E-Book, Englisch, Band 66, 109 Seiten
Wu / Luo High Performance Networking, Computing, Communication Systems, and Mathematical Foundations
1. Auflage 2010
ISBN: 978-3-642-11618-6
Verlag: Springer
Format: PDF
Kopierschutz: 1 - PDF Watermark
International Conferences, ICHCC 2009-ICTMF 2009, Sanya, Hainan Island, China, December 13-14, 2009. Proceedings
E-Book, Englisch, Band 66, 109 Seiten
Reihe: Communications in Computer and Information Science
ISBN: 978-3-642-11618-6
Verlag: Springer
Format: PDF
Kopierschutz: 1 - PDF Watermark
This volume constitutes the refereed proceedings of the International Conference on High Performance Networking, Computing and Communication Systems, and the International Conference on Theoretical and Mathematical Foundations of Computer Science ( ICHCC -ICTMF 2009), held in Sanya, Hainan Island, China, in December 2009. The 15 revised full papers presented were carefully reviewed and selected out of 60 submissions. They range on the various aspects of advances in High Performance Networking, Computing, Communication Systems and Mathematical Foundations.
Autoren/Hrsg.
Weitere Infos & Material
1;Preface;5
2;Organization;6
3;Table of Contents;8
4;Research and Implementation of a Decoder of 1-Wire Bus;10
4.1;Introduction;10
4.2;Seperated Circuit Signal;11
4.2.1;Analysis;11
4.2.2;Simulation and Conclusions;11
4.3;Design of Decoder of 1-Wire Bus;13
4.4;Application;14
4.5;Conclusion;15
4.6;References;15
5;Design of the Energy and Distance Based Clustering Protocol in Wireless Sensor Network;17
5.1;Introduction;17
5.2;Design of EDBCP;18
5.2.1;EDBCP Model;18
5.2.2;Initialization of Network in EDBCP;19
5.2.3;Node Sending Message to Base Station;19
5.2.4;The Method of Grouping Cluster in EDBCP;20
5.3;The Process of Communication in EDBCP;22
5.3.1;The Communication between Sensor Node and Base Station;23
5.3.2;Communication in Clusters;23
5.3.3;Communication among Clusters in EDBCP;23
5.4;Compared with LEACH and Conclusion;23
5.5;References;24
6;The Design of NTCIP C2F Model System for ITS;25
6.1;Introduction;25
6.2;NTCIP Framework;25
6.3;C2F Model System Framework;26
6.3.1;Center Control Module;27
6.3.2;Communication Transmission Module;27
6.3.3;Road Operation Module;27
6.4;Key Technology of System;29
6.4.1;STMP Protocol;29
6.4.2;System Design;30
6.5;Conclusion;30
6.6;References;30
7;Scheduling Algorithm for Vehicle to Road-Side Data Distribution;31
7.1;Introduction;31
7.2;Related Work;32
7.3;System Model and Assumptions;33
7.4;Resuming Download from a RSU;34
7.5;The Scheduling Scheme;34
7.5.1;Differentiating between Requests in the RSU;34
7.5.2;Scheduling Policies;35
7.6;Performance Evaluations;36
7.6.1;Experimental Setup;36
7.6.2;Service Ratio Evaluation;37
7.6.3;The Effect of Workload;38
7.7;Conclusions;38
7.8;References;39
8;Fast Algorithm of Single Scale Correlative Processing and Its Experimental Research;40
8.1;Introduction;40
8.2;Wideband Correlative Processing;40
8.3;Fast Algorithm of Single Scale Correlative Processing;41
8.3.1;Analysis on Pro and Con frequency Modulation HFM Signal;41
8.3.2;Fast Algorithm of Single Scale Correlative Processing;42
8.3.3;The Fast Algorithm Simulation;44
8.4;Design of DSP System;44
8.5;Lake Test;45
8.6;Conclusion;46
8.7;References;46
9;A Design Method of Constant Beamwidth Beam-Former;47
9.1;Introduction;47
9.2;A Frequency Model of the CBB Matrix;48
9.3;The Design of CBB Based on CZT;50
9.3.1;Chirped Z Transform (CZT);50
9.3.2;Calculation of CBB Matrix Based on CZT;51
9.4;Computer Simulation;52
9.5;Conclusion;53
9.6;References;54
10;Network Service Incentive Mechanism Based on Competitive Game;55
10.1;Introduction;55
10.1.1;Network Services;55
10.1.2;Incentive Mechanism;55
10.1.3;Ideal of This Paper;56
10.1.4;Organization;56
10.2;One Management Center and Two Competitive Server Nodes Incentive Mechanism;57
10.2.1;Incentive Model;57
10.2.2;Analysis;57
10.3;One Management Center and $n$ Competitive Server Nodes Incentive Mechanism;59
10.3.1;Incentive Model;59
10.3.2;Analysis;59
10.4;Conclusion and Further Work;61
10.5;References;62
11;An Efficient Computation Saving Mechanism for High- Performance Large-Scale Watershed Simulation;63
11.1;Introduction;63
11.2;Related Work;64
11.3;Large-Scale Watershed Simulation;65
11.3.1;System Architecture;65
11.3.2;Hydraulic Simulation Models;66
11.4;Efficient Tabularization with Caching;66
11.4.1;Algorithm Description;67
11.4.2;Model Tabularization;67
11.4.3;Parallel Computation;68
11.4.4;Reduce Database Access Overhead;68
11.5;Experiments;69
11.6;Conclusions;69
11.7;References;70
12;The Applications of Mobile Payment;71
12.1;The Applications of Mobile Payment in India;71
12.1.1;India Marching towards M-Commerce;71
12.1.2;Barclays Bank’s “Hello Money”;72
12.1.3;mChek in India;72
12.2;Other Aspects of Mobile E-Commerce Application;73
12.2.1;Sybase 365 Improve Mobile Payment;73
12.2.2;Blaze Mobile Wallet;74
12.2.3;Real-Time Financial Decision Support;74
12.2.4;Mobile Accounts Management;75
12.3;Views and Prediction about Mobile Payment in China;76
12.4;References;76
13;The Challenges and Strategies of Commercial Bank in Developing E-banking Business;77
13.1;Introduction;77
13.2;Current Development of Commercial Bbanks in E-banking Business;77
13.3;The Challenges and Problems of E-banking;78
13.3.1;Security;78
13.3.2;Dynamic Environment;78
13.3.3;Service;79
13.3.4;Standards;80
13.4;The Strategies of the Development of E-banking;80
13.4.1;Planning New IT-Infrastructure;80
13.4.2;Enhancing Transaction Security;81
13.4.3;Providing Value-Added Content;81
13.4.4;Delivering Differentiated Services;81
13.4.5;Conveying Value Propositions;82
13.4.6;Managing Customer Relationships;82
13.5;References;82
14;Easy Domain Processing over Heterogeneous Databases: A Unified Programming Paradigm;84
14.1;Introduction;84
14.2;Related Work;85
14.3;Programming Paradigm;86
14.3.1;Application Logic vs. Data Store;86
14.3.2;Programming Workflows vs. Programming UDFs;86
14.3.3;A Unified Programming Paradigm;86
14.4;Video Processing in Multi-databases: A Nearest Neighbor Query Example;87
14.4.1;Similarity Measurement;87
14.4.2;Nearest Neighbor Query in Multiple Databases;88
14.4.3;Unified Programming;88
14.4.4;Runtime;89
14.5;Conclusions;90
14.6;References;91
15;A High Performance Computing Platform Based on a Fibre-Channel Token-Routing Switch-Network;92
15.1;Introduction;92
15.2;Introduction to MPICH;93
15.3;Implementation;93
15.3.1;Architecture of FC-VIA-MPI;93
15.3.2;Design and Implementation;93
15.4;Performance;94
15.5;Conclusion;96
15.6;References;96
16;XML Application for SNMP_based Information Management;97
16.1;Introduction;97
16.2;Architecture of the XML Application for SNMP_based Information Management;98
16.3;XML and SNMP Gateway;99
16.3.1;XML Parser;99
16.3.2;MIB Parser;100
16.3.3;The Mapping between XML_based Information and MIB_based Information;100
16.4;SNMP_based Information Management;101
16.5;Web Server and Servlet;101
16.6;Conclusion;101
16.7;References;102
17;A Method of Synthetic Scheduling Basing on the Grid Service;104
17.1;Introduction;104
17.2;Related Work;105
17.3;Layered Scheduling System Architecture and the Realization of the Algorithm;105
17.3.1;Layered Scheduling System Architecture;105
17.3.2;Load Balancing Principle of Layered Scheduling System;106
17.3.3;Realization of the Method of Synthetic Scheduling in Layered Scheduling System;107
17.4;Experiment and the Analysis of Results;108
17.5;Conclusion;109
17.6;References;109
18;A Data Hiding Method for Text Documents Using Multiple-Base Encoding;110
18.1;Introduction;110
18.2;Related Works;111
18.2.1;Bender et al.’s Data Hiding Method;112
18.2.2;Chen et al.’s Data Hiding Method;112
18.3;The Proposed Scheme;113
18.3.1;The Multiple-Based Notational System;113
18.3.2;Embedding Phase;114
18.4;Experimental Results and Discussions;116
18.5;Conclusions;117
18.6;References;118
19;Author Index;119
