Hybrid Wireless Networks for E-Learning and Digital Literacy

Today, satellite communication networks are being integrated into the infrastructure of modern Terrestrial communication networks and becoming popular for the delivery of educational content and data, as well as education-centric services, including information, tele-conferencing, entertainment, or ‘edutainment’ services. With fresh demand for new services and applications, it is becoming essential that wireless network architecture seamlessly interoperate with new and existing technologies, protocols and standards. This paper presents recent work on the use of hybrid wireless network infrastructures for delivering tele-education and e-learning applications to remote communities by combining a variety of satellite, terrestrial and wireless technologies, and provides the results from live scenarios carried out employing various methods of interoperability testing. The analysis of the results examines a number of different issues such as delay, jitter, packet loss, latency, throughput measurement, and bandwidth. By combining satellite and terrestrial (wireless) technologies, full coverage and high capacity can be achieved for true broadband services for delivering educational content. The interoperability among such diverse networks imposes a number of challenges regarding service provision and management.

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Hybrid Wireless Networks for E-Learning and Digital Literacy

Fostering 21st Century Digital Literacy and Technical Competency ◽

10.4018/978-1-4666-2943-1.ch017 ◽

2013 ◽

pp. 233-245 ◽

Cited By ~ 1

Author(s):

Munir Abbasi ◽

Lampros K. Stergioulas

Keyword(s):

Wireless Network ◽

Communication Networks ◽

Network Architecture ◽

Satellite Communication ◽

High Capacity ◽

Educational Content ◽

Remote Communities ◽

Wireless Technologies ◽

Hybrid Wireless Network ◽

E Learning

Today, satellite communication networks are being integrated into the infrastructure of modern Terrestrial communication networks and becoming popular for the delivery of educational content and data, as well as education-centric services, including information, tele-conferencing, entertainment, or “edutainment” services. With fresh demand for new services and applications, it is becoming essential that wireless network architecture seamlessly interoperate with new and existing technologies, protocols and standards. This paper presents recent work on the use of hybrid wireless network infrastructures for delivering tele-education and e-learning applications to remote communities by combining a variety of satellite, terrestrial and wireless technologies, and provides the results from live scenarios carried out employing various methods of interoperability testing. The analysis of the results examines a number of different issues such as delay, jitter, packet loss, latency, throughput measurement, and bandwidth. By combining satellite and terrestrial (wireless) technologies, full coverage and high capacity can be achieved for true broadband services for delivering educational content. The interoperability among such diverse networks imposes a number of challenges regarding service provision and management.

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Sixth Generation (6G) Cognitive Radio Network (CRN) Application, Requirements, Security Issues, and Key Challenges

Wireless Communications and Mobile Computing ◽

10.1155/2021/1331428 ◽

2021 ◽

Vol 2021 ◽

pp. 1-18

Author(s):

Muhammad Muzamil Aslam ◽

Liping Du ◽

Xiaoyan Zhang ◽

Yueyun Chen ◽

Zahoor Ahmed ◽

...

Keyword(s):

Communication Networks ◽

Channel Coding ◽

Network Architecture ◽

Satellite Communication ◽

Performance Metrics ◽

Spectral Energy ◽

Future Technology ◽

Security Issues ◽

Sixth Generation ◽

And Performance

Recently, 5G installation has been started globally. Different capabilities are in the consistent procedure, like ultrareliability, mass connectivity, and specific low latency. Though, 5G is insufficient to meet all the necessities of the future technology in 2030 and so on. Next generation information and communication technology is playing an important role in attraction of researchers, industries, and technical people. With respect to 5G networks, sixth-generation (6G) CR networks are anticipated to familiarize innovative use cases and performance metrics, such as to offer worldwide coverage, cost efficiency, enhanced spectral, energy improved intelligence, and safety. To reach such requirements, upcoming 6G CRNs will trust novel empowering technologies. Innovative network architecture and transmission technologies and air interface are of excessive position, like multiple accesses, waveform design, multiantenna technologies, and channel coding schemes. (1) To content, the condition should be of worldwide coverage, there will be no limit on 6G to global CR communication networks that may require to be completed with broadcast networks, like satellite communication networks, therefore, attaining a sea integrated communication network. (2) The spectrums overall will be entirely travelled to the supplementary rise connection density data rates in optical frequency bands, millimeter wave (mmWave), sub-6 GHz, and terahertz (THz). (3) To see big datasets created because of tremendously varied CR communication networks, antenna rush, diverse communication scenarios, new provision necessities, wide bandwidth, and 6G CRNs will allow an innovative variety of intelligent applications with the assistance of big data and AI technologies. (4) Need to improve network security when deploying 6G technology in CR networks. 6G is decentralized, intended, intelligent innovative, and distributed network. In this article, we studied a survey of current developments and upcoming trends. We studied the predicted applications, possible technologies, and security issues for 6G CR network communication. We also discussed predicted future key challenges in 6G.

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Multi-Band Heterogeneous Wireless Network Architecture for Industrial Automation: A Techno-Economic Analysis

10.21203/rs.3.rs-163125/v1 ◽

2021 ◽

Author(s):

Koushik Araseethota Manjunatha ◽

Vivek Agarwal

Keyword(s):

Economic Analysis ◽

Wireless Network ◽

Network Architecture ◽

Economic Feasibility ◽

Video Data ◽

Area Network ◽

Heterogeneous Wireless Network ◽

Technical Feasibility ◽

Wireless Technologies ◽

Multi Band

Abstract To attain automation across different applications, industries are beginning to leverage advancements in wireless communication technologies. A "one-size-fits-all" solution cannot be applied since wireless technologies are selected according to application needs, quality of service requirements, and economic restrictions. To balance the trade-off between technical and economic requirements, a multi-band heterogeneous wireless network architecture is presented and discussed in this paper. Wireless local area network (WLAN) and distributed antenna system (DAS) with Long Term Evolution (LTE) are considered as the backbone for the multi-band heterogeneous network into which other wireless technologies can be integrated. The technical and economic feasibility of the network are evaluated through a techno-economic analysis (TEA). The economic feasibility of the proposed network is measured in terms of net present value while the technical feasibility is measured in terms of network throughput and latency. Finally, network performance for DAS with LTE and WLAN are verified using an NS3 simulator for machine-to-machine, real-time video, and high-definition video data transmissions. The TEA analysis showed that the number of DAS units required to achieve technical feasibility is less than WLAN units, but the overall cost of DAS units are higher compared to WLAN units, even without taking into consideration industrial, scientific, and medical band technologies.

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A Feasible High Capacity Wireless Network Architecture with MIMO Precoding

2005 International Conference on Wireless Networks, Communications and Mobile Computing ◽

10.1109/wirles.2005.1549498 ◽

2005 ◽

Cited By ~ 3

Author(s):

B. Ozdemir ◽

O. Gurbuz

Keyword(s):

Wireless Network ◽

Network Architecture ◽

High Capacity ◽

Mimo Precoding

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An overview of the 5G mobile network architecture

10.34048/2018.3.f1 ◽

2018 ◽

Author(s):

Phanidra Palagummi ◽

Vedant Somani ◽

Krishna M. Sivalingam ◽

Balaji Venkat

Keyword(s):

Wireless Network ◽

Mobile Networks ◽

Network Architecture ◽

Mobile Network ◽

Communication Technologies ◽

Future Generation ◽

Network Function Virtualization ◽

Low Latency ◽

High Bandwidth ◽

Network Technologies

Networking connectivity is increasingly based on wireless network technologies, especially in developing nations where the wired network infrastructure is not accessible to a large segment of the population. Wireless data network technologies based on 2G and 3G are quite common globally; 4G-based deployments are on the rise during the past few years. At the same time, the increasing high-bandwidth and low-latency requirements of mobile applications has propelled the Third Generation Partnership Project (3GPP) standards organization to develop standards for the next generation of mobile networks, based on recent advances in wireless communication technologies. This standard is called the Fifth Generation (5G) wireless network standard. This paper presents a high-level overview of the important architectural components, of the advanced communication technologies, of the advanced networking technologies such as Network Function Virtualization and other important aspects that are part of the 5G network standards. The paper also describes some of the common future generation applications that require low-latency and high-bandwidth communications.

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