Web Service Composition Framework using Petrinet and Web Service Data Cache in MANET

A Mobile Ad Hoc Network (MANET) is characterized by multi-hop wireless links and frequent node mobility. Every neighboring node in the MANET is likely to have similar task and interests, several nodes might need to access the similar web service at different times. So, by caching the repeatedly accessed web service data within MANET, it is possible to reduce the cost of accessing the same service details from the UDDI and also from the external providers. Composition of web services leads to a better alternative as, at times a candidate web service may not completely serve the need of the customer. An effective Data Cache Mechanism (DCM) has been proposed in [6] using the Distributed Spanning Tree (DST) as a communication structure in Mobile network to improve scalability and lessen network overload. As an enhancement, Ant Colony Optimization (ACO) technique has been applied on DST to cope with the fragile nature of the MANET and to improve the network fault tolerance [1]. In these perspectives, an efficient Web Service Cache Mechanism (WSCM) can be modeled to improve the performance of the web service operations in MANET. In this paper, a fine grained theoretical model has been formulated to assess the various performance factors such as Cooperative Cache and Mobility Handoff. In addition to these, the performance improvement of WSCM using DST and ACO optimized DST techniques in MANET has been proved experimentally using Precision and Data Reliability of the system using appropriate simulation

Evaluation and Characterization of High Yielding Cassava Mosaic Resistant Variety YTP2

The cassava variety YTP2 (Me 681) has been developed through selection from Thondamuthur type at Tapioca and Castor Research Station, TNAU, Yethapur. The performance of YTP2 in the Adaptive Research Trial (ART) and On Farm Trial (OFT) in the farmer’s field inferred that this new variety is well adapted to cassava growing districts of Tamil Nadu. In addition to the above, YTP2 was found to be resistant to cassava mosaic disease incidence (CMD). Plants are erect, medium growing and non-branching type and suitable for growing under irrigated and rainfed conditions. The internodal length is shorter and the leaf size is medium with sufficient canopy. The leaves of the plants droop down to reduce the transpiration loss which is more advantageous to overcome or escape from drought and heat stress during summer season. It is a dual purpose variety wherein the tubers contain high starch content which is much favourable for the manufacture of starch, sago and also suited for table purpose. The overall performance of this variety showed higher tuber yield (42.20 t ha-1) and starch content (28.40%) which is 15.94% and 18.20% increase over the check varieties YTP1 and H226 respectively. The results of DNA fingerprint data involving SSR markers (SSRY235, NS169 and NS928) showed that it is genetically distinct from the existing commercial varieties viz., YTP1, H226 and Sree Athulya