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ORCIDTobias Weber
This is just a disambiguation page, and is not intended to be the bibliography of an actual person. Any publication listed on this page has not been assigned to an actual author yet. If you know the true author of one of the publications listed below, you are welcome to contact us.
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2020 – today
- 2024
[c75]Clara Wan Ching Ho
, Tobias Weber, Thorsten Fritze, Thomas Risse:
Towards Multilingual LLM-Based Approaches for Automatic Dewey Decimal Classification. TPDL (2) 2024: 23-33- [c74]David Rügamer, Chris Kolb, Tobias Weber, Lucas Kook, Thomas Nagler:
Generalizing Orthogonalization for Models with Non-Linearities. ICML 2024 - [c73]Tobias Weber, Michael Ingrisch, Bernd Bischl, David Rügamer:
Constrained Probabilistic Mask Learning for Task-specific Undersampled MRI Reconstruction. WACV 2024: 7650-7659 - [i19]Tobias Weber, Jakob Dexl, David Rügamer, Michael Ingrisch:
Post-Training Network Compression for 3D Medical Image Segmentation: Reducing Computational Efforts via Tucker Decomposition. CoRR abs/2404.09683 (2024) - [i18]David Rügamer, Chris Kolb, Tobias Weber, Lucas Kook, Thomas Nagler:
Generalizing Orthogonalization for Models with Non-Linearities. CoRR abs/2405.02475 (2024) - [i17]Emilia Magnani, Marvin Pförtner, Tobias Weber, Philipp Hennig:
Linearization Turns Neural Operators into Function-Valued Gaussian Processes. CoRR abs/2406.05072 (2024) - 2023
- [j22]Ludwig Bothmann, Lisa Wimmer, Omid Charrakh, Tobias Weber, Hendrik Edelhoff, Wibke Peters, Hien Nguyen, Caryl Benjamin, Annette Menzel:
Automated wildlife image classification: An active learning tool for ecological applications. Ecol. Informatics 77: 102231 (2023) - [j21]Tobias Weber:
Motion planning for triple-axis spectrometers. SoftwareX 23: 101455 (2023) - [j20]Tobias Weber:
Update 2.5 to "Takin: An open-source software for experiment planning, visualisation, and data analysis", (PII: S2352711016300152). SoftwareX 23: 101471 (2023) - [c72]Fiete Lüer, Tobias Weber, Maxim Dolgich, Christian Böhm:
Adversarial Anomaly Detection using Gaussian Priors and Nonlinear Anomaly Scores. ICDM (Workshops) 2023: 550-559 - [c71]Tobias Weber, Michael Ingrisch, Bernd Bischl, David Rügamer:
Cascaded Latent Diffusion Models for High-Resolution Chest X-ray Synthesis. PAKDD (3) 2023: 180-191 - [i16]Tobias Weber, Michael Ingrisch, Bernd Bischl, David Rügamer:
Cascaded Latent Diffusion Models for High-Resolution Chest X-ray Synthesis. CoRR abs/2303.11224 (2023) - [i15]Tobias Weber:
Motion Planning for Triple-Axis Spectrometers. CoRR abs/2303.14041 (2023) - [i14]Ludwig Bothmann, Lisa Wimmer, Omid Charrakh, Tobias Weber, Hendrik Edelhoff, Wibke Peters, Hien Nguyen, Caryl Benjamin, Annette Menzel:
Automated wildlife image classification: An active learning tool for ecological applications. CoRR abs/2303.15823 (2023) - [i13]Tobias Weber, Michael Ingrisch, Bernd Bischl, David Rügamer:
Constrained Probabilistic Mask Learning for Task-specific Undersampled MRI Reconstruction. CoRR abs/2305.16376 (2023) - [i12]Fiete Lüer, Tobias Weber, Maxim Dolgich, Christian Böhm:
Adversarial Anomaly Detection using Gaussian Priors and Nonlinear Anomaly Scores. CoRR abs/2310.18091 (2023) - [i11]Tobias Weber, Michael Ingrisch, Bernd Bischl, David Rügamer:
Unreading Race: Purging Protected Features from Chest X-ray Embeddings. CoRR abs/2311.01349 (2023) - 2022
- [j19]Clemens Zeile, Tobias Weber, Sebastian Sager:
Combinatorial Integral Approximation Decompositions for Mixed-Integer Optimal Control. Algorithms 15(4): 121 (2022) - [j18]Tobias Weber:
Conceptualising language archives through legacy materials. Electron. Libr. 40(5): 525-538 (2022) - [c70]Jakob Lesage, Hannah J. Haynie, Hedvig Skirgård, Tobias Weber, Alena Witzlack-Makarevich:
Overlooked Data in Typological Databases: What Grambank Teaches Us About Gaps in Grammars. LREC 2022: 2884-2890 - [c69]Tobias Weber, Michael Ingrisch, Bernd Bischl, David Rügamer:
Implicit Embeddings via GAN Inversion for High Resolution Chest Radiographs. MAD@MICCAI 2022: 22-32 - [i10]Katharina Jeblick, Balthasar Schachtner, Jakob Dexl, Andreas Mittermeier, Anna Theresa Stüber, Johanna Topalis, Tobias Weber, Philipp Wesp, Bastian O. Sabel, Jens Ricke, Michael Ingrisch:
ChatGPT Makes Medicine Easy to Swallow: An Exploratory Case Study on Simplified Radiology Reports. CoRR abs/2212.14882 (2022) - 2021
- [j17]Tobias Weber:
Update 2.0 to "Takin: An open-source software for experiment planning, visualisation, and data analysis", (PII: S2352711016300152). SoftwareX 14: 100667 (2021) - [j16]Andrea Ortiz, Tobias Weber, Anja Klein:
Multi-Agent Reinforcement Learning for Energy Harvesting Two-Hop Communications With a Partially Observable System State. IEEE Trans. Green Commun. Netw. 5(1): 442-456 (2021) - [c68]Tobias Weber:
Mind the Gap: Language Data, Their Producers, and the Scientific Process (Crazy New Idea). LDK 2021: 6:1-6:9 - [i9]Tobias Weber, Michael Ingrisch, Matthias Fabritius, Bernd Bischl, David Rügamer:
Survival-oriented embeddings for improving accessibility to complex data structures. CoRR abs/2110.11303 (2021) - [i8]Tobias Weber, Michael Ingrisch, Bernd Bischl, David Rügamer:
Towards modelling hazard factors in unstructured data spaces using gradient-based latent interpolation. CoRR abs/2110.11312 (2021) - 2020
- [j15]Tobias Weber, Dieter Kranzlmüller, Michael Fromm, Nelson Tavares de Sousa:
Using supervised learning to classify metadata of research data by field of study. Quant. Sci. Stud. 1(2): 525-550 (2020) - [j14]Thorsten Wilhelm, Melina Geis, Jens Püttschneider, Timo Sievernich, Tobias Weber, Kay Wohlfarth, Christian Wöhler:
DoMars16k: A Diverse Dataset for Weakly Supervised Geomorphologic Analysis on Mars. Remote. Sens. 12(23): 3981 (2020) - [c67]Tobias Weber:
A Philological Perspective on Meta-scientific Knowledge Graphs. ADBIS/TPDL/EDA Workshops 2020: 226-233 - [c66]Tobias F. C. Berninger, Tomas Slimak, Tobias Weber, Daniel J. Rixen:
An External Stabilization Unit for High-Precision Applications of Robot Manipulators. IROS 2020: 4276-4282
2010 – 2019
- 2019
- [j13]Tobias Weber, Sebastian Sager, Ambros M. Gleixner:
Solving quadratic programs to high precision using scaled iterative refinement. Math. Program. Comput. 11(3): 421-455 (2019) - [j12]Juan M. Urco, Jorge L. Chau, Tobias Weber, Juha P. Vierinen, Ryan Volz:
Sparse Signal Recovery in MIMO Specular Meteor Radars With Waveform Diversity. IEEE Trans. Geosci. Remote. Sens. 57(12): 10088-10098 (2019) - [c65]Tobias Weber, Emec Ercelik, Martin Ebert, Alois C. Knoll:
Recognition & Evaluation of Additional Traffic Signs on the example of '80 km/h when wet'. ITSC 2019: 4134-4139 - [c64]Tobias Weber:
Can Computational Meta-Documentary Linguistics Provide for Accountability and Offer an Alternative to "Reproducibility" in Linguistics? LDK 2019: 26:1-26:8 - [c63]Andrea Ortiz, Tobias Weber, Anja Klein:
Resource Allocation in Energy Harvesting Multiple Access Scenarios via Combinatorial Learning. SPAWC 2019: 1-5 - [i7]Tobias Weber, Dieter Kranzlmüller:
Methods to Evaluate Lifecycle Models for Research Data Management. CoRR abs/1901.11267 (2019) - [i6]Tobias Weber, Robert Georgii, Peter Böni:
Takin: An open-source software for experiment planning, visualisation, and data analysis. CoRR abs/1903.02632 (2019) - [i5]Tobias Weber, Dieter Kranzlmüller, Michael Fromm, Nelson Tavares de Sousa:
Using Supervised Learning to Classify Metadata of Research Data by Discipline of Research. CoRR abs/1910.09313 (2019) - 2018
- [j11]Juan Morales-Sánchez, Jorge Larrey-Ruiz, Marco A. Milla, Juha P. Vierinen, Tobias Weber:
Coherent MIMO to Improve Aperture Synthesis Radar Imaging of Field-Aligned Irregularities: First Results at Jicamarca. IEEE Trans. Geosci. Remote. Sens. 56(5): 2980-2990 (2018) - [c62]Tobias Weber, Dieter Kranzlmüller:
How FAIR Can you Get? Image Retrieval as a Use Case to Calculate FAIR Metrics. eScience 2018: 114-124 - [c61]Andrea Ortiz, Tobias Weber, Anja Klein:
A Two-Layer Reinforcement Learning Solution for Energy Harvesting Data Dissemination Scenarios. ICASSP 2018: 6648-6652 - [c60]Christina Pakusch, Gunnar Stevens, Paul Bossauer, Tobias Weber:
The Users' Perspective on Autonomous Driving - A Comparative Analysis of Partworth Utilities. ICETE (1) 2018: 305-312 - [c59]Christina Pakusch, Tobias Weber, Gunnar Stevens, Paul Bossauer:
Akzeptanz autonomer Verkehrsmittel: Eine Analyse relativer Mehrwerte selbstfahrender Autos im Vergleich zu heutigen Verkehrsmitteln. MKWI 2018: 938-952 - [c58]Nelson Tavares de Sousa, Wilhelm Hasselbring, Tobias Weber, Dieter Kranzlmüller:
Designing a Generic Research Data Infrastructure Architecture with Continuous Software Engineering. Software Engineering (Workshops) 2018: 85-88 - [i4]Tobias Weber, Dieter Kranzlmüller:
How FAIR can you get? Image Retrieval as a Use Case to calculate FAIR Metrics. CoRR abs/1810.03824 (2018) - 2017
- [j10]Tobias Weber:
Update 1.5 to "Takin: An open-source software for experiment planning, visualisation, and data analysis", (PII: S2352711016300152). SoftwareX 6: 148-149 (2017) - [j9]Timm Faulwasser, Tobias Weber, Pablo Zometa, Rolf Findeisen:
Implementation of Nonlinear Model Predictive Path-Following Control for an Industrial Robot. IEEE Trans. Control. Syst. Technol. 25(4): 1505-1511 (2017) - [j8]Andrea Ortiz, Hussein Al-Shatri, Xiang Li, Tobias Weber, Anja Klein:
Reinforcement Learning for Energy Harvesting Decode-and-Forward Two-Hop Communications. IEEE Trans. Green Commun. Netw. 1(3): 309-319 (2017) - [c57]Clemens Zeile, Alexander Schmeisser, Thomas Rauwolf, Tobias Weber, Sebastian Sager:
The Influence of Right Ventricular Afterload in Cardiac Resynchronization Therapy: A CircAdapt Study. CinC 2017 - [c56]Karsten Wiedmann, Tobias Weber:
An information theoretical analysis of self-demodulating waveform channels. ISWCS 2017: 7-12 - [i3]Andrea Ortiz, Hussein Al-Shatri, Tobias Weber, Anja Klein:
Multi-Agent Reinforcement Learning for Energy Harvesting Two-Hop Communications with Full Cooperation. CoRR abs/1702.06185 (2017) - 2016
- [j7]Tobias Weber, Robert Georgii, Peter Böni:
Takin: An open-source software for experiment planning, visualisation, and data analysis. SoftwareX 5: 121-126 (2016) - [j6]Hussein Al-Shatri, Xiang Li, Rakash SivaSiva Ganesan, Anja Klein, Tobias Weber:
Maximizing the Sum Rate in Cellular Networks Using Multiconvex Optimization. IEEE Trans. Wirel. Commun. 15(5): 3199-3211 (2016) - [c55]Andrea Ortiz, Hussein Al-Shatri, Xiang Li, Tobias Weber, Anja Klein:
A Learning Based Solution for Energy Harvesting Decode-and-Forward Two-Hop Communications. GLOBECOM 2016: 1-7 - [c54]Andrea Ortiz, Hussein Al-Shatri, Xiang Li, Tobias Weber, Anja Klein:
Reinforcement learning for energy harvesting point-to-point communications. ICC 2016: 1-6 - [c53]Karsten Wiedmann, Tobias Weber:
Asymptotically tight capacity bounds for parametric underwater communications. SPAWC 2016: 1-5 - [c52]Daniel Papsdorf, Xiang Li, Tobias Weber, Anja Klein:
Inter-Subnetwork Interference Minimization in Partially Connected Two-Way Relaying Networks. VTC Fall 2016: 1-6 - [c51]Xiang Li, Daniel Papsdorf, Anja Klein, Tobias Weber:
An Interference Management Scheme using Partial CSI for Partially Connected Cellular Networks. WSA 2016: 1-7 - 2015
- [c50]Andrea Ortiz, Hussein Al-Shatri, Xiang Li, Tobias Weber, Anja Klein:
Throughput maximization in two-hop energy harvesting communications. ISWCS 2015: 291-295 - [c49]Xiang Li, Daniel Papsdorf, Anja Klein, Tobias Weber:
An interference alignment scheme using partial CSI for large partially connected relay networks. ISWCS 2015: 601-605 - [c48]Daniel Papsdorf, Xiang Li, Tobias Weber, Anja Klein:
Interference alignment in partially connected multi-user two-way relay networks. PIMRC 2015: 606-611 - [c47]Behailu Y. Shikur, Tobias Weber:
Uplink-downlink channel transformation using an adaptive Kalman filter for multicarrier systems. SPAWC 2015: 465-469 - [c46]Behailu Y. Shikur, Tobias Weber:
Channel Prediction Using an Adaptive Kalman Filter. WSA 2015: 1-7 - [i2]Hussein Al-Shatri, Xiang Li, Rakash SivaSiva Ganesan, Anja Klein, Tobias Weber:
Maximizing the Sum Rate in Cellular Networks Using Multi-Convex Optimization. CoRR abs/1503.06101 (2015) - [i1]Timm Faulwasser, Tobias Weber, Juan Pablo Zometa, Rolf Findeisen:
Implementation of Nonlinear Model Predictive Path-Following Control for an Industrial Robot. CoRR abs/1506.09084 (2015) - 2014
- [c45]Rakash SivaSiva Ganesan, Hussein Al-Shatri, Xiang Li, Tobias Weber, Anja Klein:
Multi-group multi-way relaying with reduced number of relay antennas. ICASSP 2014: 2714-2718 - [c44]Karsten Wiedmann, Tobias Weber:
A grey-box modelling approach for the nonlinear parametric channel. ICASSP 2014: 4294-4298 - [c43]Behailu Yohannes Shikur, Tobias Weber:
TDOA/AOD/AOA localization in NLOS environments. ICASSP 2014: 6518-6522 - [c42]Xiang Li, Hussein Al-Shatri, Rakash SivaSiva Ganesan, Daniel Papsdorf, Anja Klein, Tobias Weber:
Relay-aided interference alignment for multiple partially connected subnetworks. ISWCS 2014: 121-125 - [c41]Daniel Papsdorf, Rakash SivaSiva Ganesan, Xiang Li, Tobias Weber, Anja Klein:
Combining interference alignment and two-way relaying in partially connected networks with only local CSI. ISWCS 2014: 229-234 - [c40]Behailu Y. Shikur, Tobias Weber:
Localization in NLOS environments using TOA, AOD, and Doppler-shift. WPNC 2014: 1-6 - [c39]Behailu Y. Shikur, Tobias Weber:
Robust cooperative localization in mixed LOS and NLOS environments using TOA. WPNC 2014: 1-6 - 2013
- [j5]Rakash SivaSiva Ganesan, Hussein Al-Shatri, Alexander Kuehne, Tobias Weber, Anja Klein:
Pair-Aware Interference Alignment in Multi-User Two-Way Relay Networks. IEEE Trans. Wirel. Commun. 12(8): 3662-3671 (2013) - [c38]Behailu Y. Shikur, Tobias Weber:
Posterior CRLB for tracking a mobile station in NLOS multipath environments. ICASSP 2013: 5175-5179 - [c37]Rakash SivaSiva Ganesan, Hussein Al-Shatri, Tobias Weber, Anja Klein:
Iterative MMSE filter design for multi-pair two-way multi-relay networks. ICC 2013: 5929-5933 - [c36]Xiang Li, Hussein Al-Shatri, Rakash SivaSiva Ganesan, Anja Klein, Tobias Weber:
Interference Alignment Aided by Locally Connected Relays. ISWCS 2013: 1-5 - [c35]Hussein Al-Shatri, Xiang Li, Rakash SivaSiva Ganesan, Anja Klein, Tobias Weber:
Multi-convex optimization for sum rate maximization in multiuser relay networks. PIMRC 2013: 1327-1331 - [c34]Rakash SivaSiva Ganesan, Hussein Al-Shatri, Tobias Weber, Anja Klein:
Relay-aided interference alignment for bidirectional communications in multi-pair multi-relay networks. SPAWC 2013: 66-70 - [c33]Hussein Al-Shatri, Xiang Li, Rakash SivaSiva Ganesan, Anja Klein, Tobias Weber:
Closed-Form Solutions for Minimizing Sum MSE in Multiuser Relay Networks. VTC Spring 2013: 1-5 - [c32]Xiang Li, Hussein Al-Shatri, Rakash SivaSiva Ganesan, Anja Klein, Tobias Weber:
Feasibility Conditions for Relay-Aided Interference Alignment in Partially Connected Networks. VTC Spring 2013: 1-5 - [c31]Rakash SivaSiva Ganesan, Hong Quy Le, Hussein Al-Shatri, Tobias Weber, Anja Klein:
Closed form solution and useful signal power maximization for interference alignment in multi-pair two-way relay networks. WCNC 2013: 3414-3419 - 2012
- [j4]Hussein Al-Shatri, Tobias Weber:
Achieving the Maximum Sum Rate Using D.C. Programming in Cellular Networks. IEEE Trans. Signal Process. 60(3): 1331-1341 (2012) - [c30]Matthias Bremser, Uwe Mittag, Tobias Weber, Jörn Rittweger, Rainer Herpers:
Diameter Measurement of Vascular Structures in Ultrasound Video Sequences. Bildverarbeitung für die Medizin 2012: 165-170 - [c29]Behailu Y. Shikur, Tobias Weber:
Discrete position processing techniques for indoor NLOS localization. ISWCS 2012: 631-635 - [c28]Hussein Al-Shatri, Rakash SivaSiva Ganesan, Anja Klein, Tobias Weber:
Perfect versus imperfect interference alignment using multiple MIMO relays. ISWCS 2012: 676-680 - [c27]Rakash SivaSiva Ganesan, Hussein Al-Shatri, Tobias Weber, Anja Klein:
Cooperative zero forcing in multi-pair multi-relay networks. PIMRC 2012: 1740-1745 - [c26]Hussein Al-Shatri, Rakash SivaSiva Ganesan, Anja Klein, Tobias Weber:
Interference alignment using a MIMO relay and partially-adapted transmit/receive filters. WCNC 2012: 459-464 - [c25]Nico Palleit, Tobias Weber:
Time and frequency prediction of the channel transfer functions in multiple antenna systems. WCNC 2012: 1049-1053 - [c24]Behailu Y. Shikur, Mojtaba Farmani, Tobias Weber:
TOA/AOA/AOD-based 3-D mobile terminal tracking in NLOS multipath environments. WPNC 2012: 201-205 - [c23]Nico Palleit, Tobias Weber:
Channel prediction in multiple antenna systems. WSA 2012: 1-7 - 2011
- [c22]Nico Palleit, Tobias Weber:
Time prediction of non flat fading channels. ICASSP 2011: 2752-2755 - [c21]Hussein Al-Shatri, Tobias Weber:
Interference alignment aided by non-regenerative relays for multiuser wireless networks. ISWCS 2011: 271-275 - [c20]Xinning Wei, Nico Palleit, Tobias Weber:
AOD/AOA/TOA-based 3D positioning in NLOS multipath environments. PIMRC 2011: 1289-1293 - [c19]Nico Palleit, Tobias Weber:
Prediction of frequency selective SIMO channels. PIMRC 2011: 1428-1432 - [c18]Rakash SivaSiva Ganesan, Tobias Weber, Anja Klein:
Interference Alignment in Multi-User Two Way Relay Networks. VTC Spring 2011: 1-5 - 2010
- [c17]Nico Palleit, Tobias Weber:
Channel prediction in point-to-point MIMO-systems. ISWCS 2010: 91-95 - [c16]Hussein Al-Shatri, Tobias Weber:
Optimizing power allocation in interference channels using D.C. programming. WiOpt 2010: 360-366 - [c15]Nico Palleit, Tobias Weber:
Frequency prediction of the channel transfer function in multiple antenna systems. WSA 2010: 244-250 - [c14]Hussein Al-Shatri, Tobias Weber:
Fair power allocation for sum-rate maximization in multiuser OFDMA. WSA 2010: 350-354
2000 – 2009
- 2009
- [c13]Xinning Wei, Tobias Weber, Andreas Wolfgang, Nima Seifi:
Joint Transmission with Significant CSI in the Downlink of Distributed Antenna Systems. ICC 2009: 1-6 - [c12]Nico Palleit, Tobias Weber:
Obtaining transmitter side channel state information in MIMO FDD systems. PIMRC 2009: 2439-2443 - [c11]Xinning Wei, Tobias Weber, Alexander Kühne, Anja Klein:
Joint Transmission with Imperfect Partial Channel State Information. VTC Spring 2009 - 2008
- [c10]Xinning Wei, Tobias Weber:
MMSE Detection Based on Noise Statistics with Random Noise Variance. VTC Fall 2008: 1-5 - [c9]Shiyang Deng, Tobias Weber, Andreas Ahrens:
Power allocation in service area interference channels. WSA 2008: 112-119 - 2007
- [c8]Andreas Ahrens, Christoph Lange, Volker Kühn, Tobias Weber:
Optimal Power Allocation in SVD Equalized Multicarrier Systems. ICC 2007: 4468-4474 - [c7]Tobias Weber, Andreas Ahrens, Shiyang Deng:
Decentralized Interference Cancellation in Mobile Radio Networks. WCNC 2007: 2190-2194 - 2006
- [j3]Tobias Weber, Alexandros Sklavos, Michael Meurer:
Imperfect channel-state information in MIMO transmission. IEEE Trans. Commun. 54(3): 543-552 (2006) - 2005
- [c6]Tobias Weber, Michael Meurer:
Temporal post-processing of position estimates exploiting Markoff models. PIMRC 2005: 1979-1983 - 2004
- [c5]Tobias Weber, Michael Meurer, Wolfgang Zirwas:
Low complexity energy efficient joint transmission for OFDM multiuser downlinks. PIMRC 2004: 1095-1099 - 2002
- [j2]Tobias Weber, Johannes Schlee, Stefan Bahrenburg, Paul Walter Baier, Jürgen Mayer, Christoph Euscher:
A hardware demonstrator for TD-CDMA. IEEE Trans. Veh. Technol. 51(5): 877-892 (2002) - [c4]Alexandros Sklavos, Tobias Weber, Yin Liu, Ioannis Maniatis:
A spreading scheme including combined spectral and temporal spreading for OFDM systems with joint detection. VTC Spring 2002: 575-579 - 2001
- [j1]Hendrik Tröger, Tobias Weber, Michael Meurer, Paul Walter Baier:
Performance assessment of joint transmission (JT) multi - user downlinks with multi - element transmit antennas. Eur. Trans. Telecommun. 12(5): 407-415 (2001) - [c3]Dieter Monjau, Mathias Sporer, Tobias Weber:
Anwendung von UML zur Beschreibung von eingebetteten Systemen. MBMV (2) 2001: 75-86
1990 – 1999
- 1998
- [c2]Jürgen Mayer, Johannes Schlee, Tobias Weber:
Handoff protocols in JD-CDMA. PIMRC 1998: 355-359 - 1997
- [c1]Jürgen Mayer, Johannes Schlee, Tobias Weber:
Protocol and signalling aspects of joint detection CDMA. PIMRC 1997: 867-871
Coauthor Index
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