Processed measurement data of the experimental study of the drone arms stiffness - a component of a 3D Printed UAV quadcopter

@info    DESCRIPTION:    The dataset consists of measurements of experimental studies of drone arms stiffness (Fig. 1). The measurement system consists of a Panasonic HG-C1100 laser distance sensor and a HBM U9C force sensor mounted on a linear actuator with stepper motor (Fig. 2). Studies were conducted for different materials and 3D printing infills.    LICENSE:  The data are under Creative Commons License CC BY. It is though recommended to manipulate along with the author to fully understand the outcomes. If you have any questions do not hesitate to contact: marcin.bialek@put.poznan.pl / jerzy.mankowski@student.put.poznan.pl / piotr.krzyzaniak@student.put.poznan.pl      FILES:    "drone_arm_stiffness_dataset" - processed measurement data obtained during the experiment - drone arm stiffness measurements. The file may be downloaded in TAB, Rdata or CSV formats.    For proper interpretation, please refer to the images provided below.  COLUMNS in "dataset_1.csv":       - Material[-] - type of the drone arm 3D printing material: 'PETG' (Spectrum Carbon PETG) 'PLA' (Devil Design);    - Infill[-] - percentage of 3D printing infill;    - Sample[-] - measurement sample of 5 subsamples;    - Subsample[-] - measurement subsamples;    - Distance[mm] - applied displacement in mm;    - adc_mm [um] - raw ADC value of distance sensor measured with a Panasonic sensor HG-C1100 in um;    - Force[N] - the value of the force exerted by the plunger (force sensor) on the arm, measured with HBM U9C force sensor.---The "Related Publication" section will be updated upon completion of the article publishing process.