A cooperative transmit diversity scheme for mobile satellite broadcasting systems

Ahn, Do Seob; Kim, Soo‐Young; Kim, Hee Wook; Park, Dong-Chul

doi:10.1002/sat.967

Cited by 28 publications

(28 citation statements)

References 15 publications

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“…At the edge of the GC coverage where the signal strength from the repeater becomes weak and thus none of the signal powers is strong enough, then cooperative combining of the signal from the repeaters as well as from the satellite can be effectively used to improve the performance, thus achieving constant service quality. In other words, near the edge of the GC coverage the signal from the satellite can be used as the compensation of power loss from the GC [8]. Therefore, this could be an effective solution to near-far problem.…”

Section: Satellite Gatewaymentioning

confidence: 98%

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Evaluation of Cooperative Techniques for Hybrid/Integrated Satellite Systems

Kim

2011

2011 IEEE International Conference on Communications (ICC)

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In this paper, we investigate various cooperative transmission techniques for hybrid and/or integrated satellite and terrestrial systems, where satellite and terrestrial components cooperates to provide high quality services. It has been reported that cooperative diversity techniques combined with space time and/or error correction coding schemes could provide appreciable diversity and additional coding gains for hybrid/integrated satellite systems. In this paper, we extend this idea, and present a few possible service scenarios and examples in order to apply hierarchical modulation and layered coding schemes in hybrid/integrated satellite system.

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Section: Satellite Gatewaymentioning

confidence: 98%

“…Later, a coded cooperative diversity technique was presented for integrated/hybrid satellite systems [3] [8]. In this scheme, the satellite and GCs transmit different parity symbols in a rate-compatible punctured turbo codes, so that the user terminal can combine a received codeword for the mother code.…”

Section: B Cooperative Diversity For Satellite Systemmentioning

confidence: 99%

Evaluation of Cooperative Techniques for Hybrid/Integrated Satellite Systems

Kim

2011

2011 IEEE International Conference on Communications (ICC)

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“…However, most of the previous articles on HSTCSs have provided only the performance based on the simulations [3], [4] and based on the numerical calculations [10] for the case of AF transmission schemes. The exact closed-form outage probability of HSTCSs has not been derived yet.…”

Section: Introductionmentioning

confidence: 99%

“…No combiner has been implemented. In [4], space-time codes and rate compatible turbo codes have been implemented to achieve diversity gains and additional coding gains. Recently, another HSTCS has been proposed in [5].…”

Section: Introductionmentioning

confidence: 99%

Exact outage probability of a hybrid satellite terrestrial cooperative system with best relay selection

Sreng

Escrig

Boucheret

2013

2013 IEEE International Conference on Communications (ICC)

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In this paper, we derive the exact outage probability of a hybrid satellite-terrestrial cooperative system (HSTCS). A selective decode-and-forward scheme is implemented between a source node (the satellite) and a destination node (a terrestrial station), and a selection of the best relay terminal is performed. In this proposed system, a two time-slot scenario is considered. During the first time slot, the satellite is broadcasting the information to the terrestrial relays and the destination. In the second time slot, only the best relay is transmitting toward the destination node. Then, both signals are combined using the maximum ratio combining (MRC) technique. The analytical expression of the outage probability is evaluated and is then verified with the simulation. The results show that our analytical expression matched well to the simulation results.

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“…The paper demonstrates that Saratoga can be used as a 'convergence layer' to carry the Delay Tolerant Network (DTN) Bundle Protocol. The seventh paper proposes an efficient cooperative diversity scheme for mobile satellite multimedia broadcasting systems [7]. The proposed scheme is a transmit diversity technique to adapt to different channel environments, thus requiring no channel quality information from the return link.…”

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confidence: 99%

Guest Editorial: IJSCN Special Issue on ASMS2008

Corazza

Scalise

Vanelli‐Coralli

et al. 2010

Satell Commun Network

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The ASMS conference has become a recognized event for industry and research institutions to exchange up-to-date information about recent advances and emerging technologies in the field of mobile satellite communication systems. In addition, following the successful path opened by the 2006 edition, the scope of the conference has been widened to include broadband and broadcast satellite systems. This is very important not only because the major part of the satcom market belongs to broadcasting and broadband access operators but also fundamentally because the convergence of broadcast, mobile and fixed satellite communications is essential to offer seamless connectivity anywhere at anytime, which is recognized as the key element for the successful deployment of future satellite systems.This Issue collects the extended versions of eight of the best papers presented at the ASMS 2008 Conference. The papers have been selected with the aim of providing an insight in the developments and findings in this exciting field. The first paper shows that Low Density Parity Check (LDPC) codes can tightly approach the performance of ideal maximum distance separable codes over memoryless erasure channels, under Maximum Likelihood (ML) decoding [1]. The decoding complexity of ML decoding can be kept low thanks to a class of decoding algorithms which exploit the sparseness of the parity-check matrix to reduce the complexity of Gaussian elimination. The second paper includes a review and characterization of possible data link technologies for aeronautical communications covering a vast range of terrestrial (direct air-to-ground) and satellite-based solutions, with the final goal to identify suitable candidates for a future integrated aeronautical network based on IPv6 protocol, supporting both cockpit and cabin communications [2]. A new method to enable IPsec authentication and integrity services at the network layer is proposed in the third paper [3]. Target scenarios include satellite multicast for large-scale delivery of data and video content. In these scenarios, a cross-layer architecture can mitigate the effects of physical layer impairments and large latency. Stemming from the three-state land mobile satellite channel model used for physical layer simulation in the course of the DVB-SH standardization process, an improved model is proposed in the fourth paper [4]. The new model includes two major modifications: a reduction in the number of states and

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A cooperative transmit diversity scheme for mobile satellite broadcasting systems

Cited by 28 publications

References 15 publications

Evaluation of Cooperative Techniques for Hybrid/Integrated Satellite Systems

Evaluation of Cooperative Techniques for Hybrid/Integrated Satellite Systems

Exact outage probability of a hybrid satellite terrestrial cooperative system with best relay selection

Guest Editorial: IJSCN Special Issue on ASMS2008

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