Wireless Communications and Mobile Computing
© John Wiley & Sons Ltd
Edited By: Mohsen Guizani
Impact Factor: 0.922
ISI Journal Citation Reports © Ranking: 2015: 50/82 (Telecommunications); 95/144 (Computer Science Information Systems); 163/257 (Engineering Electrical & Electronic)
Online ISSN: 1530-8677
Wireless Communications and Mobile Computing is part of an exciting new pilot partnership between Wiley and Hindawi. From 1st January 2017, the journal will become fully open access. Wireless Communications and Mobile Computing will remain a Wiley title but will be published and hosted by Hindawi, and will benefit from Hindawi’s experience and expertise in publishing open access titles. Wireless Communications and Mobile Computing will continue to undergo a rigorous peer review process ensuring that quality remains high. Manuscripts submitted on or after 16 June 2016 and accepted for publication will be published as open access articles, immediately free to read, download and share. Authors or their funder will be required to pay an Article Publication Charge upon acceptance. For further information, please click here.
Recently Published Articles
- Performance analysis of two-way MAC layer network coding under finite relay buffer and non-negligible signalling overhead
Shijie Shi, Wei Ni, Ren Ping Liu and Shiyin Li
Version of Record online: 22 NOV 2016 | DOI: 10.1002/wcm.2755
The paper analyzes practical two-way exclusive OR relaying systems, where finite relay buffer, non-negligible signaling overhead, and lossy wireless channels are considered. A two-layer Markov model is developed to characterize the practical two-way relaying systems, which is then reformulated into a two-dimensional Markov process after the projection and combination for the inter-layer state transitions of the two-layer model. The key performance parameters, such as throughput, queuing delay, and packet loss probability, are then derived.
- SINR analysis of FFH/OFDM over frequency selective Rayleigh fading channel
Ahmet Oturak and Ertan Öztürk
Version of Record online: 17 NOV 2016 | DOI: 10.1002/wcm.2756
We study the performance of the fast frequency hopping/orthogonal frequency division multiplexing (FFH/OFDM) signal over frequency selective Rayleigh fading channel. We derive the decision variables and the signal-to-interference noise ratios (SINR) at the output of minimum mean square error (MMSE) and zero forcing (ZF) receivers. The results show that FFH/OFDM does not provide any diversity gain in case of ZF equalization. However, it brings significant diversity gain with the rise of number of sub-carriers (N) for MMSE equalization.
- A novel constellation amplitude modification method for PAPR reduction in OFDM systems
Chunxing Ni, Yahui Ma and Tao Jiang
Version of Record online: 17 NOV 2016 | DOI: 10.1002/wcm.2760
In this paper, we propose a constellation amplitude modification (CAM) method to reduce the peak–to–average power ratio (PAPR) in orthogonal frequency division multiplexing systems. The key idea of the proposed CAM method is to modify the original constellation amplitude and choose the constellation points with the minimum PAPR as the transmitted constellation points. The CAM method formulates the PAPR reduction as a convex optimization problem, and then, it applies the customized interior–point method to solve the optimization problem.
- Adaptive joint precoding and pre-equalization with reduced complexity in massive MIMO systems
Du Xiong, Wei Peng, Da Chen and Tao Jiang
Version of Record online: 14 NOV 2016 | DOI: 10.1002/wcm.2749
A joint precoding and pre-equalization with reduced complexity are proposed. The precoding process is adaptively switched on/off so that multiple users can be accommodated with the least cost of the computational complexity. About 90% of the computational complexity could be saved compared with the traditional scheme.
- Implementation and analysis of spectral subtraction in deterministic wide-band anti-jamming scenarios
Travis Collins, Christopher Anderson and Alexander Wyglinski
Version of Record online: 7 NOV 2016 | DOI: 10.1002/wcm.2751
A new friendly jammer platform targeted against IED communications is proposed. This system provides in-band jamming of adversarial signals, while still maintaining friendly communication links. A feasibility study with software-defined radios demonstrates the proposed friendly jammer filtering technique over the air.