5G IoT and edge computing for smart healthcare edited by Akash Kumar Bhoi [and more].

Format:

Book

Contributor:

Bhoi, Akash Kumar.

ScienceDirect (Online service)

Rosengarten Family Fund.

Language:

English

Subjects (All):

Medical informatics.

Artificial intelligence--Medical applications.

Artificial intelligence.

5G mobile communication systems.

Edge computing.

Internet of things.

Physical Description:

1 online resource

Place of Publication:

[S.l.] : Academic Press, 2022.

Contents:

Front Cover

5G IoT and Edge Computing for Smart Healthcare

Copyright Page

Contents

List of contributors

1 Edge-IoMT-based enabled architecture for smart healthcare system

1.1 Introduction

1.2 Applications of an IoMT-based system in the healthcare industry

1.3 Application of edge computing in smart healthcare systems

1.4 Challenges of using edge computing with IoMT-based system in smart healthcare system

1.5 The framework for edge-IoMT-based smart healthcare system

1.6 Case study for the application of edge-IoMT-based systems enabled for the diagnosis of diabetes mellitus

1.6.1 Experimental results

1.7 Future prospects of edge computing for internet of medical things

1.8 Conclusions and future research directions

References

2 Physical layer architecture of 5G enabled IoT/IoMT system

2.1 Architecture of IoT/IoMT system

2.1.1 Sensor layer

2.1.2 Gateway layer

2.1.3 Network layer

2.1.4 Visualization layer

2.2 Consideration of uplink healthcare IoT system relying on NOMA

2.2.1 Introduction

2.2.2 System model

2.2.3 Outage probability for UL NOMA

2.2.3.1 Outage probability of x1

2.2.3.2 Outage probability of X2

2.2.3.3 Asymptotic

2.2.4 Ergodic capacity of UL NOMA

2.2.5 Numerical results and discussions

2.3 Conclusions

3 HetNet/M2M/D2D communication in 5G technologies

3.1 Introduction

3.2 Heterogenous networks in the era of 5G

3.2.1 5G mobile communication standards and enhanced features

3.2.2 5G heterogeneous network architecture

3.2.3 Intelligent software defined network framework of 5G HetNets

3.2.4 Next-Gen 5G wireless network

3.2.5 Internet of Things toward 5G and heterogenous wireless networks

3.2.6 5G-HetNet H-CRAN fronthaul and TWDM-PON backhaul: QoS-aware virtualization for resource management

3.2.7 Spectrum allocation and user association in 5G HetNet mmWave communication: a coordinated framework

3.2.8 Diverse service provisioning in 5G and beyond: an intelligent self-sustained radio access network slicing framework

3.3 Device-to-Device communication in 5G HetNets

3.4 Machine-to-Machine communication in 5G HetNets

3.4.1 Machine-to-Machine communication in 5G: state of the art architecture, recent advances and challenges

3.4.2 Recent advancement in the Internet of Things related standard: oneM2M perspective

3.4.2.1 Advantages of oneM2M

3.4.2.2 OneM2M protocols

3.4.2.3 OneM2M standard platform: a unified common service-oriented communication framework

3.4.3 M2M traffic in 5G HetNets

3.4.4 Distributed gateway selection for M2M communication cognitive 5G5G networks

3.4.5 Algorithm for clusterization, aggregation, and prioritization of M2M devices in 5G5G HetNets

Notes:

Electronic reproduction. Amsterdam Available via World Wide Web.

Local Notes:

Acquired for the Penn Libraries with assistance from the Rosengarten Family Fund.

Other Format:

Print version:

ISBN:

9780323906647

0323906648

Publisher Number:

40031167150

Access Restriction:

Restricted for use by site license.