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- Data of Figures: Landing Method of Autonomous Underwater Vehicles for Seafloor SurveyingThese files include data of figures. The file name shows data information.
- Dataset
- Data for: Axial pipe-soil interaction during pipeline-walking analysis of pipelines placed on sandy soilsExperimental data of pipe-soil axial interaction
- Dataset
- Data for: Axial pipe-soil interaction during pipeline-walking analysis of pipelines placed on sandy soilsExperimental data of pipe-soil axial interaction
- Dataset
- Data for: A novel framework for regional collision risk identification based on AIS dataThe data uploaded are decoded and extracted from AIS raw data for case studies. The data were used for validation and comparison with traditional models in the paper. The data consist of MMSI, longitude, latitude, speed, course, heading, navigation status, time and message type for all messages and vessel name, call sign, ship length and ship width for part of the messages.
- Dataset
- DeepCwind floating platform under extreme oceanic conditionsThis video renders the dynamic response of a floating offshore wind turbine under the influence of extreme waves obtained from numerical simulations. Utilizing advanced Smoothed Particle Hydrodynamics (SPH) modeling techniques, the simulation captures the complex fluid-structure interactions, offering detailed insights into the structural motion and line tension induced by the extreme wave loading. For more details, please consider checking the related work. The wind turbine (5-MW configuration) is installed over the DeepCwind platform (Robertson et al. 2014); wave events are modeled using the Focused Waves (Whittaker et al. 2017), and the software framework comprises DualSPHysics (Domínguez et al. 2022) and Chrono (Tasora et al. 2016).
- Video
- Supplementary data for "The importance of the engine-propeller model accuracy on the performance prediction of a marine propulsion system in the presence of waves"The data consists of all the results of the simulations carried out with the three implementations of the same propulsion system model (steady, unsteady with fixed engine speed, and unsteady with PID control system).
- Dataset
- Supplementary data for "The importance of the engine-propeller model accuracy on the performance prediction of a marine propulsion system in the presence of waves"The data consists of all the results of the simulations carried out with the three implementations of the same propulsion system model (steady, unsteady with fixed engine speed, and unsteady with PID control system).
- Dataset