Performance analysis of preemptive resume scheduling in mobile transactions

We present an active network-based approach in order to improve the performance of mobile transactions. This approach employs preemptive resume scheduling mechanism which reduces queuing delays involved in the processing of mobile transactions at each network node. Such reduction of queuing delay significantly improves performance of mobile transactions given the heavy network traffic and the lower network bandwidth. We have conducted several experiments using analytical modelling approach in order to determine the impact of priority scheduling mechanism on the performance of mobile transactions. Experiments show significant performance improvements of the proposed approach over existing approaches of mobile transactions. It has also been shown that the proposed approach is robust in that it can be applied to improve the performance of current mobile transaction approaches.

[1]  Irfan-Ullah Awan,et al.  Analytical modelling of priority commit protocol for reliable Web applications , 2004, SAC '04.

[2]  Abdelsalam Helal,et al.  Any time, anywhere computing - mobile computing concepts and technology , 1999, The Kluwer international series in engineering and computer science.

[3]  Konstantinos Psounis,et al.  Active networks: Applications, security, safety, and architectures , 1999, IEEE Communications Surveys & Tutorials.

[4]  Vijay Kumar,et al.  TCOT-A Timeout-Based Mobile Transaction Commitment Protocol , 2002, IEEE Trans. Computers.

[5]  Claudia Roncancio,et al.  Analyzing mobile transactions support for DBMS , 2001, 12th International Workshop on Database and Expert Systems Applications.

[6]  Bharat K. Bhargava,et al.  A Transaction Model to Improve Data Availability in Mobile Computing , 2004, Distributed and Parallel Databases.

[7]  Claudia Roncancio,et al.  Analyzing Mobile Transaction Supports for DBMS , 2001 .

[8]  Irfan-Ullah Awan,et al.  Approximate Analysis of Arbitrary QNMs with Space and Service Priorities , 1997, Modelling and Evaluation of ATM Networks.

[9]  Kuo-Ming Chao,et al.  M-commerce transaction management with multi-agent support , 2003, 17th International Conference on Advanced Information Networking and Applications, 2003. AINA 2003..

[10]  Ken Sakamura,et al.  Towards ubiquitous database in mobile commerce , 2001, MobiDe '01.

[11]  Irfan-Ullah Awan,et al.  Efficient commit processing of Web transactions using priority scheduling mechanism , 2003, Proceedings of the Fourth International Conference on Web Information Systems Engineering, 2003. WISE 2003..

[12]  Vijay Kumar,et al.  Impact of mobility on transaction management , 1999, MobiDe '99.

[13]  Le Gruenwald,et al.  A pre‐serialization transaction management technique for mobile multidatabases , 2000, Mob. Networks Appl..

[14]  Abdelsalam Helal,et al.  A mobile transaction model that captures both the data and movement behavior , 1997, Mob. Networks Appl..