Turbo trellis-coded hierarchical modulation assisted decode-and-forward cooperation

Hierarchical modulation, which is also known as layered modulation, has been widely adopted across the telecommunication industry. Its strict backward compatibility with single-layer modems and its low complexity facilitate the seamless upgrading of wireless communication services. The potential employment of hierarchical modulation in cooperative communications has the promise of increasing the achievable throughput at a low power consumption. In this paper, we propose a single-relay aided hierarchical modulation based cooperative communication system. The source employs a pair of Turbo Trellis-Coded Modulation schemes relying on specially designed hierarchical modulation, while the relay invokes the Decode-and-Forward protocol. We have analysed the system’s achievable rate as well as its bit error ratio using Monte-Carlo simulations. The results demonstrate that the power consumption of the entire system is reduced to 3.62 dB per time slot by our scheme

Combining Adaptive Coding and Modulation With Hierarchical Modulation in Satcom Systems

We investigate the design of a broadcast system in order to maximize throughput. This task is usually challenging due to channel variability. Forty years ago, Cover introduced and compared two schemes: time sharing and superposition coding. Even if the second scheme was proved to be optimal for some channels, modern satellite communications systems such as DVB-SH and DVB-S2 rely mainly on a time sharing strategy to optimize the throughput. They consider hierarchical modulation, a practical implementation of superposition coding, but only for unequal error protection or backward compatibility purposes. In this article, we propose to combine time sharing and hierarchical modulation together and show how this scheme can improve the performance in terms of available rate. We introduce a hierarchical 16-APSK to boost the performance of the DVB-S2 standard. We also evaluate various strategies to group the receivers in pairs when using hierarchical modulation. Finally, we show in a realistic case, based on DVB-S2, that the combined scheme can provide throughput gains greater than 10% compared to the best time sharing strategy

Improved Performance of Boosting Power in local service Insertion in DVB-NGH single Frequency Networks

The frequency networks ployed in the present television networks are either SFN termed as networks with single frequency or MFN elaborated as networks with multi frequency. To provide the services on a global & local scale, such topologies are not considered as the best approach. A desired spectrum of frequency is required though conveyance of local lied services is been triggered by MFNs. As the multiple transmitters provide support to the global services, the main function that is obliged for SFNs is to emit the signals of the same level which operate at a particular instance & frequencies. The coordinate regions of SFN which are linked to the local services should be relayed over the complete network by not breaching the postulates of SFN which lead to dispersion of services locally in an inefficient manner. The additional methodologies that are opted by the further scenario of basic video & mobile broadcasting, thus supplying the local & global components in topology of SFN that are H-LSI and O-LSI methods. In the region which is nearby to transmitters, services which are relayed as local are kept above the global by making use of modulation in hierarchical method by H-LSI. It s achieved by relaying the services which are local in a stream tended at low priority & global in the stream where priority is high. To make the use of transmitters to relay local services, the OFDM symbols are specified by scheme of O-LSI in particular sets of OFDM. The flow of the data within the network of SFN can be programmed in such a way that there is no intervention of various areas on a local scale for every methodology. Also the assessment is done on the criteria of problems occurring while implementation, topologies of network & analysis of performance adding to the definition of O-LSI & H-LSI. It is also observed that the power to boost of SISO is less than that of MISO

Trade-off between spectrum efficiency and link unavailability for hierarchical modulation in DVB-S2 systems

Broadcasting systems have to deal with channel variability in order to offer the best spectrum efficiency to the receivers. However, the transmission parameters that optimize the spectrum efficiency generally leads to a large link unavailability. In this paper, we study the performance of hierarchical and nonhierarchical modulations in terms of spectrum efficiency and link unavailability for DVB-S2 systems. Our first contribution is the design of the hierarchical 16-APSK for the DVB-S2 standard. Then we introduce the link unavailability to compare the performance of hierarchical and non-hierarchical modulations in terms of spectrum efficiency and link unavailability. The results show that hierarchical modulation is a good alternative to nonhierarchical modulation for the DVB-S2 standard

On the Provisioning of Mobile Digital Terrestrial TV Services to Vehicles with DVB-T

(c) 2012 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for all other users, including reprinting/ republishing this material for advertising or promotional purposes, creating new collective works for resale or redistribution to servers or lists, or reuse of any copyrighted components of this work in other works[EN] Most of the DVB-T (Digital Video Broadcasting -Terrestrial) networks deployments worldwide have been designed for fixed rooftop antennas and high transmission capacity, not providing good coverage level for vehicular mobile reception. This letter analyzes how to combine different technical solutions, so far studied individually, in order to increase the robustness of the transmission for vehicular reception to provide in-band mobile services. In particular, we consider: receive antenna diversity, hierarchical modulation, and Application Layer Forward Error Correction (AL-FEC). Performance evaluation results have been obtained by means of simulations, laboratory tests, and field measurements in the commercial DVB-T network of the city of Valencia (Spain). The paper shows that the combined usage of these solutions can compensate the impairments caused by the mobility of the receivers, such as signal fast fading, Doppler shift, the poor coverage at ground level and the utilization of lower gain antennas; being possible to provide mobile DVB-T services to vehicles in networks dimensioned for fixed rooftop reception.This work was supported in part by the Spanish Ministry of Industry, Tourism and Commerce under the project AV-MOV (TSI-020301-2009-11).López Sánchez, J.; Gomez-Barquero, D.; Gozálvez Serrano, D.; Cardona Marcet, N. (2012). On the Provisioning of Mobile Digital Terrestrial TV Services to Vehicles with DVB-T. IEEE Transactions on Broadcasting. 58(4):642-647. https://doi.org/10.1109/TBC.2012.2202034S64264758