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Zdenek Becvar
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2020 – today
- 2024
- [j56]Mohammadsaleh Nikooroo
, Omid Esrafilian
Optimization of Placement and Resource Allocation in UAV-Aided Multihop Wireless Networks. IEEE Internet Things J. 11(11): 20051-20071 (2024) - [j55]Ramsha Narmeen, Pavel Mach, Zdenek Becvar, Ishtiaq Ahmad:
Joint Exit Selection and Offloading Decision for Applications Based on Deep Neural Networks. IEEE Internet Things J. 11(23): 38098-38112 (2024) - [j54]Ishtiaq Ahmad, Zeeshan Kaleem, Jan Plachy, Hina Tabassum, Zdenek Becvar, Walid Saad:
Guest Editorial: Flexible Reconfigurable Intelligent Surfaces for Integrated Air-to-ground Internet of Things: Architecture, Recent Advances, and Future Applications. IEEE Internet Things Mag. 7(2): 12-13 (2024) - [j53]Mohammed Elfiky
Allocation of Resources for HARQ Retransmission in Mobile Networks Based on C-RAN. IEEE Syst. J. 18(1): 450-461 (2024) - [j52]Mostafa Kishani
Joint Optimization of Communication and Storage Latencies for Vehicular Edge Computing. IEEE Trans. Intell. Transp. Syst. 25(6): 5435-5449 (2024) - [j51]Pavel Mach
Offloading of Tasks With Tight Delay Requirements via Combined Half and Full Duplex UAV Relays. IEEE Trans. Veh. Technol. 73(9): 14086-14091 (2024) - [j50]Zdenek Becvar
Machine Learning for Channel Quality Prediction: From Concept to Experimental Validation. IEEE Trans. Wirel. Commun. 23(10): 14605-14619 (2024) - [j49]Pavel Mach, Zdenek Becvar, Thrasyvoulos Spyropoulos:
Coping with Spatial Unfairness and Overloading Problem in Mobile Networks via D2D Relaying. IEEE Wirel. Commun. 31(1): 78-84 (2024) - [j48]Ishtiaq Ahmad, Zdenek Becvar
Coordinated Machine Learning for Energy Efficient D2D Communication. IEEE Wirel. Commun. Lett. 13(5): 1493-1497 (2024) - [c63]Edwin Babaians, Praveen Gorla, Serkut Ayvasik, Jan Plachý, Zdenek Becvar, Wolfgang Kellerer, Eckehard G. Steinbach:
OCTOPUS: Optimized Cross-border TeleOperated Medicine Pouring Using NextGen Seamless Communication Networks. ICC 2024: 1491-1496 - [c62]Petr Skaba, Zdenek Becvar, Pavel Mach, Ismail Güvenç:
Coordinated Machine Learning for Handover in Mobile Networks with Transparent Relaying UAVs. ICC Workshops 2024: 1761-1766 - [c61]Emre Gures, Zdenek Becvar, Pavel Mach:
Cascade Fuzzy Logic for Handover Optimization in Mobile Networks. MeditCom 2024: 293-298 - [c60]Mostafa Kishani, Zdenek Becvar:
Reducing Computation, Communication, and Storage Latency in Vehicular Edge Computing. VTC Spring 2024: 1-7 - [i10]Pavel Mach, Zdenek Becvar, Mohammadsaleh Nikooroo:
Multi-hop Relaying with Mixed Half and Full Duplex Relays for Offloading to MEC. CoRR abs/2401.06908 (2024) - 2023
- [j47]Zdenek Becvar, David Gesbert, Pavel Mach, Mehyar Najla:
Machine Learning-Based Channel Quality Prediction in 6G Mobile Networks. IEEE Commun. Mag. 61(7): 106-112 (2023) - [j46]Marek Ruzicka
Energy Consumption Optimization for UAV Base Stations With Wind Compensation. IEEE Commun. Lett. 27(4): 1210-1214 (2023) - [j45]Mohammadsaleh Nikooroo
Maximization of Minimum User Capacity in UAV-Enabled Mobile Networks With NOMA. IEEE Netw. Lett. 5(1): 6-10 (2023) - [j44]Ali Doostmohammadi
Dynamic Clustering for Low-Delay Delivery of Video Content Cached in MEC Servers. IEEE Syst. J. 17(4): 5842-5853 (2023) - [j43]Marcel Volosin
Blockchain-Based Route Selection With Allocation of Radio and Computing Resources for Connected Autonomous Vehicles. IEEE Trans. Intell. Transp. Syst. 24(7): 7230-7243 (2023) - [j42]Aida Madelkhanova
Optimization of Cell Individual Offset for Handover of Flying Base Stations and Users. IEEE Trans. Wirel. Commun. 22(5): 3180-3193 (2023) - [c59]Pavel Mach, Zdenek Becvar, Mohammadsaleh Nikooroo:
Multi-hop Relaying with Mixed Half and Full Duplex Relays for Offloading to MEC. GLOBECOM (Workshops) 2023: 558-564 - [c58]Mohammadsaleh Nikooroo
Channel Reuse for Backhaul in UAV Mobile Networks with User QoS Guarantee. ICC 2023: 5425-5431 - [c57]Eugen Slapak, Adam Petík, Marcel Volosin, Matús Dopiriak, Juraj Gazda, Zdenek Becvar:
Graph Neural Network Empowered Resource Allocation for Connected Autonomous Mobility. IRC 2023: 260-264 - [i9]Mohammadsaleh Nikooroo, Zdenek Becvar, Omid Esrafilian, David Gesbert:
Channel Reuse for Backhaul in UAV Mobile Networks with User QoS Guarantee. CoRR abs/2301.08108 (2023) - 2022
- [j41]Pavel Mach
Device-to-Device Relaying: Optimization, Performance Perspectives, and Open Challenges Towards 6G Networks. IEEE Commun. Surv. Tutorials 24(3): 1336-1393 (2022) - [j40]Pavel Mach
Power Allocation, Channel Reuse, and Positioning of Flying Base Stations With Realistic Backhaul. IEEE Internet Things J. 9(3): 1790-1805 (2022) - [j39]Zdenek Becvar
On Energy Consumption of Airship-Based Flying Base Stations Serving Mobile Users. IEEE Trans. Commun. 70(10): 7006-7022 (2022) - [j38]Mohammadsaleh Nikooroo
Optimization of Total Power Consumed by Flying Base Station Serving Mobile Users. IEEE Trans. Netw. Sci. Eng. 9(4): 2815-2832 (2022) - [j37]Mohammadsaleh Nikooroo
Optimal Positioning of Flying Base Stations and Transmission Power Allocation in NOMA Networks. IEEE Trans. Wirel. Commun. 21(2): 1319-1334 (2022) - [j36]Ishtiaq Ahmad
Machine Learning-Based Beamforming for Unmanned Aerial Vehicles Equipped with Reconfigurable Intelligent Surfaces. IEEE Wirel. Commun. 29(4): 32-38 (2022) - [c56]Mostafa Kishani
Reducing Storage and Communication Latencies in Vehicular Edge Cloud. EuCNC 2022: 291-296 - [c55]Mohammadsaleh Nikooroo
Sum Capacity Maximization in Multi-Hop Mobile Networks with Flying Base Stations. GLOBECOM 2022: 6565-6570 - [c54]Mohammadsaleh Nikooroo
QoS-Aware Sum Capacity Maximization for Mobile Internet of Things Devices Served by UAVs. PIMRC 2022: 1-7 - [c53]Pavel Mach, Zdenek Becvar, Jan Plachy:
Mitigation of Doppler Effect in High-speed Trains through Relaying. VTC Spring 2022: 1-6 - [c52]Aida Madelkhanova, Zdenek Becvar, Thrasyvoulos Spyropoulos:
Q-Learning-based Setting of Cell Individual Offset for Handover of Flying Base Stations. VTC Spring 2022: 1-7 - [i8]Mohammadsaleh Nikooroo, Zdenek Becvar, Omid Esrafilian, David Gesbert:
QoS-Aware Sum Capacity Maximization for Mobile Internet of Things Devices Served by UAVs. CoRR abs/2210.11880 (2022) - [i7]Mohammadsaleh Nikooroo, Omid Esrafilian, Zdenek Becvar, David Gesbert:
Sum Capacity Maximization in Multi-Hop Mobile Networks with Flying Base Stations. CoRR abs/2210.11884 (2022) - 2021
- [j35]Md. Sakir Hossain
Soft Frequency Reuse With Allocation of Resource Plans Based on Machine Learning in the Networks With Flying Base Stations. IEEE Access 9: 104887-104903 (2021) - [j34]Zdenek Becvar, Pavel Mach, Mohammed Elfiky, Mitsuo Sakamoto:
Hierarchical Scheduling for Suppression of Fronthaul Delay in C-RAN with Dynamic Functional Split. IEEE Commun. Mag. 59(4): 95-101 (2021) - [j33]Syed Mohammad Zafaruddin
Energy Consumption Performance of Opportunistic Device-to-Device Relaying Under Log-Normal Shadowing. IEEE Syst. J. 15(4): 5011-5022 (2021) - [j32]Pavel Mach
Incentive-Based D2D Relaying in Cellular Networks. IEEE Trans. Commun. 69(3): 1775-1788 (2021) - [j31]Jan Plachy
Dynamic Allocation of Computing and Communication Resources in Multi-Access Edge Computing for Mobile Users. IEEE Trans. Netw. Serv. Manag. 18(2): 2089-2106 (2021) - [j30]Mehyar Najla
Reuse of Multiple Channels by Multiple D2D Pairs in Dedicated Mode: A Game Theoretic Approach. IEEE Trans. Wirel. Commun. 20(7): 4313-4327 (2021) - [j29]Mehyar Najla
Positioning and Association Rules for Transparent Flying Relay Stations. IEEE Wirel. Commun. Lett. 10(6): 1276-1280 (2021) - [c51]Mostafa Kishani
PADSA: Priority-Aware Block Data Storage Architecture for Edge Cloud Serving Autonomous Vehicles. VNC 2021: 170-177 - [c50]Mohammed Elfiky, Zdenek Becvar, Pavel Mach:
Dynamic Adjustment of Scheduling Period in Mobile Networks Based on C-RAN. VTC Fall 2021: 1-7 - [c49]Aida Madelkhanova, Zdenek Becvar:
Optimization of Cell Individual Offset for Handover of Flying Base Station. VTC Spring 2021: 1-7 - 2020
- [j28]Mehyar Najla
Predicting Device-to-Device Channels From Cellular Channel Measurements: A Learning Approach. IEEE Trans. Wirel. Commun. 19(11): 7124-7138 (2020) - [j27]Mehyar Najla
Deep Learning for Selection Between RF and VLC Bands in Device-to-Device Communication. IEEE Wirel. Commun. Lett. 9(10): 1763-1767 (2020) - [j26]Zdenek Becvar
Mobility management for D2D communication combining radio frequency and visible light communications bands. Wirel. Networks 26(7): 5473-5484 (2020) - [c48]Daniel Kekrt, Zdenek Becvar:
Low-Complexity Iterative Soft-output Demodulation for Hierarchical Quadrature Amplitude Modulation. GLOBECOM 2020: 1-7 - [c47]Jan Plachy
Energy Efficient Positioning of Flying Base Stations via Coulomb's law. GLOBECOM (Workshops) 2020: 1-6 - [c46]Mehyar Najla, Zdenek Becvar, Pavel Mach, David Gesbert:
Integrating UAVs as Transparent Relays into Mobile Networks: A Deep Learning Approach. PIMRC 2020: 1-6 - [c45]Md. Sakir Hossain
Flexible Soft Frequency Reuse for Interference Management in the Networks with Flying Base Stations. VTC Spring 2020: 1-7 - [c44]Pavel Mach, Zdenek Becvar, Mehyar Najla:
Joint Association, Transmission Power Allocation and Positioning of Flying Base Stations Considering Limited Backhaul. VTC Fall 2020: 1-7 - [c43]Mehyar Najla, Zdenek Becvar, Pavel Mach:
Sequential Bargaining Game for Reuse of Radio Resources in D2D Communication in Dedicated Mode. VTC Spring 2020: 1-6 - [c42]Mohammadsaleh Nikooroo
Optimization of Transmission Power for NOMA in Networks with Flying Base Stations. VTC Fall 2020: 1-7 - [c41]Zdenek Becvar, Pavel Mach, Mohammadsaleh Nikooroo
Reducing Energy Consumed by Repositioning of Flying Base Stations Serving Mobile Users. WCNC 2020: 1-7 - [c40]Mohammadsaleh Nikooroo
Optimizing Transmission and Propulsion Powers for Flying Base Stations. WCNC 2020: 1-8 - [i6]Emilio Calvanese Strinati, Sergio Barbarossa, Taesang Choi, Antonio Pietrabissa, Alessandro Giuseppi, Emanuele De Santis, Josep Vidal, Zdenek Becvar, Thomas Haustein, Nicolas Cassiau, Francesca Costanzo, Junhyeong Kim, Ilgyu Kim:
6G in the Sky: On-Demand Intelligence at the Edge of 3D Networks. CoRR abs/2010.09463 (2020)
2010 – 2019
- 2019
- [j25]Jan Plachy
Joint Positioning of Flying Base Stations and Association of Users: Evolutionary-Based Approach. IEEE Access 7: 11454-11463 (2019) - [j24]Mehyar Najla
Efficient Exploitation of Radio Frequency and Visible Light Communication Bands for D2D in Mobile Networks. IEEE Access 7: 168922-168933 (2019) - [j23]Ray-Guang Cheng
Two-Phase Random Access Procedure for LTE-A Networks. IEEE Trans. Wirel. Commun. 18(4): 2374-2387 (2019) - [j22]Pavel Mach
Resource Allocation for D2D Communication With Multiple D2D Pairs Reusing Multiple Channels. IEEE Wirel. Commun. Lett. 8(4): 1008-1011 (2019) - [c39]Pavel Mach, Zdenek Becvar, Thrasyvoulos Spyropoulos:
Incentive Mechanism and Relay Selection for D2D Relaying in Cellular Networks. GLOBECOM 2019: 1-7 - [c38]Mehyar Najla, David Gesbert, Zdenek Becvar, Pavel Mach:
Machine Learning for Power Control in D2D Communication Based on Cellular Channel Gains. GLOBECOM Workshops 2019: 1-6 - [c37]Jan Plachy
Nash Bargaining Solution for Cooperative Relaying Exploiting Energy Consumption. SPAWC 2019: 1-5 - [c36]Zdenek Becvar, Pavel Mach, Jan Plachy
Positioning of Flying Base Stations to Optimize Throughput and Energy Consumption of Mobile Devices. VTC Spring 2019: 1-7 - [c35]Toha Ardi Nugraha
Relay Selection Exploiting Genetic Algorithms for Multi-hop Device-to-Device Communication. WiCON 2019: 62-72 - [c34]Mohammadsaleh Nikooroo
Joint Positioning of UAV and Power Control for Flying Base Stations in Mobile Networks. WiMob 2019: 1-6 - [i5]Mehyar Najla, Zdenek Becvar, Pavel Mach, David Gesbert:
Predicting Device-to-Device Channels from Cellular Channel Measurements: A Learning Approach. CoRR abs/1911.07191 (2019) - 2018
- [j21]Ketyllen Da Costa Silva
Adaptive Hysteresis Margin Based on Fuzzy Logic for Handover in Mobile Networks With Dense Small Cells. IEEE Access 6: 17178-17189 (2018) - [j20]Ray-Guang Cheng
Modeling of Distributed Queueing-Based Random Access for Machine Type Communications in Mobile Networks. IEEE Commun. Lett. 22(1): 129-132 (2018) - [j19]Michal Vondra
Vehicular Network-Aware Route Selection Considering Communication Requirements of Users for ITS. IEEE Syst. J. 12(2): 1239-1250 (2018) - [c33]Zdenek Becvar, Mehyar Najla, Pavel Mach:
Selection between Radio Frequency and Visible Light Communication Bands for D2D. VTC Spring 2018: 1-7 - [c32]Pavel Mach, Zdenek Becvar, Mehyar Najla:
Combined Shared and Dedicated Resource Allocation for D2D Communication. VTC Spring 2018: 1-7 - [c31]Pavel Mach, Zdenek Becvar, Amir Leshem
Hybrid spectrum sharing for cognitive small cells. WCNC 2018: 1-6 - [c30]Ketyllen C. Silva
Self-tuning handover algorithm based on fuzzy logic in mobile networks with dense small cells. WCNC 2018: 1-6 - [i4]Syed Mohammad Zafaruddin, Jan Plachy, Zdenek Becvar, Amir Leshem:
Energy Efficiency of Opportunistic Device-to-Device Relaying Under Lognormal Shadowing. CoRR abs/1803.00969 (2018) - 2017
- [j18]Pavel Mach
Mobile Edge Computing: A Survey on Architecture and Computation Offloading. IEEE Commun. Surv. Tutorials 19(3): 1628-1656 (2017) - [j17]Pavel Mach
Energy-Aware Dynamic Selection of Overlay and Underlay Spectrum Sharing for Cognitive Small Cells. IEEE Trans. Veh. Technol. 66(5): 4120-4132 (2017) - [c29]Pavel Mach, Zdenek Becvar, Mehyar Najla, Stanislav Zvanovec:
Combination of visible light and radio frequency bands for device-to-device communication. PIMRC 2017: 1-7 - [i3]Pavel Mach, Zdenek Becvar:
Mobile Edge Computing: A Survey on Architecture and Computation Offloading. CoRR abs/1702.05309 (2017) - [i2]Pavel Mach, Zdenek Becvar, Mehyar Najla, Stanislav Zvanovec:
Combination of Visible Light and Radio Frequency Bands for Device-to-Device Communication. CoRR abs/1709.04025 (2017) - [i1]Pavel Mach, Zdenek Becvar:
Combined shared/dedicated resource allocation for Device-to-Device Communication. CoRR abs/1711.01866 (2017) - 2016
- [j16]Jan Plachy
Path selection enabling user mobility and efficient distribution of data for computation at the edge of mobile network. Comput. Networks 108: 357-370 (2016) - [j15]Pavel Mach, Zdenek Becvar
Cloud-aware power control for real-time application offloading in mobile edge computing. Trans. Emerg. Telecommun. Technol. 27(5): 648-661 (2016) - [j14]Michal Vondra, Zdenek Becvar
Distance-Based Neighborhood Scanning for Handover Purposes in Network with Small Cells. IEEE Trans. Veh. Technol. 65(2): 883-895 (2016) - [c28]Jakub Dolezal, Zdenek Becvar
Performance evaluation of computation offloading from mobile device to the edge of mobile network. CSCN 2016: 60-66 - [c27]Jan Plachy
Dynamic resource allocation exploiting mobility prediction in mobile edge computing. PIMRC 2016: 1-6 - 2015
- [j13]Pavel Mach
In-Band Device-to-Device Communication in OFDMA Cellular Networks: A Survey and Challenges. IEEE Commun. Surv. Tutorials 17(4): 1885-1922 (2015) - [j12]Zdenek Becvar
Self-optimizing neighbor cell list with dynamic threshold for handover purposes in networks with small cells. Wirel. Commun. Mob. Comput. 15(13): 1729-1743 (2015) - [j11]Ray-Guang Cheng, Nien-Sheng Chen, Yu-Feng Chou, Zdenek Becvar
Offloading Multiple Mobile Data Contents Through Opportunistic Device-to-Device Communications. Wirel. Pers. Commun. 84(3): 1963-1979 (2015) - [c26]Pavel Mach
Enhancement of Hybrid Cognitive Approach for Femtocells. VTC Spring 2015: 1-7 - [c25]Miguel Angel Puente, Zdenek Becvar
A Seamless Integration of Computationally-Enhanced Base Stations into Mobile Networks towards 5G. VTC Spring 2015: 1-5 - [c24]Jan Plachy
Cross-layer approach enabling communication of high number of devices in 5G mobile networks. WiMob 2015: 809-816 - 2014
- [j10]Zdenek Becvar
Radio Resource Sharing Among Users in Hybrid Access Femtocells. KSII Trans. Internet Inf. Syst. 8(8): 2590-2606 (2014) - [c23]Matthieu De Mari, Emilio Calvanese Strinati, Mérouane Debbah, Zdenek Becvar
Interference Empowered 5G Networks. 5GU 2014: 29-34 - [c22]Zdenek Becvar
Prediction of Channel Quality after Handover for Mobility Management in 5G. 5GU 2014: 35-39 - [c21]Michal Vondra, Zdenek Becvar
QoS-ensuring distribution of computation load among cloud-enabled small cells. CloudNet 2014: 197-203 - [c20]Pavel Mach
Cloud-aware power control for cloud-enabled small cells. GLOBECOM Workshops 2014: 1038-1043 - [c19]Zdenek Becvar
Q-learning-based prediction of channel quality after handover in mobile networks. PIMRC 2014: 1359-1364 - [c18]Zdenek Becvar
Path selection using handover in mobile networks with cloud-enabled small cells. PIMRC 2014: 1480-1485 - [c17]Felicia Lobillo, Zdenek Becvar
An architecture for mobile computation offloading on cloud-enabled LTE small cells. WCNC Workshops 2014: 1-6 - [c16]Jakub Dolezal, Zdenek Becvar
Methodology and tool for energy consumption modeling of mobile devices. WCNC Workshops 2014: 34-39 - [c15]Pavel Mach, Zdenek Becvar
Centralized dynamic resource allocation scheme for femtocells exploiting graph theory approach. WCNC 2014: 1479-1484 - 2013
- [j9]Zdenek Becvar
Mitigation of redundant handovers to femtocells by estimation of throughput gain. Mob. Inf. Syst. 9(4): 315-330 (2013) - [j8]Pavel Mach
Optimization of association procedure in WiMAX networks with relay stations. Telecommun. Syst. 52(3): 1697-1704 (2013) - [j7]Pavel Mach
Handover of relay stations for load balancing in IEEE 802.16. Wirel. Commun. Mob. Comput. 13(2): 170-183 (2013) - [c14]Zdenek Becvar
Optimization of SINR-based Neighbor Cell List for networks with small cells. PIMRC 2013: 2346-2351 - [c13]Michal Vondra, Zdenek Becvar
Self-configured Neighbor Cell List of macro cells in network with Small Cells. PIMRC 2013: 3044-3049 - [c12]Zdenek Becvar
Dynamic Optimization of Neighbor Cell List for Femtocells. VTC Spring 2013: 1-6 - 2012
- [j6]Zdenek Becvar
Fast cell selection with efficient active set management in OFDMA networks with femtocells. EURASIP J. Wirel. Commun. Netw. 2012: 292 (2012) - [c11]Zdenek Becvar
Performance of fast cell selection in two-tier OFDMA networks with small cells. Wireless Days 2012: 1-3 - [c10]Michal Vondra, Zdenek Becvar
Handover with consideration of connection cost in femtocell networks. WTS 2012: 1-6 - [c9]Michal Vondra, Zdenek Becvar
Connection Cost Based Handover Decision for Offloading Macrocells by Femtocells. WWIC 2012: 208-219 - [e1]Zdenek Becvar, Robert Bestak, Lukas Kencl:
NETWORKING 2012 Workshops - International IFIP TC 6 Workshops, ETICS, HetsNets, and CompNets, Held at NETWORKING 2012, Prague, Czech Republic, May 25, 2012. Proceedings. Lecture Notes in Computer Science 7291, Springer 2012, ISBN 978-3-642-30038-7 [contents] - 2011
- [j5]Zdenek Becvar
Improvement of handover prediction in mobile WiMAX by using two thresholds. Comput. Networks 55(16): 3759-3773 (2011) - [j4]Pavel Mach, Zdenek Becvar
QoS-Guaranteed Power Control Mechanism Based on the Frame Utilization for Femtocells. EURASIP J. Wirel. Commun. Netw. 2011 (2011) - [j3]Zdenek Becvar
Fast predicted handover in IEEE 802.16 networks. Eur. Trans. Telecommun. 22(2): 68-80 (2011) - [j2]Zdenek Becvar
Overhead of ARQ mechanism in IEEE 802.16 networks. Telecommun. Syst. 46(4): 353-367 (2011) - [c8]Pavel Mach
Optimization of power control algorithm for femtocells based on frame utilization. PIMRC 2011: 207-211 - [c7]Zdenek Becvar
On enhancement of handover decision in femtocells. Wireless Days 2011: 1-3 - [c6]Pavel Mach
Efficient routing of data for femtocells. Wireless Days 2011: 1-3
2000 – 2009
- 2009
- [j1]Zdenek Becvar:
Efficiency of Handover Prediction Based on Handover History. J. Convergence Inf. Technol. 4(4): 41-47 (2009) - [c5]Pavel Mach
Acquisition of Channel State Information for Routing Purposes in Relay-Based WiMAX Networks. ICN 2009: 170-175 - [c4]Zdenek Becvar
Impact of Handover on VoIP Speech Quality in WiMAX Networks. ICN 2009: 281-286 - 2008
- [c3]Zdenek Becvar
Optimization of handover scanning procedure in WiMAX networks with relay stations. ISWPC 2008: 581-585 - 2007
- [c2]Zdenek Becvar
Impact of Relay Stations Implementation on the Handover in WiMAX. PWC 2007: 107-114 - [c1]Zdenek Becvar
Impact of Additional Noise on Subjective and Objective Quality Assessement in VoIP. MMSP 2007: 39-42
Coauthor Index
[j55] [j53] [j51] [j50] [j49] [j48] [c62] [c61] [i10] [j47] [c59] [j41] [j40] [j39] [c53] [j34] [j32] [j30] [j29] [c50] [j28] [j27] [j26] [c46] [c44] [c43] [c41] [j25] [j24] [j22] [c39] [c38] [c36] [c35] [i5] [j19] [c33] [c32] [c31] [j18] [j17] [c29] [i3] [i2] [i1] [j16] [j15] [j13] [j12] [c26] [c22] [c20] [c19] [c18] [c17] [c15] [j9] [j8] [j7] [c14] [c12] [j6] [c11] [j5] [j4] [j3] [c8] [c7] [c6] [c5] [c4] [c3]
Jan Plachy
aka: Jan Plachý
aka: Jan Plachý
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