Abstract
Optimizing the balance between handoff quality and power consumption is a great challenge for seamless mobile communications in wireless networks. Traditional proactive schemes continuously monitor available access networks and exercise handoff. Although such schemes achieve good handoff quality, they consume much power because all interfaces must remain on all the time. To save power, the reactive schemes use fixed RSS thresholds to determine when to search for a new available access network. However, since they do not consider user motion, these approaches require that all interfaces be turned on even when a user is stationary, and they tend initiate excessive unnecessary handoffs. To address this problem, this research presents a novel motion-aware scheme called network discovery with motion detection (NDMD) to improve handoff quality and minimize power consumption. The NDMD first applies a moving average convergence divergence (MACD) scheme to analyze received signal strength (RSS) samples of the current active interface. These results are then used to estimate user's motion. The proposed NDMD scheme adds very little computing overhead to a mobile terminal (MT) and can be easily incorporated into existing schemes. The simulation results in this study showed that NDMD can quickly track user motion state without a positioning system and perform network discovery rapidly enough to achieve a much lower handoff-dropping rate with less power consumption.
Highlights
As wireless technologies advance, various wireless networks such as UMTS, WiFi, and WiMax networks are expected to jointly support universal ubiquitous services for future mobile users
The performance of network discovery with motion detection (NDMD) was compared with received signal strength (RSS) threshold-based handoff algorithm [15], RSS threshold combined with dwell-time-based handoff algorithms [16], RSS threshold combined with hysteresis-based handoff algorithm [16], RSS threshold combined with hysteresis and dwelltime-based handoff algorithms [16] and geographic-based handoff algorithm [12]
(ii) In RSS threshold combined with dwell-time-based handoff algorithms, an mobile terminal (MT) triggers a network discovery when THND > RSSold and initiates a handoff when THHO > RSSold and this state is maintained over a dwell time
Summary
Various wireless networks such as UMTS, WiFi, and WiMax networks are expected to jointly support universal ubiquitous services for future mobile users. A multimode MT uses existing reactive schemes [4,5,6,7] that turn on all interfaces for network discovery only when the RSS or frame error rate (FER) of the current active interface exceeds a predetermined threshold. These reactive schemes, are insufficiently reliable for handoff when users are quickly moving away from an access point (AP) or a base station (BS), and they often activate interfaces unnecessarily even when users are stationary.
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