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Mikromechanische Antriebstechnik für aktive Augenimplantate
This chapter is in the book Mikromechanische Antriebstechnik für aktive Augenimplantate
Literatur[AA01]Auffarth, G. U.; Apple, D. J.: Zur Entwicklungsgeschichte der Intraokularlinsen. In:Der Ophthalmologe98 (2001), Nr. 11, S. 1017–1031[Abr89]Abrams, R. A.: Speed and Accuracy of Saccadic Eye Movements: Characteristics ofImpulse Variability in the Oculomotor System. In:Journal of Experimental Psychology:Human Perception and Performance15 (1989), Nr. 3, S. 529–543[ABRP09] Alió, J. L.; Ben-nun, J.; Rodríguez-Prats, J. L.; Plaza, Ana B.: Visual and accommo­dative outcomes 1 year after implantation of an accommodating intraocular lens ba­sed on a new concept. In:Journal of Cataract & Refractive Surgery35 (2009), Nr. 10,S. 1671–1678[ABSL07] Albach, T.; Baffoun, B.; Sutor, A.; Lerch, R.: Entwicklung eines magnetostrikti­ven Mikroaktors. In:Mikrosystemtechnik Kongress 2007. Dresden, Germany, 2007,S. 299–302[ACF97] Akiyama, T.; Collard, D.; Fujita, H.: Scratch Drive Actuator with Mechanical Links forSelf-Assembly of Three-Dimensional MEMS. In:Journal of MicroelectromechanicalSystems6 (1997), Nr. 1, S. 10–17[AEK+07] Arnold, M.; Eberhardt, W.; Kück, H.; Munz, G.; Warkentin, D.: Elektrostatisch an­getriebenes Mikroventil in MID-Technik. In:7. GMM/ETG-Fachtagung Innovative Klein-und Mikroantriebstechnik, Augsburg, 2007, S. 105–110[AH70]Alvarez, L. W.; Humphrey, W. E.:Variable-power lens and system. PatentschriftUS 3507565, 1970[AKKK14] Abas, Z.; Kim, H. S.; Kim, J.; Kim, J.-H.: Cellulose Electro-Active Paper: From Discovery toTechnology Applications. In:Frontiers in Materials1 (2014), September, Nr. 17, S. 1–4[ALN+04] Ando, T.; Li, X.; Nakao, S.; Kasai, T.; Shikidd, M.; Sato, K.: Effect of crystal orientationon fracture strength and fracture toughness of single crystal silicon. In:MEMS – 17thIEEE International Conference on Micro Electro Mechanical Systems, 2004, S. 177–180[Alv67]Alvarez, L. W.:Two-Element Variable-Power Spherical Lens. Patentschrift US 3305294,1967[Alv78]Alvarez, L. W.: Development of variable-focus lens and a new refractor. In:Journal ofthe American Optometric Association49 (1978), Nr. 1, S. 24–29[AM06]DLP-95 Auto Focus Lens Positioner Preliminary Data Sheet. Artificial Muscle, Inc., 2006[AOK+09] Aliev, A. E.; Oh, J.; Kozlov, M. E.; Kuznetsov, A. A.; Fang, S.; Fonseca, A. F.; Ovalle,R.; Lima, M. D.; Haque, M. H.; Gartstein, Y. N.; Zhang, M.; Zakhidov, A. A.; Baugh­man, R. H.: Giant-Stroke, Superelastic Carbon Nanotube Aerogel Muscles. In:Science323 (2009), Nr. 5921, S. 1575–1578[AS00]Atchison, D. A.; Smith, G.:Optics of the Human Eye. Butterworth Heinemann, 2000[AS03]An, Y.; Shaw, M. T.: Actuating properties of soft gels with ordered iron particles: basisfor a shear actuator. In:Smart Materials and Structures12 (2003), Nr. 2, S. 157–163[Asc07] Aschwanden, M.:Tunable Optical Elements based on Dielectric Elastomer Actuators,ETH Zurich, Dissertation, 2007[ASP+14] Alió, J.; Simonov, A.; Plaza, A. B.; Vega-Estrada, A.; Angelov, A.; Angelov, J.; Rom­bach, M.: Visual Outcomes and Accommodation Amplitude With a New AccommodativeIOL, the AkkoLens Lumina. In:Refractive Surgery 2014 – Mission 20/20 – The AnnualMeeting of ISRS,2014,S.25[Aug07] Augustin, A. J.:Augenheilkunde. 3. Auflage. Springer, 2007[AYM+02] Anquetil, P. A.; Yu, H.-H.; Madden, J. D.; Madden, P. G.; Swager, T. M.; Hunter, I. W.:Thiophene-based conducting polymer molecular actuators. In:Smart Structureshttps://doi.org/10.1515/9783110561418-008
© 2018 Walter de Gruyter GmbH, Berlin/Munich/Boston

Literatur[AA01]Auffarth, G. U.; Apple, D. J.: Zur Entwicklungsgeschichte der Intraokularlinsen. In:Der Ophthalmologe98 (2001), Nr. 11, S. 1017–1031[Abr89]Abrams, R. A.: Speed and Accuracy of Saccadic Eye Movements: Characteristics ofImpulse Variability in the Oculomotor System. In:Journal of Experimental Psychology:Human Perception and Performance15 (1989), Nr. 3, S. 529–543[ABRP09] Alió, J. L.; Ben-nun, J.; Rodríguez-Prats, J. L.; Plaza, Ana B.: Visual and accommo­dative outcomes 1 year after implantation of an accommodating intraocular lens ba­sed on a new concept. In:Journal of Cataract & Refractive Surgery35 (2009), Nr. 10,S. 1671–1678[ABSL07] Albach, T.; Baffoun, B.; Sutor, A.; Lerch, R.: Entwicklung eines magnetostrikti­ven Mikroaktors. In:Mikrosystemtechnik Kongress 2007. Dresden, Germany, 2007,S. 299–302[ACF97] Akiyama, T.; Collard, D.; Fujita, H.: Scratch Drive Actuator with Mechanical Links forSelf-Assembly of Three-Dimensional MEMS. In:Journal of MicroelectromechanicalSystems6 (1997), Nr. 1, S. 10–17[AEK+07] Arnold, M.; Eberhardt, W.; Kück, H.; Munz, G.; Warkentin, D.: Elektrostatisch an­getriebenes Mikroventil in MID-Technik. In:7. GMM/ETG-Fachtagung Innovative Klein-und Mikroantriebstechnik, Augsburg, 2007, S. 105–110[AH70]Alvarez, L. W.; Humphrey, W. E.:Variable-power lens and system. PatentschriftUS 3507565, 1970[AKKK14] Abas, Z.; Kim, H. S.; Kim, J.; Kim, J.-H.: Cellulose Electro-Active Paper: From Discovery toTechnology Applications. In:Frontiers in Materials1 (2014), September, Nr. 17, S. 1–4[ALN+04] Ando, T.; Li, X.; Nakao, S.; Kasai, T.; Shikidd, M.; Sato, K.: Effect of crystal orientationon fracture strength and fracture toughness of single crystal silicon. In:MEMS – 17thIEEE International Conference on Micro Electro Mechanical Systems, 2004, S. 177–180[Alv67]Alvarez, L. W.:Two-Element Variable-Power Spherical Lens. Patentschrift US 3305294,1967[Alv78]Alvarez, L. W.: Development of variable-focus lens and a new refractor. In:Journal ofthe American Optometric Association49 (1978), Nr. 1, S. 24–29[AM06]DLP-95 Auto Focus Lens Positioner Preliminary Data Sheet. Artificial Muscle, Inc., 2006[AOK+09] Aliev, A. E.; Oh, J.; Kozlov, M. E.; Kuznetsov, A. A.; Fang, S.; Fonseca, A. F.; Ovalle,R.; Lima, M. D.; Haque, M. H.; Gartstein, Y. N.; Zhang, M.; Zakhidov, A. A.; Baugh­man, R. H.: Giant-Stroke, Superelastic Carbon Nanotube Aerogel Muscles. In:Science323 (2009), Nr. 5921, S. 1575–1578[AS00]Atchison, D. A.; Smith, G.:Optics of the Human Eye. Butterworth Heinemann, 2000[AS03]An, Y.; Shaw, M. T.: Actuating properties of soft gels with ordered iron particles: basisfor a shear actuator. In:Smart Materials and Structures12 (2003), Nr. 2, S. 157–163[Asc07] Aschwanden, M.:Tunable Optical Elements based on Dielectric Elastomer Actuators,ETH Zurich, Dissertation, 2007[ASP+14] Alió, J.; Simonov, A.; Plaza, A. B.; Vega-Estrada, A.; Angelov, A.; Angelov, J.; Rom­bach, M.: Visual Outcomes and Accommodation Amplitude With a New AccommodativeIOL, the AkkoLens Lumina. In:Refractive Surgery 2014 – Mission 20/20 – The AnnualMeeting of ISRS,2014,S.25[Aug07] Augustin, A. J.:Augenheilkunde. 3. Auflage. Springer, 2007[AYM+02] Anquetil, P. A.; Yu, H.-H.; Madden, J. D.; Madden, P. G.; Swager, T. M.; Hunter, I. W.:Thiophene-based conducting polymer molecular actuators. In:Smart Structureshttps://doi.org/10.1515/9783110561418-008
© 2018 Walter de Gruyter GmbH, Berlin/Munich/Boston

Chapters in this book

  1. Frontmatter I
  2. Vorwort V
  3. Inhalt VII
  4. Abbildungsverzeichnis IX
  5. Tabellenverzeichnis XII
  6. 1. Einleitung 1
  7. 2. Neues Konzept für den Antrieb des Künstlichen Akkommodationssystems 27
  8. 3. Lösungen für Teilfunktionen des Antriebs 47
  9. 4. Gesamtlösungen für den Antrieb 91
  10. 5. Realisierung von Funktionsmustern des neuen Antriebs 125
  11. 6. Zusammenfassung 153
  12. Anhang 157
  13. Literatur 177
  14. Stichwortverzeichnis 207
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https://doi.org/10.1515/9783110561418-008

Chapters in this book

  1. Frontmatter I
  2. Vorwort V
  3. Inhalt VII
  4. Abbildungsverzeichnis IX
  5. Tabellenverzeichnis XII
  6. 1. Einleitung 1
  7. 2. Neues Konzept für den Antrieb des Künstlichen Akkommodationssystems 27
  8. 3. Lösungen für Teilfunktionen des Antriebs 47
  9. 4. Gesamtlösungen für den Antrieb 91
  10. 5. Realisierung von Funktionsmustern des neuen Antriebs 125
  11. 6. Zusammenfassung 153
  12. Anhang 157
  13. Literatur 177
  14. Stichwortverzeichnis 207
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