PVC Smart Sensing Foil for Advanced Strain Measurements

Silva, A.F. da; Gonçalves, Alan; Ferreira, L. A.; Araújo, F. M.; Mendes, Paulo; Correia, J. H.

doi:10.1109/jsen.2009.2037014

Cited by 21 publications

(20 citation statements)

References 12 publications

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“…Indirectly, the strength may be determined, since there is a correlation between the measured strain and the required load of 128 pm.N -1 (Silva A. F. et al, 2010b). …”

Section: Performance Assessmentmentioning

confidence: 98%

See 1 more Smart Citation

Photonic Sensors Based on Flexible Materials with FBGs for Use on Biomedical Applications

Silva¹,

Rocha²,

Carmo³

et al. 2013

Current Trends in Short- And Long-Period Fiber Gratings

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“…Indirectly, the strength may be determined, since there is a correlation between the measured strain and the required load of 128 pm.N -1 (Silva A. F. et al, 2010b). …”

Section: Performance Assessmentmentioning

confidence: 98%

“…As the FBG spectral signature deviates 8 nm per 1% of elongation (Silva A. F. et al, 2010b), it is possible to retrieve how much did the chest stretched. Consequently, the air volume that is inhaled and exhaled can also be estimated as well as the force that is being applied to breath.…”

Section: Experimental: Respiratory Frequencymentioning

confidence: 99%

Photonic Sensors Based on Flexible Materials with FBGs for Use on Biomedical Applications

Silva¹,

Rocha²,

Carmo³

et al. 2013

Current Trends in Short- And Long-Period Fiber Gratings

Self Cite

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“…For a typical grating written in a silica fiber and with nm embedded in a polymeric foil, the sensitivity to strain and temperature is approximately 8 nm per 1% of elongation and 0.1 nm/ C, respectively [19].…”

Section: A Sensormentioning

confidence: 99%

“…Such disposition enables a longer elongation range. A set of tests have been performed to test this configuration [19].…”

Section: B Layoutmentioning

confidence: 99%

FBG Sensing Glove for Monitoring Hand Posture

Silva

Gonçalves²,

Mendes

et al. 2011

IEEE Sensors J.

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A wearable sensing glove for monitoring hand gestures and posture has been developed. The glove sensing capability is based on optical fiber Bragg gratings (FBGs) sensors. These sensors, due to their inherent self-referencing and multiplexing capability, are a value-added choice for this application. A single optical fiber would cross all the hand with Bragg structures in specific spots, as the finger joints. The functionality and performance of the glove was fully evaluated. The sensor response was linear to the hand movements for opening and closing down. Through the sensor response, it was possible to retrieve information about the joint angles from which other set of information like finger force can be estimated. The developed glove was able to provide numerical data about the angles of the hand posture in real time. The simplicity of the system and performance makes it well suitable for physical therapy applications, study of the human kinematics during sport activity, virtual reality or even remote control applications, among others.

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“…The shift in the wavelength, B [nm], with respect to the cross sensitivity with the temperature and the axial strain changes, T [K] and ε, (respectively) is given by (Wei C. L. et al, 2010;Silva et al, 2010):…”

Section: Smart Materials Based On Fbgsmentioning

confidence: 99%