Short Papers/Work-in-Progress Papers) 2019: 211-218 - 2018
- [j10]Jeroen Famaey, Rafael Berkvens, Glenn Ergeerts, Eli De Poorter, Floris Van Den Abeele, Tomas Bolckmans, Jeroen Hoebeke, Maarten Weyn:
Flexible Multimodal Sub-Gigahertz Communication for Heterogeneous Internet of Things Applications. IEEE Commun. Mag. 56(7): 146-153 (2018) - [j9]Michiel Aernouts, Rafael Berkvens, Koen Van Vlaenderen, Maarten Weyn:
Sigfox and LoRaWAN Datasets for Fingerprint Localization in Large Urban and Rural Areas. Data 3(2): 13 (2018) - [j8]Michiel Aernouts, Ben Bellekens, Maarten Weyn:
MapFuse: Complete and Realistic 3D Modelling. J. Robotics 2018: 4942034:1-4942034:13 (2018) - [j7]Glenn Daneels, Esteban Municio, Bruno Van de Velde, Glenn Ergeerts, Maarten Weyn, Steven Latré, Jeroen Famaey:
Accurate Energy Consumption Modeling of IEEE 802.15.4e TSCH Using Dual-Band OpenMote Hardware. Sensors 18(2): 437 (2018) - [j6]Ben Bellekens, Rudi Penne, Maarten Weyn:
Realistic Indoor Radio Propagation for Sub-GHz Communication. Sensors 18(6): 1788 (2018) - [c22]Rafael Berkvens, Ivan Herrera Olivares, Siegfried Mercelis, Lucinda Kirkpatrick, Maarten Weyn:
Contact Detection for Social Networking of Small Animals. 3PGCIC 2018: 405-414 - [c21]Rafael Berkvens, Frederik Smolders, Ben Bellekens, Michiel Aernouts, Maarten Weyn:
Comparing 433 and 868 MHz Active RFID for Indoor Localization Using Multi-Wall Model. ICL-GNSS 2018: 1-6 - [c20]Thomas Janssen, Michiel Aernouts, Rafael Berkvens, Maarten Weyn:
Outdoor Fingerprinting Localization Using Sigfox. IPIN 2018: 1-6 - [c19]Stijn Denis, Rafael Berkvens, Ben Bellekens, Maarten Weyn:
Large Scale Crowd Density Estimation Using a sub-GHz Wireless Sensor Network. PIMRC 2018: 849-855 - [c18]Michiel Aernouts, Ben Bellekens, Rafael Berkvens, Maarten Weyn:
A Comparison of Signal Strength Localization Methods with Sigfox. WPNC 2018: 1-6 - 2017
- [j5]Joaquín Torres-Sospedra, Adriano J. C. Moreira, Stefan Knauth, Rafael Berkvens, Raúl Montoliu, Oscar Belmonte, Sergio Trilles, Maria João Nicolau, Filipe Meneses, António Costa, Athanasios Koukofikis, Maarten Weyn, Herbert Peremans:
A realistic evaluation of indoor positioning systems based on Wi-Fi fingerprinting: The 2015 EvAAL-ETRI competition. J. Ambient Intell. Smart Environ. 9(2): 263-279 (2017) - [j4]Eli De Poorter, Jeroen Hoebeke, Matthias Strobbe, Ingrid Moerman, Steven Latré, Maarten Weyn, Bart Lannoo, Jeroen Famaey:
Sub-GHz LPWAN Network Coexistence, Management and Virtualization: An Overview and Open Research Challenges. Wirel. Pers. Commun. 95(1): 187-213 (2017) - [c17]Rens Baeyens, Rafael Berkvens, Walter Daems, Jean-Pierre Baeyens, Maggy Goossens, Maarten Weyn:
Wireless Surface Electromyography. 3PGCIC 2017: 722-732 - [c16]Ben Bellekens, Le Tian, Pepijn Boer, Maarten Weyn, Jeroen Famaey:
Outdoor IEEE 802.11ah Range Characterization Using Validated Propagation Models. GLOBECOM 2017: 1-6 - [c15]Rafael Berkvens, Ben Bellekens, Maarten Weyn:
Signal strength indoor localization using a single DASH7 message. IPIN 2017: 1-7 - [c14]Noori BniLam, Glenn Ergeerts, Dragan Subotic, Jan Steckel, Maarten Weyn:
Adaptive probabilistic model using angle of arrival estimation for IoT indoor localization. IPIN 2017: 1-7 - [c13]Stijn Denis, Rafael Berkvens, Glenn Ergeerts, Maarten Weyn:
Multi-frequency sub-1 GHz radio tomographic imaging in a complex indoor environment. IPIN 2017: 1-8 - 2016
- [j3]Rafael Berkvens, Herbert Peremans, Maarten Weyn:
Conditional Entropy and Location Error in Indoor Localization Using Probabilistic Wi-Fi Fingerprinting. Sensors 16(10): 1636 (2016) - [c12]Rafael Berkvens, Maarten Weyn, Herbert Peremans:
Position error and entropy of probabilistic Wi-Fi fingerprinting in the UJIIndoorLoc dataset. IPIN 2016: 1-6 - [c11]Stijn Denis, Rafael Berkvens, Glenn Ergeerts, Ben Bellekens, Maarten Weyn:
Combining multiple sub-1 GHz frequencies in Radio Tomographic Imaging. IPIN 2016: 1-8 - 2015
- [c10]Glenn Ergeerts, Maciej Nikodem, Dragan Subotic, Tomasz Surmacz, Bartosz Wojciechowski, Paul De Meulenaere, Maarten Weyn:
DASH7 Alliance Protocol in Monitoring Applications. 3PGCIC 2015: 623-628 - [c9]Bart Praats, Rafael Berkvens, Glenn Ergeerts, Maarten Weyn:
Large Scale Distributed Localization Based on RSS and Mass-Spring Model. 3PGCIC 2015: 629-634 - [c8]Maarten Weyn, Glenn Ergeerts, Rafael Berkvens, Bartosz Wojciechowski, Yordan Tabakov:
DASH7 alliance protocol 1.0: Low-power, mid-range sensor and actuator communication. CSCN 2015: 54-59 - [c7]Rafael Berkvens, Maarten Weyn, Herbert Peremans:
Localization performance quantification by conditional entropy. IPIN 2015: 1-7 - 2014
- [c6]Rafael Berkvens, Adam Jacobson, Michael Milford, Herbert Peremans, Maarten Weyn:
Biologically inspired SLAM using Wi-Fi. IROS 2014: 1804-1811 - [c5]Simon Vanneste, Ben Bellekens, Maarten Weyn:
3DVFH+: Real-Time Three-Dimensional Obstacle Avoidance Using an Octomap. MORSE@STAF 2014: 91-102 - 2013
- [j2]Jens Aernouts, Bob Claerhout, Glenn Ergeerts, Maarten Weyn:
Framework to Enable Scalable and Distributed Application Development: Lessons Learned While Developing the Opportunistic Seamless Localization System. Int. J. Adapt. Resilient Auton. Syst. 4(4): 64-81 (2013) - [j1]Maarten Weyn, Glenn Ergeerts, Luc Wante, Charles Vercauteren, Peter Hellinckx:
Survey of the DASH7 Alliance Protocol for 433 MHz Wireless Sensor Communication. Int. J. Distributed Sens. Networks 9 (2013) - 2010
- [c4]Christoph Settgast, Martin Klepal, Maarten Weyn:
Object correlation evaluation for location data fusion. UPINLBS 2010: 1-5
2000 – 2009
- 2009
- [c3]Dries Vermeiren, Maarten Weyn, Geert De Ron:
Detecting Human Motion: Introducing Step, Fall and ADL Algorithms. eHealth 2009: 62-69 - [c2]Maarten Weyn, Martin Klepal, Widyawan:
Adaptive Motion Model for a Smart Phone Based Opportunistic Localization System. MELT 2009: 50-65 - [c1]Martin Klepal, Maarten Weyn, Warsun Najib, Inge Bylemans, Sigit Basuki Wibowo, Widyawan, Bimo Hantono:
OLS: opportunistic localization system for smart phones devices. MobiHeld 2009: 79-80
Coauthor Index
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last updated on 2024-11-05 21:01 CET by the dblp team
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