Abstract
The steady increase of the world population and economy leads to an increase in both types and amounts of goods transported over seas, which further inevitably leads to an increase of criminal activities in the maritime arena. In order to stifle criminal activities nations are forced to develop sophisticated sensor networks. The backbone of any sensor network is a communication network which connects all sensors with the command centers, most often located hundreds of kilometers away from the sensors. In developing countries, communication networks are very often poorly developed, leaving only satellite links as somewhat reliable means of communication. Henceforth, in this paper, a laboratory for the Internet of Things (IoT) communication infrastructure environment designed to facilitate maritime sensor network design process in areas where communication network is dependent on data transfer over satellite links is presented. In order to successfully describe and develop a laboratory for IoT communication infrastructure environment, necessary data are collected during the design and deployment of a maritime surveillance network in the Gulf of Guinea. The main advantage of the proposed laboratory environment is the inclusion of satellite link simulation in the IoT laboratory environment. This feature provides an opportunity to cover a much broader scope of IoT solutions compared to other IoT laboratories.
Highlights
During the last few decades, organized crime in the maritime arena is practically flourishing, threatening both the secure flow of the goods from the Exclusive Economic Zones (EEZ) [1] and Territorial Sea [2] alike
The laboratory environment proposed in this paper focuses mainly on the Internet of Things (IoT) communication infrastructure and its impact on a maritime surveillance network, unlike the other laboratories
The simulation transmissions face problems such as large propagation delay, low bandwidth, and high BER value that of the protected satellite link is of great importance for verification and analysis of network negatively affect the quality of service (QoS) that has to be guaranteed [38]
Summary
During the last few decades, organized crime in the maritime arena is practically flourishing, threatening both the secure flow of the goods from the Exclusive Economic Zones (EEZ) [1] and Territorial Sea [2] alike. This very same IoT based approach allows monitoring of the very same maritime situation in real-time from a location in Europe located more than 5000 km from the sensor network Based on these experiences, we propose a laboratory for. The proposed laboratory for IoT communication infrastructure environment allows testing different values of network parameters, including the critical satellite link parameters, in order to help network designers meet desired communication infrastructure behavior and performance. The laboratory environment proposed in this paper focuses mainly on the IoT communication infrastructure and its impact on a maritime surveillance network, unlike the other laboratories.
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
