A Special Issue on "Performance evaluation, Modeling and Analysis of Wireless Ad-Hoc Networks"
摘要截稿:
全文截稿: 2019-01-30
影响因子: 3.643
期刊难度:
CCF分类: C类
中科院JCR分区:
• 大类 : 计算机科学 - 2区
• 小类 : 计算机:信息系统 - 3区
• 小类 : 电信学 - 3区
Overview
A primary aim of wireless ad-hoc networks is to deliver data in areas where there is no pre-defined infrastructure. In these networks, the users, but also the network entities can be potentially mobile. Wireless ad-hoc networks have recently witnessed their fastest growth period ever in history. Real wireless ad-hoc networks are now implemented, deployed and tested, and this trend is likely to increase in the future. However, as such networks are increasingly complex, performance modeling and evaluation play a crucial part in their design process to ensure their successful deployment and exploitation in practice.
This special issue on Performance evaluation, Modeling and Analysis of Wireless Ad-Hoc Networks era aims to open a new critical debate on the evaluation of wireless ad-hoc networks. In particular, we seek original theoretical and/or practical contributions, from researchers and practitioners that identify and address issues in evaluating wireless ad-hoc networks.
Topics of Interest
In particular, the topics of interest include, but are not limited to:
- Modeling
* Analytical modeling
* Probabilistic models
* Queuing and network information theoretic analysis
* Predictive performance models
* Mobility modeling
* Traffic models
- Simulation/Experimentation
* Simulation methods and tools for evaluation wireless ad-hoc networks
* Software tools for performance evaluation
* Tracing and trace analysis
* Automatic performance analysis
* Performance measurement, evaluation and monitoring tools for wireless ad-hoc networks
* Case studies demonstrating the role of performance evaluation in the design of wireless ad-hoc networks
- Performance evaluation
* Performance evaluation of wireless mesh networks
* Performance evaluation of vehicular networks
* Performance evaluation of wireless sensor networks
* Performance comparison
* Network performance improvement through optimization and tuning