Autonomous Robot-Aided Optical Manipulation for Biological Cells
Autor Mingyang Xieen Limba Engleză Paperback – 17 mai 2021
To achieve biomedical applications, reliability design, modeling, and precision control are vitally important for the development of engineering systems. With the advances in modeling, sensing, and control techniques, it is opportunistic to exploit them for the benefit of reliability design, actuation, and precision control of micro/nanomanipulation systems to expanding the applications of robot at the micro and nano scales, especially in biomedical engineering.
This book presents new techniques in reliability modeling and advanced control of robot-aided optical manipulation of biological cells systems. The book will be beneficial to the researchers within robotics, mechatronics, biomedical engineering, and automatic control society, including both academic and industrial parts.
- Provides a series of latest results in, including but not limited to, design, sensing, actuation, modeling, and control of micro/nano manipulation system using optical tweezers
- Gives recent advances of theory, technological aspects, and applications of advanced sensing, actuation, modeling and control methodologies in biomedical engineering applications
- Offers simulation and experimental results in each chapter in order to reflect the biomedical engineering practice, yet demonstrate the main focus of the developed design, analysis and synthesis approaches
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Specificații
ISBN-13: 9780128234495
ISBN-10: 0128234490
Pagini: 190
Dimensiuni: 152 x 229 x 14 mm
Greutate: 0.26 kg
Editura: ELSEVIER SCIENCE
ISBN-10: 0128234490
Pagini: 190
Dimensiuni: 152 x 229 x 14 mm
Greutate: 0.26 kg
Editura: ELSEVIER SCIENCE
Cuprins
Section A: Principle of optical manipulation of biological cells1. Principle of Optical Tweezers Trapping2. Principle of Holographic Optical Tweezers coherence of the edited book volume3. Modeling of robot-tweezers manipulation of biological cells
Section B: Autonomous Frameworks for Cell Position Control4. Direct optical manipulation of biological cells5. Indirect optical manipulation of biological cells6. Advanced intelligent control techniques for cell position control7. Advances cell orientation control8. Integrated optical tweezers with other manipulation platforms
Section C: Case studies9. Cell sorting, arraying, pairing and patterning using cell positioning techniques10. Cell fusion using cell positioning techniques11. Cell injection using combined cell positioning and reorientation techniques12. Cell biopsy using combined cell positioning and reorientation techniques13. Current challenges and future research directions of optical manipulation of biological cells
Section B: Autonomous Frameworks for Cell Position Control4. Direct optical manipulation of biological cells5. Indirect optical manipulation of biological cells6. Advanced intelligent control techniques for cell position control7. Advances cell orientation control8. Integrated optical tweezers with other manipulation platforms
Section C: Case studies9. Cell sorting, arraying, pairing and patterning using cell positioning techniques10. Cell fusion using cell positioning techniques11. Cell injection using combined cell positioning and reorientation techniques12. Cell biopsy using combined cell positioning and reorientation techniques13. Current challenges and future research directions of optical manipulation of biological cells