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Автор: Grafiati
Опубліковано: 6 вересня 2023

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Статті в журналах з теми "Decode-and-forward Cooperative Relaying"

1

Sheng, Zhengguo, Bong Jun Ko, and Kin K. Leung. "Power Efficient Decode-and-Forward Cooperative Relaying." IEEE Wireless Communications Letters 1, no. 5 (October 2012): 444–47. http://dx.doi.org/10.1109/wcl.2012.062512.120301.

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2

Lee, Jong-Ho, Illsoo Sohn, Sungju Song, and Yong-Hwa Kim. "Cooperative Decode-and-Forward Relaying for Secure Multicasting." ETRI Journal 38, no. 5 (October 1, 2016): 934–40. http://dx.doi.org/10.4218/etrij.16.0115.1029.

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3

Savazzi, Stefano, and Umberto Spagnolini. "Cooperative Fading Regions for Decode and Forward Relaying." IEEE Transactions on Information Theory 54, no. 11 (November 2008): 4908–24. http://dx.doi.org/10.1109/tit.2008.929911.

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4

Song, Xin, MingLei Zhang, WenMIn Liu, and ShengBao Wang. "Threshold-based hybrid relay selection and power allocation scheme." Journal of Communications Technology, Electronics and Computer Science 8 (November 7, 2016): 16. http://dx.doi.org/10.22385/jctecs.v8i0.126.

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Анотація:
Abstract—To minimize total transmit power in a system while guaranteeing the outage probability at the same time in a cooperative system, we propose and analyse two threshold-based hybrid relay selection and power allocation schemes for a three-node cooperative relaying system. They are designated as: the hybrid amplify-direct-forward relaying (HADF) and incremental hybrid decode-direct-forward relaying (IHDDF) schemes. In the HADF scheme, a specific outage probability threshold is derived to determine that the system chooses to optimize power allocation of its source and relay in amplify-and-forward (AF) mode or optimize the power of its source in direct-transmit (DT) mode without a relay. In IHDDF, according to the outage probability threshold, the system chooses to optimize its power in turn with incremental decode-and-forward opportunistic relaying (IDFO) mode or DT mode. Closed-form expressions of the total transmit power of the proposed HADF and IHDDF schemes are derived. The proposed schemes have low computational complexity and system cost. Theoretical analysis and simulation results show that the HADF scheme outperforms the AF and DT schemes, and the total transmission power of the IHDDF scheme is reduced significantly compared with the IDFO and DT schemes. Compared with the HADF scheme, the IHDDF scheme has a better total transmit power in special channel condition.Keywords—power allocation, three-node cooperative relaying system, amplify-and-forward, incremental decode-and-forward opportunistic relaying.
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5

Yang Han, A. Pandharipande, and See Ting. "Cooperative decode-and-forward relaying for secondary spectrum access." IEEE Transactions on Wireless Communications 8, no. 10 (October 2009): 4945–50. http://dx.doi.org/10.1109/twc.2009.081484.

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6

Lee, Sangkook, Weifeng Su, Stella Batalama, and John D. Matyjas. "Cooperative Decode-and-Forward ARQ Relaying: Performance Analysis and Power Optimization." IEEE Transactions on Wireless Communications 9, no. 8 (August 2010): 2632–42. http://dx.doi.org/10.1109/twc.2010.062310.091554.

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7

Al-Mistarihi, Mamoun F., Rami Mohaisen, and Khalid A. Darabkh. "Performance evaluation of decode and forward cooperative diversity systems over nakagami-m fading channels with non-identical interferers." International Journal of Electrical and Computer Engineering (IJECE) 10, no. 5 (October 1, 2020): 5316. http://dx.doi.org/10.11591/ijece.v10i5.pp5316-5328.

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Анотація:
The deficiencies of regular cooperative relaying schemes were the main reason behind the development of Incremental Relaying (IR). Fixed relaying is one of the regular cooperative relaying schemes and it relies on using the relay node to help in transmitting the signal of the source towards the destination despite the channel’s condition. However, adaptive relaying methods allocate the channel resources efficiently; thus, such methods have drawn the attention of researchers in recent years. In this study, we analyze a two-hop Decode-and-Forward (DF) IR system’s performance via Nakagami-m fading channels with the existence of the several L distinguishable interferers placed close to the destination which diminishes the overall performance of the system due to the co-channel interference. Tight formulas for the Bit Error Rate (BER) and the Outage Probability (OP) are drawn. The assumptions are consolidated by numerical calculations.
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8

Liu, Hongwu, Zhiguo Ding, Kyeong Jin Kim, Kyung Sup Kwak, and H. Vincent Poor. "Decode-and-Forward Relaying for Cooperative NOMA Systems With Direct Links." IEEE Transactions on Wireless Communications 17, no. 12 (December 2018): 8077–93. http://dx.doi.org/10.1109/twc.2018.2873999.

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9

Ahmad, Ishtiaq, Khoa D. Nguyen, Nick Letzepis, and Andre Pollok. "On the Hopping Loss in MIMO Decode-and-Forward Cooperative Relaying." IEEE Transactions on Communications 66, no. 1 (January 2018): 54–63. http://dx.doi.org/10.1109/tcomm.2017.2756042.

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10

Zhao, Dawei, Honglin Zhao, Min Jia, and Wei Xiang. "Smart Relaying for Selection Combining Based Decode-and-Forward Cooperative Networks." IEEE Communications Letters 18, no. 1 (January 2014): 74–77. http://dx.doi.org/10.1109/lcomm.2013.112513.132216.

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Більше джерел

Дисертації з теми "Decode-and-forward Cooperative Relaying"

1

Vanyan, Anna. "Extension and analysis of hybrid ARQ schemes in the context of cooperative relaying." Phd thesis, Université Paris Sud - Paris XI, 2014. http://tel.archives-ouvertes.fr/tel-01058051.

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In the wireless channel, cooperative communications allow one or many relays to assist the communication between the source and the destination. The aim of this thesis is the development of tools for the analysis of cooperative systems, when HARQ techniques are employed to provide cross-layer error protection. The first chapter of the thesis gives background information on network coding in cooperative relay networks, and introduces the motivation for this work. The second chapter is devoted to the analysis of the energetic-fair performance evaluations of FEC, ARQ-STBC and HARQ schemes at the MAC and IP layers. New analytical framework is derived and applied to a point-to-point network scenario. This framework allows to make energetic fair comparisons between the schemes with and without retransmissions. We determine under which channel conditions the cross-layer error protection is energetically more efficient than the simple channel coding. In the third chapter of this thesis we study the cooperative deterministic protocols. The protocols that we consider differ based on the behaviour of the relay(s), source(s), and destination. We consider two major types of cooperative protocols: decode-and forward (DCF), and demodulate-and-forward (DMF). Each of these protocols in its turn is analysed with and without combining mechanisms at the destination. We derive the soft decoders at the destination side for each respective case, and compare the performances of these protocols at the MAC layer. The following quality of service metrics are evaluated: frame error rate, delay, efficiency, goodput. The analysis is done evaluating the steady-state, using finite state Markov chains and a combinatorial approach. The analysis, however, becomes very complex as the number of transmissions and/or nodes in the network increases. The fourth chapter introduces a class of probabilistic communication protocols, where the devices retransmit with a given probability. We prove the existence of an equivalent class of protocols, with the same performances as the deterministic class. Using proofs of concept it is shown that the probabilistic protocol class allows for tractable steady-state analysis, even for many nodes in the network. Based on this, we then derive the QoS metrics and evalute them also by simulations. The derived performance evaluation metrics are then optimized by constraining the frame error rate, and trying to find the most optimal transmissions number and code rates which maximize the goodput. It is furthermore shown, that the equivalent protocol has larger optimal region than the deterministic one.
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2

Yu, Hyungseok. "Performance of cooperative relaying systems with co-channel interference." Diss., Georgia Institute of Technology, 2012. http://hdl.handle.net/1853/45744.

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Анотація:
The cooperative relaying scheme is a promising technique for increasing the capacity and reliability of wireless communication. Even though extensive research has performed in information theoretical aspect, there are still many unresolved practical problems of cooperative relaying system. This dissertation analyzes the performance of cooperative decode-and-forward (DF) relaying systems in the presence of multiple interferers and improve network throughput for these systems. We propose and summarize various systems in the view of network topology, transmission structure, and slot allocation. We present closed-form expressions for the end-to-end outage probability, average symbol-error-probability, average packet-error-probability, and network throughput of the proposed systems. This dissertation shows that the robustness of the destination against interference is more important than robustness of the relay against interference from an interference management perspective, and increasing the number of branches yields better outage and error performance improvements against shadowing than increasing the number of hops. In cellular networks, the cooperative diversity systems can outperform the dual-Rx antenna system, but only when the relay is located in a relatively small portion of the total cell area with respect the the destination mobile terminal. The results also show that since the effective regions of the uplink and the downlink do not overlap, different relays should be utilized for cell sectorization in the uplink and the downlink. Finally, the proposed variable-slot selection DF scheme can reduce the system complexity and make the maximum throughput point in the low and moderate signal-to-interference-plus-noise ratio region.
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3

Chin, Yiyong. "Slotted cooperative communication in half duplex relay networks." Thesis, Queensland University of Technology, 2013. https://eprints.qut.edu.au/60551/1/Yiyong_Chin_Thesis.pdf.

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Анотація:
In cooperative communication systems, several wireless communication terminals collaborate to form a virtual-multiple antenna array system and exploit the spatial diversity to achieve a better performance. This thesis proposes a practical slotted protocol for cooperative communication systems with half-duplex single antennas. The performance of the proposed slotted cooperative communication protocol is evaluated in terms of the pairwise error probability and the bit error rate. The proposed protocol achieves the multiple-input single-output performance bound with a novel relay ordering and scheduling strategy.
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4

Lu, P. S. (Pen-Shun). "Decoding and lossy forwarding based multiple access relaying." Doctoral thesis, Oulun yliopisto, 2015. http://urn.fi/urn:isbn:9789526207742.

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Анотація:
Abstract The goal of this thesis is to provide a unified concept of lossy-forwarding from the theoretical analysis to practical scheme design for the decode-and-forward-based multiple access relay channel (MARC) system. To improve the performance of MARC with the relay subject to resources or/and time constraints, the erroneous estimates output from simple detection schemes are used at the relay are forwarded and exploited. A correlation is then found between two sequences: one is the network-coded sequence sent from the relay, and the other is their corresponding exclusive-OR-ed information sequence. Several joint network-channel coding (JNCC) techniques are provided in which the correlation is utilized to update the log-likelihood ratio sequences during the iterative decoding process at the destination. As a result, the bit error rate (BER) and frame error rate (FER) are improved compared with those of MARC with select DF strategy (SDF-MARC). The MARC proposed above is referred to as erroneous estimates-exploiting MARC (e-MARC). To investigate the achieved FER performance of the e-MARC system, the outage probability for e-MARC with two source nodes is theoretically derived. We re-formulate the e-MARC system and identify its admissible rate region according to the Slepian-Wolf theorem with a helper. Then, the outage probability is obtained by a set of integral over the rate region with respect to the probability density functions of all the links' instantaneous signal-to-noise power ratios. It is found through simulations that, as one of the source nodes is far away from both the relay and destination, e-MARC is superior to SDF-MARC in terms of outage performance. Furthermore, a joint adaptive network-channel coding (JANCC) technique is then proposed to support e-MARC with more source nodes. A vector is constructed at the destination in JANCC to identify the indices of the incorrectly decoded source node(s), and re-transmitted to the relay for requesting additional redundancy. The relay performs network-coding only over the estimates specified by the vector upon receiving the request. Numerical results show that JANCC-aided e-MARC is superior to e-MARC in terms of FER and goodput efficiency. In addition, compared iterative decoding is performed at relay with SDF-MARC, the use of differential detection with JANCC-aided e-MARC significantly reduces the computational complexity and latency with only a small loss in the FER
Tiivistelmä Tämän väitöskirjan tarkoituksena on tuottaa yhtenäinen kokonaisuus häviöllisestä lähetyksestä pura-ja-lähetä (DF) -pohjaisessa monikäyttörelejärjestelmässä (MARC) sekä teoreettisesta että käytännöllisestä näkökulmasta. Parantaakseen resurssi- tai aikarajoitetun MARC-järjestelmän suorituskykyä, vastaanotin hyödyntää riippuvuussuhdetta releen välittämien informaatiosekvenssien virheellisten estimaattien ja suoraan lähteestä tulevien informaatiosekvenssien välillä (e-MARC). Työssä ehdotetaan useita yhdistetyn verkko -ja kanavakoodauksen menetelmiä (JNCC), joissa log-uskottavuussuhdesekvenssit iteratiivisen purkamisprosessin aikana päivitetään hyödyntämällä sekvenssien riippuvuussuhdetta vastaanottimessa. Tämän tuloksena sekä bittivirhe- että kehysvirhesuhdetta saadaan parannettua verrattuna selektiiviseen pura-ja-lähetä menetelmää käyttävään MARC-strategiaan (SDF-MARC). Kehysvirheen suorituskyvyn tarkastelua varten työssä johdetaan teoreettinen epäkäytettävyyden todennäköisyys e-MARC-menetelmälle kahden lähettimen tapauksessa. Lisäksi e-MARC-menetelmälle määritetään tiedonsiirtonopeusalue Slepian-Wolf -teoreeman mukaisesti. Tämän jälkeen saadaan epäkäytettävyyden todennäköisyys kaikkien linkkien signaalikohinasuhteen todennäköisyystiheysfunktion integraalina tiedonsiirtonopeusalueen yli. Simulointitulokset osoittavat e-MARC-menetelmän paremman epäkäytettävyyden todennäköisyyden verrattuna SDF-MARC-menetelmään silloin kun yksi lähettimistä on kaukana sekä releestä että vastaanottimesta. Mahdollistaakseen useamman lähteen käytön e-MARC-menetelmässä, työssä ehdotetaan lisäksi adaptiivinen yhdistetyn verkko-ja kanavakoodauksen menetelmä (JANCC). Siinä vastaanotin määrittää väärin purettujen sekvenssien lähettimet ja ilmoittaa ne vektorimuodossa takaisin releelle pyytääkseen näiden lähettimien informaation uudelleenlähetystä. Tämän jälkeen rele suorittaa verkkokoodauksen vain tunnistusvektorin määrittämien informaatiosekvenssien estimaatteihin perustuen. Tulokset näyttävät, että JANCC-menetelmää käyttävä e-MARC saavuttaa paremman kehysvirheen ja hyödyllisen läpäisyn tehokkuuden verrattuna e-MARC-menetelmään
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5

Kadloor, Sachin. "Cooperative Relaying in Cellular Networks." Thesis, 2009. http://hdl.handle.net/1807/18779.

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We consider a system with a single base station communicating with multiple users over orthogonal channels while being assisted by multiple relays. Several recent works have suggested that, in such a scenario, selection, i.e., a single relay helping the source, is the best relaying option in terms of the resulting complexity and overhead. However, in a multiuser setting, optimal relay assignment is a combinatorial problem. We formulate a related convex optimization problem that provides an extremely tight upper bound on performance and show that selection is, almost always, inherent in the solution. We also provide a heuristic to find a close-to-optimal relay assignment and power allocation across users supported by a single relay. Simulation results using realistic channel models demonstrate the efficacy of the proposed schemes, but also raise the question as to whether the gains from relaying are worth the additional costs.
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6

Nikjah, Reza. "Performance evaluation and protocol design of fixed-rate and rateless coded relaying networks." Phd thesis, 2010. http://hdl.handle.net/10048/1674.

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Анотація:
The importance of cooperative relaying communication in substituting for, or complementing, multiantenna systems is described, and a brief literature review is presented. Amplify-and-forward (AF) and decode-and-forward (DF) relaying are investigated and compared for a dual-hop relay channel. The optimal strategy, source and relay optimal power allocation, and maximum cooperative gain are determined for the relay channel. It is shown that while DF relaying is preferable to AF relaying for strong source-relay links, AF relaying leads to more gain for strong source-destination or relay-destination links. Superimposed and selection AF relaying are investigated for multirelay, dual-hop relaying. Selection AF relaying is shown to be globally strictly outage suboptimal. A necessary condition for the selection AF outage optimality, and an upper bound on the probability of this optimality are obtained. A near-optimal power allocation scheme is derived for superimposed AF relaying. The maximum instantaneous rates, outage probabilities, and average capacities of multirelay, dual-hop relaying schemes are obtained for superimposed, selection, and orthogonal DF relaying, each with parallel channel cooperation (PCC) or repetition-based cooperation (RC). It is observed that the PCC over RC gain can be as much as 4 dB for the outage probabilities and 8.5 dB for the average capacities. Increasing the number of relays deteriorates the capacity performance of orthogonal relaying, but improves the performances of the other schemes. The application of rateless codes to DF relaying networks is studied by investigating three single-relay protocols, one of which is new, and three novel, low complexity multirelay protocols for dual-hop networks. The maximum rate and minimum energy per bit and per symbol are derived for the single-relay protocols under a peak power and an average power constraint. The long-term average rate and energy per bit, and relay-to-source usage ratio (RSUR), a new performance measure, are evaluated for the single-relay and multirelay protocols. The new single-relay protocol is the most energy efficient single-relay scheme in most cases. All the multirelay protocols exhibit near-optimal rate performances, but are vastly different in the RSUR. Several future research directions for fixed-rate and rateless coded cooperative systems, and frameworks for comparing these systems, are suggested.
Communications
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Частини книг з теми "Decode-and-forward Cooperative Relaying"

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Potula, Sravani, Sreenivasa Rao Ijjada, and Karunakar Reddy Santhamgari. "Exploiting Full-Duplex Relaying in Vehicular Cooperative NOMA for Residual Self-interference in Amplify and Forward and Decode and Forward with Incremental Relaying." In Lecture Notes in Electrical Engineering, 131–42. Singapore: Springer Nature Singapore, 2022. http://dx.doi.org/10.1007/978-981-16-8550-7_14.

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2

Bhatnagar, Manav R., and Are Hjørungnes. "Single and Double-Differential Coding in Cooperative Communications." In Cooperative Communications for Improved Wireless Network Transmission, 321–51. IGI Global, 2010. http://dx.doi.org/10.4018/978-1-60566-665-5.ch012.

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Анотація:
In this chapter, we discuss single and double-differential coding for a two-user cooperative communication system. The single-differential coding is important for the cooperative systems as the data at the destination/relaying node can be decoded without knowing the channel gains. The double-differential modulation is useful as it avoids the need of estimating the channel and carrier offsets for the decoding of the data. We explain single-differential coding for a cooperative system with one relay utilizing orthogonal transmissions with respect to the source. Next, we explain two single-differential relaying strategies: active user strategy (AUS) and passive users relaying strategy (PURS), which could be used by the base-station to transmit data of two users over downlink channels in the two-user cooperative communication network with decode-and-forward protocol. The AUS and PURS follow an improved time schedule in order to increase the data rate. A probability of error based approach is also discussed, which can be used to reduce the erroneous relaying of data by the regenerative relay. In addition, we also discuss how to implement double-differential (DD) modulation for decode-and-forward and amplify-and-forward based cooperative communication system with single source-destination pair and a single relay. The DD based systems work very well in the presence of random carrier offsets without any channel and carrier offset knowledge at the receivers, where the single differential cooperative scheme breaks down. It is further shown that optimized power distributions can be used to improve the performance of the DD system.
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Тези доповідей конференцій з теми "Decode-and-forward Cooperative Relaying"

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Zhao, Jian, Marc Kuhn, Armin Wittneben, and Gerhard Bauch. "Cooperative Transmission Schemes for Decode-and-Forward Relaying." In 2007 IEEE 18th International Symposium on Personal, Indoor and Mobile Radio Communications. IEEE, 2007. http://dx.doi.org/10.1109/pimrc.2007.4394068.

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2

Sheng, Zhengguo, Bong Jun Kc, Ananthram Swami, Kang-Won Lee, and Kin K. Leung. "Power efficiency of decode-and-forward cooperative relaying." In MILCOM 2010 - 2010 IEEE Military Communications Conference. IEEE, 2010. http://dx.doi.org/10.1109/milcom.2010.5680427.

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3

Prince, Ahmed, Ahmed E. Abdalla, Hisham Dahshan, and Alaa El-Din Rohiem. "Performance evaluation of multihop decode and forward cooperative relaying." In 2017 Intl Conf on Advanced Control Circuits Systems (ACCS) Systems & 2017 Intl Conf on New Paradigms in Electronics & Information Technology (PEIT). IEEE, 2017. http://dx.doi.org/10.1109/accs-peit.2017.8303059.

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4

Guan, Tianfu, and Li Chen. "Opportunistic nonorthogonal cooperative communications through decode-and-forward relaying." In 2013 IEEE/CIC International Conference on Communications in China (ICCC). IEEE, 2013. http://dx.doi.org/10.1109/iccchina.2013.6671163.

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5

Feteiha, Mohamed Fathy, and Murat Uysal. "Infrastructure-to-vehicle cooperative communications with decode-and-forward relaying." In 2011 IEEE 22nd International Symposium on Personal, Indoor and Mobile Radio Communications - (PIMRC 2011). IEEE, 2011. http://dx.doi.org/10.1109/pimrc.2011.6140077.

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6

Ahmad, Ishtiaq, Khoa D. Nguyen, Andre Pollok, and Nick Letzepis. "Multi-hopping loss in MIMO decode-and-forward cooperative relaying." In 2016 IEEE 27th Annual International Symposium on Personal, Indoor, and Mobile Radio Communications (PIMRC). IEEE, 2016. http://dx.doi.org/10.1109/pimrc.2016.7794652.

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7

Songze Li, Urbashi Mitra, Vishnu Ratnam, and Ashish Pandharipande. "Jointly cooperative decode-and-forward relaying for secondary spectrum access." In 2012 46th Annual Conference on Information Sciences and Systems (CISS). IEEE, 2012. http://dx.doi.org/10.1109/ciss.2012.6310719.

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8

Tsang-Yi Wang and Jwo-Yuh Wu. "Reliability-based detection for decode-and-forward relaying in cooperative communications." In 2012 IEEE 7th Sensor Array and Multichannel Signal Processing Workshop (SAM). IEEE, 2012. http://dx.doi.org/10.1109/sam.2012.6250456.

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Ananth, A., P. Maheswaran, and M. D. Selvaraj. "Scaled Selection Combining for SSK in Decode and Forward Cooperative Relaying." In 2019 IEEE International Conference on Advanced Networks and Telecommunications Systems (ANTS). IEEE, 2019. http://dx.doi.org/10.1109/ants47819.2019.9117948.

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Yi Tang, Lijie Wang, Lili Jiang, and Jibo Wei. "Two decode-and-forward relaying schemes for cooperative cognitive radio systems." In 2012 IEEE 14th International Conference on Communication Technology (ICCT). IEEE, 2012. http://dx.doi.org/10.1109/icct.2012.6511231.

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