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Nobuaki OTSUKI Takatoshi SUGIYAMA
In this paper, we propose a wireless network coding diversity technique based on hybrid amplify-and-forward/decode-and-forward relay method employing adaptive power control for two-hop wireless networks in order to improve relay node position flexibility. Wireless network coding diversity based on hybrid relay method selects either modulation symbol level wireless network coding diversity or bit sequence level wireless network coding diversity as its wireless network coding diversity scheme according to the cyclic redundancy check result at the relay node. Moreover, the adaptive power control scheme proposed here controls the relay node's transmit power according to its position. Computer simulations verify that wireless network coding diversity based on hybrid relay method employing the adaptive power control scheme can expand the area wherein the relay node can be located while satisfying the required communication quality by 4.56 times compared to the conventional wireless network coding diversity scheme. Therefore, we confirm that our proposed scheme can increase relay node position flexibility.
Mizuki SUGA Atsushi OHTA Kazuto GOTO Takahiro TSUCHIYA Nobuaki OTSUKI Yushi SHIRATO Naoki KITA Takeshi ONIZAWA
A propagation experiment on an actual channel is conducted to confirm the effectiveness of the 1-tap time domain beamforming (TDBF) technique we proposed in previous work. This technique offers simple beamforming for the millimeter waveband massive multiple-input multiple-output (MIMO) applied wireless backhaul and so supports the rapid deployment of fifth generation mobile communications (5G) small cells. This paper details propagation experiments in the 75GHz band and the characteristics evaluations of 1-tap TDBF as determined from actual channel measurements. The results show that 1-tap TDBF array gain nearly equals the frequency domain maximal ratio combining (MRC) value, which is ideal processing; the difference is within 0.5dB. In addition, 1-tap TDBF can improve on the signal-to-interference power ratio (SIR) by about 13% when space division multiplexing (SDM) is performed assuming existing levels of channel estimation error.
Nobuaki OTSUKI Takatoshi SUGIYAMA
This paper presents the feasibility of a wireless network coding prototype system based on time division multiple access using the global positioning system to facilitate the time synchronization of wireless nodes. We evaluate the system throughput of the prototype system with wireless network coding and Ethernet frame aggregation in the full buffer traffic environment assuming web browsing and voice over Internet protocol. The experimental results show that the prototype system improves the system throughput by approximately 1.85-fold compared to a system without wireless network coding or aggregation even in a multipath Rician fading environment.