Fp4060

Manufactured by Bertec

Sourced in United States

The FP4060 is a force plate designed by Bertec to measure ground reaction forces and moments. It features a 40 cm x 60 cm active area and can be used for a variety of applications that require force measurement.

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Lab products found in correlation

Matlab, by MathWorks (1 mentions) Smart d, by BTS Bioengineering (1 mentions) Bts p6000, by BTS Bioengineering (1 mentions)

Close spelling variants of this product

FP4060-10-2000 (4 citations) FP4060-08 (4 citations) FP4060-07 (3 citations) FP4060-10 (2 citations)

5 protocols using fp4060

Gait Kinematics and Kinetics Assessments

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The acquisitions of HYA's kinematic and kinetic data were performed at BioMovLab (Department of Information Engineering, University of Padova, Italy). A 6-cameras optoelectronic system (Smart E, 60-120 Hz, BTS Bioengineering S.p.A., Garbagnate Milanese (MI), Italy) captured the three-dimensional trajectories (frame rate = 60 Hz) according to the modified IOR-gait protocol as in (Sawacha et ). A force plate (FP4060, 960 Hz, Bertec Corporation, Columbus, Ohio, Canada) synchronously acquired the CoP displacement while the Romberg test was performed. The acquisitions of PPD's kinematic and kinetic data were performed at the Rehabilitation Facility, GVDR, Padova, Italy, throughout an 8-cameras optoelectronic system (Smart D, 300 Hz, BTS Bioengineering S.p.A., Garbagnate Milanese (MI), Italy) and a synchronized force plate (BTS-p-6000, 1200 Hz, BTS Bioengineering S.p.A., Garbagnate Milanese (MI), Italy). The same marker set as the one adopted for the YHA was applied. Moreover, the same examiner used the same system and the same Matlab (version R2021b, MathWorks, USA) was adopted for the data processing.

Romanato M., Guiotto A., Volpe D, & Sawacha Z. (2023). Center of mass-based posturography for free living environment applications. Clinical biomechanics (Bristol, Avon), 104.

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Lifting Kinematics and Kinetics Analysis

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An eight-camera optoelectronic system sampling at 100 Hz was applied to measure lifting kinematics and the movement trajectories of lifting load. Thirty-nine reflective markers were placed on anatomic body landmarks according to the Vicon standard procedure for establishing the plug-in gait (PIG) full-body model (Plug-In Gait Marker Set, Vicon Peak, Oxford, UK). An extra four reflective markers were taped on the top corners of the box. To acquire the lifting kinetics, two force plates (FP4060, Bertec, Columbus, OH, USA) with a sampling rate of 1000 Hz were paralleled positioned on the ground to collect ground reaction force. Synchronization of the motion capture system and force plates was done by setting the signals to start simultaneously.

Liu J., Qu X, & Liu Y. (2022). Influence of Load Knowledge on Biomechanics of Asymmetric Lifting. International Journal of Environmental Research and Public Health, 19(6), 3207.

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Measuring Shoe-Floor Slip Resistance

Cited 3 times

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ACOF was recorded for the shoes using the portable slip simulator (Aschan et al., 2005 (link); Chanda et al., 2018 (link); Iraqi et al., 2018 (link); Jones et al., 2018 (link)). The shoes that contacted the slippery contaminant (all right shoes except one left shoe) were tested. The shoes were tested against the same flooring (laminate) and contaminant (90% glycerol) as the unexpected slip trial. Test conditions included a normal force of 250 N, sliding speed of 0.5 m/s, and shoe-floor angle of 17° (Iraqi et al., 2018 (link); Iraqi et al., 2020 (link); Jones et al., 2018 (link)). These test conditions have been determined to be relevant to slipping biomechanics (Albert et al., 2017 ; Iraqi et al., 2018 (link)) and predictive of slip outcomes (Iraqi et al., 2018 (link)). Shear and normal forces were recorded with a force plate (Bertec FP4060, Columbus, OH) at 500 Hz and ACOF was calculated as the ratio of shear to normal force over a 200 ms period. The ACOF was averaged across five repeated trials. Between each trial, the contaminant was redistributed to cover the surface.

Sundaram V.H., Hemler S.L., Chanda A., Haight J.M., Redfern M.S, & Beschorner K.E. (2020). Worn Region Size of Shoe Outsole Impacts Human Slips: Testing a Mechanistic Model. Journal of biomechanics, 105, 109797.

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3D Gait Analysis with Infrared Cameras and Force Plates

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The data collection was performed with ten infrared cameras (200 Hz, 2 Vantage V5 and 8 Vero 2.2, Vicon, Oxford Metrics, UK) and four force plates (1000 Hz, model 9286B, Kistler; model FP4060, Bertec, USA) embedded in the floor, in the middle distance of the ten meters walkway. For tracking the segments, the University of Ottawa Motion Analysis Model (UOMAM) marker set was used²⁷. A static kinematic capture was performed in a similar anatomical position with shoulder abduction of around 30 degrees. Next, three to five gait trials were performed at a self-selected pace.

Moura F.A., Pelegrinelli A.R., Catelli D.S., Kowalski E., Lamontagne M, & da Silva Torres R. (2024). On the prediction of tibiofemoral contact forces for healthy individuals and osteoarthritis patients during gait: a comparative study of regression methods. Scientific Reports, 14, 1379.

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Multimodal Force Measurement Protocol

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Hand force was acquired with a six-axis force transducer (ATI Mini-45) located at the base of the handle. Ground reaction forces and torques under each foot, in the x, y, and z directions were acquired from two tri-axial Bertec force plates (model FP4060). Force and torque were at sampled at 1000 Hz.

Forghani A, & Milner T.E. (2017). Origin of directionally tuned responses in lower limb muscles to unpredictable upper limb disturbances. PLoS ONE, 12(11), e0187006.

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