@INPROCEEDINGS{8558802,
  author={J. {Pinto} and R. {Mendes} and J. C. B. {da Silva} and J. M. {Dias} and J. B. {de Sousa}},
  booktitle={2018 OCEANS - MTS/IEEE Kobe Techno-Oceans (OTO)}, 
  title={Multiple Autonomous Vehicles Applied to Plume Detection and Tracking}, 
  year={2018},
  volume={},
  number={},
  pages={1-6},
  abstract={This paper presents a novel approach for studying riverine plumes. It combines remote-sensing with autonomous in-situ observations performed by a set of unmanned vehicles (underwater and aerial). While an aerial drone is remotely piloted to detect the plume from air, multiple underwater vehicles autonomously detect the plume edge and map their structure by traversing it multiple times, autonomously. This approach has been used multiple times to acquire the 3D structure of the Douro river plume, in Porto.},
  keywords={autonomous aerial vehicles;autonomous underwater vehicles;geophysical image processing;mobile robots;object detection;object tracking;oceanographic techniques;remote sensing;rivers;plume edge;Douro river plume;plume detection;riverine plumes;aerial drone;autonomous vehicles;unmanned aerial vehicles;unmanned underwater vehicles;plume tracking;remote-sensing;autonomous in-situ observations;Rivers;Sea surface;Salinity (geophysical);Ocean temperature;Mouth;Drones;Real-time systems},
  doi={10.1109/OCEANSKOBE.2018.8558802},
  ISSN={},
  month={May},}