%0 Journal Article %1 lin12a %A Lin, Huai-Ti %A Trimmer, Barry A. %D 2012 %J J Biomech %K ants %N 13 %P 2310--2314 %R 10.1016/j.jbiomech.2012.06.005 %T A new bi-axial cantilever beam design for biomechanics force measurements. %U http://dx.doi.org/10.1016/j.jbiomech.2012.06.005 %V 45 %X The demand for measuring forces exerted by animals during locomotion has increased dramatically as biomechanists strive to understand and implement biomechanical control strategies. In particular, multi-axial force transducers are often required to capture animal limb coordination patterns. Most existing force transducers employ strain gages arranged in a Wheatstone bridge on a cantilever beam. Bi-axial measurements require duplicating this arrangement in the transverse direction. In this paper, we reveal a method to embed a Wheatstone bridge inside another to allow bi-axial measurements without additional strain gages or additional second beams. This hybrid configuration resolves two force components from a single bridge circuit and simplifies fabrication for the simultaneous assessment of normal and transverse loads. This design can be implemented with two-dimensional fabrication techniques and can even be used to modify a common full bridge cantilever force transducer. As a demonstration of the new design, we built a simple beam which achieved bi-axial sensing capability that outperformed a conventional half-bridge-per-axis bi-axial strain gage design. We have used this design to measure the ground reaction forces of a crawling caterpillar and a caterpillar-mimicking soft robot. The simplicity and increased sensitivity of this method could facilitate bi-axial force measurements for experimental biologists.

@article{lin12a, abstract = {The demand for measuring forces exerted by animals during locomotion has increased dramatically as biomechanists strive to understand and implement biomechanical control strategies. In particular, multi-axial force transducers are often required to capture animal limb coordination patterns. Most existing force transducers employ strain gages arranged in a Wheatstone bridge on a cantilever beam. Bi-axial measurements require duplicating this arrangement in the transverse direction. In this paper, we reveal a method to embed a Wheatstone bridge inside another to allow bi-axial measurements without additional strain gages or additional second beams. This hybrid configuration resolves two force components from a single bridge circuit and simplifies fabrication for the simultaneous assessment of normal and transverse loads. This design can be implemented with two-dimensional fabrication techniques and can even be used to modify a common full bridge cantilever force transducer. As a demonstration of the new design, we built a simple beam which achieved bi-axial sensing capability that outperformed a conventional half-bridge-per-axis bi-axial strain gage design. We have used this design to measure the ground reaction forces of a crawling caterpillar and a caterpillar-mimicking soft robot. The simplicity and increased sensitivity of this method could facilitate bi-axial force measurements for experimental biologists.}, added-at = {2013-03-19T09:39:16.000+0100}, author = {Lin, Huai-Ti and Trimmer, Barry A.}, biburl = {https://www.bibsonomy.org/bibtex/2eb7defe590a5f319001eeac51544a389/toni.woehrl}, doi = {10.1016/j.jbiomech.2012.06.005}, file = {:article_lin12a.pdf:PDF}, groups = {public}, institution = {Howard Hughes Medical Institute, Janelia Farm Research Campus, 19700 Helix Drive, Ashburn, VA 20147, USA.}, interhash = {107c06a1615761ec28152e2e76509dd5}, intrahash = {eb7defe590a5f319001eeac51544a389}, journal = {J Biomech}, keywords = {ants}, language = {eng}, medline-pst = {ppublish}, month = Aug, number = 13, pages = {2310--2314}, pii = {S0021-9290(12)00337-5}, pmid = {22776687}, project = {ant}, timestamp = {2013-05-13T20:50:12.000+0200}, title = {A new bi-axial cantilever beam design for biomechanics force measurements.}, url = {http://dx.doi.org/10.1016/j.jbiomech.2012.06.005}, username = {toni.woehrl}, volume = 45, year = 2012 }