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Digital twins for wireless networks ...

Afzal, Muhammad Khalil.

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Digital twins for wireless networks = overview, architecture, and challenges /

Record Type:	Electronic resources : Monograph/item
Title/Author:	Digital twins for wireless networks/ edited by Muhammad Khalil Afzal, Muhammad Naeem, Waleed Ejaz.
Reminder of title:	overview, architecture, and challenges /
other author:	Afzal, Muhammad Khalil.
Published:	Cham :Springer Nature Switzerland : : 2025.,
Description:	xix, 159 p. :ill. (some col.), digital ;24 cm.
[NT 15003449]:	Chapter 1 Overview of Digital Twin, Architecture, and Applications -- Chapter 2 Dielectric and Path Loss Modeling to Support Simple and Fast Digital Twins for Wireless Human Body Area Network -- Chapter 3 ML for Digital Twin over Wireless Networks: Creation, Deployment, and Applications -- Chapter 4 Optimal Offloading in Digital Twin-assisted Multi-Stage Networks -- Chapter 5 Employing Federated Learning for the Implication of Digital Twin -- Chapter 6 Security Attacks in Digital Twin-Enabled Wireless System -- Chapter 7 Metaverse Enabled UAV in Disaster Scenario -- Chapter 8 Digital Twin for UAVs: Architecture, Framework, Challenges and Solutions.
Contained By:	Springer Nature eBook
Subject:	Digital twins (Computer simulation) -
Online resource:	https://doi.org/10.1007/978-3-031-73679-7
ISBN:	9783031736797

Digital twins for wireless networks = overview, architecture, and challenges /
Digital twins for wireless networksoverview, architecture, and challenges /[electronic resource] :edited by Muhammad Khalil Afzal, Muhammad Naeem, Waleed Ejaz. - Cham :Springer Nature Switzerland :2025. - xix, 159 p. :ill. (some col.), digital ;24 cm.

Chapter 1 Overview of Digital Twin, Architecture, and Applications -- Chapter 2 Dielectric and Path Loss Modeling to Support Simple and Fast Digital Twins for Wireless Human Body Area Network -- Chapter 3 ML for Digital Twin over Wireless Networks: Creation, Deployment, and Applications -- Chapter 4 Optimal Offloading in Digital Twin-assisted Multi-Stage Networks -- Chapter 5 Employing Federated Learning for the Implication of Digital Twin -- Chapter 6 Security Attacks in Digital Twin-Enabled Wireless System -- Chapter 7 Metaverse Enabled UAV in Disaster Scenario -- Chapter 8 Digital Twin for UAVs: Architecture, Framework, Challenges and Solutions.

The sixth-generation (6G) communication systems are anticipated to provide network connectivity for an extensive range of use cases in a variety of emerging vertical industries. Consequently, a new set of challenging requirements and more stringent key performance indicators have to be considered, a novel architecture has to be designed, and unique enabling technologies shall be developed in order to fulfil the technical, regulatory, and business demands of the communication service customers. 6G networks are expected to offer even faster speeds, lower latency, and greater capacity compared to 5G networks, which will enable new applications and use cases that are currently not possible. Improved quality of life by enabling various applications (emerging Internet of everything applications) such as healthcare, brain-computer interactions, and extended reality is the main focus of future wireless services. Quality of experience, latency, and reliability are the key requirements of these applications. To meet these diverse requirements there is a need to assist wireless systems with unique technologies. Self-sustaining wireless systems (intelligence, seamless and ubiquitous connectivity) and proactive-online-learning-enables systems (Intelligent analytics) are two trends in future wireless systems. The digital twin technology is one of the most promising technologies that can be instrumental in realizing the technical and business objectives of 6G communication systems. A digital twin is a virtual imitation of a physical object or system. In a wireless system, a digital twin can be used to model and analyse the behaviour of the network and its components, such as antennas, transmitters, receivers, sensors, and other devices in wireless networks. One of the key benefits of using a digital twin for a wireless system is that it can help network operators and engineers to optimize the performance of the wireless network by simulating different scenarios and configurations. Other benefits include improve efficiency, cost saving, and enhanced security. In 6G networks, a digital twin could be used to simulate and optimize the performance. This could include simulating different network topologies, testing the performance of different network protocols and algorithms, and optimizing the placement of network infrastructure. To create a digital twin of a wireless network, a detailed model of the network and its components must be developed, based on real-world data and conditions. This model can then be used to simulate the behaviour of the network under different conditions and settings and to visualize the results in real time.

ISBN: 9783031736797

Standard No.: 10.1007/978-3-031-73679-7doiSubjects--Topical Terms:

3608573
Digital twins (Computer simulation)

LC Class. No.: TK5103.2

Dewey Class. No.: 621.382

Digital twins for wireless networks = overview, architecture, and challenges /
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505 0 $a Chapter 1 Overview of Digital Twin, Architecture, and Applications -- Chapter 2 Dielectric and Path Loss Modeling to Support Simple and Fast Digital Twins for Wireless Human Body Area Network -- Chapter 3 ML for Digital Twin over Wireless Networks: Creation, Deployment, and Applications -- Chapter 4 Optimal Offloading in Digital Twin-assisted Multi-Stage Networks -- Chapter 5 Employing Federated Learning for the Implication of Digital Twin -- Chapter 6 Security Attacks in Digital Twin-Enabled Wireless System -- Chapter 7 Metaverse Enabled UAV in Disaster Scenario -- Chapter 8 Digital Twin for UAVs: Architecture, Framework, Challenges and Solutions.
520 $a The sixth-generation (6G) communication systems are anticipated to provide network connectivity for an extensive range of use cases in a variety of emerging vertical industries. Consequently, a new set of challenging requirements and more stringent key performance indicators have to be considered, a novel architecture has to be designed, and unique enabling technologies shall be developed in order to fulfil the technical, regulatory, and business demands of the communication service customers. 6G networks are expected to offer even faster speeds, lower latency, and greater capacity compared to 5G networks, which will enable new applications and use cases that are currently not possible. Improved quality of life by enabling various applications (emerging Internet of everything applications) such as healthcare, brain-computer interactions, and extended reality is the main focus of future wireless services. Quality of experience, latency, and reliability are the key requirements of these applications. To meet these diverse requirements there is a need to assist wireless systems with unique technologies. Self-sustaining wireless systems (intelligence, seamless and ubiquitous connectivity) and proactive-online-learning-enables systems (Intelligent analytics) are two trends in future wireless systems. The digital twin technology is one of the most promising technologies that can be instrumental in realizing the technical and business objectives of 6G communication systems. A digital twin is a virtual imitation of a physical object or system. In a wireless system, a digital twin can be used to model and analyse the behaviour of the network and its components, such as antennas, transmitters, receivers, sensors, and other devices in wireless networks. One of the key benefits of using a digital twin for a wireless system is that it can help network operators and engineers to optimize the performance of the wireless network by simulating different scenarios and configurations. Other benefits include improve efficiency, cost saving, and enhanced security. In 6G networks, a digital twin could be used to simulate and optimize the performance. This could include simulating different network topologies, testing the performance of different network protocols and algorithms, and optimizing the placement of network infrastructure. To create a digital twin of a wireless network, a detailed model of the network and its components must be developed, based on real-world data and conditions. This model can then be used to simulate the behaviour of the network under different conditions and settings and to visualize the results in real time.
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