计算机科学技术学报(英文版)
計算機科學技術學報(英文版)
계산궤과학기술학보(영문판)
JOURNAL OF COMPUTER SCIENCE AND TECHNOLOGY
2010年
3期
415-430
,共16页
location updates%continuous queries%location-based services
The significant overhead related to frequent location updates from moving objects often results in poor pertormance.As most of the location updates do not affect the query results,the network bandwidth and the battery life ot moving objects are wasted.Existing solutions propose lazy updates,but such techniques generally avoid only a small fraction of all unnecessary location updates because of their basic approach(e.g.,safe regions,time or distance thresholds).Furthermore,most pnor work focuses on a simplified scenario where queries are either static or rarely change their positions.In this study,two novel efficient location update strategies are proposed in a trajectory movement model and an arbitrary movement model,respectively.The first strategy for a trajectory movement environment is the Adaptive Safe Region(ASR)technique that retrieves an adjustable safe region which is continuously reconciled with the surrounding dynamic aueries.The communication overhead is reduced in a highly dynamic environment where both queries and data objects change their positions frequently.In addition,we design a framework that supports multiple query types(e.g.,range and c-kNN queries).In this iramework,our query re-evaluation algorithms take advantage of ASRs and issue location probes only to the affected data objects,without flooding the system with many unnecessary location update requests.The second proposed strategy tor an arbitrary movement environment is the Partition-based Lazy Update(PLU,for short)algorithm that elevates this idea further by adopting Location Information Tables(LITs)which(a)allow each moving object to estimate possible query movements and issue a location update only when it may affect any query results and(b)enable smart server probing that results in iewer messages.We first define the data structure of an LIT which is essentially packed with a set of surrounding query locations across the terrain and discuss the mobile-side and server-side processes in correspondence to the utilization of LITs.Simulation results confirm that both the ASR and PLU concepts improve scalability and efficiency over existing methods.