Tabla de Contenidos:
  • COMPUTER SYSTEMS, SUPPORT AND TECHNOLOGY; COMPUTER SYSTEMS, SUPPORT AND TECHNOLOGY ; CONTENTS ; PREFACE ; FUZZY LOGIC IN MOLECULAR COMPUTING ; ABSTRACT ; 1. INTRODUCTION ; 2. MOLECULAR COMPUTING; 3. WHEN AND HOW FUZZY LOGIC CAN BE IMPLEMENTED AT THE MOLECULAR LEVEL ; CONCLUSION ; ACKNOWLEDGMENTS; REFERENCES ; A MINIMUM-PROCESS COORDINATED CHECKPOINTING PROTOCOL FOR DETERMINISTIC MOBILE DISTRIBUTED SYSTEMS ; ABSTRACT; 1. INTRODUCTION; 2. PROBLEMS IN THE EXISTING SINGH-CABILLIC [28] ALGORITHM ; 3. THE PROPOSED CHECKPOINTING ALGORITHM ; 3.1. System Model; 3.2. Basic Idea.
  • 3.3. The Checkpointing Algorithm 3.4. An Example ; CONCLUSIONS ; REFERENCES; BACKWARD ERROR RECOVERY PROTOCOLS IN DISTRIBUTED MOBILE SYSTEMS: A SURVEY ; ABSTRACT ; 1. INTRODUCTION ; 2. BACKWARD ERROR RECOVERY ; 2.1. Uncoordinated Checkpointing ; 2.2. Coordinated Checkpointing ; 2.3. Quasi Synchronous or Communication Induced Checkpointing; 2.4. Message Logging Based Checkpointing Protocols ; 3. CHECKPOINTING ISSUES IN DISTRIBUTED MOBILE SYSTEMS ; 4. PRELIMINARIES ; CONCLUSION ; REFERENCES.
  • MOBILE DATABASE COMPUTING PERFORMANCE RELATED ISSUES AND RECOMMENDATIONS WITH ADOPTABLE OBJECT ORIENTED MODEL OF MOBILE DATABASE MANAGEMENT SYSTEM ABSTRACT ; 1. INTRODUCTION; 2. CHARACTERISTICS OF MOBILE COMPUTING ENVIRONMENT; 2.1. Mobile Computing Environment ; 2.2. Characteristics of Wireless Medium for Mobile Computing ; 2.3. Characteristics of Mobile Units ; 2.4. Issues of Mobile Database Computing ; 2.5. Characteristics of Data Replication required at MU; 2.6. Related Research Work ; 3. MOBILE DATABASE STSTEM ; 3.1. Mobile Database Model Motivation.
  • 3.2. Mobile Database Model Considerations 3.3. Architecture ; 3.4. Functionality ; 4. REPLICATION SCHEMES ; Identification of Frequently Required Objects: ; 4.1. Conventional Scheme Based on Locality of Reference ; 4.1.1. Least Recently Used (LRU) Scheme ; 4.2. Related Schemes Based on Moving Average ; 4.2.1. Moving Average 10 (MA10) Scheme ; 4.2.2. Exponentially Weighted Moving Average (EWMA) Scheme ; 4.3. Candidate Schemes ; 4.3.1. Hybrid Scheme ; 4.3.2. CDEWMA Scheme ; 4.3.3. Mobile Replication Model DEWMA Scheme ; 5. MOBILE DATABASE REPLICATION MODEL ; 5.1. DEWMA Scheme Dynamics.
  • 5.2. Object Replacement Policy 5.3. Schema Translation; 5.4. Object Transportation ; 5.5. Supporting Research Work ; 6. FEASIBILITY OF SCHEME BY SIMULATION ; 6.1. Simulation Configurations ; 6.2. Analysis and Resulted Effectiveness of Simulated Schemes ; 6.2.1. MA10 Scheme ; 6.2.2. EWMA Scheme ; 6.2.3. Hybrid Scheme ; 6.2.4. LRU Scheme ; 6.2.5. CDEWMA Scheme ; 6.2.6. DEWMA Scheme ; 6.3. Role of Server in Optimization of MDB ; 6.4. Object Broadcasting Paradigm ; CONCLUSIONS ; 8. FUTURE RESEARCH DIRECTIONS ; 8.1. Fractals to Predict Object Access Pattern ; REFERENCES.