Abstract
To maximize the benefits of LTE cellular networks, careful and proper planning is needed. This requiresthe use of accurate propagation models to quantify the path loss required for base station deployment. Deployed LTE networks in Ghana can barely meet the desired 100Mbps throughput leading to customer dissatisfaction. Network operators rely on transmission planning tools designed for generalized environments that come with already embedded propagation models suited to other environments. A challenge therefore to Ghanaian transmission Network planners will be choosing an accurate and precise propagation model that best suits the Ghanaian environment. Given this, extensive LTE path loss measurements at 800MHz and 2600MHz were taken in selected urban and suburban environments in Ghana and compared with 6 commonly used propagation models. Improved versions of the Ericson, SUI, and ECC-33 developed in this study predict more precisely the path loss in Ghanaian environments compared with commonly used propagation models.
Highlights
Underwater wireless sensor networks (UWSNs) are different from terrestrial wireless sensor networks (WSNs) due to the different characteristics of the transmission medium and to the type of signal used for communication
Underwater sensor nodes may lose their connectivity for several reasons, which produces holes in the network. o Spatial Correlation: Due to the high cost of underwater sensor nodes compared to the terrestrial sensor nodes, distances between deployed sensors in Underwater Sensor Networks (UWSNs) can be large
This paper presented a comprehensive description of the state-of-the-art related to physical layer in UWSNs
Summary
The oceans, seas, rivers and lakes cover around 75% of the Earth’s surface, and with the increasing importance of these areas in human life, there is a strong demand to investigate the unexplored regions and make use of their valuable treasures. It is worth mentioning that The Office of Naval Research supports a number of programs in acoustic communication [11].Understanding the physical medium upon which the communication is carried on and the characteristics of the employed signal to transmit data is essential in designing the network effectively and achieving a good performance. This is due to their great influence on the development of the higher layers’ protocols.
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