Wireless Communications and Mobile Computing
© John Wiley & Sons Ltd
Edited By: Mohsen Guizani
Impact Factor: 0.858
ISI Journal Citation Reports © Ranking: 2014: 46/77 (Telecommunications); 87/139 (Computer Science Information Systems); 157/249 (Engineering Electrical & Electronic)
Online ISSN: 1530-8677
Wireless Communications and Mobile Computing
Presenting comprehensive coverage of this fast moving field, Wireless Communications and Mobile Computing provides the R&D communities working in academia and the telecommunications and networking industries with a forum for sharing research and ideas.
The convergence of wireless communications and mobile computing is bringing together two areas of immense growth and innovation. This is reflected throughout the journal by strongly focusing on new trends, developments, emerging technologies and new industrial standards.
Under the guidance of an international editorial and advisory board drawn from academia and industry, this high quality, peer-reviewed journal, provides leading edge coverage of the opportunities and challenges driving the research and development of mobile communication systems.
Recently Published Articles
- Distributed mobility management in named data networking
Zhiwei Yan, Sherali Zeadally, Siran Zhang, Ruowei Guo and Yong-Jin Park
Article first published online: 25 NOV 2015 | DOI: 10.1002/wcm.2652
In this paper, the authors propose a novel mobility management scheme to support fast handover for both the mobile receiver and publisher in Named Data Networking (NDN). This proposal uses the hierarchical names to identify the target access router (AR), and then the network-based branching node selection is adopted for the distributed mobility management. The analytical results demonstrate that the proposed scheme inherits the scalability and efficiency of NDN in the mobile Internet.
- Theoretical analysis on caching effects in urban vehicular ad hoc networks
Chaoyi Bian, Tong Zhao, Xiaoming Li, Xiaojiang Du and Wei Yan
Article first published online: 25 NOV 2015 | DOI: 10.1002/wcm.2651
This paper presents a theoretical analysis on the caching effects in urban vehicular ad hoc network scenarios. Quantitative relationship is found among the caching performance metric and network parameters including vehicle density and transmission range. And the vehicle mobility is also considered to predict the future caching effects. Simulations show that our theoretical model matches well with the simulated reality in different scenario settings.
- A data privacy protective mechanism for wireless body area networks
GuangXia Xu, Qun Wu, Mahmoud Daneshmand, Yanbing Liu and ManMan Wang
Article first published online: 24 NOV 2015 | DOI: 10.1002/wcm.2649
This paper proposed a Data Privacy Protective Mechanism for wireless body area networks. This mechanism combines symmetric key with an asymmetric key to transmit user's data (Sensor Nodes). Then, it cuts and reorganizes the data in the process of transmission to better capture defense and the attacks of the nodes (Master Nodes). Ultimately transmits these data securely under the condition that the data collected by the nodes are confidential and secure (Remote Server).
- Landmark-based device calibration and region-based modeling for RSS-based localization
Hung Nguyen Manh, Ching-Chun Huang and Lee Hsiao-Yi
Article first published online: 18 NOV 2015 | DOI: 10.1002/wcm.2647
In this paper, we proposed an automatic device calibration process to overcome device diversity problem and a region-based modeling method to train a radio map. Unlike conventional calibration methods requiring manual data collection, our system could automatically collect pair-wise radio signal strength (RSS) samples between devices and train the RSS transform function without extra human power. In addition, the proposed modeling method well represents the effects of signal noise and dynamic obstacles. The experiments have shown that our system could provide robust tracking in particular applications.
- A multi-mode IFFT/FFT processor for IEEE 802.11ac: design and implementation
Abdelmohsen Ali and Walaa Hamouda
Article first published online: 13 NOV 2015 | DOI: 10.1002/wcm.2643
This paper presents an efficient implementation for an IFFT/FFT processor that is compliant with IEEE 802.11ac specifications. The processor supports both uplink and downlink processing for multi-user system, where multiple antennas are utilized. A fully pipelined architecture supported by a word-length optimization algorithm enables this processor to achieve low power, reduced complexity, and high throughput. When evaluated and compared with similar designs, the processor is proven as a reliable and efficient design, and the processor implements all modes required by IEEE 802.11ac.