Abstract
This paper presents a novel software-defined wireless network architecture that integrates coordination mechanisms to enhance the capabilities of a set of central managed Wi-Fi access points (APs). The global architecture is presented in detail, where the handoff mechanism is integrated with a set of active and passive monitoring tools and other functionalities, resulting in a solution that is able to provide smart functionalities using low-cost commercial APs. The framework includes a central controller that has all the information available, and is therefore able to make smart decisions about the assignment of clients to APs. This avoids the problem of the “sticky client” that remains connected to the original AP it is associated with, rather than moving to a nearby AP, which would be a better choice. Two different test scenarios are used to compare a proactive and a reactive handoff mechanism in realistic conditions, with different walking speeds. The results illustrate the advantage of the proactive handoff, as it is more scalable and allows a better integration with other functionalities such as load balancing. The delay incurred by the handoff between APs in different channels is measured with three wireless devices, using five values for the inter-beacon time, proving that fast and seamless handoffs are possible in the scenario. The paper shows that these advanced functionalities, usually available in proprietary solutions, can also be achieved using off-the-shelf equipment.
Highlights
IntroductionDuring the last few years we have witnessed an important increase in the use of wireless devices (e.g., smartphones, laptops and tablets), and the subsequent deployment of extensive wireless networks in areas such as business centers, airports, malls, campuses or even entire cities
During the last few years we have witnessed an important increase in the use of wireless devices, and the subsequent deployment of extensive wireless networks in areas such as business centers, airports, malls, campuses or even entire cities
The presentation of the global architecture, where the handoff mechanism is integrated with a set of monitoring tools and other functionalities, resulting in a solution that is able to provide smart functionalities using low-cost commercial access points (APs)
Summary
During the last few years we have witnessed an important increase in the use of wireless devices (e.g., smartphones, laptops and tablets), and the subsequent deployment of extensive wireless networks in areas such as business centers, airports, malls, campuses or even entire cities This situation has boosted the emergence of solutions that include a set of coordinated Wi-Fi Access Points (APs ), usually known as ‘‘Enterprise Wi-Fi.’’ these solutions are usually proprietary, closed and costly, which in most of the cases makes them infeasible for many organizations. These decisions are only based on local knowledge of each STA They are totally uncoordinated and result in situations like the so-called ‘‘sticky client problem,’’ a term that is used to describe a STA that remains connected to an AP that it knows, even if the distance has been significantly increased due to the movement of the user [1]. This results in a rate reduction which harms the rest of the STAs connected
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