Abstract
The challenges of future wireless networks imply that the physical layer of the next generation mobile communication system needs to be compatible with multiple-input multiple-output and allow a flexible multiple access scheme. Time-reversal space-time coding can be applied to a recent filtered multicarrier modulation scheme, named generalized frequency division multiplexing, to achieve a multiple-input multiple-output non-orthogonal multicarrier modulation with flexibility to address the requirements of future mobile networks. In this paper, the subcarriers of the physical layer block are shared between multiple users, allowing for an efficient and simple multiple access solution. A channel estimation technique that can simultaneously estimate channel frequency response and timing misalignment in generalized frequency division multiple access is described. The paper also shows that the knowledge of channel state information can improve the overall performance when used to schedule the subchannel distribution among the users. Symbol error rate performance analysis shows that the resources of the time-reversal space-time coding generalized frequency division multiple access block can be shared among users that have one or two transmit antennas simultaneously under frequency-selective time-variant channels.
Highlights
Generation mobile communication systems will face new challenges that will require more than increasing the throughput [1]
The aim of this paper is to show that the resources of the TR-space-time coding (STC)-Generalized frequency division multiplexing (GFDM) can be shared among multiple users in the wireless up-link to achieve a time-reversal space-time coding (TR-STC) generalized frequency division multiple access (GFDMA) scheme
6 Conclusions A multiple access multiple-input multiple-output (MIMO) scheme is a mandatory requirement for the generation of mobile communication systems
Summary
Generation mobile communication systems will face new challenges that will require more than increasing the throughput [1]. Generalized frequency division multiplexing (GFDM) [5] is one candidate that has the flexibility to address the upcoming demands of future networks This modulation scheme employs K individual circularly filtered subcarriers, each one carrying M subsymbols of data. 4.1 Timing misalignment and channel estimation When all users are synchronized with the base station (BS) clock rate and all signals arrive within the CP and CS duration at the receive antennas, space-time combining according to (9) can be carried out per user, where only the users’ allocated frequency samples are considered. P(u) with P(u) containing the discrete Fourier transform (DFT) of the pilot sequence of the uth user which is non-zero only at the allocated subcarriers and Hj,l = Hj(,1l )T · · · Hj(,Ul )T T denotes the Figure 1 Simplified block diagram of the TR-STC-GFDMA system.
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