Vignesh Raman; Riccardo Bassoli; Frank H. P. Fitzek
Quantum Electromagnetic Curvature Resilience: An Information-Geometry Metric for Wireless Quantum Networks Proceedings Article
In: 20th European Conference on Antennas and Propagation (EuCAP), pp. 5, Dublin, Ireland, 2026.
@inproceedings{Rama2026:Quantum,
title = {Quantum Electromagnetic Curvature Resilience: An Information-Geometry Metric for Wireless Quantum Networks},
author = {Vignesh Raman and Riccardo Bassoli and Frank H. P. Fitzek},
year = {2026},
date = {2026-04-19},
urldate = {2026-04-19},
booktitle = {20th European Conference on Antennas and Propagation (EuCAP)},
pages = {5},
address = {Dublin, Ireland},
keywords = {},
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Tobias Scheinert; Hosein K. Nazari; How-Hang Liu; Stefan Senk; Giang T. Nguyen; Maciej Muehleisen; Frank H. P. Fitzek
Reliable Edge Control over 5G-TSN: Demonstrating End-to-End Prioritization with Inverted Pendulums Proceedings Article
In: IEEE Consumer Communications and Networking Conference, 2026, (accepted for publication).
@inproceedings{Scheinert2025:reliable,
title = {Reliable Edge Control over 5G-TSN: Demonstrating End-to-End Prioritization with Inverted Pendulums},
author = {Tobias Scheinert and Hosein K. Nazari and How-Hang Liu and Stefan Senk and Giang T. Nguyen and Maciej Muehleisen and Frank H. P. Fitzek},
year = {2026},
date = {2026-01-09},
urldate = {2026-01-09},
booktitle = {IEEE Consumer Communications and Networking Conference},
note = {accepted for publication},
keywords = {},
pubstate = {published},
tppubtype = {inproceedings}
}
Jonas Schulz; Patrick Seeling; Martin Reisslein; Frank H. P. Fitzek
No Further Delay: Making Time an Ally of Edge Computation of AI Workloads Journal Article
In: IEEE Internet of Things Magazine, pp. 1-8, 2025.
@article{schulz2025:nofurther,
title = {No Further Delay: Making Time an Ally of Edge Computation of AI Workloads},
author = {Jonas Schulz and Patrick Seeling and Martin Reisslein and Frank H. P. Fitzek},
url = {https://ieeexplore.ieee.org/document/11316165},
doi = {10.1109/MIOT.2025.3637145},
year = {2025},
date = {2025-12-25},
urldate = {2025-12-25},
journal = {IEEE Internet of Things Magazine},
pages = {1-8},
abstract = {Artificial Intelligence (AI) computation workloads are very challenging for resource-constrained Internet-of-Things (IoT) devices. Offloading of the AI workloads to edge nodes introduces network transport latencies that may make the offloading infeasible for low-latency applications. For applications that allow for anticipatory (speculative) computation with partial application datasets, e.g., scalable encoded images, we introduce and evaluate the concept of No further delay. We define No further delay as the optimal tradeoff time instant between waiting for more application data (which increases the latency) and starting the speculative computation (whose success probability increases with more data). We evaluate the expected negative latency achieved by anticipatory computing with partial application-layer datasets compared to computation on the device (with full datasets) with a novel adaptation of the speedup factor (ratio) from Amdahl’s Law. Previously, speculative execution has been limited to the instruction-level in microprocessor program execution; in contrast, we are the first to propose and examine speculative execution for application-layer datasets. For a computer vision inference workload with progressively coded JPEG images, we find that our No further delay approach with edge node offloading achieves three-fold speedups (despite the network latency to the edge node). This article serves as problem definition for a new class of AI mechanisms that should be developed in future research to estimate the optimal No further delay time instant based, e.g., on historical success rates of application-layer tasks computed with partial datasets.},
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Hilal Sultan Duranoglu Tunc; Joy Halder; Riccardo Bassoli; Gerhard P. Fettweis; Frank H. P. Fitzek
Leveraging Network Structure to Emulate Quantum Memory Journal Article
In: IEEE Network, pp. 1-9, 2025.
@article{Tunc2025:QuantumMemory,
title = {Leveraging Network Structure to Emulate Quantum Memory},
author = {Hilal Sultan Duranoglu Tunc and Joy Halder and Riccardo Bassoli and Gerhard P. Fettweis and Frank H. P. Fitzek},
url = {https://ieeexplore.ieee.org/document/11305221},
doi = {10.1109/MNET.2025.3636661},
year = {2025},
date = {2025-12-19},
urldate = {2025-12-19},
journal = {IEEE Network},
pages = {1-9},
abstract = {Quantum memories, which play a critical role in various aspects of quantum networks—such as timing synchronization, fidelity preservation, network performance continuity, and efficient resource management—are not well-suited for practical deployment due to their high cost and complex implementation requirements. For this reason, in our study, we propose a low-cost and easy-to-implement alternative method called soft memory, which does not require any physical quantum memory hardware and is based on a delay-aware routing strategy. Under varying threshold and request time window values, we evaluate two key performance metrics—mean time difference and request success rate—across three types of quantum networks: (i) memoryless quantum networks, (ii) quantum networks equipped with fixed qubit storage time, and (iii) the proposed soft memory architecture. Despite requiring no additional physical hardware, the soft memory approach achieves a request success rate nearly equivalent to that of a quantum memory with 0.15-second storage time, while providing a lower mean time difference.},
keywords = {},
pubstate = {published},
tppubtype = {article}
}
Buniechukwu Njoku; Milad Ghadimi; Swaraj Shekhar Nande; Akhmadjon Rajabov; Ming Yin; Ju Hoon Kim; Ernest Scholtz; Muhammad Idham Habibie; Bassem Arar; Caspar Hopfmann; Riccardo Bassoli; Frank H. P. Fitzek
Quantum entanglement resource utilization in quantum-classical networking Journal Article
In: Optical Switching and Networking, pp. 100829: 1–11, 2025.
@article{njoku2025:quantum,
title = {Quantum entanglement resource utilization in quantum-classical networking},
author = {Buniechukwu Njoku and Milad Ghadimi and Swaraj Shekhar Nande and Akhmadjon Rajabov and Ming Yin and Ju Hoon Kim and Ernest Scholtz and Muhammad Idham Habibie and Bassem Arar and Caspar Hopfmann and Riccardo Bassoli and Frank H. P. Fitzek},
url = {https://doi.org/10.1016/j.osn.2025.100829},
doi = {10.1016/j.osn.2025.100829},
year = {2025},
date = {2025-12-01},
urldate = {2025-12-01},
journal = {Optical Switching and Networking},
pages = {100829: 1–11},
publisher = {Elsevier},
keywords = {},
pubstate = {published},
tppubtype = {article}
}
Ruifeng Zheng; Pengjie Zhou; Pit Hofmann; Juan A. Cabrera; Frank H. P. Fitzek
Molecular Communication with Langmuir Adsorption Kinetics: Channel Characteristics and Temporal Memory Journal Article
In: IEEE Communications Letters, pp. 1-1, 2025, (early access).
@article{zheng2025:molecular,
title = {Molecular Communication with Langmuir Adsorption Kinetics: Channel Characteristics and Temporal Memory},
author = {Ruifeng Zheng and Pengjie Zhou and Pit Hofmann and Juan A. Cabrera and Frank H. P. Fitzek},
url = {https://ieeexplore.ieee.org/document/11322543},
doi = {10.1109/LCOMM.2025.3650380},
year = {2025},
date = {2025-12-01},
urldate = {2025-12-01},
journal = {IEEE Communications Letters},
pages = {1-1},
abstract = {This letter presents a molecular communication receiver model grounded in Langmuir adsorption kinetics, offering a physically consistent alternative to passive and fully absorbing models. The receiver detects information molecules through reversible binding to a finite number of surface-anchored receptors (probes), thereby capturing the saturation and competition effects in realistic biosensing environments. We derive closed-form solutions for finite-duration pulse inputs under reaction-limited conditions and propose simplified asymptotic approximations for short- and long-pulse regimes, which accurately characterize the binding dynamics under limited receptor availability. An equivalent resistor–capacitor circuit analogy is introduced, mapping molecular binding and unbinding to time-varying and fixed resistances. Particle-based Monte Carlo simulations verify that the proposed model accurately captures the channel behavior and temporal memory of realistic biochemical receivers with finite receptor capacity.},
note = {early access},
keywords = {},
pubstate = {published},
tppubtype = {article}
}
Shiwei Shen; Syed Irtaza Haider; Razan Habeeb; Frank H. P. Fitzek
Coordinating Day-Ahead and Intraday Scheduling for Bidirectional Charging of Fleet EVs Journal Article
In: Automation, pp. 64, 2025.
@article{shiwei1125:Coordinating,
title = {Coordinating Day-Ahead and Intraday Scheduling for Bidirectional Charging of Fleet EVs},
author = {Shiwei Shen and Syed Irtaza Haider and Razan Habeeb and Frank H. P. Fitzek},
doi = {https://doi.org/10.3390/automation6040064},
year = {2025},
date = {2025-11-03},
urldate = {2025-11-03},
journal = {Automation},
pages = {64},
keywords = {},
pubstate = {published},
tppubtype = {article}
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Johannes Hofer; Nico Hofe; Patrick Seeling; Martin Reisslein; Giang T. Nguyen; Frank H. P. Fitzek
Research Agenda for Reducing Feature Descriptor Sizes in Networked Visual-SLAM Journal Article
In: IEEE JSAC SI on Intelligent Communications for Real-Time Computer Vision, pp. 27, 2025.
@article{Hofer2025:ResearchVSLAM,
title = {Research Agenda for Reducing Feature Descriptor Sizes in Networked Visual-SLAM},
author = {Johannes Hofer and Nico Hofe and Patrick Seeling and Martin Reisslein and Giang T. Nguyen and Frank H. P. Fitzek},
year = {2025},
date = {2025-10-01},
urldate = {2025-10-01},
journal = {IEEE JSAC SI on Intelligent Communications for Real-Time Computer Vision},
pages = {27},
address = {USA},
keywords = {},
pubstate = {published},
tppubtype = {article}
}
Samuel Leyikun Birhanu; Milad Ghadimi; Yilun Hai; Patrick Seeling; Riccardo Bassoli; Frank H. P. Fitzek
A Survey of Continuous Variable Quantum Key Distribution in Quantum Communication Journal Article
In: IEEE Access, vol. 13, pp. 166027 - 166061, 2025.
@article{Birhanu2025:survey,
title = {A Survey of Continuous Variable Quantum Key Distribution in Quantum Communication},
author = {Samuel Leyikun Birhanu and Milad Ghadimi and Yilun Hai and Patrick Seeling and Riccardo Bassoli and Frank H. P. Fitzek},
url = {https://ieeexplore.ieee.org/document/11165262},
doi = {10.1109/ACCESS.2025.3610519},
year = {2025},
date = {2025-09-16},
urldate = {2025-09-16},
journal = {IEEE Access},
volume = {13},
pages = {166027 - 166061},
keywords = {},
pubstate = {published},
tppubtype = {article}
}
Sifat Rezwan; Huanzhuo Wu; Juan A. Cabrera; Patrick Seeling; Martin Reisslein; Frank H. P. Fitzek
MLcXR+: Multilevel Semantic Compression for 3D Immersion over 5G Networks Journal Article
In: IEEE Access, vol. 13, pp. 164771-164786, 2025.
@article{Rezwan2025:MLcXR+,
title = {MLcXR+: Multilevel Semantic Compression for 3D Immersion over 5G Networks},
author = {Sifat Rezwan and Huanzhuo Wu and Juan A. Cabrera and Patrick Seeling and Martin Reisslein and Frank H. P. Fitzek},
url = {https://ieeexplore.ieee.org/document/11164290},
doi = {10.1109/ACCESS.2025.3610029},
year = {2025},
date = {2025-09-15},
urldate = {2025-09-01},
journal = {IEEE Access},
volume = {13},
pages = {164771-164786},
keywords = {},
pubstate = {published},
tppubtype = {article}
}