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Matthias Pätzold 0001
Person information
- affiliation: University of Agder, Grimstad, Norway
- affiliation (former): Technical University Hamburg-Harburg, Hamburg, Germany
- affiliation (PhD 1989): Ruhr University Bochum, Germany
Other persons with the same name
- Matthias Pätzold 0002 — University of Bonn, Germany
- Matthias Pätzold 0003 — B. Braun Melsungen AG, Germany
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2020 – today
- 2024
- [j95]Nazih Hajri, Neji Youssef, Matthias Pätzold, P. Takis Mathiopoulos:
Performance Analysis of MRC Diversity Reception Over Double Hoyt Fading Channels. IEEE Access 12: 89548-89561 (2024) - [j94]Sahil Waqar, Matthias Pätzold:
A Simulation-Based Framework for the Design of Human Activity Recognition Systems Using Radar Sensors. IEEE Internet Things J. 11(8): 14494-14507 (2024) - [c123]Nurilla Avazov, Rym Hicheri, Matthias Pätzold:
Unlocking the Potential of Backscattering for Human Activity Pattern Recognition in Smart Environments. WCNC 2024: 1-6 - 2023
- [j93]Altay Zhakatayev, Nurilla Avazov, Yuri V. Rogovchenko, Matthias Pätzold:
Human Motion Synthesis Using Trigonometric Splines. IEEE Access 11: 14293-14308 (2023) - [j92]Muhammad Muaaz, Sahil Waqar, Matthias Pätzold:
Orientation-Independent Human Activity Recognition Using Complementary Radio Frequency Sensing. Sensors 23(13): 5810 (2023) - 2022
- [j91]Muhammad Muaaz, Ali Chelli, Martin Wulf Gerdes, Matthias Pätzold:
Wi-Sense: a passive human activity recognition system using Wi-Fi and convolutional neural network and its integration in health information systems. Ann. des Télécommunications 77(3-4): 163-175 (2022) - [c122]Altay Zhakatayev, Yuriy V. Rogovchenko, Matthias Pätzold:
Synthesis of Lower-Body Human Walking using Trigonometric Spline Method. Humanoids 2022: 358-363 - [c121]Nurilla Avazov, Rym Hicheri, Matthias Pätzold:
Micro-Doppler Characteristics of mmWave Indoor Backscattering Channels for RF Sensing. WiMob 2022: 357-362 - 2021
- [j90]Ahmed Abdelgawwad, Andreu Català Mallofré, Matthias Pätzold:
A Trajectory-Driven 3D Channel Model for Human Activity Recognition. IEEE Access 9: 103393-103406 (2021) - [j89]Nurilla Avazov, Rym Hicheri, Muhammad Muaaz, Filippo Sanfilippo, Matthias Pätzold:
A Trajectory-Driven 3D Non-Stationary mm-Wave MIMO Channel Model for a Single Moving Point Scatterer. IEEE Access 9: 115990-116001 (2021) - [j88]Rym Hicheri, Ahmed Abdelgawwad, Matthias Pätzold:
A non-stationary relay-based 3D MIMO channel model with time-variant path gains for human activity recognition in indoor environments. Ann. des Télécommunications 76(11-12): 827-837 (2021) - [j87]Sahil Waqar, Matthias Pätzold:
Interchannel Interference and Mitigation in Distributed MIMO RF Sensing. Sensors 21(22): 7496 (2021) - [j86]Rym Hicheri, Matthias Pätzold:
An RF-Based Positioning Method for Tracing a Cluster of Moving Scatterers in Non-Stationary Indoor Environments. IEEE Wirel. Commun. Lett. 10(9): 1862-1866 (2021) - [c120]Muhammad Muaaz, Sahil Waqar, Matthias Pätzold:
Radar-Based Passive Step Counter and Its Comparison with a Wrist-Worn Physical Activity Tracker. INTAP 2021: 259-272 - [c119]Nazih Hajri, Matthias Pätzold, Rym Hicheri, Neji Youssef:
Performance Analysis of M-DPSK Modulation over Fast-Hoyt Fading Channels under Non-Isotropic Scattering Conditions. PIMRC 2021: 928-933 - [c118]Rym Hicheri, Nurilla Avazov, Muhammad Muaaz, Matthias Pätzold:
The Transfer Function of Non-Stationary Indoor Channels and its Relationship to System Functions of LFMCW Radars. SPAWC 2021: 151-155 - [c117]Nurilla Avazov, Rym Hicheri, Matthias Pätzold:
A Trajectory-Driven SISO mm-Wave Channel Model for a Human Activity Recognition. WiMob 2021: 133-138 - [c116]Rym Hicheri, Muhammad Muaaz, Nurilla Avazov, Matthias Pätzold:
On the Estimation of the Radial Distance of a Moving Person in Indoor Environments from the Demodulated Response of LFMCW Radars. WiMob 2021: 385-390 - 2020
- [j85]Muhammad Muaaz, Ali Chelli, Ahmed Abdelgawwad, Andreu Català Mallofré, Matthias Pätzold:
WiWeHAR: Multimodal Human Activity Recognition Using Wi-Fi and Wearable Sensing Modalities. IEEE Access 8: 164453-164470 (2020) - [j84]Rym Hicheri, Matthias Pätzold, Neji Youssef:
Estimation of the Time-Variant Velocity of a Single Walking Person in Two-Dimensional Non-Stationary Indoor Environments Using Radio-Frequency Techniques. IEEE Access 8: 169759-169774 (2020) - [j83]Ahmed Abdelgawwad, Alireza Borhani, Matthias Pätzold:
Modelling, Analysis, and Simulation of the Micro-Doppler Effect in Wideband Indoor Channels with Confirmation Through Pendulum Experiments. Sensors 20(4): 1049 (2020) - [j82]Matthias Pätzold:
Toward Realizing the Full Potential of a 5G-Empowered World [Mobile Radio]. IEEE Veh. Technol. Mag. 15(1): 5-11 (2020) - [j81]Bile Peng, Ke Guan, Alexander Kuter, Sebastian Rey, Matthias Pätzold, Thomas Kuerner:
Channel Modeling and System Concepts for Future Terahertz Communications: Getting Ready for Advances Beyond 5G. IEEE Veh. Technol. Mag. 15(2): 136-143 (2020) - [c115]Ali Chelli, Muhammad Muaaz, Matthias Pätzold:
ActRec: A Wi-Fi-Based Human Activity Recognition System. ICC Workshops 2020: 1-6 - [c114]Ahmed Abdelgawwad, Andreu Català, Matthias Pätzold:
Doppler Power Characteristics Obtained from Calibrated Channel State Information for Human Activity Recognition. VTC Spring 2020: 1-7 - [c113]Xabier Insausti, Bjørn Olav Hogstad, Matthias Pätzold:
Modelling and Simulation of Ego-Noise of Unmanned Aerial Vehicles. VTC Spring 2020: 1-5 - [c112]Muhammad Muaaz, Ali Chelli, Matthias Pätzold:
WiHAR: From Wi-Fi Channel State Information to Unobtrusive Human Activity Recognition. VTC Spring 2020: 1-7
2010 – 2019
- 2019
- [j80]Ali Chelli, Matthias Pätzold:
A Machine Learning Approach for Fall Detection and Daily Living Activity Recognition. IEEE Access 7: 38670-38687 (2019) - [j79]Ali Chelli, Matthias Pätzold:
A Machine Learning Approach for Fall Detection Based on the Instantaneous Doppler Frequency. IEEE Access 7: 166173-166189 (2019) - [j78]Alireza Borhani, Matthias Pätzold, Kun Yang:
Time-Frequency Characteristics of In-Home Radio Channels Influenced by Activities of the Home Occupant. Sensors 19(16): 3557 (2019) - [j77]Carlos A. Gutiérrez, Matthias Pätzold, Nicolás M. Ortega, Cesar A. Azurdia-Meza, Fermin M. Maciel-Barboza:
Doppler Shift Characterization of Wideband Mobile Radio Channels. IEEE Trans. Veh. Technol. 68(12): 12375-12380 (2019) - [j76]Matthias Pätzold:
5G Is Coming Around the Corner [Mobile Radio]. IEEE Veh. Technol. Mag. 14(1): 4-10 (2019) - [j75]Matthias Pätzold:
Myths and Reality of 5G Communications [Mobile Radio]. IEEE Veh. Technol. Mag. 14(3): 4-10 (2019) - [j74]Matthias Pätzold:
5G Is Going Live in Country After Country [Mobile Radio]. IEEE Veh. Technol. Mag. 14(4): 4-10 (2019) - [c111]Carlos A. Gutiérrez, Juan C. Ornelas-Lizcano, Matthias Pätzold:
Geometrical Modeling of Non-Stationary Polarimetric Vehicular Radio Channels. CAVS 2019: 1-5 - [c110]Muhammad Muaaz, Ahmed Abdelgawwad, Matthias Pätzold:
The Influence of Human Walking Activities on the Doppler Characteristics of Non-stationary Indoor Channel Models. IWANN (1) 2019: 297-309 - [c109]Alireza Borhani, Matthias Pätzold:
RF-Based Human Activity Recognition: A Non-stationary Channel Model Incorporating the Impact of Phase Distortions. IWANN (1) 2019: 335-346 - [c108]Ahmed Abdelgawwad, Matthias Pätzold:
A 3D Non-Stationary Cluster Channel Model for Human Activity Recognition. VTC Spring 2019: 1-7 - [c107]Rym Hicheri, Matthias Pätzold:
Estimation of the Velocity of Multiple Moving Persons in Non-Stationary Indoor Environments from Received RF Signals. VTC Spring 2019: 1-7 - [c106]Rym Hicheri, Matthias Pätzold:
A New Iterative Estimation Procedure for the Localization of Passive Stationary Objects from Received RF Signals in Indoor Environments. VTC Fall 2019: 1-6 - [c105]Ali Chelli, Matthias Pätzold:
Fall Detection Based on the Instantaneous Doppler Frequency: A Machine Learning Approach. WCNC 2019: 1-7 - [c104]Hamed Hellaoui, Ali Chelli, Miloud Bagaa, Tarik Taleb, Matthias Pätzold:
Towards Efficient Control of Mobile Network-Enabled UAVs. WCNC 2019: 1-6 - [c103]Rym Hicheri, Matthias Pätzold:
A New Iterative Procedure for the Localization of a Moving Object/Person in Indoor Areas from Received RF Signals. WiMob 2019: 1-6 - 2018
- [j73]Nazih Hajri, Neji Youssef, Tsutomu Kawabata, Matthias Pätzold, Wiem Dahech:
Statistical Properties of Double Hoyt Fading With Applications to the Performance Analysis of Wireless Communication Systems. IEEE Access 6: 19597-19609 (2018) - [j72]Carlos A. Gutiérrez-Díaz-de-León, José Trinidad Gutierrez-Mena, Jose Martin Luna-Rivera, Daniel U. Campos-Delgado, Ramiro Velazquez, Matthias Pätzold:
Geometry-Based Statistical Modeling of Non-WSSUS Mobile-to-Mobile Rayleigh Fading Channels. IEEE Trans. Veh. Technol. 67(1): 362-377 (2018) - [j71]Meisam Naderi, Alenka G. Zajic, Matthias Pätzold:
A Nonisovelocity Geometry-Based Underwater Acoustic Channel Model. IEEE Trans. Veh. Technol. 67(4): 2864-2879 (2018) - [j70]Ali Chelli, Emna Zedini, Mohamed-Slim Alouini, Matthias Pätzold, Ilangko Balasingham:
Throughput and Delay Analysis of HARQ With Code Combining Over Double Rayleigh Fading Channels. IEEE Trans. Veh. Technol. 67(5): 4233-4247 (2018) - [j69]Alireza Borhani, Matthias Pätzold:
A Non-Stationary Channel Model for the Development of Non-Wearable Radio Fall Detection Systems. IEEE Trans. Wirel. Commun. 17(11): 7718-7730 (2018) - [j68]Matthias Pätzold:
5G Readiness on the Horizon [Mobile Radio]. IEEE Veh. Technol. Mag. 13(1): 6-13 (2018) - [j67]Matthias Pätzold:
Countdown for the Full-Scale Development of 5G New Radio [Mobile Radio]. IEEE Veh. Technol. Mag. 13(2): 7-13 (2018) - [j66]Matthias Pätzold:
The Final Sprint of Fifth-Generation Toward Commercialization [Mobile Radio]. IEEE Veh. Technol. Mag. 13(3): 4-21 (2018) - [j65]Matthias Pätzold:
It?s Time to Go Big with 5G [Mobile Radio]. IEEE Veh. Technol. Mag. 13(4): 4-10 (2018) - [j64]Yuanyuan Ma, Bjørn Olav Hogstad, Matthias Pätzold, Pedro M. Crespo:
Statistical Modeling, Simulation, and Experimental Verification of Wideband Indoor Mobile Radio Channels. Wirel. Commun. Mob. Comput. 2018 (2018) - [j63]Matthias Pätzold, Carlos A. Gutiérrez:
Modelling and Analysis of Nonstationary Vehicle-to-Infrastructure Channels with Time-Variant Angles of Arrival. Wirel. Commun. Mob. Comput. 2018 (2018) - [c102]Rym Hicheri, Matthias Pätzold, Neji Youssef:
Estimation of the Velocity of a Walking Person in Indoor Environments from mmWave Signals. GLOBECOM Workshops 2018: 1-7 - [c101]Rym Hicheri, Matthias Pätzold, Neji Youssef:
Estimation of the Velocity of a Walking Person in Non-Stationary Indoor Environments from the Received RF Signal. LATINCOM 2018: 1-6 - [c100]Ali Chelli, Matthias Pätzold:
Recognition of Falls and Daily Living Activities Using Machine Learning. PIMRC 2018: 1-7 - [c99]Ahmed Abdelgawwad, Matthias Pätzold:
A Framework for Activity Monitoring and Fall Detection Based on the Characteristics of Indoor Channels. VTC Spring 2018: 1-7 - [c98]Matthias Pätzold, Carlos A. Gutiérrez-Díaz-de-León:
Definition and Analysis of Quasi-Stationary Intervals of Mobile Radio Channels - Invited Paper. VTC Spring 2018: 1-6 - 2017
- [j62]Calin Vladeanu, Ion Banica, Bjørn Olav Hogstad, Matthias Pätzold, Corneliu Eugen D. Sterian:
Combining super-orthogonal space-frequency trellis coding, constellation shaping by shell mapping, and OFDM for high data rate broadband mobile communications. Trans. Emerg. Telecommun. Technol. 28(1) (2017) - [j61]Alireza Borhani, Gordon L. Stüber, Matthias Pätzold:
A Random Trajectory Approach for the Development of Nonstationary Channel Models Capturing Different Scales of Fading. IEEE Trans. Veh. Technol. 66(1): 2-14 (2017) - [j60]Wiem Dahech, Matthias Pätzold, Carlos A. Gutiérrez-Díaz-de-León, Neji Youssef:
A Non-Stationary Mobile-to-Mobile Channel Model Allowing for Velocity and Trajectory Variations of the Mobile Stations. IEEE Trans. Wirel. Commun. 16(3): 1987-2000 (2017) - [j59]Meisam Naderi, Matthias Pätzold, Rym Hicheri, Neji Youssef:
A Geometry-Based Underwater Acoustic Channel Model Allowing for Sloped Ocean Bottom Conditions. IEEE Trans. Wirel. Commun. 16(4): 2394-2408 (2017) - [j58]Matthias Pätzold:
5G Developments Are in Full Swing [Mobile Radio]. IEEE Veh. Technol. Mag. 12(2): 4-12 (2017) - [j57]Matthias Pätzold:
Fifth-Generation Technology Offers Trillion-Dollar Business Opportunities [Mobile Radio]. IEEE Veh. Technol. Mag. 12(3): 4-11 (2017) - [j56]Matthias Pätzold:
The Benefits of Smart Wireless Technologies [Mobile Radio]. IEEE Veh. Technol. Mag. 12(4): 5-12 (2017) - [c97]Meisam Naderi, Gulzaib Rafiq, Matthias Pätzold:
Performance analysis of Alamouti-coded OFDM systems over spatio-temporally correlated underwater acoustic channels. ICC 2017: 1-6 - [c96]Ahmed Abdelgawwad, Matthias Pätzold:
On the influence of walking people on the Doppler spectral characteristics of indoor channels. PIMRC 2017: 1-7 - [c95]J. J. Jaime-Rodriguez, Carlos A. Gutiérrez, Matthias Pätzold, Alireza Borhani:
On the spectral moments of non-WSSUS mobile-to mobile double-Rayleigh fading channels. PIMRC 2017: 1-6 - [c94]Matthias Pätzold, Wiem Dahech, Neji Youssef:
Level-crossing rate and average duration of fades of non-stationary multipath fading channels. PIMRC 2017: 1-7 - [c93]Matthias Pätzold, Carlos A. Gutiérrez:
Modelling and Analysis of Non-Stationary Multipath Fading Channels with Time-Variant Angles of Arrival. VTC Spring 2017: 1-6 - [c92]Matthias Pätzold, Carlos A. Gutiérrez:
Enhancing the Resolution of the Spectrogram of Non-Stationary Mobile Radio Channels by Using Massive MIMO Techniques. VTC Fall 2017: 1-7 - [c91]Carlos A. Gutiérrez-Díaz-de-León, Matthias Pätzold, Wiem Dahech, Neji Youssef:
A Non-WSSUS Mobile-to-Mobile Channel Model Assuming Velocity Variations of the Mobile Stations. WCNC 2017: 1-6 - [c90]Matthias Pätzold, Carlos Adrian Gutierrez Diaz de Leon, Neji Youssef:
On the Consistency of Non-Stationary Multipath Fading Channels with Respect to the Average Doppler Shift and the Doppler Spread. WCNC 2017: 1-6 - 2016
- [j55]Nurilla Avazov, Matthias Pätzold:
A Novel Wideband MIMO Car-to-Car Channel Model Based on a Geometrical Semi-Circular Tunnel Scattering Model. IEEE Trans. Veh. Technol. 65(3): 1070-1082 (2016) - [j54]Nazih Hajri, Neji Youssef, Matthias Pätzold:
On the Statistical Properties of Phase Crossings and Random FM Noise in Double Rayleigh Fading Channels. IEEE Trans. Veh. Technol. 65(4): 1859-1867 (2016) - [j53]Alireza Borhani, Matthias Pätzold:
A Highly Flexible Trajectory Model Based on the Primitives of Brownian Fields - Part II: Analysis of the Statistical Properties. IEEE Trans. Wirel. Commun. 15(1): 247-257 (2016) - [j52]Rym Hicheri, Gulzaib Rafiq, Tsutomu Kawabata, Matthias Pätzold, Neji Youssef:
On the Statistical Properties of Capacity Outage Intervals in OSTBC-MIMO Rayleigh Fading Channels. IEEE Trans. Wirel. Commun. 15(5): 3548-3559 (2016) - [c89]Farhad Firoozi, Alireza Borhani, Matthias Pätzold:
Experimental characterization of mobile fading channels aiming the design of non-wearable fall detection radio systems at 5.9 GHz. ICCS 2016: 1-6 - [c88]Matthias Pätzold, Carlos A. Gutiérrez-Díaz-de-León:
The Wigner Distribution of Sum-of-Cissoids and Sum-of-Chirps Processes for the Modelling of Stationary and Non-Stationary Mobile Channels. VTC Spring 2016: 1-5 - [c87]Matthias Pätzold, Carlos A. Gutiérrez-Díaz-de-León:
Spectrogram Analysis of Multipath Fading Channels under Variations of the Mobile Speed. VTC Fall 2016: 1-6 - 2015
- [j51]Alireza Borhani, Matthias Pätzold:
A Highly Flexible Trajectory Model Based on the Primitives of Brownian Fields - Part I: Fundamental Principles and Implementation Aspects. IEEE Trans. Wirel. Commun. 14(2): 770-780 (2015) - [j50]Matthias Pätzold, Alain Sibille, Kainam Thomas Wong, Alenka G. Zajic:
The state of the art in propagation and mobile channel modeling [From the Guest Editors]. IEEE Veh. Technol. Mag. 10(2): 26-103 (2015) - [c86]Wiem Dahech, Nazih Hajri, Neji Youssef, Tsutomu Kawabata, Matthias Pätzold:
Outage statistics for beckmann fading channels in non-isotropic scattering environments. APCC 2015: 164-168 - [c85]Yun Ai, Bjørn Olav Hogstad, Michael Cheffena, Matthias Pätzold:
Geometry-based modeling of wideband industrial indoor radio propagation channels. IECON 2015: 4299-4304 - [c84]Do Viet Ha, Nguyen Van Duc, Matthias Pätzold:
SINR analysis of OFDM systems using a geometry-based underwater acoustic channel model. PIMRC 2015: 683-687 - [c83]Matthias Pätzold, Neji Youssef:
Spectrogram analysis of multipath fading channels. PIMRC 2015: 2214-2219 - [c82]Wiem Dahech, Nazih Hajri, Neji Youssef, Matthias Pätzold, Tsutomu Kawabata:
Level-Crossing Rate and Average Duration of Fades in Non-Isotropic Hoyt Fading Channels with Applications to Selection Combining Diversity. VTC Fall 2015: 1-5 - [c81]Rym Hicheri, Nazih Hajri, Neji Youssef, Matthias Pätzold, Tsutomu Kawabata:
Statistical Analysis of the Channel Capacity Outage Intervals in Massive MIMO Systems with OSTBC over Rayleigh Fading Channels. VTC Spring 2015: 1-5 - 2014
- [j49]Ali Chelli, Emna Zedini, Mohamed-Slim Alouini, John R. Barry, Matthias Pätzold:
Performance and Delay Analysis of Hybrid ARQ With Incremental Redundancy Over Double Rayleigh Fading Channels. IEEE Trans. Wirel. Commun. 13(11): 6245-6258 (2014) - [c80]Rym Hicheri, Matthias Pätzold, Batool Talha, Neji Youssef:
A study on the distribution of the envelope and the capacity of underwater acoustic channels. ICCS 2014: 394-399 - [c79]Nurilla Avazov, Matthias Pätzold:
Performance analysis of Alamouti coded OFDM systems over wideband MIMO car-to-car channels correlated in time and space. ICCVE 2014: 1062-1067 - [c78]Rym Hicheri, Matthias Pätzold, Neji Youssef:
Optimal Sampling Period and Required Number of Samples for OSTBC-MIMO Rayleigh Fading Channel Capacity Simulators. VTC Fall 2014: 1-6 - [c77]Rym Khedhiri, Nazih Hajri, Neji Youssef, Matthias Pätzold:
On the First- and Second-Order Statistics of Selective Combining over Double Nakagami-m Fading Channels. VTC Fall 2014: 1-5 - [c76]Akmal Fayziyev, Matthias Pätzold, Emilie Masson, Yann Cocheril, Marion Berbineau:
A measurement-based channel model for vehicular communications in tunnels. WCNC 2014: 116-121 - [c75]Matthias Pätzold, Alireza Borhani:
A non-stationary multipath fading channel model incorporating the effect of velocity variations of the mobile station. WCNC 2014: 182-187 - 2013
- [j48]Bjørn Olav Hogstad, Carlos A. Gutiérrez-Díaz-de-León, Matthias Pätzold, Pedro M. Crespo:
Classes of sum-of-cisoids processes and their statistics for the modeling and simulation of mobile fading channels. EURASIP J. Wirel. Commun. Netw. 2013: 125 (2013) - [j47]Alireza Borhani, Matthias Pätzold:
A Unified Disk Scattering Model and Its Angle-of-Departure and Time-of-Arrival Statistics. IEEE Trans. Veh. Technol. 62(2): 473-485 (2013) - [j46]Alireza Borhani, Matthias Pätzold:
Correlation and Spectral Properties of Vehicle-to-Vehicle Channels in the Presence of Moving Scatterers. IEEE Trans. Veh. Technol. 62(9): 4228-4239 (2013) - [j45]Gulzaib Rafiq, Batool Talha, Matthias Pätzold, Jose Gato Luis, Gianluca Ripa, Iacopo Carreras, Cristina Coviello, Stefano Marzorati, Gonzalo Perez Rodriguez, Germán Herrero, Muriel Desaeger:
What?s New in Intelligent Transportation Systems?: An Overview of European Projects and Initiatives. IEEE Veh. Technol. Mag. 8(4): 45-69 (2013) - [j44]Carlos A. Gutiérrez-Díaz-de-León, Matthias Pätzold:
The generalized method of equal areas for the design of sum-of-cisoids simulators for mobile Rayleigh fading channels with arbitrary Doppler spectra. Wirel. Commun. Mob. Comput. 13(10): 951-966 (2013) - [j43]Carlos A. Gutiérrez-Díaz-de-León, Matthias Pätzold:
On the Correlation and Ergodic Properties of the Squared Envelope of SOC Rayleigh Fading Channel Simulators. Wirel. Pers. Commun. 68(3): 963-979 (2013) - [c74]Matthias Pätzold, Gulzaib Rafiq:
Sparse multipath channels: Modelling, analysis, and simulation. PIMRC 2013: 30-35 - [c73]Nurilla Avazov, Matthias Pätzold:
A wideband car-to-car channel model based on a geometrical semicircular tunnel scattering model. PIMRC 2013: 253-258 - [c72]Neji Youssef, Gulzaib Rafiq, Rym Hicheri, Tsutomu Kawabata, Matthias Pätzold:
An asymptotic approximate solution to the distribution of the capacity outage intervals in OSTBC-MIMO Rayleigh fading channels. PIMRC 2013: 1291-1295 - [c71]Alireza Borhani, Matthias Pätzold:
A non-stationary one-ring scattering model. WCNC 2013: 2620-2625 - 2012
- [j42]Gulzaib Rafiq, Bjørn Olav Hogstad, Matthias Pätzold:
On the first- and second-order statistics of the capacity of N*Nakagami-m channels for applications in cooperative networks. EURASIP J. Wirel. Commun. Netw. 2012: 24 (2012) - [j41]Carlos A. Gutiérrez-Díaz-de-León, Matthias Pätzold, Arturo Sandoval, Carlos Delgado-Mata:
An Ergodic Sum-of-Cisoids Simulator for Multiple Uncorrelated Rayleigh Fading Channels Under Generalized Scattering Conditions. IEEE Trans. Veh. Technol. 61(5): 2375-2382 (2012) - [j40]Gulzaib Rafiq, Matthias Pätzold:
The Impact of Shadowing and the Severity of Fading on the First and Second Order Statistics of the Capacity of OSTBC MIMO Nakagami-Lognormal Channels. Wirel. Pers. Commun. 65(3): 601-616 (2012) - [c70]Akmal Fayziyev, Matthias Pätzold:
The design of sum-of-sinusoids channel simulators using the iterative nonlinear least square approximation method. SoftCOM 2012: 1-5 - [c69]Alireza Borhani, Matthias Pätzold:
Modeling of Vehicle-to-Vehicle Channels in the Presence of Moving Scatterers. VTC Fall 2012: 1-5 - [c68]Ali Chelli, Matthias Pätzold:
An improved method for estimating the frequency correlation function. WCNC 2012: 1054-1059 - 2011
- [j39]Corneliu Eugen D. Sterian, Yuanyuan Ma, Matthias Pätzold, Ion Banica, Huaqiang He:
New super-orthogonal space-time trellis codes using differential M-PSK for noncoherent mobile communication systems with two transmit antennas. Ann. des Télécommunications 66(3-4): 257-273 (2011) - [j38]Batool Talha, Matthias Pätzold:
A Geometrical Three-Ring-Based Model for MIMO Mobile-to-Mobile Fading Channels in Cooperative Networks. EURASIP J. Adv. Signal Process. 2011 (2011) - [j37]Gulzaib Rafiq, Valeri Y. Kontorovich, Matthias Pätzold:
The impact of spatial correlation on the statistical properties of the capacity of nakagami-m channels with MRC and EGC. EURASIP J. Wirel. Commun. Netw. 2011: 116 (2011) - [j36]Matthias Pätzold, Andreas F. Molisch, Claude Oestges:
Trends in Mobile Radio Channels-Modeling, Analysis, and Simulation [From the Guest Editors]. IEEE Veh. Technol. Mag. 6(2): 21-22 (2011) - [j35]Batool Talha, Matthias Pätzold:
Channel Models for Mobile-to-Mobile Cooperative Communication Systems: A State of the Art Review. IEEE Veh. Technol. Mag. 6(2): 33-43 (2011) - [c67]Alireza Borhani, Matthias Pätzold:
Time-of-arrival, angle-of-arrival, and angle-of-departure statistics of a novel simplistic disk channel model. ICSPCS 2011: 1-7 - [c66]Ali Chelli, Matthias Pätzold:
On the performance of hybrid-ARQ with code combining over double rayleigh fading channels. PIMRC 2011: 2014-2019 - [c65]Ali Chelli, John R. Barry, Matthias Pätzold:
Performance of Hybrid-ARQ with Incremental Redundancy over Double Rayleigh Fading Channels. VTC Spring 2011: 1-6 - [c64]Ali Chelli, Matthias Pätzold:
A Non-Stationary MIMO Vehicle-to-Vehicle Channel Model Derived from the Geometrical Street Model. VTC Fall 2011: 1-6 - 2010
- [j34]Batool Talha, Matthias Pätzold:
Mobile-to-mobile fading channels in amplify-and-forward relay systems under line-of-sight conditions: statistical modeling and analysis. Ann. des Télécommunications 65(7-8): 391-410 (2010) - [j33]Corneliu Eugen D. Sterian, Krzysztof Wesolowski, Yi Wu, Matthias Pätzold:
Information Theory Reducing the peak and average power for OFDM systems using QAM by constellation shaping. Eur. Trans. Telecommun. 21(1): 35-49 (2010) - [j32]Carlos A. Gutiérrez-Díaz-de-León, Matthias Pätzold:
The design of sum-of-cisoids rayleigh fading channel simulators assuming non-isotropic scattering conditions. IEEE Trans. Wirel. Commun. 9(4): 1308-1314 (2010) - [j31]Haixia Zhang, Dongfeng Yuan, Matthias Pätzold, Yi Wu, Van-Duc Nguyen:
A novel wideband space-time channel simulator based on the geometrical one-ring model with applications in MIMO-OFDM systems. Wirel. Commun. Mob. Comput. 10(6): 758-771 (2010) - [j30]Matthias Pätzold, Kun Yang:
An Exact Solution for the Level-Crossing Rate of Shadow Fading Processes Modelled by Using the Sum-of-Sinusoids Principle. Wirel. Pers. Commun. 52(1): 57-68 (2010) - [j29]Batool Talha, Matthias Pätzold:
Statistical Modeling and Analysis of Mobile-to-Mobile Fading Channels in Cooperative Networks Under Line-of-Sight Conditions. Wirel. Pers. Commun. 54(1): 3-19 (2010) - [c63]Ali Chelli, Matthias Pätzold:
An Improved Method for Estimating the Time ACF of a Sum of Complex Plane Waves. GLOBECOM 2010: 1-6 - [c62]Batool Talha, Serguei Primak, Matthias Pätzold:
On the Statistical Properties of Equal Gain Combining over Mobile-to-Mobile Fading Channels in Cooperative Networks. ICC 2010: 1-6 - [c61]Yuanyuan Ma, Matthias Pätzold:
Modeling and statistical characterization of wideband indoor radio propagation channels. ICUMT 2010: 777-783 - [c60]Batool Talha, Matthias Pätzold:
BEP analysis of M-ary PSK modulation schemes over double Rice fading channels with EGC. MASS 2010: 624-629 - [c59]Yuanyuan Ma, Matthias Pätzold:
Design and Simulation of Narrowband Indoor Radio Propagation Channels under LOS and NLOS Propagation Conditions. VTC Spring 2010: 1-7 - [c58]Yuanyuan Ma, Matthias Pätzold:
Performance Analysis of Alamouti Coded OFDM Systems over Rayleigh Fading Channels Correlated in Space and Time. VTC Spring 2010: 1-6 - [c57]Batool Talha, Matthias Pätzold:
On the Statistical Analysis of the Channel Capacity of Double Rayleigh Channels with Equal Gain Combining in V2V Communication Systems. VTC Spring 2010: 1-6 - [c56]Batool Talha, Matthias Pätzold:
On the Statistical Analysis of Equal Gain Combining over Multiple Double Rice Fading Channels in Cooperative Networks. VTC Fall 2010: 1-5 - [c55]Yuanyuan Ma, Matthias Pätzold:
Performance Analysis of STBC-OFDM Systems in Temporally or Spatially Correlated Fading Channels. WCNC 2010: 1-5
2000 – 2009
- 2009
- [j28]Bjørn Olav Hogstad, Matthias Pätzold, Neji Youssef, Valeri Y. Kontorovich:
Exact Closed-Form Expressions for the Distribution, the Level-Crossing Rate, and the Average Duration of Fades of the Capacity of OSTBC-MIMO Channels. IEEE Trans. Veh. Technol. 58(2): 1011-1016 (2009) - [j27]Matthias Pätzold, Cheng-Xiang Wang, Bjørn Olav Hogstad:
Two new sum-of-sinusoids-based methods for the efficient generation of multiple uncorrelated rayleigh fading waveforms. IEEE Trans. Wirel. Commun. 8(6): 3122-3131 (2009) - [j26]Carlos A. Gutiérrez-Díaz-de-León, Margarita Cabrera-Bean, Matthias Pätzold:
On the problems of symbol-spaced tapped-delay-line models for WSSUS channels. Wirel. Commun. Mob. Comput. 9(9): 1181-1193 (2009) - [j25]Matthias Pätzold, Yuming Jiang:
Editorial: Special Issue on "Wireless Future". Wirel. Pers. Commun. 50(1): 1-3 (2009) - [j24]Gulzaib Rafiq, Matthias Pätzold:
A Study of the Influence of Shadowing on the Statistical Properties of the Capacity of Mobile Radio Channels. Wirel. Pers. Commun. 50(1): 5-18 (2009) - [j23]Gulzaib Rafiq, Matthias Pätzold:
The Influence of LOS Components on the Statistical Properties of the Capacity of Amplify-and-Forward Channels. Wirel. Sens. Netw. 1(1): 7-14 (2009) - [j22]Yi Wu, Matthias Pätzold:
Parameter Optimization for Amplify-and-Forward Relaying Systems with Pilot Symbol Assisted Modulation Scheme. Wirel. Sens. Netw. 1(1): 15-21 (2009) - [c54]Dmitry Umansky, Matthias Pätzold:
Design of Measurement-Based Stochastic Wideband MIMO Channel Simulators. GLOBECOM 2009: 1-7 - [c53]Dmitry Umansky, Matthias Pätzold:
Stationarity Test for Wireless Communication Channels. GLOBECOM 2009: 1-6 - [c52]Yi Wu, Matthias Pätzold:
Performance Analysis of Cooperative Communication Systems with Imperfect Channel Estimation. ICC 2009: 1-6 - [c51]Carlos A. Gutiérrez-Díaz-de-León, Matthias Pätzold:
The Riemann sum method for the design of sum-of-cisoids simulators for Rayleigh fading channels in non-isotropic scattering environments. ICUMT 2009: 1-5 - [c50]Nazih Hajri, Neji Youssef, Matthias Pätzold:
A study on the statistical properties of double hoyt fading channels. ISWCS 2009: 201-205 - [c49]Nazih Hajri, Neji Youssef, Matthias Pätzold:
Performance analysis of binary DPSK modulation schemes over Hoyt fading channels. ISWCS 2009: 609-613 - [c48]Gulzaib Rafiq, Matthias Pätzold:
Statistical properties of the capacity of multipath fading channels. PIMRC 2009: 1103-1107 - [c47]Ali Chelli, Matthias Pätzold:
The Impact of Fixed and Moving Scatterers on the Statistics of MIMO Vehicle-to-Vehicle Channels. VTC Spring 2009 - [c46]Yuanyuan Ma, Matthias Pätzold:
Performance Analysis of Wideband Sum-of-Cisoids-Based Channel Simulators with Respect to the Bit Error Probability of DPSK OFDM Systems. VTC Spring 2009 - [c45]Gulzaib Rafiq, Matthias Pätzold, Valeri Y. Kontorovich:
The Influence of Spatial Correlation and Severity of Fading on the Statistical Properties of the Capacity of OSTBC Nakagami-m MIMO Channels. VTC Spring 2009 - [c44]Batool Talha, Matthias Pätzold:
A Geometrical Channel Model for MIMO Mobile-to-Mobile Fading Channels in Cooperative Networks. VTC Spring 2009 - [c43]Dmitry Umansky, Matthias Pätzold:
Velocity Estimation in Wideband Mobile Stations Equipped With Multiple Antennas. VTC Spring 2009 - [c42]Yi Wu, Matthias Pätzold:
Parameter Optimization for Amplify-and-Forward Relaying with Imperfect Channel Estimation. VTC Spring 2009 - 2008
- [j21]Corneliu Eugen D. Sterian, Yi Wu, Matthias Pätzold:
Super-quasiorthogonal space-time trellis codes for four transmit antennas with rectangular signal constellations. Ann. des Télécommunications 63(5-6): 331-350 (2008) - [j20]Matthias Pätzold, Bjørn Olav Hogstad, Neji Youssef:
Modeling, analysis, and simulation of MIMO mobile-to-mobile fading channels. IEEE Trans. Wirel. Commun. 7(2): 510-520 (2008) - [j19]Matthias Pätzold, Bjørn Olav Hogstad:
A wideband MIMO channel model derived from the geometric elliptical scattering model. Wirel. Commun. Mob. Comput. 8(5): 597-605 (2008) - [c41]Dmitry Umansky, Matthias Pätzold:
A Two-Dimensional Autoregressive Model for MIMO Wideband Mobile Radio Channels. GLOBECOM 2008: 3953-3958 - [c40]Gulzaib Rafiq, Matthias Pätzold:
The Influence of the Severity of Fading and Shadowing on the Statistical Properties of the Capacity of Nakagami-Lognormal Channels. GLOBECOM 2008: 4297-4302 - [c39]Batool Talha, Matthias Pätzold:
Level-Crossing Rate and Average Duration of Fades of the Envelope of Mobile-to-Mobile Fading Channels in Cooperative Networks Under Line-of-Sight Conditions. GLOBECOM 2008: 4483-4488 - [c38]Ali Chelli, Matthias Pätzold:
A wideband multiple-cluster MIMO mobile-to-mobile channel model based on the geometrical street model. PIMRC 2008: 1-6 - [c37]Batool Talha, Matthias Pätzold:
A novel amplify-and-forward relay channel model for mobile-to-mobile fading channels under line-of-sight conditions. PIMRC 2008: 1-6 - [c36]Dmitry Umansky, Matthias Pätzold:
Design of Wideband Mobile Radio Channel Simulators Based on Real-World Measurement Data. VTC Spring 2008: 319-324 - [c35]Bjørn Olav Hogstad, Matthias Pätzold:
On the Stationarity of Sum-of-Cisoids-Based Mobile Fading Channel Simulators. VTC Spring 2008: 400-404 - [c34]Yuanyuan Ma, Matthias Pätzold:
A Wideband One-Ring MIMO Channel Model Under Non-Isotropic Scattering Conditions. VTC Spring 2008: 424-429 - [c33]Matthias Pätzold, Carlos A. Gutiérrez-Díaz-de-León:
Level-Crossing Rate and Average Duration of Fades of the Envelope of a Sum-of-Cisoids. VTC Spring 2008: 488-494 - [c32]Gulzaib Rafiq, Valeri Y. Kontorovich, Matthias Pätzold:
On the Statistical Properties of the Capacity of Spatially Correlated Nakagami-M MIMO Channels. VTC Spring 2008: 500-506 - 2007
- [j18]Haixia Zhang, Dongfeng Yuan, Matthias Pätzold:
Novel study on PAPRs reduction in wavelet-based multicarrier modulation systems. Digit. Signal Process. 17(1): 272-279 (2007) - [j17]Corneliu Eugen D. Sterian, Srujan Linga, Harvinder Singh, Matthias Pätzold:
Wireless Systems New super-orthogonal space-time trellis codes with 32QAM and two transmit antennas for five bits per signalling interval. Eur. Trans. Telecommun. 18(2): 205-215 (2007) - [j16]Van-Duc Nguyen, Matthias Pätzold, Fumiaki Maehara, Harald Haas, Minh-Viet Pham:
Channel Estimation and Interference Cancellation for MIMO-OFDM Systems. IEICE Trans. Commun. 90-B(2): 277-290 (2007) - [j15]Cheng-Xiang Wang, Matthias Pätzold, Qi Yao:
Stochastic Modeling and Simulation of Frequency-Correlated Wideband Fading Channels. IEEE Trans. Veh. Technol. 56(3): 1050-1063 (2007) - [j14]Chengxiang Wang, Matthias Pätzold, Dongfeng Yuan:
Accurate and efficient simulation of multiple uncorrelated Rayleigh fading waveforms. IEEE Trans. Wirel. Commun. 6(3): 833-839 (2007) - [j13]Matthias Pätzold, Bjørn Olav Hogstad, Dongwoo Kim:
A New Design Concept for High-Performance Fading Channel Simulators Using Set Partitioning. Wirel. Pers. Commun. 40(3): 267-279 (2007) - [c31]Carlos A. Gutiérrez-Díaz-de-León, Matthias Pätzold:
Sum-of-Sinusoids-Based Simulation of Flat Fading Wireless Propagation Channels Under Non-Isotropic Scattering Conditions. GLOBECOM 2007: 3842-3846 - [c30]Neji Youssef, Matthias Pätzold, Kun Yang:
Approximate Solutions to the Distribution of the Fading Intervals of Lognormal Processes. ISWCS 2007: 204-208 - [c29]Gulzaib Rafiq, Matthias Pätzold:
The Impact of Shadowing on the Capacity of Mobile Fading Channels. ISWCS 2007: 209-214 - [c28]Dmitry Umansky, Matthias Pätzold:
Design of Measurement-Based Wideband Mobile Radio Channel Simulators. ISWCS 2007: 229-235 - [c27]Carlos Adrian Gutierrez Diaz de Leon, Matthias Pätzold:
Efficient Sum-of-Sinusoids-Based Simulation of Mobile Fading Channels with Asymmetrical Doppler Power Spectra. ISWCS 2007: 246-251 - [c26]Yuanyuan Ma, Matthias Pätzold:
Performance Comparison of Space-Time Coded MIMO-OFDM Systems Using Different Wideband MIMO Channel Models. ISWCS 2007: 762-766 - [c25]Ali Chelli, Matthias Pätzold:
A MIMO Mobile-to-Mobile Channel Model Derived from a Geometric Street Scattering Model. ISWCS 2007: 792-797 - [c24]Bjørn Olav Hogstad, Matthias Pätzold:
Exact Closed-Form Expressions for the Distribution, Level-Crossing Rate, and Average Duration of Fades of the Capacity of MIMO Channels. VTC Spring 2007: 455-460 - [c23]Carlos A. Gutiérrez-Díaz-de-León, Margarita Cabrera-Bean, Matthias Pätzold:
On the Problems of Symbol-Spaced Tapped-Delay-Line Models for WSSUS Channels. VTC Fall 2007: 920-925 - [e1]Matthias Pätzold, Yuming Jiang, Yan Zhang:
Proceedings of the 4th IEEE International Symposium on Wireless Communication Systems, ISWCS 2007, Trondheim, Norway, 16-19 October 2007. IEEE 2007 [contents] - 2006
- [j12]Yi Wu, Vincent K. N. Lau, Matthias Pätzold:
Constellation Design for Trellis-Coded Unitary Space-Time Modulation. IEEE Trans. Commun. 54(10): 1896-1896 (2006) - [j11]Yi Wu, Vincent K. N. Lau, Matthias Pätzold:
Constellation Design for Trellis-Coded Unitary Space-Time Modulation Systems. IEEE Trans. Commun. 54(11): 1948-1959 (2006) - [j10]Corneliu Eugen D. Sterian, Harvinder Singh, Matthias Pätzold, Bjørn Olav Hogstad:
Super-orthogonal space-time codes with rectangular constellations and two transmit antennas for high data rate wireless communications. IEEE Trans. Wirel. Commun. 5(7): 1857-1865 (2006) - [c22]Matthias Pätzold, Bjørn Olav Hogstad:
A Wideband MIMO Channel Model Derived From the Geometric Elliptical Scattering Model. ISWCS 2006: 138-143 - [c21]Matthias Pätzold, Bjørn Olav Hogstad:
A Wideband Space-Time MIMO Channel Simulator Based on the Geometrical One-Ring Model. VTC Fall 2006: 1-6 - [c20]Corneliu Eugen D. Sterian, Yi Wu, Matthias Pätzold:
A 32QAM Super-Quasi-Orthogonal Space-Time Trellis Code for Four Transmit Antennas. VTC Fall 2006: 1-5 - [c19]Corneliu Eugen D. Sterian, Yi Wu, Matthias Pätzold:
A 16QAM Super-Quasi-Orthogonal Space-Time Trellis Code for Four Transmit Antennas. VTC Fall 2006: 1-5 - [c18]Corneliu Eugen D. Sterian, Krzysztof Wesolowski, Yi Wu, Matthias Pätzold:
Using Constellation Shaping to Reduce the Peak and Average Power of OFDM Signals. VTC Fall 2006: 1-5 - [c17]Matthias Pätzold, Bjørn Olav Hogstad:
Two New Methods for the Generation of Multiple Uncorrelated Rayleigh Fading Waveforms. VTC Spring 2006: 2782-2786 - 2005
- [j9]Neji Youssef, Cheng-Xiang Wang, Matthias Pätzold:
A Study on the Second Order Statistics of Nakagami-Hoyt Mobile Fading Channels. IEEE Trans. Veh. Technol. 54(4): 1259-1265 (2005) - [j8]Neji Youssef, W. Elbahri, Matthias Pätzold, S. Elasmi:
On the crossing statistics of phase processes and random FM noise in Nakagami-q mobile fading channels. IEEE Trans. Wirel. Commun. 4(1): 24-29 (2005) - [c16]Yi Wu, Vincent K. N. Lau, Matthias Pätzold:
Signal design for trellis-coded unitary space-time modulation. GLOBECOM 2005: 5 - [c15]Nazih Hajri, Neji Youssef, Matthias Pätzold:
Simulation of mobile-to-mobile radio fading channels. ICECS 2005: 1-4 - [c14]Bjørn Olav Hogstad, Matthias Pätzold, Neji Youssef, Dongwoo Kim:
A Mimo Mobile-To-Mobile Channel Model: Part II - The Simulation Model. PIMRC 2005: 562-567 - [c13]Matthias Pätzold, Bjørn Olav Hogstad, Neji Youssef, Dongwoo Kim:
A MIMO Mobile-To-Mobile Channel Model: Part I - The Reference Model. PIMRC 2005: 573-578 - 2004
- [j7]Cheng-Xiang Wang, Matthias Pätzold:
A generative deterministic model for digital mobile fading channels. IEEE Commun. Lett. 8(4): 223-225 (2004) - [j6]Matthias Pätzold:
On the Stationarity and Ergodicity of Fading Channel Simulators Based on Rice's Sum-of-Sinusoids. Int. J. Wirel. Inf. Networks 11(2): 63-69 (2004) - [j5]Corneliu Eugen D. Sterian, Cheng-Xiang Wang, Ragnar Johnsen, Matthias Pätzold:
Rotationally invariant space-time trellis codes with 4-D rectangular constellations for high data rate wireless communications. J. Commun. Networks 6(3): 258-268 (2004) - [j4]Matthias Pätzold, Bjørn Olav Hogstad:
A space-time channel simulator for MIMO channels based on the geometrical one-ring scattering model. Wirel. Commun. Mob. Comput. 4(7): 727-737 (2004) - [c12]Cheng-Xiang Wang, Matthias Pätzold:
Deterministic modeling and simulation of error sequences in digital mobile fading channels. ICC 2004: 3374-3378 - [c11]Bjørn Olav Hogstad, Matthias Pätzold:
Capacity studies of MIMO channel models based on the geometrical one-ring scattering model. PIMRC 2004: 1613-1617 - [c10]Matthias Pätzold, Van-Duc Nguyen:
A spatial simulation model for shadow fading processes in mobile radio channels. PIMRC 2004: 1832-1838 - [c9]Cheng-Xiang Wang, Matthias Pätzold:
A new deterministic process based generative model for characterizing bursty error sequences. PIMRC 2004: 2134-2139 - 2003
- [c8]Cheng-Xiang Wang, Matthias Pätzold:
A novel generative model for burst error characterization in Rayleigh fading channels. PIMRC 2003: 960-964 - [c7]Neji Youssef, Mohamed Wissem El Bahri, Matthias Pätzold, Sadok El Asmi:
On the level crossing statistics of phase and random FM noise in Nakagami-Q mobile fading channels. PIMRC 2003: 965-969 - [c6]Qi Yao, Matthias Pätzold:
A novel 3-D spatial-temporal deterministic simulation model for mobile fading channels. PIMRC 2003: 1506-1510 - [c5]Matthias Pätzold:
On the stationarity and ergodicity of fading channel simulators basing on Rice's sum-of-sinusoids. PIMRC 2003: 1521-1525 - [c4]Cheng-Xiang Wang, Matthias Pätzold:
Efficient simulation of multiple cross-correlated Rayleigh fading channels. PIMRC 2003: 1526-1530 - 2002
- [j3]Matthias Pätzold, Arkadius Szczepanski, Neji Youssef:
Methods for modeling of specified and measured multipath power-delay profiles. IEEE Trans. Veh. Technol. 51(5): 978-988 (2002) - [c3]Cheng-Xiang Wang, Matthias Pätzold, Burin Itsarachai:
A deterministic frequency hopping Rayleigh fading channel simulator designed by using optimization techniques. PIMRC 2002: 478-483 - [c2]Matthias Pätzold, Qi Yao:
A study of stochastic and deterministic procedures for the design of simulation models for spatial channels. PIMRC 2002: 1924-1931 - 2000
- [j2]Matthias Pätzold, Raquel Garcia, Frank Laue:
Design of high-speed simulation models for mobile fading channels by using table look-up techniques. IEEE Trans. Veh. Technol. 49(4): 1178-1190 (2000)
1990 – 1999
- 1996
- [j1]Matthias Pätzold, Ulrich Killat, Yu Shi, Frank Laue:
A deterministic method for the derivation of a discrete WSSUS multipath fading channel model. Eur. Trans. Telecommun. 7(2): 165-175 (1996) - 1994
- [c1]Matthias Pätzold, Ulrich Killat, Frank Laue:
A deterministic model for a shadowed Rayleigh land mobile radio channel. PIMRC 1994: 1202-1210
Coauthor Index
aka: Carlos Adrian Gutierrez Diaz de Leon
aka: Carlos A. Gutiérrez 0001
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