Next Generation Marine Wireless Communication Networks

This book provides a novel framework design for the next generation Marine Wireless Communication Networks (MWCNs) to support a diversity of marine services. It proposes cross-layer networking solutions to achieve high performance and reliable data transmissions under hostile marine environments.

Format: Paperback / softback
Length: 148 pages
Publication date: 27 April 2023
Publisher: Springer Nature Switzerland AG

This book presents a novel framework design for the next generation Marine Wireless Communication Networks (MWCNs). The authors first provide an overview of MWCNs, followed by a discussion of challenges in the design and development of MWCNs in support of a diversity of marine services such as real-time marine monitoring, offshore oil exploration, drilling, marine tourism, and fishing. The authors then propose cross-layer networking solutions to achieve a high-performance modern MWCN that enables efficient and reliable data transmissions under hostile marine environments, which include network deployment, physical layer channel coding, intelligent network access and resource management, and learning-based opportunistic routing. Finally, the authors summarize the book and present some open issues that will lead to new research directions in the next generation MWCNs.

Marine Wireless Communication Networks (MWCNs) are a critical component of the maritime industry, enabling communication and data exchange between vessels, shore-based infrastructure, and other devices in the ocean environment. As the demand for maritime services continues to grow, there is a need for innovative and efficient MWCN designs that can support a wide range of applications and services.

One of the key challenges in designing MWCNs is the harsh marine environment, which includes high winds, rough seas, and unpredictable weather conditions. These conditions can lead to poor signal quality, dropped calls, and slow data transmission rates. To address this challenge, researchers have proposed a variety of cross-layer networking solutions, including network deployment, physical layer channel coding, intelligent network access and resource management, and learning-based opportunistic routing.

Network deployment is a critical aspect of MWCN design, as it involves selecting the appropriate location, frequency, and power levels for the transmitters and receivers. The deployment strategy should consider factors such as the coverage area, the number of users, and the interference levels in the marine environment. Physical layer channel coding is another important solution that can improve the signal quality and reliability of MWCNs. By using advanced coding techniques, such as convolutional coding and turbo coding, researchers can enhance the bit error rate (BER) performance of MWCNs, which is critical for reliable data transmission.

Intelligent network access and resource management is another key solution that can improve the performance of MWCNs. By using intelligent algorithms, such as machine learning and artificial intelligence, researchers can optimize the network resources, such as bandwidth and power, to ensure that the network is efficient and reliable. Learning-based opportunistic routing is a promising solution that can improve the performance of MWCNs by exploiting the opportunistic nature of the marine environment. By using machine learning algorithms, researchers can predict the best route for data transmission based on the current network conditions and the user's preferences.

In addition to these cross-layer networking solutions, researchers have also proposed a variety of other technologies, such as satellite-based communication systems, underwater acoustic communication systems, and cognitive radio systems, to support MWCNs. Satellite-based communication systems, for example, can provide high-speed, reliable communication links between vessels and shore-based infrastructure, while underwater acoustic communication systems can provide communication links between underwater devices. Cognitive radio systems, on the other hand, can enable multiple users to share the same frequency band, which can improve the efficiency and reliability of MWCNs.

Despite the progress that has been made in designing MWCNs, there are still several open issues that need to be addressed. One of the most important issues is the development of efficient and reliable communication protocols that can support a wide range of marine services. Another issue is the development of robust and secure authentication and encryption protocols to protect the privacy and security of marine data. Finally, there is a need for the development of efficient and cost-effective energy harvesting technologies to power the transmitters and receivers in MWCNs.

In conclusion, MWCNs are a critical component of the maritime industry, and there is a need for innovative and efficient designs that can support a wide range of applications and services. By using cross-layer networking solutions, such as network deployment, physical layer channel coding, intelligent network access and resource management, and learning-based opportunistic routing, researchers can improve the performance and reliability of MWCNs in the harsh marine environment. However, there are still several open issues that need to be addressed to ensure the successful development of MWCNs in the future.

Weight: 261g
Dimension: 235 x 155 (mm)
ISBN-13: 9783030973094
Edition number: 1st ed. 2022