Filter Results
101755 results
The data uploaded here are for the manuscript titled 'Astrocyte-derived extracellular vesicles enhance the electrophysiological function and cell survival of human cortical neurons in vitro '
Data Types:
  • Other
  • Software/Code
  • Image
  • Video
  • Tabular Data
  • Document
  • Dataset
  • Text
Sea Surface Height Animation for 2015
Data Types:
  • Video
  • Dataset
Video 1: Active detachment of bacterial cells from the frontline of interstitial biofilms and free movement of planktonic cells or small bacterial clusters were noticed after 24 h of biofilm culture in a humid chamber. Video 2: The dispersed cells seeded a nearby area and re-established a standalone “daughter” biofilm. The “daughter” biofilms expanded to merge with the primary biofilm and lead to migration of the interstitial biofilm.
Data Types:
  • Video
  • Dataset
Interviews with teachers about their experience with STEm professional development in Palestine.
Data Types:
  • Other
  • Video
  • Dataset
This dataset contains Aral Sea Basin boundary shapefiles and its sub-basins. The shapefiles are produced using data from HydroSHEDS project that provides watershed delineations at a global scale. Aral Sea basin has two major rivers, Syr-Darya and Amu-Darya, and their boundary shapefiles are included separately. Small sub-basins between these two major rivers were joined and merged to produce the Aral Sea Basin boundary.
Data Types:
  • Software/Code
  • Geospatial Data
  • Dataset
Drosophila grooming ethograms, MATLAB code for grooming model simulation and one example video of fly-on-a-ball experiment Ethograms can be opened in MATLAB. Different numbers stand for different behaviors: For dusting experiments: 1.Front Leg rubbing 2. Head cleaning 3. Abdominal cleaning 4. Back Leg rubbing 5. Wing cleaning 6. Walking 7. Standing For optogenetic experiments in free-moving flies: 1.Front Leg rubbing 2. Head cleaning 3. Abdominal cleaning 4. Back Leg rubbing 5. Wing cleaning 6. Thoracic Cleaning 7. Walking 8. Standing For fly-on-a-ball experiments: 1. Anterior grooming 2. Posterior grooming 3. Walking 4. Standing
Data Types:
  • Software/Code
  • Video
  • Dataset
Graphical user interface for bioenergetics data. This is the supplemental material of the manuscript "Integrated approach for data acquisition, visualization and processing of analog polarographic systems for bioenergetics studies" that includes the graphical user interface (GUI), user guide and file examples generated with the GUI and a video tutorial. The GUI allows to calibrate oxygen sensor, continuous visualization, decimation and analysis of data recorded with a comma separated values format. GUI can be used to visualize and analyze data of analog polarographic systems. The GUI allows to overcome cumbersome calculations to extract bioenergetic data from oxygen kinetics, enhance the accuracy of RCR and ADP/O ratio, and optimize the decimation of kinetic data for computational applications.
Data Types:
  • Software/Code
  • Video
  • Tabular Data
  • Document
  • Dataset
This is a static collection of the scripts needed to reproduce the examples of the paper: Vigliotti A., Auricchio F., "Automatic differentiation for solid mechanics", Archives of Computational Methods in Engineering, 2020, In the press DOI 10.1007/s11831-019-09396-y The same data are also availble from the following github repository: https://github.com/avigliotti/AD4SM.jl the above repository includes the AD4SM.jl package files and will be updated with new versions, new examples, bug corrections, etc. The scripts included in this data set are written in the Julia programming language and will need a working installation in order to run properly. Julia is an open-source, high-level, high-performance, dynamic programming language. Refer to the Julia language website for more information and downloads at https://julialang.org/ Following the content of the individual files: - adiff.jl : main module implementing the dual number algebra needed for the forward differentiation - materials.jl : module implementing the strain energy density functions for the different material models - elements.jl : module implementing the element integration rules, the functions for evaluating the deformation energy of the entire model, together with the Lagrange multipliers, and the solvers - example_01_non_linear_truss.jl : julia file for the first example 1 of the paper, this file produce as output the openscad model of the deformed truss for producing preety images - example_01_non_linear_truss.ipynb : jupyther notebook file for example 1 - example_02_Euler_beams.ipynb : julia file for the first example 2 of the paper - example_02_Euler_beams.jl : jupyther notebook file for example 2 - example_03_plane_stress.ipynb : jupyther notebook file for the first example 3 of the paper - example_03_plane_stress.jl : julia file for example 3 - example_04_AxSymDomain.ipynb : notebook file for example 4 - example_04_AxSymDomain.jl : julia file for example 4 - example_05_3DSpring.jl : julia file for example 5, this files produces output files readable with paraview - Pattern2D03FinerMesh02j.inp : input file for example 3 - AxSymDomainj.inp : input file for example 4 - 3DSpringHexaj.inp : input file for example 5 - polyhedron_hedges.scad : helper file to produce the openscad files for the deformed lattices of example 1 - description.txt : this file - step_to_reproduce.txt : the file with the steps to reproduce te ecamples
Data Types:
  • Other
  • Software/Code
  • Geospatial Data
  • Dataset
This dataset contain the code, images and video results of the analysed algorithms: LBP|VAR, CLBP and the convolutional neural network ResNet50.
Data Types:
  • Other
  • Software/Code
  • Image
  • Video
  • Tabular Data
  • Dataset
  • Document
Fluorescence microscopy data (DAPI green and FM4-64 red) of E. coli JP313 cells with a plasmid-encoded CBASS system from E. coli MS115-1. pLAC22 = Empty Vector. pKDC3719 = Full CBASS system from E. coli MS115-1. pKDC3727 = Full CBASS system with a NucC nuclease active-site (D73N) mutant. All strains were infected with bacteriophage lambda (cI-) at a multiplicity of infection (MOI) of 2.5. Imaging was performed between 20 and 80 minutes post-infection. Files with "D3D" are deconvolved.
Data Types:
  • Video
  • Dataset
2