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Steiner Systems for Topology-Transparent Access Control in MANETs 1st edition by Charles Colbourn, Violet Syrotiuk, Alan Ling ISBN 3540202608 9783540202608

Name: Steiner Systems for Topology-Transparent Access Control in MANETs 1st edition by Charles Colbourn, Violet Syrotiuk, Alan Ling ISBN 3540202608 9783540202608
SKU: EB-12038
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Authors:Charles J. Colbourn, Violet R. Syrotiuk; Alan C.H. Ling , Tags:Ad-Hoc; Mobile; and Wireless Networks , Author sort:Charles J. Colbourn, Violet R. Syrotiuk & Ling, Alan C.H. , Languages:Languages:eng , Published:Published:Oct 2003

SKU: EB-12038 Category: eBook PDF Tags: Access, Alan Ling, Charles Colbourn, CONTROL, MANETs 1st, Steiner, Systems, Topology Transparent, Violet Syrotiuk

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Steiner Systems for Topology-Transparent Access Control in MANETs 1st edition by Charles J. Colbourn, Violet R. Syrotiuk, Alan C. H. Ling – Ebook PDF Instant Download/Delivery. 3540202608, 978-3540202608
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ISBN 10: 3540202608
ISBN 13: 978-3540202608
Author: Charles J. Colbourn, Violet R. Syrotiuk, Alan C. H. Ling

In this paper we examine the combinatorial requirements of topology-transparent transmission schedules for channel access in mobile ad hoc networks. We formulate the problem as a combinatorial question and observe that its solution is a cover-free family. The mathematical properties of certain cover-free families have been studied extensively. Indeed, we show that both existing constructions for topology-transparent schedules (which correspond to orthogonal arrays) give a cover-free family. However, a specific type of cover-free family – called a Steiner system – supports the largest number of nodes for a given frame length. We then explore the minimum and expected throughput for Steiner systems of small strength, first using the acknowledgement scheme proposed earlier and then using a more realistic model of acknowledgements. We contrast these results with the results for comparable orthogonal arrays, indicating some important trade-offs for topology-transparent access control protocols.

Steiner Systems for Topology-Transparent Access Control in MANETs 1st Table of contents:

Introduction
- 1.1 Background of Mobile Ad Hoc Networks (MANETs)
- 1.2 Need for Secure Access Control in MANETs
- 1.3 Overview of Topology-Transparent Access Control
- 1.4 Role of Steiner Systems in Access Control
- 1.5 Contributions and Scope of the Paper
- 1.6 Structure of the Paper
Background and Related Work
- 2.1 Fundamentals of MANETs and Their Challenges
- 2.2 Security Issues and Access Control in MANETs
- 2.3 Topology-Transparent Access Control Mechanisms
- 2.4 Steiner Systems: Definition and Properties
- 2.5 Related Work on Access Control and Steiner Systems in MANETs
Steiner Systems in Combinatorial Design
- 3.1 Overview of Steiner Systems
- 3.2 Mathematical Formulation and Properties
- 3.3 Applications of Steiner Systems in Secure Communication
- 3.4 Steiner Triple Systems and Their Use in Network Topologies
- 3.5 The Role of Steiner Systems in Access Control
Topology-Transparent Access Control in MANETs
- 4.1 Defining Topology-Transparent Access Control
- 4.2 Challenges of Topology-Transparent Mechanisms in MANETs
- 4.3 Benefits of Topology-Transparency for Dynamic Networks
- 4.4 Access Control Models for Dynamic and Mobile Networks
- 4.5 Existing Solutions and Techniques for Access Control in MANETs
Design of Access Control Mechanism Using Steiner Systems
- 5.1 Incorporating Steiner Systems into Access Control Design
- 5.2 Structuring Access Control Policies with Steiner Systems
- 5.3 Algorithmic Approach to Steiner System-Based Access Control
- 5.4 Topology Transparency Through Steiner Systems
- 5.5 Adaptive Access Control Using Steiner Systems
- 5.6 Minimizing Overhead and Enhancing Efficiency
Performance Evaluation
- 6.1 Evaluation Metrics for Access Control in MANETs
- 6.2 Simulation Setup for Testing Access Control Schemes
- 6.3 Impact of Steiner Systems on Security and Access Control
- 6.4 Efficiency of Topology-Transparent Access Control
- 6.5 Comparison with Traditional Access Control Mechanisms
- 6.6 Results and Analysis of Performance
Security Considerations
- 7.1 Security Goals in MANETs and Access Control
- 7.2 Protection Against Unauthorized Access and Attacks
- 7.3 Fault Tolerance and Robustness in Steiner Systems
- 7.4 Resistance to Sybil and Denial-of-Service Attacks
- 7.5 Cryptographic Techniques for Secure Steiner System-Based Access Control
Applications of Steiner Systems in MANETs
- 8.1 Secure Routing and Data Transmission in MANETs
- 8.2 Privacy Preservation in Mobile Networks
- 8.3 Group Communication and Collaboration in MANETs
- 8.4 Disaster Recovery and Emergency Response Systems
- 8.5 Military and Tactical Ad Hoc Networks
Challenges and Future Directions
- 9.1 Scalability of Steiner System-Based Access Control
- 9.2 Integration with Existing MANET Protocols and Frameworks
- 9.3 Handling Dynamic Node Behavior and Mobility
- 9.4 Extending Steiner Systems to Multi-tier and Heterogeneous Networks
- 9.5 Future Research on Access Control and Steiner Systems in MANETs
Conclusion