1,875 Works

Data Services Products: SPREM, Smoothed Parametric Reference Earth Models.

Data Services Products: 3D2017_09Sv, a global Sv wave upper mantle model updated until September 2017

LSMOD.1 - Global paleomagnetic field model for 50 -- 30 ka BP

Monika Korte, Maxwell Brown & Sydney Gunnarson
Global spherical harmonic paleomagnetic field model LSMOD.1 describes the magnetic field evolution from 50 to 30 ka BP based on published paleomagnetic sediment records and volcanic data. The time interval includes the Laschamp (~41 ka BP) and Mono Lake (~34 ka BP) excursions. The model is given with Fortran source code to obtain spherical harmonic magnetic field coefficients for individual epochs and to obtain time series of magnetic declination, inclination and field intensity from 49.95...

Code: Modelling habituation of introduced predators

Cecilia Arienti

Male PIM1 Mouse V1.0

3D animal model

Male Pig V1.0

3D animal model

Consistent MMI area estimation for Australian earthquakes

M. Leonard
Geoscience Australia has been providing estimates of felt and potential damage radiuses for all earthquakes above magnitude 3.0 since 2002. Similarly, over the last decade, using the hazard modelling software EQRM, GA has produced scenario MMI maps for most Australian cities and several cities in our region. The former uses Empirical relations developed from measuring MMI III, IV, V and VI radiuses from the isoseismal map of ~150 Australian earthquakes. The later using various GMPEs...

Consistent MMI area estimation for Australian earthquakes

M. Leonard
Geoscience Australia has been providing estimates of felt and potential damage radiuses for all earthquakes above magnitude 3.0 since 2002. Similarly, over the last decade, using the hazard modelling software EQRM, GA has produced scenario MMI maps for most Australian cities and several cities in our region. The former uses Empirical relations developed from measuring MMI III, IV, V and VI radiuses from the isoseismal map of ~150 Australian earthquakes. The later using various GMPEs...

Using direct policy search to identify robust strategies in adapting to uncertain sea-level rise and storm surge

Woodrow Wilson School Of Public Gregory G. Garner

Fats cV3.2

3D human model

RothC - A model for the turnover of carbon in soil

Kevin Coleman & David Jenkinson
RothC is a model for the turnover of organic carbon in non-waterlogged topsoils, that allows for the effects of soil type, temperature, moisture content and plant cover on the turnover process. It uses a monthly time step to calculate total organic carbon (t ha-1), microbial biomass carbon (t C ha -1) and 14C (from which the equivalent radiocarbon age of the soil can be calculated) on a years to centuries timescale..

Grain Boundary 5_(1-21)_100

Dilpuneet S. Aidhy
GB energies have been calculated using Bonny 2013 potential

Intra- and inter-assessor reliability experiment for Strathclyde functional cluster model

Lin Meng
Gait analysis is an important clinical tool for which numerous biomechanical models are available. Palpation of superficial bony prominences is required in traditional gait analysis in order to identify anatomical landmarks from which joint centres and axes are derived. To reduce the reliance on superficial anatomical landmarks (ALs) and to improve the reliability and accuracy in identifying joint axes, functional methods have been developed . In this study, we proposed a new cluster-based model in...

IMU-based angle measurement - algorithm validation by Vicon motion capture

Lin Meng
We developed a novel algorithm to measure the joint angle using two IMU sensors placed on adjacent segments respectively. Functional calibration is required to determine the axis of sensor related to the segment movement, therefore accurate or constant sensor placement is not necessary for our model. A fast complementary filter is utilised to compensate the drift of gyroscope with the accelerometer-based angle. The model script was written in MATLAB. Two versions are available, one for...

bowtieexperiment NTNU SINTEF 2018

Per HÃ¥kon Meland
This document contains the result of a bow-tie diagram experiment involving computer science MSc graduate students at NTNU (the Norwegian University of Science and Technology, https://www.ntnu.no/) and security experts from Sintef (https://www.sintef.no/en).

Shubayqa 1 Human remains 3D models

Tobias Richter
.obj and .mtl data files to create 3D models of human burials from the Late Epipalaeolithic Natufian site Shubayqa 1

Northern Goshawk (Accipiter gentilis) bNOGOx_CONUS_2001v1 Habitat Map

Julie S Prior-Magee & Alexa McKerrow
This dataset represents a species habitat distribution model for Northern Goshawk. These habitat maps are created by applying a <a href="https://www.sciencebase.gov/catalog/item/527d0a83e4b0850ea0518326">deductive habitat model</a> to remotely-sensed data layers within a species' range.

Snow Goose (Chen caerulescens) bSNGOx_CONUS_2001v1 Habitat Map

Julie S Prior-Magee & Alexa McKerrow
This dataset represents a species habitat distribution model for Snow Goose. These habitat maps are created by applying a <a href="https://www.sciencebase.gov/catalog/item/527d0a83e4b0850ea0518326">deductive habitat model</a> to remotely-sensed data layers within a species' range.

Swallow-tailed Kite (Elanoides forficatus) bSTKIx_CONUS_2001v1 Habitat Map

Julie S Prior-Magee & Alexa McKerrow
This dataset represents a species habitat distribution model for Swallow-tailed Kite. These habitat maps are created by applying a <a href="https://www.sciencebase.gov/catalog/item/527d0a83e4b0850ea0518326">deductive habitat model</a> to remotely-sensed data layers within a species' range.

Plains Sharp-tailed Grouse (Tympanuchus phasianellus jamesi) bSTGRj_CONUS_2001v1 Habitat Map

Julie S Prior-Magee & Alexa McKerrow
This dataset represents a species habitat distribution model for Plains Sharp-tailed Grouse. These habitat maps are created by applying a <a href="https://www.sciencebase.gov/catalog/item/527d0a83e4b0850ea0518326">deductive habitat model</a> to remotely-sensed data layers within a species' range.

Massasauga (Sistrurus catenatus) rMASSx_CONUS_2001v1 Habitat Map

Julie S Prior-Magee & Alexa McKerrow
This dataset represents a species habitat distribution model for Massasauga. These habitat maps are created by applying a <a href="https://www.sciencebase.gov/catalog/item/527d0a83e4b0850ea0518326">deductive habitat model</a> to remotely-sensed data layers within a species' range.

Ornate Box Turtle (Terrapene ornata) rOBTUx_CONUS_2001v1 Habitat Map

Julie S Prior-Magee & Alexa McKerrow
This dataset represents a species habitat distribution model for Ornate Box Turtle. These habitat maps are created by applying a <a href="https://www.sciencebase.gov/catalog/item/527d0a83e4b0850ea0518326">deductive habitat model</a> to remotely-sensed data layers within a species' range.

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