2017
Autores
Aboderin, O; Pessoa, LM; Salgado, HM;
Publicação
OCEANS 2017 - ABERDEEN
Abstract
Transmission and reception of high-speed short range signal is important for successful underwater water communications between an Autonomous Underwater Vehicle (AUV) or Remote Operated Vehicles (ROVs) and a docking station or underwater sensor nodes during a survey mission. The need for this form of application is currently receiving global attention from scientific groups and industries. Hence, underwater antennas are therefore required to provide these links and achieve good data rates and propagation distances for these applications either in fresh or sea water scenario. In this paper, the performance of loop antenna placed at a specified distance and parallel to the ground plane is assessed through simulation for usage in fresh water and operating in the High Frequency (HF) band. Three variations of this antenna namely; the circular loop, the square loop and the delta loop antennas has been placed on two different ground plane shapes (circular and square) for analyses of their performances. These antennas were designed in FEKO, an electromagnetic simulation software and their performance is assessed in terms of bandwidth and directivity. The results obtained shows that the antennas exhibit wideband and high directivity with square loop antenna placed on a square ground plane having slight advantages over the other antennas with respect to their bandwidth and directivity. Experimental results added for the same antenna, confirmed its performance in terms of the measured parameters are in good agreement with simulation results.
2017
Autores
Aboderin, O; Pessoa, LM; Salgado, HM;
Publicação
OCEANS 2017 - ABERDEEN
Abstract
Propagation of underwater electromagnetic signals for real-time transmission and reception of data gathered during a survey mission between an Autonomous Underwater Vehicle (AUV) and underwater sensor nodes or a docking station, continues to generate a lot of interest worldwide. To this end, underwater antennas will play a significant role in ensuring good data rates and propagation distances for various underwater applications. In this paper, the performance of two dipole antennas with different parasitic elements is assessed through simulation for usage in fresh water and operating in the High Frequency (HF) band. The antennas were designed in FEKO, an electromagnetic simulation software and their performance is assessed in terms of bandwidth, directivity and antenna-to-antenna distance. The results obtained show that these antennas exhibit wide bandwidth, which is important to achieve high data rates. Experimental results of the reflection coefficient of the fabricated antenna measured in fresh water are given that agree well with the simulation results.
2017
Autores
Aboderin, O; Pessoa, LM; Salgado, HM;
Publicação
2017 Wireless Days, WD 2017
Abstract
The capability of an Autonomous Underwater Vehicle (AUV) or Remote Operated Vehicles (ROVs) to communicate with underwater sensor nodes or a docking station, for the exchange or transfer of data gathered during a survey mission, requires an high-speed short-range communication link. This is important because of the global attention to the underwater communication applications. To this end, underwater antennas will play a significant role in ensuring good data rates and propagation distances for these applications. In this paper, the performance of three antennas, specifically, loop, dipole and J-pole is assessed through simulation for usage in fresh and sea water operating in the High Frequency (HF) band. The antennas were designed in FEKO, an electromagnetic simulation software and their performance is assessed in terms of bandwidth and directivity. The results obtained shows that the J-pole antenna has significant advantages in term of the measured parameters over the other antennas. Experimental results of the reflection coefficient of the J-pole antenna in fresh water are given that agree well with the simulation results. © 2017 IEEE.
2013
Autores
Ul Haq, I; Salgado, HM; Castro, JCS;
Publicação
2013 10TH INTERNATIONAL CONFERENCE ON HIGH CAPACITY OPTICAL NETWORKS AND ENABLING TECHNOLOGIES (HONET-CNS)
Abstract
Optical backbone networks transport both synchronous and asynchronous traffic. The synchronous traffic is from legacy telecommunication networks still employing legacy SONET/SDH, or SONET/SDH over WDM equipment. In the WDM layer, optical circuit switching (OCS) has been widely deployed, but can be potentially bandwidth inefficient. Optical burst switching (OBS) has been proposed as an alternative to OCS that uses statistical multiplexing at a sub-wavelength granularity, but for the time constrained and loss intolerant traffic this switching paradigm is still not efficient. This article presents both open and closed ended in-advanced periodic resource reservation protocols that fulfill the QoS requirements of synchronous traffic. The proposed reservation protocols, called C2OBS Synchronous Resource Reservation Scheme (C2OBS-SRR), provide appropriate resources for SONET/SDH traffic in a Clustered Cooperative Optical Burst Switching (C2OBS) network architecture. In the C2OBS-SRR, the synchronous traffic is offered a circuit like service without two way end-to-end reservation, while still benefiting from the high level of statistical multiplexing of an optical burst switching network. The C2OBS-SRR is also compared with both OCS and classical JET OBS.
2016
Autores
Santos, HM; Pereira, MR; Pessoa, LM; Salgado, HM;
Publicação
2016 IEEE Wireless Power Transfer Conference, WPTC 2016
Abstract
This paper focuses on the design of high quality spiral resonators for maximising wireless power transfer efficiency between an AUV and an underwater docking station. By using 3D electromagnetic simulations and numerical analysis, the relevant parameters for quality factor computation are extracted. The impact of different variables on a spiral resonator's quality factor is assessed, allowing to conclude on the optimum design parameters to achieve optimum efficiency on the power transmission through magnetic coupling. This work will contribute to enable the development future AUV wireless charging systems, which will allow for an improvement of AUV's range and endurance while ensuring lower operational costs. © 2016 IEEE.
2014
Autores
Pessoa, LM; Tavares, JS; Coelho, D; Salgado, HM;
Publicação
OPTICS EXPRESS
Abstract
Digitized radio-over-fiber (D-RoF) transport schemes are being pointed as viable alternative solutions to their analog counterparts, in order to avoid distortion/dynamic range problems. Here we propose a novel D-RoF architecture that takes advantage of a bandpass sigma-delta modulator at the transmitter which subsequently permits the usage of a simpler/cheaper base station that avoids the employment of a digital to analog converter. The proposed architecture exploits the properties of the digital signal to enable the extraction of an higher carrier frequency through the employment of a bandpass filter. Furthermore, we present a comprehensive analysis regarding the impact of a low-cost electro-optic modulation on the quality of received demodulated signal. Finally, a comparison performance analysis between the conventional D-RoF and the proposed architecture is presented. We conclude that although the proposed architecture performs similarly to conventional D-RoF schemes, it is more competitive for either upgrading installed systems as well as for new deployments. (C) 2014 Optical Society of America
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