Search results for "Underwater robotics"

showing 5 items of 5 documents

Underwater Wireless Communications for Cooperative Robotics with UWSim-NET

2019

The increasing number of autonomous underwater vehicles (AUVs) cooperating in underwater operations has motivated the use of wireless communications. Their modeling can minimize the impact of their limited performance in real-time robotic interventions. However, robotic frameworks hardly ever consider the communications, and network simulators are not suitable for HIL experiments. In this work, the UWSim-NET is presented, an open source tool to simulate the impact of communications in underwater robotics. It gathers the benefits of NS3 in modeling communication networks with those of the underwater robot simulator (UWSim) and the robot operating system (ROS) in modeling robotic systems. Thi…

0209 industrial biotechnologyComputer scienceHardware In The LoopReal-time computing02 engineering and technologyUnderwater robotics01 natural scienceslcsh:Technologylcsh:Chemistry020901 industrial engineering & automationWirelessGeneral Materials ScienceUnderwaterInstrumentationComunicació i tecnologialcsh:QH301-705.50105 earth and related environmental sciencesFluid Flow and Transfer Processes010505 oceanographybusiness.industrylcsh:TProcess Chemistry and TechnologyGeneral EngineeringHardware-in-the-loop simulationRoboticsXarxes locals sense fil Wi-Fiunderwater roboticssimulationTelecommunications networklcsh:QC1-999Computer Science Applicationsunderwater communicationslcsh:Biology (General)lcsh:QD1-999Alohalcsh:TA1-2040Artificial intelligencebusinesslcsh:Engineering (General). Civil engineering (General)RobotsUnderwater acoustic communicationlcsh:PhysicsApplied Sciences

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Design of a modular Autonomous Underwater Vehicle for archaeological investigations

2015

MARTA (MARine Tool for Archaeology) is a modular AUV (Autonomous Underwater Vehicle) designed and developed by the University of Florence in the framework of the ARROWS (ARchaeological RObot systems for the World's Seas) FP7 European project. The ARROWS project challenge is to provide the underwater archaeologists with technological tools for cost affordable campaigns: i.e. ARROWS adapts and develops low cost AUV technologies to significantly reduce the cost of archaeological operations, covering the full extent of an archaeological campaign (underwater mapping, diagnosis and cleaning tasks). The tools and methodologies developed within ARROWS comply with the "Annex" of the 2001 UNESCO Conv…

0209 industrial biotechnologyEngineeringUnderwater acoustic positioning systemContext (archaeology)02 engineering and technologyUnderwater roboticsImage-based modelling and 3D reconstruction020901 industrial engineering & automationAutonomous Underwater Vehicle0202 electrical engineering electronic engineering information engineeringMarine Robotics14. Life underwaterUnderwaterAutonomous Underwater Vehicles; Marine Robotics; Underwater Robotics; Underwater Cultural HeritageSettore ING-INF/05 - Sistemi Di Elaborazione Delle InformazioniArchaeological Object RecognitionMarine RoboticSettore INF/01 - Informaticabusiness.industryiRobot Seaglider020208 electrical & electronic engineeringAutonomous Underwater VehiclesModular designArchaeologyIntervention AUVMulti-sensor data analysisRobotUnderwater Cultural HeritagebusinessUnderwater Robotics

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The ARROWS project: adapting and developing robotics technologies for underwater archaeology

2015

4th IFAC Workshop on Navigation, Guidance and Control of Underwater Vehicles, NGCUV 2015; Girona; Spain; 28 April 2015 through 30 April 2015

0209 industrial biotechnologyEngineeringUnderwater archaeologyUnderwaterculturalheritageVehicle cooperation02 engineering and technologyPropulsionUnderwater roboticsMarineroboticMarinerobotics020901 industrial engineering & automationAutonomous underwater vehiclesUnderwater cultural heritageArrows ProjectAUVSimulationIMAGE PROCESSING AND COMPUTER VISIONSettore ING-INF/05 - Sistemi Di Elaborazione Delle InformazioniData processingAutonomousunderwatervehiclesSettore INF/01 - Informaticabusiness.industryRobotics021001 nanoscience & nanotechnologyVehiclecooperationUnderwater vehicleBaltic seaControl and Systems EngineeringAutonomousunderwatervehicleSystems engineeringUnderwater roboticsUnderwaterroboticUnderwater explorationRobotArtificial intelligenceAutonomousunderwatervehicles; AUV; Marinerobotics; Underwaterculturalheritage; Underwaterrobotics; Vehiclecooperation; Control and Systems Engineering0210 nano-technologybusinessUnderwaterroboticsIFAC-PapersOnLine

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ROAD project: Robotics for assisted diving

2014

The activities associated to underwater diving are of great importance in many areas. In the second half of the last century, diving technologies have greatly progressed, but diving is still characterized by significant risks, especially for professional divers who works at high depth, and limited practicability. The use of robotic systems and automatic procedures would allow, as in other situations where safety is of concern (for example, in case of hazardous works or in relation to hostile environments), a reliable monitoring and assessment of the physiological conditions of human operators during their activities. Moving from currently available technologies in underwater robotics, the R…

Engineeringintelligent robot physiological models physiology roads and streetAssisted divingbusiness.industryIntegrated systemsRoboticsintelligent robotphysiological modelsUnderwater roboticsRobotic systemsSettore ING-INF/04 - AutomaticaAeronauticsroads and streetphysiologyArtificial intelligenceUnderwaterMarine roboticbusinessCompetence (human resources)

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UWSim-NET: An Open-Source Framework for Experimentation in Communications for Underwater Robotics

2019

The communication with the remotely operated vehicles (ROV) in underwater applications are usually based on umbilical cables. The increase in the number of ROVs in cooperative interventions motivates the interest in underwater wireless communications. They have a high impact in robotic applications because of their limited performance in underwater scenarios. In this work we present UWSim-NET, an extension of the simulator for underwater robotics UWSim, which is based on the Robot Operating System (ROS). UWSim-NET integrates a communications module based on Network Simulator 3 (NS3) that allows to model the physical and data link layers. Experiments demonstrating the capabilities of UWSim-N…

Packet lossComputer sciencebusiness.industryNetwork packetReal-time computingRobotWirelessUnderwaterRemotely operated underwater vehiclebusinessUnderwater roboticsNetwork simulationOCEANS 2019 - Marseille

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