Wireless HROV Control with Compressed Visual Feedback Using Acoustic and RF Links
| Autor: | Pedro J. Sanz, Antonio Soriano, Diego Centelles, Raul Marin |
|---|---|
| Rok vydání: | 2020 |
| Předmět: |
Robotics Network simulation
0209 industrial biotechnology Computer science Interface (computing) Time division multiple access 02 engineering and technology Industrial and Manufacturing Engineering 020901 industrial engineering & automation Artificial Intelligence Informàtica teleoperation Wireless Electrical and Electronic Engineering Network packet business.industry Mobile manipulator Mechanical Engineering Xarxes locals sense fil Wi-Fi 021001 nanoscience & nanotechnology underwater communications Transmission (telecommunications) Control and Systems Engineering Teleoperation 0210 nano-technology business Software Computer hardware Underwater acoustic communication |
| Zdroj: | Centelles, Diego Soriano Asensi, Antonio Marín, Raúl Sanz, Pedro J. 2020 Wireless HROV Control with Compressed Visual Feedback Using Acoustic and RF Links Journal of Intelligent and Robotic Systems: Theory and Applications 2020 Repositori Universitat Jaume I Universitat Jaume I RODERIC. Repositorio Institucional de la Universitat de Valéncia instname |
| ISSN: | 1573-0409 0921-0296 |
| Popis: | Underwater cooperative robotics offers the possibility to perform challenging intervention applications, such as recovering archeological objects as within the context of the MERBOTS research project, or grasping, transporting and assembly of big objects, using more than one mobile manipulator, as faced by the TWINBOT project. In order to enhance safety during the intervention, it is reasonable to avoid the umbilical, also giving more mobility to the robots, and enabling a broader set of cooperative movements. Several solutions, based on acoustic, radiofrequency (RF) or Visual Light Communication (VLC) have been proposed for underwater communications in the literature. This paper presents the architecture of an underwater wireless communication framework for the control of multiple semi-autonomous robots in cooperative interventions. The proposed framework is composed of several modules as the virtual reality interface using UWSim, the Underwater Multi-robot Cooperative Intervention Remote Control Protocol (UMCI-RCP) and a Generic Link Layer (GLL). UMCI-RCP allows the control of an underwater robot over limited communication links. UMCI-RCP integrates a progressive compression algorithm that provides visual feedback at a constant rate and ensures image reception even in channels with loses. The Time Division Multiple Access (TDMA) medium access strategy minimizes the jitter of transmitted packets. The GLL has been designed in order to provide support for multimodal transmission (i.e. acoustic, RF and VLC) and also to interface with the UWSim-NET simulator so that facilitates the experimentation either with a real or with a simulated modem. The possibility of exchange real and simulated devices in the proposed framework are demonstrated by means of a teleoperation experiment with a BlueROV equipped with the S100 RF modems. Hardware-In-the-Loop (HIL) capabilities are demonstrated repeating the experiment with the real modems and modeling the BlueROV, and also modeling both the modems and the BlueROV. |
| Databáze: | OpenAIRE |
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