Integration of Optical and Wireless Technologies in the Metro-Access: QoS Support and Mobility Aspects

Future metropolitan and access networks are expected to comprise heterogeneous optical and broadband wireless technologies. The growing demand of users for transparent, ubiquitous access to diverse communication services poses several challenges. We envision a future metro-access architecture that comprises Optical Burst Switching networks that feed Ethernet Passive Optical Networks (PON) or upcoming Wavelength-Division Multiplexing PON, which in turn feed IEEE 802.16 and IEEE 802.11 nodes. Nodes in the wireless realm may communicate in a multihop fashion, forming mesh networks. To maintain cost and resource efficiency, we propose the introduction of Quality of Service (QoS) proxies at the border between different link technologies. These entities handle QoS requirements and aid to the support of mobility. The architecture requires no modification of the Medium Access Control mechanisms of the different technologies.

[1]  Ieee . Wg Part 11 : Wireless LAN Medium Access Control (MAC) and Physical Layer (PHY) Specification , 2003 .

[2]  Biswanath Mukherjee,et al.  Ethernet passive optical networks , 2005 .

[3]  Idit Keidar,et al.  Scalable real-time gateway assignment in mobile mesh networks , 2007, CoNEXT '07.

[4]  A. M. J. Koonen,et al.  Fiber to the Home/Fiber to the Premises: What, Where, and When? , 2006, Proceedings of the IEEE.

[5]  Christian Hoymann,et al.  Analysis and performance evaluation of the OFDM-based metropolitan area network IEEE 802.16 , 2005, Comput. Networks.

[6]  Aditya Pathak,et al.  An Analytical Model for Handoff Overhead Analysis in Internet-Based Infrastructure Wireless Mesh Networks , 2008, 2008 IEEE International Conference on Communications.

[7]  K.-I. Sato,et al.  The future of optical networks , 2008, 2008 34th European Conference on Optical Communication.

[8]  Morocco Marrakech 2009 IEEE International Conference on Wireless and Mobile Computing, Networking and Communications , 2009 .

[9]  Martin May,et al.  A Protocol for Macro Mobility and Multihoming Notification in Wireless Mesh Networks , 2007, 21st International Conference on Advanced Information Networking and Applications Workshops (AINAW'07).

[10]  Kostas Ramantas,et al.  A non-competing hybrid optical burst switch architecture for QoS differentiation , 2008, Opt. Switch. Netw..

[11]  Djamal Zeghlache,et al.  Mobile Party: A Mobility Management Solution for Wireless Mesh Network , 2007, Third IEEE International Conference on Wireless and Mobile Computing, Networking and Communications (WiMob 2007).

[12]  B. Mukherjee,et al.  Hybrid Wireless-Optical Broadband-Access Network (WOBAN): A Review of Relevant Challenges , 2007, Journal of Lightwave Technology.

[13]  Rodney S. Tucker,et al.  Fixed Mobile Convergence Architectures for Broadband Access: Integration of EPON and WiMAX [Topics in Optical Communications] , 2007, IEEE Communications Magazine.

[14]  Xiaoqing Zhu,et al.  Hybrid Architecture and Integrated Routing in a Scalable Optical–Wireless Access Network , 2007, Journal of Lightwave Technology.

[15]  Rod Waterhouse,et al.  Wavelength reuse in the WDM optical interface of a millimeter-wave fiber-wireless antenna base station , 2001 .

[16]  Chao Liu,et al.  MEMO: An Applied Wireless Mesh Network with Client Support and Mobility Management , 2007, IEEE GLOBECOM 2007 - IEEE Global Telecommunications Conference.

[17]  Javier Aracil,et al.  Analysis of average burst-assembly delay and applications in proportional service differentiation , 2007, Photonic Network Communications.

[18]  Luciano Lenzini,et al.  Scheduling and Dynamic Relocation for IEEE 802.11s Mesh Deterministic Access , 2008, 2008 5th Annual IEEE Communications Society Conference on Sensor, Mesh and Ad Hoc Communications and Networks.

[19]  Rodney S. Tucker,et al.  Fixed mobile convergence (FMC) architectures for broadband access: integration of EPON and WiMax , 2007, SPIE/OSA/IEEE Asia Communications and Photonics.

[20]  Leonid G. Kazovsky,et al.  Next Generation Optical Access Networks , 2006, 2006 3rd International Conference on Broadband Communications, Networks and Systems.

[21]  Chunming Qiao,et al.  Optical burst switching: a new area in optical networking research , 2004, IEEE Network.

[22]  Yang Xiao,et al.  IEEE 802.11n: enhancements for higher throughput in wireless LANs , 2005, IEEE Wireless Communications.

[23]  M. O'Mahony,et al.  Future Optical Networks , 2006, 2007 9th International Conference on Telecommunications.

[24]  George N. Rouskas,et al.  Wavelength selection in OBS networks using traffic engineering and priority-based concepts , 2005, IEEE Journal on Selected Areas in Communications.