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1. Full Text Statistical Characterization of \kappa\mu Shadowed Fading
by Paris, Jose F
IEEE transactions on vehicular technology, ISSN 0018-9545, 02/2014, Volume 63, Issue 2, pp. 518 - 526
Fading channels | wireless communications | Rician shadowed | one-side Gaussian | underwater acoustic communications (UAC) | Rayleigh channels | Rician | Shadow mapping | Wireless communication | Analytical models | Rician channels | land mobile satellite (LMS) | kappa{ - }\mu | Random variables | Nakagami- m | Rayleigh | Engineering | Transportation Science & Technology | Technology | Transportation | Engineering, Electrical & Electronic | Telecommunications | Science & Technology | Gaussian distribution | Usage | Distribution (Probability theory) | Statistical models | Innovations | Fading | Shadows | Mathematical analysis | Exact solutions | Communication satellites | Gaussian | Channels | Probability density functions
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2. Full Text The \alpha- \mu Distribution: A Physical Fading Model for the Stacy Distribution
by Yacoub, M.D
IEEE transactions on vehicular technology, ISSN 0018-9545, 01/2007, Volume 56, Issue 1, pp. 27 - 34
Rayleigh scattering | Weibull fading channels | Rayleigh channels | Generalized Gamma distribution | Nakagami-m distribution | Land mobile radio | Stacy distribution | Nakagami distribution | alpha - mu distribution | Statistical distributions | Probability density function | Weibull distribution | Higher order statistics | Propagation delay | Engineering | Transportation Science & Technology | Technology | Transportation | Engineering, Electrical & Electronic | Telecommunications | Science & Technology | Fading | Correlation | Mathematical analysis | Exact solutions | Gaussian | Mathematical models | Statistics | Probability density functions
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3. Full Text Application of Non-Orthogonal Multiple Access in Cooperative Spectrum-Sharing Networks Over Nakagami- m Fading Channels
by Lu Lv and Qiang Ni and Zhiguo Ding and Jian Chen
IEEE transactions on vehicular technology, ISSN 0018-9545, 06/2017, Volume 66, Issue 6, pp. 5506 - 5511
Fading channels | m fading">Nakagami- m fading | NOMA | Radio transmitters | Receivers | Throughput | non-orthogonal multiple access (NOMA) | Relays | Cooperative spectrum-sharing | Signal to noise ratio | Nakagami-m fading | Engineering | Transportation Science & Technology | Technology | Transportation | Engineering, Electrical & Electronic | Telecommunications | Science & Technology | Performance evaluation | Networks | Multiple access | Radio spectra | Spectrum allocation | Cognitive radio
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4. Full Text Statistical characterization of κ-μ Shadowed fading
by Paris, José F
IEEE transactions on vehicular technology, ISSN 0018-9545, 2014, Volume 63, Issue 2, pp. 518 - 526
Fading channels | wireless communications | Rician shadowed | one-side Gaussian | underwater acoustic communications (UAC) | κ-μ | land mobile satellite (LMS) | Rician | Nakagami-m | Rayleigh | Radiocommunications | Telecommunications and information theory | Mobile radiocommunication systems | Satellite telecommunications. Space telecommunications | Systems, networks and services of telecommunications | Exact sciences and technology | Equipments and installations | Applied sciences | Transmission and modulation (techniques and equipments) | Telecommunications
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5. Full Text Performance Analysis of NOMA With Fixed Gain Relaying Over Nakagami- m Fading Channels
by Xinwei Yue and Yuanwei Liu and Shaoli Kang and Nallanathan, Arumugam
IEEE access, ISSN 2169-3536, 2017, Volume 5, pp. 5445 - 5454
Fading channels | NOMA | diversity order | Silicon carbide | Interference | Throughput | m fading channels">Nakagami-m fading channels | Electronic mail | Non-orthogonal multiple access | amplify-and-forward relaying | Signal to noise ratio | Nakagami-m fading channels | Non-Orthogonal multiple access | diversity orde | Computer Science, Information Systems | Engineering | Technology | Computer Science | Engineering, Electrical & Electronic | Telecommunications | Science & Technology | Fading | Amplification | Multiple access | Relaying | Gain | Channels
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6. Full Text Cognitive Amplify-and-Forward Relay Networks Over Nakagami- m Fading
by Duong, T. Q and Benevides da Costa, Daniel and Elkashlan, M and Vo Nguyen Quoc Bao
IEEE transactions on vehicular technology, ISSN 0018-9545, 06/2012, Volume 61, Issue 5, pp. 2368 - 2374
Nakagami- m fading | Amplify-and-forward (AF) | Interference | Rayleigh channels | Receivers | Encoding | dual-hop cognitive relay network (CRN) | Relays | Signal to noise ratio | spectrum sharing | Nakagami-m fading | Engineering | Transportation Science & Technology | Technology | Transportation | Engineering, Electrical & Electronic | Telecommunications | Science & Technology | Multiplexing | Electrical engineering. Electrical power engineering | Operation. Load control. Reliability | Telecommunications and information theory | Power networks and lines | Electrical power engineering | Exact sciences and technology | Disturbances. Regulation. Protection | Information, signal and communications theory | Access methods and protocols, osi model | Signal and communications theory | Teleprocessing networks. Isdn | Applied sciences | Integer programming | Wireless sensor networks | Usage | Distribution (Probability theory) | Power amplifiers | Innovations | Amplification | Fading | Networks | Relaying | Asymptotic properties | Relay networks | Strategy
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7. Full Text Performance Analysis of Nonorthogonal Multiple Access for Relaying Networks Over Nakagami- m Fading Channels
by Jinjin Men and Jianhua Ge and Chensi Zhang
IEEE transactions on vehicular technology, ISSN 0018-9545, 02/2017, Volume 66, Issue 2, pp. 1200 - 1208
Fading channels | m fading">Nakagami- m fading | Silicon carbide | nonorthogonal multiple access (NOMA) | successive interference cancelation (SIC) | Mobile communication | outage behavior | relaying networks | Relays | Ergodic sum rate | Mobile computing | Signal to noise ratio | Nonorthogonal multiple access (NOMA) | Outage behavior | Nakagami-m fading | Successive interference cancelation (SIC) | Relaying networks | Engineering | Transportation Science & Technology | Technology | Transportation | Engineering, Electrical & Electronic | Telecommunications | Science & Technology | Usage | Mobile communication systems | Wireless communication systems | Analysis | Chemical properties | Electric properties
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8. Full Text Generalized Selection Combining for Cognitive Relay Networks Over Nakagami- m Fading
by Yansha Deng and Lifeng Wang and Elkashlan, Maged and Kyeong Jin Kim and Duong, Trung Q
IEEE transactions on signal processing, ISSN 1053-587X, 04/2015, Volume 63, Issue 8, pp. 1993 - 2006
Fading | generalized selection combining | Cognitive relay network | Nakagami- m fading | Transmitting antennas | Diversity reception | Receiving antennas | Interference | Signal to noise ratio | Nakagami-m fading | Engineering, Electrical & Electronic | Engineering | Technology | Science & Technology | Research | Interference (Sound)
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9. Full Text Secrecy Capacity Analysis over κ-μ Fading Channels: Theory and Applications
by Bhargav, Nidhi and Cotton, Simon L and Simmons, David E
IEEE transactions on communications, ISSN 0090-6778, 07/2016, Volume 64, Issue 7, pp. 3011 - 3024
device-to-device communications | Body centric communications | fading channels | secrecy capacity | κ-μ fading | co-channel interference | vehicular communications
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10. Full Text Secrecy Performance Analysis of Cognitive Decode-and-Forward Relay Networks in Nakagami- m Fading Channels
by Rui Zhao and Yi Yuan and Lisheng Fan and Yu-Cheng He
IEEE transactions on communications, ISSN 0090-6778, 02/2017, Volume 65, Issue 2, pp. 549 - 563
Fading channels | Relay networks (telecommunications) | secrecy outage probability | Cognitive relay networks | decode-and-forward | relay selection | Interference | Network security | Physical layer | m fading">Nakagami-m fading | Jamming | decode-andforward | Nakagami-m fading | Engineering, Electrical & Electronic | Engineering | Telecommunications | Technology | Science & Technology | Relays | Research | Secrecy aspects | Performance assessment | Relay networks
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11. Full Text Quadrature Spatial Modulation Performance Over Nakagami- m Fading Channels
by Younis, Abdelhamid and Mesleh, Raed and Haas, Harald
IEEE transactions on vehicular technology, ISSN 0018-9545, 12/2016, Volume 65, Issue 12, pp. 10227 - 10231
m fading">Nakagami- m fading | Multiple-input multiple-output (MIMO) | Modulation | Rayleigh channels | MIMO | quadrature spatial modulation (QSM) | Indexes | spatial modulation (SM) | Antennas | performance analysis | Signal to noise ratio | Quadrature spatial modulation (QSM) | Performance analysis | Nakagami-m fading | Spatial modulation (SM) | Engineering | Transportation Science & Technology | Technology | Transportation | Engineering, Electrical & Electronic | Telecommunications | Science & Technology | Fading channels | Research | Modulation (Electronics) | Multiplexing | Fading | MIMO (control systems) | Computer simulation | Monte Carlo simulation
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12. Full Text On the effective capacity of Fisher–Snedecor ${\bf\cal F}$F fading channels
by Almehmadi, F.S and Badarneh, O.S
Electronics letters, ISSN 0013-5194, 9/2018, Volume 54, Issue 18, pp. 1068 - 1070
Information and communications | Rayleigh distributions | channel capacity | Rayleigh channels | Monte‐Carlo simulations | effective capacity performance | Fisher‐Snedecor F fading channel capacity | statistical distributions | Nakagami channels | signal‐to‐noise ratio | Monte Carlo methods | exact closed‐form expression | simple asymptotic expression | Nakagami‐m distributions | Engineering, Electrical & Electronic | Engineering | Technology | Science & Technology
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13. Full Text Cooperative Communications With Wireless Energy Harvesting Over Nakagami- m Fading Channels
by Jia Ye and Hongjiang Lei and Yuanwei Liu and Gaofeng Pan and Benevides da Costa, Daniel and Qiang Ni and Zhiguo Ding
IEEE transactions on communications, ISSN 0090-6778, 12/2017, Volume 65, Issue 12, pp. 5149 - 5164
Fading channels | Wireless communication | imperfect CSI | Transmitting antennas | Cooperative systems | m fading">Nakagami-m fading | Batteries | Energy harvesting | stochastic geometry | Relays | Stochastic geometry | Imperfect CSI | Nakagami-m fading | Engineering, Electrical & Electronic | Engineering | Telecommunications | Technology | Science & Technology | Fading | Radio signals | Relay | Wireless communications | Mathematical analysis | Exact solutions | Signal processing | Closed form solutions | Antennas | Energy storage
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14. Full Text The α-μ distribution: A physical fading model for the Stacy distribution
by Yacoub, Michel Daoud
IEEE transactions on vehicular technology, ISSN 0018-9545, 01/2007, Volume 56, Issue 1, pp. 27 - 34
Generalized Gamma distribution | Nakagami-m distribution | Weibull distribution | α-μ distribution | Stacy distribution | Radiocommunications | Telecommunications and information theory | Mobile radiocommunication systems | Exact sciences and technology | Equipments and installations | Applied sciences | General | Telecommunications | Radiowave propagation
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15. Full Text Performance Bounds for Diversity Receptions Over Arbitrarily Correlated Nakagami- m Fading Channels
by Bingcheng Zhu and Fan Yang and Julian Cheng and Lenan Wu
IEEE transactions on wireless communications, ISSN 1536-1276, 01/2016, Volume 15, Issue 1, pp. 699 - 713
Fading | Wireless communication | Correlation | Error analysis | outage probability | Diversity reception | Correlated Nakagami-m fading channels | error rate | Joints | Signal to noise ratio | diversity reception | Engineering, Electrical & Electronic | Engineering | Telecommunications | Technology | Science & Technology | Computer simulation | Correlation analysis | Asymptotic properties | Mathematical analysis | Channels | Probability density functions
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16. Full Text Performance of Two-Way Opportunistic Relaying With Analog Network Coding Over Nakagami- m Fading
by Upadhyay, Prabhat K and Prakriya, Shankar
IEEE transactions on vehicular technology, ISSN 0018-9545, 05/2011, Volume 60, Issue 4, pp. 1965 - 1971
Nakagami- m fading | Analog network coding (ANC) | AWGN | outage probability | Rayleigh channels | Network coding | Probability | two-way opportunistic relaying (TWOR) | Relays | Signal to noise ratio | Nakagami-m fading | Engineering | Transportation Science & Technology | Technology | Transportation | Engineering, Electrical & Electronic | Telecommunications | Science & Technology | Measurement | Fading channels | Wireless sensor networks | Amplitude modulation | Usage | Innovations | Fading | Networks | Outages | Relaying | Coding | Mathematical analysis | Mathematical models | Channels
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17. Full Text Outage Analysis of Decode-and-Forward Cognitive Dual-Hop Systems With the Interference Constraint in Nakagami- m Fading Channels
by Caijun Zhong and Ratnarajah, T and Kai-Kit Wong
IEEE transactions on vehicular technology, ISSN 0018-9545, 07/2011, Volume 60, Issue 6, pp. 2875 - 2879
Fading | Temperature distribution | Nakagami- m fading | decode-and-forward (DF) relaying | outage probability | Cognitive radio systems | Interference | Random variables | Cognitive radio | Relays | interference temperature | Materials requirements planning | Nakagami-m fading | Engineering | Transportation Science & Technology | Technology | Transportation | Engineering, Electrical & Electronic | Telecommunications | Science & Technology | Electrical engineering. Electrical power engineering | Radiocommunications | Operation. Load control. Reliability | Telecommunications and information theory | Power networks and lines | Electrical power engineering | Exact sciences and technology | Transmission and modulation (techniques and equipments) | Access methods and protocols, osi model | Teleprocessing networks. Isdn | Systems, networks and services of telecommunications | Radiocommunication specific techniques | Applied sciences | Fading channels | Technology application | Monte Carlo method | Usage | Rayleigh scattering | Mobile communication systems | Wireless communication systems | Analysis | Innovations | Density functionals | Methods | Outages | Links | Saturation | Channels
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18. Full Text Backscatter Communications Over Correlated Nakagami- m Fading Channels
by Zhang, Yu and Gao, Feifei and Fan, Lisheng and Lei, Xianfu and Karagiannidis, George K
IEEE transactions on communications, ISSN 0090-6778, 02/2019, Volume 67, Issue 2, pp. 1693 - 1704
Fading channels | SER | m">correlated Nakagami-m | Correlation | Internet of Things (IoT) | RFID | backscatter communication | diversity order | Receiving antennas | MISO communication | MIMO communication | Radiofrequency identification | Backscatter | MRC | correlated Nakagami-m | Engineering, Electrical & Electronic | Engineering | Telecommunications | Technology | Science & Technology
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19. Full Text Asymptotic Outage Analysis of HARQ-IR Over Time-Correlated Nakagami- m Fading Channels
by Zheng Shi and Shaodan Ma and Guanghua Yang and Kam-Weng Tam and Minghua Xia
IEEE transactions on wireless communications, ISSN 1536-1276, 09/2017, Volume 16, Issue 9, pp. 6119 - 6134
Fading channels | Wireless communication | Correlation | Transforms | asymptotic outage analysis | Hybrid automatic repeat request with incremental redundancy | m fading">Nakagami-m fading | Random variables | time correlation | product of multiple random variables | Mutual information | Signal to noise ratio | Nakagami-m fading | Engineering, Electrical & Electronic | Engineering | Telecommunications | Technology | Science & Technology
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