An Autonomous Adaptive Base Station that Supports Multiple Wireless Network Systems

Various wireless systems are being developed to meet users' needs, and effective frequency use is urgently needed because of the rapid increase in frequency demand that accompanies the increasing popularity of wireless services. However, general base stations are making no effort to use frequency effectively, and cooperation among wireless system base stations is necessary for more effective frequency use. Base stations can cooperate more efficiently if they are able to use multiple channels of many wireless systems simultaneously. In this paper, we propose an autonomous adaptive base station (AABS) that adapts to various wireless systems the way software defined radio (SDR) base stations do. The AABS can autonomously select and use the most suitable wireless system based on user traffic and AABS's hardware resources. AABS can also offer a communication environment suitable for "multi-link communication", because AABS can use multiple channels of multiple wireless systems simultaneously. We developed an AABS prototype so we could evaluate performance. Our experimental and computer simulation results demonstrate that the prototype performs effectively.

[1]  Bijan Jabbari,et al.  Performance analysis of a multilink packet access for next generation wireless cellular systems , 1998, Ninth IEEE International Symposium on Personal, Indoor and Mobile Radio Communications (Cat. No.98TH8361).

[2]  Kazunori Akabane,et al.  An Autonomous Adaptive Base Station that Supports Multiple Wireless Network Systems , 2007 .

[3]  H. Harada Software defined radio prototype for W-CDMA and IEEE802.11a wireless LAN , 2004, IEEE 60th Vehicular Technology Conference, 2004. VTC2004-Fall. 2004.

[4]  Lan Chen,et al.  Wireless QoS Resource Cooperation Management for CDMA Packet Mobile Communication Systems(Wireless Communication Technology) , 2003 .

[5]  Joseph Mitola Cognitive Radio for Flexible Mobile Multimedia Communications , 2001, Mob. Networks Appl..

[6]  Hiroyuki SHIBA ADAPTIVE SERVICE FUNCTION ASSIGNMENT WITH SOFTWARE DEFINED RADIO FOR COMPOSITE WIRELESS SYSTEMS , 2005 .

[7]  J. Kumagai Radio Revolutionaries , 2007, IEEE Spectrum.

[8]  Munehiro Matsui,et al.  Performance Evaluation of Reconfigurable Processor for SDR Mobile Terminals and SDR Base Station using Autonomous Adaptive Control Technology , 2005, 2005 5th International Conference on Information Communications & Signal Processing.

[9]  Laurie G. Cuthbert,et al.  Intelligent cellular network load balancing using a cooperative negotiation approach , 2003, 2003 IEEE Wireless Communications and Networking, 2003. WCNC 2003..

[10]  M. Misson,et al.  A method for increasing throughput based on packet striping , 2000, 1st European Conference on Universal Multiservice Networks. ECUMN'2000 (Cat. No.00EX423).