TY - JOUR
T1 - Cache invalidation strategies for internet-based mobile ad hoc networks
AU - Lim, Sunho
AU - Lee, Wang Chien
AU - Cao, Guohong
AU - Das, Chita R.
N1 - Funding Information:
Wang-Chien Lee is an Associate Professor of Computer Science and Engineering at Pennsylvania State University. He received his B.S. from the Information Science Department, National Chiao Tung University, Taiwan, his M.S. from the Computer Science Department, Indiana University, and his Ph.D. from the Computer and Information Science Department, the Ohio State University. Prior to joining Penn State, he was a principal member of the technical staff at Verizon/GTE Laboratories, Inc. Dr. Lee leads the Pervasive Data Access (PDA) Research Group at Penn State University to perform cross-area research in database systems, pervasive/mobile computing, and networking. He is particularly interested in developing data management techniques (including accessing, indexing, caching, aggregation, dissemination, and query processing) for supporting complex queries in a wide spectrum of networking and mobile environments such as peer-to-peer networks, mobile ad-hoc networks, wireless sensor networks, and wireless broadcast systems. Meanwhile, he has worked on XML, security, information integration/retrieval, and object-oriented databases. His research has been supported by NSF and industry grants. Most of his research result has been published in prestigious journals and conferences in the fields of databases, mobile computing and networking. He has served as a guest editor for several journal special issues on mobile database-related topics, including IEEE Transaction on Computer, IEEE Personal Communications Magazine, ACM MONET, and ACM WINET. He was the founding program committee co-chair for the International Conference on Mobile Data Management. He is a member of the IEEE and the Association for Computer Machinery.
Funding Information:
This research was supported in part by NSF Grants CCR-0208734, CCF-0429631, EIA-0202007, and CNS 0509251. Wang-Chien Lee is supported in part by NSF Grants IIS-0328881, IIS-0534343, CNS-0626709. Preliminary results of this paper have been presented in part at IEEE MASS 2004 [22] .
PY - 2007/6/8
Y1 - 2007/6/8
N2 - Internet-based mobile ad hoc network (Imanet) is an emerging technique that combines a mobile ad hoc network (Manet) and the Internet to provide universal information accessibility. Although caching frequently accessed data items in mobile terminals (MTs) improves the communication performance in an Imanet, it brings a critical design issue when data updates. In this paper, we analyze several push and pull-based cache invalidation strategies for Imanets. A global positioning system (GPS) based connectivity estimation (GPSCE) scheme is first proposed to assess the connectivity of an MT for supporting cache invalidation mechanisms. Then, we propose a pull-based approach, called aggregate cache based on demand (ACOD) scheme that uses an efficient search algorithm for finding the queried data items. In addition, we modify two push-based cache invalidation strategies, proposed for cellular networks, to work in Imanets. They are called modified timestamp (MTS) scheme and MTS with updated invalidation report (MTS + UIR) scheme, respectively. We compare the performance of all these schemes as a function of query interval, cache update interval, and cache size through extensive simulation. Simulation results indicate that the ACOD scheme provides high throughput, low query latency, and low communication overhead, and thus, is a viable approach for implementation in Imanets.
AB - Internet-based mobile ad hoc network (Imanet) is an emerging technique that combines a mobile ad hoc network (Manet) and the Internet to provide universal information accessibility. Although caching frequently accessed data items in mobile terminals (MTs) improves the communication performance in an Imanet, it brings a critical design issue when data updates. In this paper, we analyze several push and pull-based cache invalidation strategies for Imanets. A global positioning system (GPS) based connectivity estimation (GPSCE) scheme is first proposed to assess the connectivity of an MT for supporting cache invalidation mechanisms. Then, we propose a pull-based approach, called aggregate cache based on demand (ACOD) scheme that uses an efficient search algorithm for finding the queried data items. In addition, we modify two push-based cache invalidation strategies, proposed for cellular networks, to work in Imanets. They are called modified timestamp (MTS) scheme and MTS with updated invalidation report (MTS + UIR) scheme, respectively. We compare the performance of all these schemes as a function of query interval, cache update interval, and cache size through extensive simulation. Simulation results indicate that the ACOD scheme provides high throughput, low query latency, and low communication overhead, and thus, is a viable approach for implementation in Imanets.
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U2 - 10.1016/j.comcom.2007.02.020
DO - 10.1016/j.comcom.2007.02.020
M3 - Article
AN - SCOPUS:34247471245
SN - 0140-3664
VL - 30
SP - 1854
EP - 1869
JO - Computer Communications
JF - Computer Communications
IS - 8
ER -