TY - DATA T1 - Additional file 1: of A spherical-plot solution to linking acceleration metrics with animal performance, state, behaviour and lifestyle PY - 2016/09/23 AU - Rory Wilson AU - Mark Holton AU - James Walker AU - Emily Shepard AU - D. Scantlebury AU - Vianney Wilson AU - Gwendoline Wilson AU - Brenda Tysse AU - Mike Gravenor AU - Javier Ciancio AU - Melitta McNarry AU - Kelly Mackintosh AU - Lama Qasem AU - Frank Rosell AU - Patricia Graf AU - Flavio Quintana AU - Agustina Gomez-Laich AU - Juan-Emilio Sala AU - Christina Mulvenna AU - Nicola Marks AU - Mark Jones UR - https://springernature.figshare.com/articles/journal_contribution/Additional_file_1_of_A_spherical-plot_solution_to_linking_acceleration_metrics_with_animal_performance_state_behaviour_and_lifestyle/4345043 DO - 10.6084/m9.figshare.c.3605192_D1.v1 L4 - https://ndownloader.figshare.com/files/7071047 KW - Spherical plots KW - Tri-axial acceleration KW - G-sphere KW - Visualisation N2 - Methods. Changing shapes for frequency distributions. Figure S1. A 3-d scatter plot (g-sphere) of static (orthogonal) tri-axial acceleration data. Figure S2. A spherical coordinate’s visualization of (a) postural state plotted onto the surface of a sphere in three-dimensional space, (b) points joined together in chronological order, (c) projecting the data outwards from the sphere according to other parameters. Figure S3. A spherical histogram (Dubai plot) visualization to depict frequent postural states. Figure S4. Histogram, Frequency shape (stacked), fixed shape (skittle) from urchin plots. Figure S5. G-urchin of skittle shape and stacked frequency urchins emitted from the centre of each facet of the sphere. Figure S6. Overview of user interface for a program in which spherical plots can be created. Figure S7. G-spheres and comparable g-urchins derived from a rod-mounted tri-axial accelerometer showing fly-fishing visualisations. (DOCX 5289 kb) ER -