Datasets

subject: Mechanical Engineering

Total is 31 Results
River Obstacle Segmentation En-route By USV Dataset (ROSEBUD)

10.4231/MMJ2-NH88

Jalil Francisco Chavez Galaviz , Jianwen Li , Nina Mahmoudian ORCID logo , Reeve David Lambert ORCID logo , Zihan Wang

06/12/2022

This dataset contains stills from video taken on Sugar Creek and the Wabash River in the US state of Indiana. Images are hand annotated to provide training and testing data for semantic segmentation networks.

autonomous and connected vehicles deep learning Mechanical Engineering River Robotics semantic segmentation

Modeling of Drying of Droplets Containing Passive Solid Particles in Airflow

10.4231/CD54-GY66

Siavash Zamani ORCID logo

06/27/2022

A 2D/3D FVM solver to model drying of a droplet containing passive Lagrangian particles in airflow. Includes: height function method (fully parallelized), interface mass transfer, spring-mass-damper for balancing droplet.

Evaporation fluid dynamics Mechanical Engineering multiphase flow spray-drying

Aerial Fluvial Image Dataset (AFID) for Semantic Segmentation

10.4231/B129-XD47

Li-Fan Wu , Nina Mahmoudian ORCID logo , Zihan Wang

07/20/2022

816 2K/2.7K per-pixel annotated images with 8 classes: River, Boat, Bridge, Sky, Forest vegetation, Dry sediment, Drone self and Obstacle in river. Fluvial scenes are from Wabash River and Wildcat Creek in Indiana, USA.

Artificial Neural Network (ANN) autonomos vehicles Collision Avoidance deep learning drone Image Dataset Mechanical Engineering navigation RGB image dataset River Robotics semantic segmentation Unmanned Aerial Vehicle Wabash River

Simulation codes and data for "Reduced modeling and global instability of finite-Reynolds-number flow in compliant rectangular channels"

10.4231/SX6D-1370

Ivan C. Christov ORCID logo , Xiaojia Wang

08/03/2022

Zip files with codes and data to make the plots in the manuscript "Reduced modeling and global instability of finite-Reynolds-number flow in compliant rectangular channels" by Wang & Christov (2022).

elastic deformation flow-structure instability fluid-structure interactions hydrodynamic instability lubrication theory Mechanical Engineering microfluidics soft hydraulics viscous fluid flow

Jupyter notebook and SimVascular case files for "Flow rate--pressure drop relations for slender compliant tubes"

10.4231/35CV-PN42

Ivan C. Christov ORCID logo , Shrihari Dhananjay Pande , Xiaojia Wang

11/23/2022

Zip files with codes and data to make the plots in the manuscript "Flow rate--pressure drop relations for new configurations of slender compliant tubes arising in microfluidics experiments" by Wang, Pande & Christov (2022).

CFD elastic deformation fluid-structure interactions lubrication theory Mechanical Engineering microfluidics soft hydraulics viscous fluid flow

The role of absorbed energy on the oscillation mode of an air bubble in a cavitation-induced acoustic field

10.4231/MV0J-XM83

Javad Eshraghi ORCID logo , Pavlos Vlachos ORCID logo , Sayantan Bhattacharya

11/15/2022

When an acoustic pressure drives a gas bubble in a liquid, the bubble undergoes volume oscillation, i.e., the radial expansion and contraction of the bubble without varying its shape. However, if the amplitude of the driving waves exceeds a...

acoustic signals Cavitation Mechanical Engineering oscillation

Load Data and Code for Analysis of In-situ X-ray Transverse Crack Growth Experiments in Specimens of a Human Cortical Bone

10.4231/RWPA-PG56

Glynn Ellen Gallaway ORCID logo , Laura J Pyrak-Nolte ORCID logo , Thomas H Siegmund ORCID logo

10/09/2024

This publication documents experimental data and analysis code in support of the publication "Quasi-brittle Fracture Mechanics of Human Cortical Bone Enables the Combined Analysis of Bone Quantity and Quality" G. Gallaway et al, Journal of Biomechanics.

Bone Fracture Mechanics Matlab Mechanical Engineering

Cyclic Voltammetry analysis of catalyst degradation modes in Polymer Electrolyte Fuel Cells

10.4231/2KSE-4P49

Navneet Goswami ORCID logo , Partha Mukherjee ORCID logo

08/03/2021

This mathematical model helps simulate a cyclic voltammogram (CV) response based on the propensity of catalyst particles towards dissolution and/ or oxidation mechanisms.

catalyst degradation electrocatalysis electrochemistry Matlab Mechanical Engineering polymer electrolyte fuel cells simulation modelling

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