Title :
SODA: An Algorithm to Guarantee Correctness of Concurrent Transaction Execution in Mobile P2P Databases
Author :
Xing, Zhaowen ; Gruenwald, Le ; Phang, K.K.
Author_Institution :
Sch. of Comput. Sci., Univ. of Oklahoma, Norman, OK
Abstract :
This paper proposes an optimistic concurrency control (CC) algorithm, called Sequential Order with Dynamic Adjustment (SODA), that guarantees timely and correct execution of concurrent transaction in Mobile P2P databases. In Mobile P2P, as every peer is fully autonomous, needs timely response and has inherent characteristics (mobility, low bandwidth, limited battery power, limited storage and frequent disconnections), existing CC algorithms cannot be applied directly. SODA is an effort to fill in this gap. The analysis of SODA shows that it is able to improve the response time by applying the concept of sequential order and reduce the transaction abort rate by dynamically adjusting the sequential order.
Keywords :
concurrency control; distributed databases; mobile computing; peer-to-peer computing; SODA; Sequential Order with Dynamic Adjustment; concurrent transaction execution; mobile P2P databases; optimistic concurrency control; Application software; Bandwidth; Cellular networks; Computer science; Concurrency control; Expert systems; Information technology; Mobile ad hoc networks; Mobile computing; Transaction databases; concurrency control; mobile P2P; transaction;
Conference_Titel :
Database and Expert Systems Application, 2008. DEXA '08. 19th International Workshop on
Conference_Location :
Turin
Print_ISBN :
978-0-7695-3299-8
DOI :
10.1109/DEXA.2008.96
