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 ABSTRACT
In a public WLAN hotspot, a roaming mobile terminal (MT) may be within radio range of more than one access point (AP), each of which may or may not have roaming agreements with the service provider of the user of the MT. In this case, the MT may need to discover some <i>service information</i> before it can make an intelligent <i>network-selection</i> decision. The most critical is <i>roaming information</i>; while other information such as <i>security policies</i>, <i>price</i>, <i>AP workload</i> may also be useful. Currently, roaming information is typically provisioned on the MTs as static <i>roaming tables</i> or <i>roaming lists</i>. However, this approach may not scale well when there are millions of hotspots globally. Addressing this shortcoming, recently several solutions have been proposed by different groups. In this paper, we contrast these solutions, and propose our own solution called <i>Roaming Information Code (RIC)</i>, which can be transported as SSID or a new Information Element of the 802.11 standard. RIC is scalable and can be fully backward compatible with existing APs (if transported as SSID). Furthermore, it does not hinder fast handoffs. In the second half of the paper, we will also discuss two other schemes addressing the other service information: a scheme called <i>RIC-VAP</i> for provider-specific security information; and a scheme that allows an AP to announce price and workload information.
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CITED BY 3
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Anthony J. Nicholson , Yatin Chawathe , Mike Y. Chen , Brian D. Noble , David Wetherall, Improved access point selection, Proceedings of the 4th international conference on Mobile systems, applications and services, June 19-22, 2006, Uppsala, Sweden
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Matteo Cesana , Nicola Gatti , Ilaria Malanchini, Game theoretic analysis of wireless access network selection: models, inefficiency bounds, and algorithms, Proceedings of the 3rd International Conference on Performance Evaluation Methodologies and Tools, October 20-24, 2008, Athens, Greece
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