2018
DOI: 10.1109/access.2017.2773709
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Topology-Aware Space-Time Network Coding in Cellular Networks

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Cited by 8 publications
(3 citation statements)
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“…networks [3], cellular and radio access networks [4], [5], vehicular and wireless sensor networks [6], [7], and general wireless networks [8]- [12], as well as unreliable complex information technology infrastructures, such as data caching infrastructures [13]- [15]. One main hurdle that prevents the widespread adoption of RLNC in communication networks and information technology systems is the computationally highly demanding matrix multiplication and matrix inversion required for RLNC decoding [16]- [19].…”
Section: Random Linear Network Coding (Rlnc) Has the Potential To Grementioning
confidence: 99%
“…networks [3], cellular and radio access networks [4], [5], vehicular and wireless sensor networks [6], [7], and general wireless networks [8]- [12], as well as unreliable complex information technology infrastructures, such as data caching infrastructures [13]- [15]. One main hurdle that prevents the widespread adoption of RLNC in communication networks and information technology systems is the computationally highly demanding matrix multiplication and matrix inversion required for RLNC decoding [16]- [19].…”
Section: Random Linear Network Coding (Rlnc) Has the Potential To Grementioning
confidence: 99%
“…Understanding the network topology can prominently facilitate the design of efficient cellular networks, and pervasive applications depending upon the network topology have been found in the wireless communication field. For instance, the knowledge of network topology can be exploited to perform automatic computations for topology control in WSNs [15], investigate the pros and cons of BS switching on/off scheme [16], develop energy-saving mechanism for green cellular networks [17], improve the spectral efficiency and reduce the bit error rate (BER) in space-time network coding (STNC) scheme [18], manage the interference and allocate spectrum resource for a femtocell-based cellular network [19] and so on.…”
Section: A Related Workmentioning
confidence: 99%
“…Random linear network coding (RLNC) can significantly enhance the communication over unreliable complex networks, such as body area networks [1], caching networks [2]- [4], cellular networks [5], the Internet of Things (IoT) [6]- [8], radio access networks [9], vehicular networks [10], wireless sensor networks [11], and general wireless networks [12]- [16]. One main challenge of RLNC based communication is that the decoding in receiver nodes involves computationally highly demanding matrix multiplication and matrix inversion [17], [18].…”
Section: Introductionmentioning
confidence: 99%