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2017 | OriginalPaper | Buchkapitel

3. Textile Pressure Force Mapping

verfasst von : Bo Zhou, Paul Lukowicz

Erschienen in: Smart Textiles

Verlag: Springer International Publishing

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Abstract

While much effort in smart textile technology development has been put on acquiring biomedical signals such as ECG/EMG or tissue bioimpedance, an important alternative is mapping the pressure which is applied to the textile substrate itself. The modality has inspired researchers to instrument a wide variety of daily items and wearable garments for interactive controlling and activity monitoring in the recent years. To offer a guideline for implementing such systems, this chapter will introduce textile-based pressure force mapping sensing technology, from comparisons with other smart textile technologies to sensing principles, driving circuitry and finally several application examples.

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Literatur
1.
Zurück zum Zitat Kyberd, P.J., Chappell, P.H.: A force sensor for automatic manipulation based on the hall effect. Meas. Sci. Technol. 4(3), 281 (1993)CrossRef Kyberd, P.J., Chappell, P.H.: A force sensor for automatic manipulation based on the hall effect. Meas. Sci. Technol. 4(3), 281 (1993)CrossRef
2.
Zurück zum Zitat Fahlbusch, S., Fatikow, S.: Force sensing in microrobotic systems-an overview. In: Electronics, Circuits and Systems, 1998 IEEE International Conference on. Volume 3, pp. 259–262 (1998) Fahlbusch, S., Fatikow, S.: Force sensing in microrobotic systems-an overview. In: Electronics, Circuits and Systems, 1998 IEEE International Conference on. Volume 3, pp. 259–262 (1998)
4.
Zurück zum Zitat Kim, H.K., Lee, S., Yun, K.S.: Capacitive tactile sensor array for touch screen application. Sens. Actuators A Phys. 165(1), 2–7 (2011). Transducers 2009CrossRef Kim, H.K., Lee, S., Yun, K.S.: Capacitive tactile sensor array for touch screen application. Sens. Actuators A Phys. 165(1), 2–7 (2011). Transducers 2009CrossRef
5.
Zurück zum Zitat Seely, J., Malak, R., Allen, T., Schediwy, R., Cesarotti, W.: Two-layer capacitive touchpad and method of making same. US Patent 6,188,391, 13 Feb 2001 Seely, J., Malak, R., Allen, T., Schediwy, R., Cesarotti, W.: Two-layer capacitive touchpad and method of making same. US Patent 6,188,391, 13 Feb 2001
6.
Zurück zum Zitat Kent, J., Wilson, G.D.: Dual sensor touchscreen utilizing projective-capacitive and force touch sensors. US Patent 6,492,979, 10 Dec 2002 Kent, J., Wilson, G.D.: Dual sensor touchscreen utilizing projective-capacitive and force touch sensors. US Patent 6,492,979, 10 Dec 2002
7.
Zurück zum Zitat Frisch, J.C., Leyh, G.E., Platt, J.C., Allen, T.P., Schediwy, R.R., Faggin, F.: Force sensing touchpad. US Patent 5,854,625, 29 Dec 1998 Frisch, J.C., Leyh, G.E., Platt, J.C., Allen, T.P., Schediwy, R.R., Faggin, F.: Force sensing touchpad. US Patent 5,854,625, 29 Dec 1998
8.
Zurück zum Zitat Martinsen, O.G., Grimnes, S.: Bioimpedance and Bioelectricity Basics. Academic press, London (2011) Martinsen, O.G., Grimnes, S.: Bioimpedance and Bioelectricity Basics. Academic press, London (2011)
9.
Zurück zum Zitat Hoffmann, K.P., Ruff, R.: Flexible dry surface-electrodes for ecg long-term monitoring. In: Engineering in Medicine and Biology Society, 2007. EMBS 2007. 29th Annual International Conference of the IEEE, IEEE, pp. 5739–5742 (2007) Hoffmann, K.P., Ruff, R.: Flexible dry surface-electrodes for ecg long-term monitoring. In: Engineering in Medicine and Biology Society, 2007. EMBS 2007. 29th Annual International Conference of the IEEE, IEEE, pp. 5739–5742 (2007)
10.
Zurück zum Zitat Linz, T., Gourmelon, L., Langereis, G.: Contactless emg sensors embroidered onto textile. In: 4th International Workshop on Wearable and Implantable Body Sensor Networks (BSN 2007), pp. 29–34. Springer (2007) Linz, T., Gourmelon, L., Langereis, G.: Contactless emg sensors embroidered onto textile. In: 4th International Workshop on Wearable and Implantable Body Sensor Networks (BSN 2007), pp. 29–34. Springer (2007)
11.
Zurück zum Zitat Fuhrhop, S., Lamparth, S., Heuer, S.: A textile integrated long-term ecg monitor with capacitively coupled electrodes. In: Biomedical Circuits and Systems Conference, 2009. BioCAS 2009. IEEE, IEEE pp. 21–24 (2009) Fuhrhop, S., Lamparth, S., Heuer, S.: A textile integrated long-term ecg monitor with capacitively coupled electrodes. In: Biomedical Circuits and Systems Conference, 2009. BioCAS 2009. IEEE, IEEE pp. 21–24 (2009)
12.
Zurück zum Zitat Cheng, J., Amft, O., Lukowicz, P.: Active capacitive sensing: exploring a new wearable sensing modality for activity recognition. In: Pervasive Computing, pp. 319–336. Springer (2010) Cheng, J., Amft, O., Lukowicz, P.: Active capacitive sensing: exploring a new wearable sensing modality for activity recognition. In: Pervasive Computing, pp. 319–336. Springer (2010)
13.
Zurück zum Zitat Coyle, S., Lau, K.T., Moyna, N., Gorman, D.O., Diamond, D., Di Francesco, F., Costanzo, D., Salvo, P., Trivella, M.G., De Rossi, D.E., et al.: Biotexbiosensing textiles for personalised healthcare management. IEEE Trans. Inf. Technol. Biomed. 14(2), 364–370 (2010)CrossRef Coyle, S., Lau, K.T., Moyna, N., Gorman, D.O., Diamond, D., Di Francesco, F., Costanzo, D., Salvo, P., Trivella, M.G., De Rossi, D.E., et al.: Biotexbiosensing textiles for personalised healthcare management. IEEE Trans. Inf. Technol. Biomed. 14(2), 364–370 (2010)CrossRef
14.
Zurück zum Zitat Aneli, J., Zaikov, G., Khananashvili, L.: Effects of mechanical deformations on the structurization and electric conductivity of electric conducting polymer composites. J. Appl. Polym. Sci. 74(3), 601–621 (1999)CrossRef Aneli, J., Zaikov, G., Khananashvili, L.: Effects of mechanical deformations on the structurization and electric conductivity of electric conducting polymer composites. J. Appl. Polym. Sci. 74(3), 601–621 (1999)CrossRef
15.
Zurück zum Zitat Gangopadhyay, R., De, A.: Conducting polymer nanocomposites: a brief overview. Chem. Mater. 12(3), 608–622 (2000)CrossRef Gangopadhyay, R., De, A.: Conducting polymer nanocomposites: a brief overview. Chem. Mater. 12(3), 608–622 (2000)CrossRef
16.
Zurück zum Zitat Mei, H., Zhang, C., Wang, R., Feng, J., Zhang, T.: Impedance characteristics of surface pressure-sensitive carbon black/silicone rubber composites. Sens. Actuators A Phys. 233, 118–124 (2015)CrossRef Mei, H., Zhang, C., Wang, R., Feng, J., Zhang, T.: Impedance characteristics of surface pressure-sensitive carbon black/silicone rubber composites. Sens. Actuators A Phys. 233, 118–124 (2015)CrossRef
17.
Zurück zum Zitat Knite, M., Teteris, V., Kiploka, A., Kaupuzs, J.: Polyisoprene-carbon black nanocomposites as tensile strain and pressure sensor materials. Sens. Actuators A: Phys. 110(1), 142–149 (2004)CrossRef Knite, M., Teteris, V., Kiploka, A., Kaupuzs, J.: Polyisoprene-carbon black nanocomposites as tensile strain and pressure sensor materials. Sens. Actuators A: Phys. 110(1), 142–149 (2004)CrossRef
18.
Zurück zum Zitat Charles, W.H.: Regulated voltage supply. US Patent 2,915,693, 1 Dec 1959 Charles, W.H.: Regulated voltage supply. US Patent 2,915,693, 1 Dec 1959
19.
Zurück zum Zitat MAXIM: precision, low-power, low-dropout, sot 23-3 voltage references (2001) MAXIM: precision, low-power, low-dropout, sot 23-3 voltage references (2001)
20.
Zurück zum Zitat Rincon-Mora, G., Corsi, M.: Current-efficient low-drop-out voltage regulator with improved load regulation and frequency response. US Patent 6,188,211, 13 Feb 2001 Rincon-Mora, G., Corsi, M.: Current-efficient low-drop-out voltage regulator with improved load regulation and frequency response. US Patent 6,188,211, 13 Feb 2001
21.
Zurück zum Zitat Pallas-Areny, R., Webster, J.G.: Sensors and Signal Conditioning. Wiley, New York (2001) Pallas-Areny, R., Webster, J.G.: Sensors and Signal Conditioning. Wiley, New York (2001)
22.
Zurück zum Zitat Gardner, J.W., Udrea, F.: Microsensors: Principles and Applications. Wiley, New York (2009) Gardner, J.W., Udrea, F.: Microsensors: Principles and Applications. Wiley, New York (2009)
23.
Zurück zum Zitat Fraden, J.: Handbook of Modern Sensors: Physics, Designs, and Applications. Springer Science & Business Media, New York (2004) Fraden, J.: Handbook of Modern Sensors: Physics, Designs, and Applications. Springer Science & Business Media, New York (2004)
24.
Zurück zum Zitat Kuphaldt, T.R.: Lessons in Electric Circuits (2016) Kuphaldt, T.R.: Lessons in Electric Circuits (2016)
25.
Zurück zum Zitat Alferink, F.: Measuring capacitance and esr (2014) Alferink, F.: Measuring capacitance and esr (2014)
26.
Zurück zum Zitat Keysight: E4981a capacitance meter data sheet (2015) Keysight: E4981a capacitance meter data sheet (2015)
27.
Zurück zum Zitat Horowitz, P., Hill, W.: The art of electronics. Cambridge University Press, Cambridge (1989) Horowitz, P., Hill, W.: The art of electronics. Cambridge University Press, Cambridge (1989)
28.
Zurück zum Zitat Danilovic, A.: Smartcast-novel textile sensors for embedded pressure sensing of orthopedic casts (2013) Danilovic, A.: Smartcast-novel textile sensors for embedded pressure sensing of orthopedic casts (2013)
29.
Zurück zum Zitat Sergio, M., Manaresi, N., Tartagni, M., Guerrieri, R., Canegallo, R.: A textile based capacitive pressure sensor. In: Sensors, 2002. Proceedings of IEEE, vol 2, pp. 1625–1630 (2002) Sergio, M., Manaresi, N., Tartagni, M., Guerrieri, R., Canegallo, R.: A textile based capacitive pressure sensor. In: Sensors, 2002. Proceedings of IEEE, vol 2, pp. 1625–1630 (2002)
30.
Zurück zum Zitat Meyer, J., Arnrich, B., Schumm, J., Tröster, G.: Design and modeling of a textile pressure sensor for sitting posture classification. IEEE Sens. J. 10(8), 1391–1398 (2010)CrossRef Meyer, J., Arnrich, B., Schumm, J., Tröster, G.: Design and modeling of a textile pressure sensor for sitting posture classification. IEEE Sens. J. 10(8), 1391–1398 (2010)CrossRef
31.
Zurück zum Zitat Enokibori, Y., Suzuki, A., Mizuno, H., Shimakami, Y., Mase, K.: E-textile pressure sensor based on conductive fiber and its structure. In: Proceedings of the 2013 ACM Conference on Pervasive and Ubiquitous Computing Adjunct Publication, pp. 207–210. ACM (2013) Enokibori, Y., Suzuki, A., Mizuno, H., Shimakami, Y., Mase, K.: E-textile pressure sensor based on conductive fiber and its structure. In: Proceedings of the 2013 ACM Conference on Pervasive and Ubiquitous Computing Adjunct Publication, pp. 207–210. ACM (2013)
32.
Zurück zum Zitat Sundholm, M., Cheng, J., Zhou, B., Sethi, A., Lukowicz, P.: Smart-mat: recognizing and counting gym exercises with low-cost resistive pressure sensing matrix. In: Proceedings of the 2014 ACM International Joint Conference on Pervasive and Ubiquitous Computing, pp. 373–382. ACM (2014) Sundholm, M., Cheng, J., Zhou, B., Sethi, A., Lukowicz, P.: Smart-mat: recognizing and counting gym exercises with low-cost resistive pressure sensing matrix. In: Proceedings of the 2014 ACM International Joint Conference on Pervasive and Ubiquitous Computing, pp. 373–382. ACM (2014)
33.
Zurück zum Zitat Cheng, J., Amft, O., Bahle, G., Lukowicz, P.: Designing sensitive wearable capacitive sensors for activity recognition. IEEE Sens. J. 13(10), 3935–3947 (2013)CrossRef Cheng, J., Amft, O., Bahle, G., Lukowicz, P.: Designing sensitive wearable capacitive sensors for activity recognition. IEEE Sens. J. 13(10), 3935–3947 (2013)CrossRef
34.
Zurück zum Zitat Elsanadedy, A.: Application of electrical impedance tomography to robotic tactile sensing. Ph.D. thesis, Carleton University Ottawa (2012) Elsanadedy, A.: Application of electrical impedance tomography to robotic tactile sensing. Ph.D. thesis, Carleton University Ottawa (2012)
35.
Zurück zum Zitat Lee, K., Ammari, H., Bera, T.K., Seo, J.K.: Mathematical framework for eit-based fabric pressure sensing Lee, K., Ammari, H., Bera, T.K., Seo, J.K.: Mathematical framework for eit-based fabric pressure sensing
36.
Zurück zum Zitat Yao, A., Soleimani, M.: A pressure mapping imaging device based on electrical impedance tomography of conductive fabrics. Sens. Rev. 32(4), 310–317 (2012)CrossRef Yao, A., Soleimani, M.: A pressure mapping imaging device based on electrical impedance tomography of conductive fabrics. Sens. Rev. 32(4), 310–317 (2012)CrossRef
37.
Zurück zum Zitat Yao, A., Yang, C.L., Seo, J.K., Soleimani, M.: Eit-based fabric pressure sensing. Comput. Math. Methods Med. 2013, 1–9 (2013)CrossRef Yao, A., Yang, C.L., Seo, J.K., Soleimani, M.: Eit-based fabric pressure sensing. Comput. Math. Methods Med. 2013, 1–9 (2013)CrossRef
38.
Zurück zum Zitat Rothmaier, M., Luong, M.P., Clemens, F.: Textile pressure sensor made of flexible plastic optical fibers. Sensors 8(7), 4318–4329 (2008)CrossRef Rothmaier, M., Luong, M.P., Clemens, F.: Textile pressure sensor made of flexible plastic optical fibers. Sensors 8(7), 4318–4329 (2008)CrossRef
39.
Zurück zum Zitat Weber, W., Braun, C., Glaser, R., Gsottberger, Y., Halik, M., Jung, S., Klauk, H., Lauterbach, C., Schmid, G., Shi, X., Sturm, T., Stromberg, G., Zschieschang, U.: Ambient intelligence - key technologies in the information age. In: Electron Devices Meeting, 2003. IEDM ’03 Technical Digest. IEEE International, pp. 1.1.1–1.1.8 (Dec 2003) Weber, W., Braun, C., Glaser, R., Gsottberger, Y., Halik, M., Jung, S., Klauk, H., Lauterbach, C., Schmid, G., Shi, X., Sturm, T., Stromberg, G., Zschieschang, U.: Ambient intelligence - key technologies in the information age. In: Electron Devices Meeting, 2003. IEDM ’03 Technical Digest. IEEE International, pp. 1.1.1–1.1.8 (Dec 2003)
40.
Zurück zum Zitat Schwarz, A., Van Langenhove, L., Guermonprez, P., Deguillemont, D.: A roadmap on smart textiles. Text. Prog. 42(2), 99–180 (2010)CrossRef Schwarz, A., Van Langenhove, L., Guermonprez, P., Deguillemont, D.: A roadmap on smart textiles. Text. Prog. 42(2), 99–180 (2010)CrossRef
41.
Zurück zum Zitat Toprakci, H.A.K., Ghosh, T.K.: Textile sensors. In: Handbook of Smart Textiles, pp. 357–379. Springer Singapore, Singapore (2015) Toprakci, H.A.K., Ghosh, T.K.: Textile sensors. In: Handbook of Smart Textiles, pp. 357–379. Springer Singapore, Singapore (2015)
42.
Zurück zum Zitat Berglin, L.: Smart textiles and wearable technology (2013) Berglin, L.: Smart textiles and wearable technology (2013)
43.
Zurück zum Zitat Cheng, J., Lukowicz, P., Henze, N., Schmidt, A., Amft, O., Salvatore, G.A., Troster, G.: Smart textiles: from niche to mainstream. IEEE Pervasive Comput. 3, 81–84 (2013)CrossRef Cheng, J., Lukowicz, P., Henze, N., Schmidt, A., Amft, O., Salvatore, G.A., Troster, G.: Smart textiles: from niche to mainstream. IEEE Pervasive Comput. 3, 81–84 (2013)CrossRef
44.
Zurück zum Zitat Schneegass, S., Hassib, M., Zhou, B., Cheng, J., Seoane, F., Amft, O., Lukowicz, P., Schmidt, A.: Simpleskin: towards multipurpose smart garments. In: Proceedings of the 2015 ACM International Joint Conference on Pervasive and Ubiquitous Computing and Proceedings of the 2015 ACM International Symposium on Wearable Computers, pp. 241–244. ACM (2015) Schneegass, S., Hassib, M., Zhou, B., Cheng, J., Seoane, F., Amft, O., Lukowicz, P., Schmidt, A.: Simpleskin: towards multipurpose smart garments. In: Proceedings of the 2015 ACM International Joint Conference on Pervasive and Ubiquitous Computing and Proceedings of the 2015 ACM International Symposium on Wearable Computers, pp. 241–244. ACM (2015)
46.
Zurück zum Zitat Zhou, B., Cheng, J., Sundholm, M., Lukowicz, P.: From smart clothing to smart table cloth: Design and implementation of a large scale, textile pressure matrix sensor. In: Architecture of Computing Systems–ARCS 2014, pp. 159–170. Springer (2014) Zhou, B., Cheng, J., Sundholm, M., Lukowicz, P.: From smart clothing to smart table cloth: Design and implementation of a large scale, textile pressure matrix sensor. In: Architecture of Computing Systems–ARCS 2014, pp. 159–170. Springer (2014)
47.
Zurück zum Zitat Cheng, J., Sundholm, M., Zhou, B., Kreil, M., Lukowicz, P.: Recognizing subtle user activities and person identity with cheap resistive pressure sensing carpet. In: Intelligent Environments (IE), 2014 International Conference on, IEEE, pp. 148–153 (2014) Cheng, J., Sundholm, M., Zhou, B., Kreil, M., Lukowicz, P.: Recognizing subtle user activities and person identity with cheap resistive pressure sensing carpet. In: Intelligent Environments (IE), 2014 International Conference on, IEEE, pp. 148–153 (2014)
48.
Zurück zum Zitat Cheng, J., Sundholm, M., Hirsch, M., Zhou, B., Palacio, S., Lukowicz, P.: Application exploring of ubiquitous pressure sensitive matrix as input resource for home-service robots. In: Robot Intelligence Technology and Applications 3, pp. 359–371. Springer (2015) Cheng, J., Sundholm, M., Hirsch, M., Zhou, B., Palacio, S., Lukowicz, P.: Application exploring of ubiquitous pressure sensitive matrix as input resource for home-service robots. In: Robot Intelligence Technology and Applications 3, pp. 359–371. Springer (2015)
49.
Zurück zum Zitat Zhou, B., Cheng, J., Lukowicz, P., Reiss, A., Amft, O.: Monitoring dietary behavior with a smart dining tray. IEEE Pervasive Comput. 14(4), 46–56 (2015)CrossRef Zhou, B., Cheng, J., Lukowicz, P., Reiss, A., Amft, O.: Monitoring dietary behavior with a smart dining tray. IEEE Pervasive Comput. 14(4), 46–56 (2015)CrossRef
50.
Zurück zum Zitat Zhou, B., Sundholm, M., Cheng, J., Cruz, H., Lukowicz, P.: Never skip leg day: a novel wearable approach to monitoring gym leg exercises. In: Pervasive Computing and Communications (PerCom), 2015 IEEE International Conference on, IEEE (2016) Zhou, B., Sundholm, M., Cheng, J., Cruz, H., Lukowicz, P.: Never skip leg day: a novel wearable approach to monitoring gym leg exercises. In: Pervasive Computing and Communications (PerCom), 2015 IEEE International Conference on, IEEE (2016)
51.
Zurück zum Zitat Roh, J.S., Mann, Y., Freed, A., Wessel, D.: Robust and reliable fabric, piezoresistive multitouch sensing surfaces for musical controllers. In: NIME, pp. 393–398 (2011) Roh, J.S., Mann, Y., Freed, A., Wessel, D.: Robust and reliable fabric, piezoresistive multitouch sensing surfaces for musical controllers. In: NIME, pp. 393–398 (2011)
52.
Zurück zum Zitat Enokibori, Y., Suzuki, A., Mizuno, H., Shimakami, Y., Kawabe, T., Mase, K.: An e-textile-based wearable spirometer and its adaptability for context changes depending on sweat and meal. In: Micro-NanoMechatronics and Human Science (MHS), 2013 International Symposium on, IEEE, pp. 1–5 (2013) Enokibori, Y., Suzuki, A., Mizuno, H., Shimakami, Y., Kawabe, T., Mase, K.: An e-textile-based wearable spirometer and its adaptability for context changes depending on sweat and meal. In: Micro-NanoMechatronics and Human Science (MHS), 2013 International Symposium on, IEEE, pp. 1–5 (2013)
53.
Zurück zum Zitat Hu, M.K.: Visual pattern recognition by moment invariants. IEEE Trans. Inf. Theory 8(2), 179–187 (1962)CrossRefMATH Hu, M.K.: Visual pattern recognition by moment invariants. IEEE Trans. Inf. Theory 8(2), 179–187 (1962)CrossRefMATH
54.
Zurück zum Zitat Tahmasbi, A., Saki, F., Shokouhi, S.B.: Classification of benign and malignant masses based on zernike moments. Comput. Biol. Med. 41(8), 726–735 (2011)CrossRef Tahmasbi, A., Saki, F., Shokouhi, S.B.: Classification of benign and malignant masses based on zernike moments. Comput. Biol. Med. 41(8), 726–735 (2011)CrossRef
55.
Zurück zum Zitat Campo, E., Charlon, Y., Brulin, D.: Instrumented insole for weight measurement of frail people. In: Proceedings of the 8th ACM International Conference on PErvasive Technologies Related to Assistive Environments, p. 60. ACM (2015) Campo, E., Charlon, Y., Brulin, D.: Instrumented insole for weight measurement of frail people. In: Proceedings of the 8th ACM International Conference on PErvasive Technologies Related to Assistive Environments, p. 60. ACM (2015)
56.
Zurück zum Zitat Hollinger, A., Wanderley, M.M.: Evaluation of commercial force-sensing resistors. In: Proceedings of International Conference on New Interfaces for Musical Expression, Citeseer (2006) Hollinger, A., Wanderley, M.M.: Evaluation of commercial force-sensing resistors. In: Proceedings of International Conference on New Interfaces for Musical Expression, Citeseer (2006)
57.
Zurück zum Zitat Koehly, R., Wanderley, M.M., van de Ven, T., Curtil, D.: In-house development of paper force sensors for musical applications. Comput. Music J. 38(2), 22–35 (2014)CrossRef Koehly, R., Wanderley, M.M., van de Ven, T., Curtil, D.: In-house development of paper force sensors for musical applications. Comput. Music J. 38(2), 22–35 (2014)CrossRef
58.
Zurück zum Zitat Hedges, W.L.: Electrically conductive compositions of carbon particles and methods for their production. US Patent 6,132,645, 17 Oct 2000 Hedges, W.L.: Electrically conductive compositions of carbon particles and methods for their production. US Patent 6,132,645, 17 Oct 2000
59.
Zurück zum Zitat Saggio, G., Riillo, F., Sbernini, L., Quitadamo, L.R.: Resistive flex sensors: a survey. Smart Mater. Struct. 25(1), 013001 (2015)CrossRef Saggio, G., Riillo, F., Sbernini, L., Quitadamo, L.R.: Resistive flex sensors: a survey. Smart Mater. Struct. 25(1), 013001 (2015)CrossRef
60.
Zurück zum Zitat Lipomi, D.J., Vosgueritchian, M., Tee, B.C., Hellstrom, S.L., Lee, J.A., Fox, C.H., Bao, Z.: Skin-like pressure and strain sensors based on transparent elastic films of carbon nanotubes. Nat. Nanotechnol. 6(12), 788–792 (2011)CrossRef Lipomi, D.J., Vosgueritchian, M., Tee, B.C., Hellstrom, S.L., Lee, J.A., Fox, C.H., Bao, Z.: Skin-like pressure and strain sensors based on transparent elastic films of carbon nanotubes. Nat. Nanotechnol. 6(12), 788–792 (2011)CrossRef
Metadaten
Titel
Textile Pressure Force Mapping
verfasst von
Bo Zhou
Paul Lukowicz
Copyright-Jahr
2017
DOI
https://doi.org/10.1007/978-3-319-50124-6_3

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