A transactional asynchronous replication scheme for mobile database systems
Journal of Computer Science and Technology
Defining an Adaptable Mobile Transaction Service
EDBT '02 Proceedings of the Worshops XMLDM, MDDE, and YRWS on XML-Based Data Management and Multimedia Engineering-Revised Papers
O2PC-MT: A Novel Optimistic Two-Phase Commit Protocol for Mobile Transactions
DEXA '01 Proceedings of the 12th International Conference on Database and Expert Systems Applications
A Survey of Mobile Transactions
Distributed and Parallel Databases
PoliPer: policies for mobile and pervasive environments
ARM '04 Proceedings of the 3rd workshop on Adaptive and reflective middleware
Making Distributed Transactions Resilient to Intermittent Network Connections
WOWMOM '06 Proceedings of the 2006 International Symposium on on World of Wireless, Mobile and Multimedia Networks
Location query based on moving behaviors
Information Systems
A survey on the history of transaction management: from flat to grid transactions
Distributed and Parallel Databases
An improved kangaroo transaction model using surrogate objects for distributed mobile system
Proceedings of the 10th ACM International Workshop on Data Engineering for Wireless and Mobile Access
On the design of perturbation-resilient atomic commit protocols for mobile transactions
ACM Transactions on Computer Systems (TOCS)
Context-adaptive and energy-efficient mobile transaction management in pervasive environments
The Journal of Supercomputing
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The users on mobile hosts can access information from heterogeneous multidatabase system by the unit of mobile transactions via wireless communication. Hence, mobile transaction model should include not only the features for heterogeneous multidatabase systems but also those for mobile computing environment. In this paper, we proposed a mobile transaction model to support the requirements of mobile heterogeneous multidatabase systems. The proposed Moflex Transaction Model is able to support the management of mobility, heterogeneity and flexibility in the definition and execution of mobile transactions. Hence, the proposed Moflex Transaction Model can be suitable to mobile heterogeneous multidatabase systems that have low power capability, low bandwidth, and high communication failure possibility.