Resource management in future internet / edited by Vladimir Poulkov and Ramjee Prasad.

Format:

Book

Contributor:

Poulkov, Vladimir, editor.

Prasad, Ramjee, editor.

Series:

River Publishers series in communications ; Volume 38.

River Publishers Series in Communications ; Volume 38

Language:

English

Subjects (All):

Wireless Internet.

Multimedia communications.

Physical Description:

1 online resource (241 pages) : illustrations, charts, tables.

Edition:

1st ed.

Place of Publication:

Gistrup, Denmark : River Publishers, [2015]

Summary:

The book reviews some specific topics in the field of future internet and internet technologies that are closely related to the issue of finding effective solutions for the management of resources and performance.

Contents:

Cover

Half Title

Series Title

Title Page

Copyright Page

Contents

Preface

List of Figures

List of Tables

Chapter 1 - The Internet of Things

1.1 Introduction

1.2 Technical Approach

1.2.1 Addressability and Intelligence

1.2.2 Sizing

1.2.3 Architecture

1.2.3.1 IOT-A

1.2.3.2 SENSAI

1.2.3.3 CASAGRAS

1.2.3.4 Smart santander

1.2.3.5 BRIDGE

1.2.3.6 Smart pro

1.2.3.7 CUBIQ

1.3 Applications

1.4 Standardization Activities

1.4.1 ETSI TC M2M

1.4.2 ITU-T USN

1.4.3 ISO/IEC JTC1 WG7 (Working Group on Sensor Networks)

1.4.4 OGC SWE (SensorWeb Enablement)

1.4.5 IETF (constrained devices)

1.4.6 EPC Global Network Architecture

1.4.7 REST Architecture

1.4.8 Web Service Architecture

1.5 Policy-making in Europe

1.6 Conclusions

References

Chapter 2 - Resource Management Support of BigData Procurement

2.1 Introduction

2.2 Rationale for IoT - Cloud Convergence - EarlyConvergence Efforts

2.2.1 Challenges Towards "True" Convergence

2.2.1.1 Requirements for the IoT and the cloud

2.2.1.2 Realization of a converged IoT/Cloud framework

2.2.1.3 Open research challenges

2.3 Conclusions

Chapter 3 - Future Internet Technologies for OpenAccess to Resource Managementin Multimedia Networks

3.1 Introduction

3.2 RelatedWorks

3.3 Open Access to Policy and Charging Control

3.3.1 Architecture for Open Service Access to ResourceManagement

3.3.2 Identification of Requirements to Access to PCC

3.3.3 Evaluation of Standardized Capabilitiesfor Open Access to PCC

3.4 Design of Application Programing Interfacesto Policy and Charging Control

3.4.1 Object-Oriented Interfaces for Quality of Service Control

3.4.2 Models of Quality of Service Resources

3.5 A Model of Application Server for Open Accessto Policy and Charging Control.

3.5.1 Abstraction Model

3.5.2 Mathematical Model of Application Server for OpenService Access

3.5.3 Simulation Parameters

3.5.4 Results and Discussion

3.6 Conclusion

Chapter 4 - Call-Level Performance Evaluationof Cognitive and AMC-EnabledWireless Access Networks

4.1 Introduction

4.2 QoS Provisioning and Performance Analysisof Cognitive Radio Networks

4.2.1 Overview of DSA

4.2.1.1 Dynamic exclusive use model

4.2.1.2 Open sharing model

4.2.1.3 Hierarchical access model

4.2.2 Overview of Basic Spectrum Management Functionsin CR Networks

4.2.2.1 Spectrum Sensing

4.2.2.2 Spectrum analysis

4.2.2.3 Spectrum decision

4.2.2.4 Spectrum sharing

4.2.2.5 Spectrum mobility

4.2.3 QoS Provisioning in CR Networks

4.2.3.1 The system model

4.2.3.2 The novel analytical approach

4.2.3.3 Analysis of channel limitation

4.3 Performance Analysis of AMC-enabled WirelessAccess Networks

4.3.1 Handover Management in Wireless Access Networks

4.3.2 Intra-cell Handover Management in AMC-enabledWireless Access Networks

4.4 Conclusions

Chapter 5 - Enhancing Positioning Accuracy viaHeterogeneous Wireless Networks

Introduction

5.1 Positioning Methods and Technologies

5.1.1 Radio Frequency Based Positioning Technologies

5.1.2 Personal Area Network

Bluetooth

Ultra wide band

ZigBee

5.1.3 Wireless Local Area Network (WLAN)

5.1.4 Wireless Metropolitan Area Network (WMAN)

5.1.5 Satellite Positioning Systems

5.1.6 Examples of Positioning in Various Environments

5.2 Review Methods on Cooperative Mobile Positioning

5.2.1 Positioning via Time of Arrival using MIMO Fe

5.2.2 Positioning Using Adaptive Modulation and CodingData Fusion

System level settings

5.2.3 Positioning Using Beamforming Features

5.2.4 Hybrid Data Fusion Techniques.

5.2.4.1 Hybrid TOA with MIMO features and AMC data fusion

5.2.4.2 Hybrid TOA with MIMO Features and DOA-Basedbeamforming data fusion

5.3 Wireless Network Architecture and PositioningProtocol

5.4 Findings and Performance Evaluation

Conclusion

Chapter 6 - The Software Communications Architecture

6.1 Introduction

6.2 Hardware and Software Technologies Used in the SCA

6.2.1 OOD

6.2.2 UML

6.2.3 XML

6.2.4 Middleware

6.2.5 POSIX and RTOS

6.2.6 CPUs and Software Development

6.3 The Operating Environment and the Core Framework

6.3.1 The Domain Profile

6.3.2 Power-up Scenario

6.4 SCA Next

6.5 SCA Specifics for DSPs and FPGAs

6.6 Design Principles

6.6.1 General Software Rules

6.6.2 Hardware Architecture Requirements

6.6.3 System Architecture Overview

6.6.4 Interface Organization

6.7 Summary and Future Directions

Chapter 7 - An Approach to Resource Managementin Future Internet

7.1 Introduction

7.2 Resource Management and Quality of Service

7.3 Towards Multimedia Based Internet

7.4 Conclusions

Index

About the Editors

About the Authors.

Notes:

Includes index.

Includes bibliographical references at the end of each chapters and index.

Description based on print version record.

ISBN:

1-000-79371-0

1-00-333929-8

1-000-79687-6

1-003-33929-8

87-93102-45-3

OCLC:

957125377