Adaptive Subframe Allocation for Next Generation Multimedia Delivery Over Hybrid LTE Unicast Broadcast

“…A dynamic resource allocation scheme between the UC and MC in LTE was proposed in [191]. The proposed algorithm tune the number of sub-frames assigned to MC in order to minimize the time difference between UC and MC streams.…”

Optimization of hybrid broadcast/broadband networks for the delivery of linear services using stochastic geometry

“…A dynamic resource allocation scheme between the UC and MC in LTE was proposed in [191]. The proposed algorithm tune the number of sub-frames assigned to MC in order to minimize the time difference between UC and MC streams.…”

Optimization of hybrid broadcast/broadband networks for the delivery of linear services using stochastic geometry

“…As a high performance forward error correction code, turbo codes [7]- [12] are believed to be one of the most robust channel coding methods for wireless communications. In particular, turbo codes are able to facilitate nearcapacity transmission throughputs, leading to a wide deployment in the state-of-the-art communication standards such as WiMAX [13] and LTE [14] and could be employed in future potential broadcasting standard [15]. The Logarithmic Bahl-Cocke-Jelinek-Raviv (Log-BCJR) algorithm is employed for the iterative decoding of turbo codes.…”

Low Latency Parallel Turbo Decoding Implementation for Future Terrestrial Broadcasting Systems

“…The proposed work is an extension to the work first proposed in [9] and explores a hybrid delivery framework, to be defined as Hybrid Unicast Broadcast Synchronisation (HUBS), for multi stream multimedia. This area of focus is entirely inspired by the observations above.…”

Toward an LTE Hybrid Unicast Broadcast Content Delivery Framework