Topological-based Architectures for Wireless Mesh Network Amir Esmailpour and Nidal Nasser Department of Computing & Information Science University of Guelph Guelph, ON, Canada N1G 2W1 aesmailp@uoguelph.ca ; nasser@cis.uoguelph.ca Tarik Taleb NEC Laboratories Europe Heidelberg, Germany tarik.taleb@nw.neclab.eu Abstract The Wireless Mesh Network (WMN) and the associated IEEE 802.11s standard have attracted an enormous amount of research in the wireless research community for the past few years. Nevertheless, WMN architecture has not received much needed attention compared to other topics in this area of research. Based on topological differences, various network architectures are possible for WMN, and we believe such architectures could affect wireless characteristics differently. In this article, we provide an overview of architectural design approaches for WMN, then summarize the state-of-the-art research findings and suggest further topics that need to be addressed. Additionally, we identify three different types of architectures for WMN: Campus Mesh (CM), Downtown Mesh (DTM), and Long Haul Mesh (LHM). Furthermore, we discuss and investigate different WMN characteristics that could be affected by commonly deployed architectures. Among the considered characteristics we select routing, network management, and network performance for further analysis, and look at the challenges that these architectures are facing with respect to those characteristics. To illustrate these challenges, we perform a simple experiment to show that LHM and DTM under identical network environment show significant differences in performance parameters such as throughput and delay. Keywords: Wireless mesh network architecture, topology, routing, network management and performance.