Control System Design for High-Speed Atomic Force Microscopy

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ISBN 13 :
Total Pages : pages
Book Rating : 4.:/5 (131 download)

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Book Synopsis Control System Design for High-Speed Atomic Force Microscopy by : Nastaran Nikooienejad

Download or read book Control System Design for High-Speed Atomic Force Microscopy written by Nastaran Nikooienejad and published by . This book was released on 2021 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: Video-rate atomic force microscopy is in high demand to visualize dynamic processes in realtime, whereas the functionality of a commercial atomic force microscope (AFM) is restricted to low-speed scans. In the past decades, extensive research efforts have aimed to reinforce the AFM structure toward high-speed atomic force microscopy. However, video-rate imaging of a relatively large scan area is still challenging due to the highly resonant nature of AFM and its conventional method of scanning. The AFM control system also needs to be significantly improved to harness the full potential of AFM mechanical structure at video rate and provide adequate robustness during scan. Therefore, besides the AFM configuration, scanning methods and control techniques contribute significantly to achieving the ultimate goal of sequential AFM imaging at video rate. This dissertation focuses on novel scanning methods and control design methodologies that facilitate sequential atomic force microscopy and improve positioning accuracy at high speed. First, we leverage a technique to smoothen the sequential cycloid trajectory and mitigate the sudden back and forth motions of a positioner in capturing successive frames of a scan. The resulting trajectory reduces the residual tracking error and enhances the AFM image quality. We also propose a systematic design methodology for a novel repetitive non-raster scan trajectory based on the rosette pattern. This pattern, generated by pure harmonic waveforms, can address the conventional issues with sequential non-raster imaging by enabling a smooth and continuous scan. We provide a thorvii ough mathematical analysis of the rosette pattern and a step-by-step design procedure for rosette scanning. We proceed by proposing high-precision model-based control design approaches for sequential AFM imaging using a microelectromechanical system (MEMS) nanopositioner. To precisely follow the reference setpoints in sequential cycloid and rosette scans, we design a tracking controller based on the internal model principle. The internal-model-based controller (IMBC) is intuitive and well-suited for tracking non-raster scan patterns. The controller incorporates the fundamental reference frequencies and their corresponding higher harmonics to reduce the deterministic error originated from uncompensated nonlinearities in the system. However, the resulting controller is of high order, and requires a priori knowledge of the dominant harmonics in the experimental tracking error. To resolve this, we develop a novel control scheme involving an internal-model-based control in feedback and an iterative learning control in feedforward. The internal-model-based controller only includes fundamental frequencies of the references while the iterative learning controller rejects the induced higher harmonics by learning from past experiences. The proposed control scheme is employed for tracking the rosette pattern at various scan rates. We investigate the performance of the proposed scanning methods and control techniques in closed-loop experiments. Finally, a series of high-quality images are obtained at high speed using a MEMS nanopositioner and a commercial AFM. A limiting factor toward high-speed atomic force microscopy is the lightly damped nature of the scanners. To increase the imaging bandwidth and scan speed, vibration control techniques have been practiced. Among them, fixed-structure strictly negative imaginary (SNI) controllers ensure robust stability of closed-loop system when the scanner incorporates collocated actuator and sensor pairs. In the third section of this dissertation, we present a convex synthesis of SNI controllers for a class of multi-input multi-output (MIMO) plants satisfying the negative imaginary property. The design procedure is based on the frequency response data of the plant, and the control objective is to minimize the distance between a desired and actual closed-loop frequency response. The controllers are experimentally implemented to augment damping to the fundamental resonant mode of a MEMS nanopositioner in a two-input two-output configuration.

Design and Control Optimization for High-speed Jumping Mode Atomic Force Microscope

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ISBN 13 :
Total Pages : 111 pages
Book Rating : 4.:/5 (1 download)

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Book Synopsis Design and Control Optimization for High-speed Jumping Mode Atomic Force Microscope by : Fangzhou Xia

Download or read book Design and Control Optimization for High-speed Jumping Mode Atomic Force Microscope written by Fangzhou Xia and published by . This book was released on 2017 with total page 111 pages. Available in PDF, EPUB and Kindle. Book excerpt: In this thesis, I improved the design of a high-speed Atomic Force Microscope (AFM) for jumping mode operation. The relations between important imaging parameters and physical limitations of the system were established first to identify the aspects of improvement. Two control algorithms to improve the imaging speed and probe sample interaction force for jumping mode atomic force microscopy operation have been proposed and investigated both in simulation and experiment. A new generation of multi-actuated sample scanner has been designed to address the dynamic coupling, thermal expansion and range issues in the previous design. Improvements to the optical beam deflection system, photodiode circuit, signal conditioning circuit and cantilever probe holder with actuators have been implemented. The combined optimization and design work improved the capability of the original custom made high-speed AFM setup in both subsystem performance and jumping mode operation.

Chaos Modeling and Control Systems Design

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Publisher : Springer
ISBN 13 : 331913132X
Total Pages : 417 pages
Book Rating : 4.3/5 (191 download)

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Book Synopsis Chaos Modeling and Control Systems Design by : Ahmad Taher Azar

Download or read book Chaos Modeling and Control Systems Design written by Ahmad Taher Azar and published by Springer. This book was released on 2014-12-03 with total page 417 pages. Available in PDF, EPUB and Kindle. Book excerpt: The development of computational intelligence (CI) systems was inspired by observable and imitable aspects of intelligent activity of human being and nature. The essence of the systems based on computational intelligence is to process and interpret data of various nature so that that CI is strictly connected with the increase of available data as well as capabilities of their processing, mutually supportive factors. Developed theories of computational intelligence were quickly applied in many fields of engineering, data analysis, forecasting, biomedicine and others. They are used in images and sounds processing and identifying, signals processing, multidimensional data visualization, steering of objects, analysis of lexicographic data, requesting systems in banking, diagnostic systems, expert systems and many other practical implementations. This book consists of 15 contributed chapters by subject experts who are specialized in the various topics addressed in this book. The special chapters have been brought out in the broad areas of Control Systems, Power Electronics, Computer Science, Information Technology, modeling and engineering applications. Special importance was given to chapters offering practical solutions and novel methods for the recent research problems in the main areas of this book, viz. Control Systems, Modeling, Computer Science, IT and engineering applications. This book will serve as a reference book for graduate students and researchers with a basic knowledge of control theory, computer science and soft-computing techniques. The resulting design procedures are emphasized using Matlab/Simulink software.

High-Speed Atomic Force Microscopy in Biology

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Publisher : Springer Nature
ISBN 13 : 3662647850
Total Pages : 327 pages
Book Rating : 4.6/5 (626 download)

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Book Synopsis High-Speed Atomic Force Microscopy in Biology by : Toshio Ando

Download or read book High-Speed Atomic Force Microscopy in Biology written by Toshio Ando and published by Springer Nature. This book was released on 2022-03-23 with total page 327 pages. Available in PDF, EPUB and Kindle. Book excerpt: This first book on high-speed atomic force microscopy (HS-AFM) is intended for students and biologists who want to use HS-AFM in their research. It provides straightforward explanations of the principle and techniques of AFM and HS-AFM. Numerous examples of HS-AFM studies on proteins demonstrate how to apply this new form of microscopy to specific biological problems. Several precautions for successful imaging and the preparation of cantilever tips and substrate surfaces will greatly benefit first-time users of HS-AFM. In turn, the instrumentation techniques detailed in Chapter 4 can be skipped, but will be useful for engineers and scientists who want to develop the next generation of high-speed scanning probe microscopes for biology. The book is intended to facilitate the first-time use of this new technique, and to inspire students and researchers to tackle their own specific biological problems by directly observing dynamic events occurring in the nanoscopic world. Microscopy in biology has recently entered a new era with the advent of high-speed atomic force microscopy (HS-AFM). Unlike optical microscopy, electron microscopy, and conventional slow AFM, it allows us to directly observe biological molecules in physiological environments. Molecular “movies” created using HS-AFM can directly reveal how molecules behave and operate, without the need for subsequent complex analyses and roundabout interpretations. It also allows us to directly monitor morphological change in live cells, and dynamic molecular events occurring on the surfaces of living bacteria and intracellular organelles. As HS-AFM instruments were recently commercialized, in the near future HS-AFM is expected to become a common tool in biology, and will enhance and accelerate our understanding of biological phenomena.

Control Technologies for Emerging Micro and Nanoscale Systems

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Publisher : Springer
ISBN 13 : 3642221734
Total Pages : 300 pages
Book Rating : 4.6/5 (422 download)

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Book Synopsis Control Technologies for Emerging Micro and Nanoscale Systems by : Evangelos Eleftheriou

Download or read book Control Technologies for Emerging Micro and Nanoscale Systems written by Evangelos Eleftheriou and published by Springer. This book was released on 2011-07-15 with total page 300 pages. Available in PDF, EPUB and Kindle. Book excerpt: This book comprises a selection of the presentations made at the “Workshop on Dynamics and Control of Micro and Nanoscale Systems” held at IBM Research – Zurich, Switzerland, on the 10th and 11th of December 2009. The aim of the workshop was to bring together some of the leading researchers in the field of dynamics and control of micro- and nanoscale systems. It proved an excellent forum for discussing new ideas and approaches.

Design and Control of High-speed and Large-range Atomic Force Microscope

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ISBN 13 :
Total Pages : 227 pages
Book Rating : 4.:/5 (93 download)

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Book Synopsis Design and Control of High-speed and Large-range Atomic Force Microscope by : Iman Soltani Bozchalooi

Download or read book Design and Control of High-speed and Large-range Atomic Force Microscope written by Iman Soltani Bozchalooi and published by . This book was released on 2015 with total page 227 pages. Available in PDF, EPUB and Kindle. Book excerpt: This thesis presents the design, control and instrumentation of a novel atomic force microscope (AFM). This AFM is capable of high-speed imaging while maintaining large out-of-plane and lateral scan ranges. The primary contributions of this thesis include the design and implementation of a high-speed and large-range AFM; design, implementation and control of a multi-actuated nano-positioner; development of a general direct data-based control design scheme for redundantly actuated nano-positioners; design and implementation of a non-linear amplitude demodulation method for tapping mode imaging; and development of a parameter estimation methodology for piezo actuator hysteresis modeling and compensation. Atomic force microscopes can provide nano-scale resolution images of sample surface topography in air, vacuum or in liquid. This instrument operates by scanning a micro-mechanical probe on a sample. A measurement of the probe-sample interaction is used to control the AFM scanner and also form a 3D image of the sample surface topography. The mechanical nature and the serial-point-collection bases of operation of this instrument significantly limits its speed and constrains its application to the study of static samples. Unlocking the high-speed performance capability of AFM enables study of dynamic nano-scale processes and opens up the possibility of novel scientific discoveries. Improving the speed performance of AFM however, should not compromise imaging range so that the instrument can accommodate imaging experiments with diverse lateral and out-of-plane scan range requirements. In addition to high-speed and large-range performance, instrument flexibility and ease of use are very important. An AFM should allow samples of different sizes, and provide a simple platform for setting up the imaging experiment. In this work all the components of the AFM are designed to meet these specifications. A multi-actuated scanner is designed and built that is composed of five nano-positioners with different range and bandwidth characteristics. Through redundant actuation this nano-positioner is capable of operating at high speeds and over large lateral and out-of-plane scan ranges. A general data-based compensator design methodology for the control of redundantly actuated nano-positioners is developed. In the proposed approach the compensators are obtained directly from the measured scanner actuator response, without any intermediate modeling. This feature makes updating or tuning the associated parameters easier. The flexibility of AFM control is maintained by designing these compensators auxiliary to a PID control unit. It is shown that in this form, a PID controller suffices to meet the needs of high-speed atomic force microscopy. This approach to control design is also used in the thesis to retroactively enhance existing AFMs operating on both flexure-based scanners and piezo-tubes. To improve the positioning accuracy of the scanner we proposed a more accurate parameter estimation scheme for the Maxwell model of hysteresis extended to the full hysteresis loop. Finally, to enable operation of AFMs with probe arrays in tapping mode a non-linear demodulation method based on the Teager Energy Operator is designed and implemented in both analog and digital forms. The main advantage of this technique is simplicity, enabling implementation of hundreds of these operators in digital form on FPGAs (Field Programmable Gate Arrays) or in ASIC (Application-Specific Integrated Circuit) form on AFM probe arrays for parallel sensing. The developments of this thesis form the bases for the design and implementation of a novel AFM. The implemented instrument is capable of high-speed imaging and simultaneously achieves 6 [mu]m out-of-plane and 120 [mu]m lateral scan ranges making it the largest range high-speed AFM reported to this date. This instrument also features a modular design with a laser spot size of 3.5 [mu]m compatible with small cantilevers, an optical view of the sample and probe for site selection and laser adjustment, a conveniently large (15 mm) waterproof sample stage that accommodates samples with various sizes and a data logging and plotting system with 20 MHz throughput for high resolution image acquisition at high imaging speeds. The designed AFM is used to visualize etching of calcite in a solution of sulfuric acid. Layer-by-layer dissolution along the crystalline lines in a low pH environment is observed in real time and the corresponding dissolution rate is estimated. The designed AFM is also used to visualize in real time the nucleation, growth and striping of copper on gold for the first time.

Advances in High-Speed Atomic Force Microscopy

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Publisher :
ISBN 13 :
Total Pages : 209 pages
Book Rating : 4.:/5 (15 download)

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Book Synopsis Advances in High-Speed Atomic Force Microscopy by : Pascal Nievergelt

Download or read book Advances in High-Speed Atomic Force Microscopy written by Pascal Nievergelt and published by . This book was released on 2018 with total page 209 pages. Available in PDF, EPUB and Kindle. Book excerpt: Mots-clés de l'auteur: Atomic force microscopy (AFM) ; high--speed AFM ; photothermal excitation ; scanner design ; control system design ; off-resonance tapping AFM ; open hardware ; protein--protein dynamics ; live cell imaging.

The Design of High Performance Mechatronics - 3rd Revised Edition

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Publisher : IOS Press
ISBN 13 : 164368051X
Total Pages : 949 pages
Book Rating : 4.6/5 (436 download)

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Book Synopsis The Design of High Performance Mechatronics - 3rd Revised Edition by : R. Munnig Schmidt

Download or read book The Design of High Performance Mechatronics - 3rd Revised Edition written by R. Munnig Schmidt and published by IOS Press. This book was released on 2020-02-05 with total page 949 pages. Available in PDF, EPUB and Kindle. Book excerpt: Since they entered our world around the middle of the 20th century, the application of mechatronics has enhanced our lives with functionality based on the integration of electronics, control systems and electric drives. This book deals with the special class of mechatronics that has enabled the exceptional levels of accuracy and speed of high-tech equipment applied in the semiconductor industry, realising the continuous shrink in detailing of micro-electronics and MEMS. As well as the more frequently presented standard subjects of dynamics, motion control, electronics and electromechanics, this book includes an overview of systems engineering, optics and precision measurement systems, in an attempt to establish a connection between these fields under one umbrella. Robert Munnig Schmidt is emeritus professor in Mechatronic System Design at Delft University of Technology with industrial experience at Philips and ASML in research and development of consumer and high-tech systems. He is also director of RMS Acoustics & Mechatronics, doing research and development on active controlled low frequency sound systems. Georg Schitter is professor at the Automation and Control Institute (ACIN) at Vienna University of Technology with a standing track record in research on the control and mechatronic design of extremely fast precision motion systems such as video rate AFM systems. Adrian Rankers is managing partner of Mechatronics Academy, developing and delivering high level courses to the industrial community, based on industrial experience at Philips in the research and development of consumer and high-tech systems. He also teaches Mechatronics at the Eindhoven University of Technology. Jan van Eijk is emeritus professor in Advanced Mechatronics at Delft University of Technology. He is also director of MICE BV and partner at Mechatronics Academy, acting as industrial R&D advisor and teacher with experience at Philips in the research and development of consumer and high-tech systems.

Design, Modeling and Control of Nanopositioning Systems

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Publisher : Springer
ISBN 13 : 331906617X
Total Pages : 418 pages
Book Rating : 4.3/5 (19 download)

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Book Synopsis Design, Modeling and Control of Nanopositioning Systems by : Andrew J. Fleming

Download or read book Design, Modeling and Control of Nanopositioning Systems written by Andrew J. Fleming and published by Springer. This book was released on 2014-05-15 with total page 418 pages. Available in PDF, EPUB and Kindle. Book excerpt: Covering the complete design cycle of nanopositioning systems, this is the first comprehensive text on the topic. The book first introduces concepts associated with nanopositioning stages and outlines their application in such tasks as scanning probe microscopy, nanofabrication, data storage, cell surgery and precision optics. Piezoelectric transducers, employed ubiquitously in nanopositioning applications are then discussed in detail including practical considerations and constraints on transducer response. The reader is then given an overview of the types of nanopositioner before the text turns to the in-depth coverage of mechanical design including flexures, materials, manufacturing techniques, and electronics. This process is illustrated by the example of a high-speed serial-kinematic nanopositioner. Position sensors are then catalogued and described and the text then focuses on control. Several forms of control are treated: shunt control, feedback control, force feedback control and feedforward control (including an appreciation of iterative learning control). Performance issues are given importance as are problems limiting that performance such as hysteresis and noise which arise in the treatment of control and are then given chapter-length attention in their own right. The reader also learns about cost functions and other issues involved in command shaping, charge drives and electrical considerations. All concepts are demonstrated experimentally including by direct application to atomic force microscope imaging. Design, Modeling and Control of Nanopositioning Systems will be of interest to researchers in mechatronics generally and in control applied to atomic force microscopy and other nanopositioning applications. Microscope developers and mechanical designers of nanopositioning devices will find the text essential reading.

High Speed Atomic Force Microscopy

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ISBN 13 :
Total Pages : pages
Book Rating : 4.:/5 (67 download)

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Book Synopsis High Speed Atomic Force Microscopy by : Younkoo Jeong

Download or read book High Speed Atomic Force Microscopy written by Younkoo Jeong and published by . This book was released on 2009 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: Abstract: Since its introduction more than twenty years ago, Atomic Force Microscopy (AFM) has extended its application areas from material science to biology or biophysics, based on its capability to image/manipulate objects in various environments with sub-nanometer spatial resolution in three dimensions. Among the two most commonly used modes, the dynamic (tapping) mode has a great advantage over contact mode when imaging soft materials, minimizing potentially destructive shear and adhesive forces on the sample. The amplitude modulation is the most commonly used control method in the dynamic mode of AFM, in which the oscillation amplitude of the cantilever is regulated. However, in typical implementations, due to tapping dynamics of the AFM cantilevers, the transient response of the cantilever induced by changes of the tip-sample interaction force leads to greater variations in tip-sample interaction via feedback, causing excessive tapping forces and/or possible loss of tapping during the scanning, and thus greater sample distortions and imaging errors. In addition, the low bandwidth of the actuators in conventional AFMs, such as the z-positioner and the raster scanner limits the scanning speed. Therefore, while dynamic mode AFM has many potential applications, the inability to achieve direct and precise control of the tip-sample interaction forces and the low bandwidth of actuators for the tip-sample separation control and the raster scanning have been key barriers which imaging rate and inhibit innovation leading to new applications. In this research, the design, actuation and control of a new generation AFM probing system which enables high-speed and high-resolution imaging of samples are investigated. In order to achieve direct tip-sample interaction control during the scanning, a novel dynamic sensing and control method are implemented, in which the tip-sample interaction force of each tapping cycle is estimated and subsequently controlled for dynamic force microscopy. By employing collocated magnetic actuation of the AFM cantilever and dual-actuator tip-motion control scheme, the high bandwidth tip-motion control, whose bandwidth is comparable to that of the cantilever, the dynamics over-damped, and the motion range comparable to that of conventional z-scanner is achieved. For the high bandwidth raster scanning as well as high bandwidth tip-sample separation control, active multi-axis probing system is implemented, in which multi-axis magnetic actuators along with a multi-axis probe with one magnetic moment, specially designed and fabricated for the multi-axis actuation, achieves high bandwidth multi-axis tip-motion control along the Z axis and the X axis. In order to achieve the high resolution imaging, a low noise laser measurement system is implemented and integrated to a commercial AFM (MFP3D, Asylum research). For the implementation of the direct tip-sample interaction control and high bandwidth active multi-axis probing system, high speed programmable digital controller is developed using field programmable gate array (FPGA) whose closed loop update rate is two orders of magnitude higher than commercially available ones. The results of scanning a standard grating whose pitch is 100nm and a biological grating (repeating protein structure on purple membranes) whose lateral pitch is about 6.2 nm using the high speed AFM are presented and discussed.

High-Speed Precision Motion Control

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Publisher : CRC Press
ISBN 13 : 1439867275
Total Pages : 324 pages
Book Rating : 4.4/5 (398 download)

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Book Synopsis High-Speed Precision Motion Control by : Takashi Yamaguchi

Download or read book High-Speed Precision Motion Control written by Takashi Yamaguchi and published by CRC Press. This book was released on 2017-07-12 with total page 324 pages. Available in PDF, EPUB and Kindle. Book excerpt: Edited by Takashi Yamaguchi, Mitsuo Hirate, and Chee Khiang Pang, with contributions from pioneers known for their ground-breaking work, High-Speed Precision Motion Control discusses high-precision and fast servo controls in hard disk drives (HDDs). The chapter authors describe the control technologies they’ve developed, most of which have already been successfully applied to mass production of HDDs. As the proposed methodologies have been verified on commercial HDDs at the very least, these advanced control technologies can also be readily applied to precision motion control of other mechatronic systems, e.g., scanners, micro-positioners, photocopiers, atomic force microscopes (AFMs), etc. Each self-contained chapter progresses from concept to technique and presents application examples in automotive, aerospace, aeronautical, and manufacturing engineering. The control technologies are categorized into high-speed servo control, precision control, and environment-friendly control, making it easy to find an appropriate control technology according to their domain of application. The book also makes MATLAB®/SIMULINK® codes for benchmark problems available for download. The control technologies described range from fundamental classical control theories to advanced topics such as multi-rate control. The content contains a healthy balance between materials from the contributor’s research works and that in the wider literature. The resulting resource empowers engineers and managers with the knowledge and know-how to make important decisions and policies.

Control Technologies for Emerging Micro and Nanoscale Systems

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Publisher : Springer Science & Business Media
ISBN 13 : 3642221726
Total Pages : 300 pages
Book Rating : 4.6/5 (422 download)

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Book Synopsis Control Technologies for Emerging Micro and Nanoscale Systems by : Evangelos Eleftheriou

Download or read book Control Technologies for Emerging Micro and Nanoscale Systems written by Evangelos Eleftheriou and published by Springer Science & Business Media. This book was released on 2011-07-15 with total page 300 pages. Available in PDF, EPUB and Kindle. Book excerpt: This book comprises a selection of the presentations made at the “Workshop on Dynamics and Control of Micro and Nanoscale Systems” held at IBM Research – Zurich, Switzerland, on the 10th and 11th of December 2009. The aim of the workshop was to bring together some of the leading researchers in the field of dynamics and control of micro- and nanoscale systems. It proved an excellent forum for discussing new ideas and approaches.

Handbook of Research on Advanced Intelligent Control Engineering and Automation

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Publisher : IGI Global
ISBN 13 : 1466672498
Total Pages : 795 pages
Book Rating : 4.4/5 (666 download)

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Book Synopsis Handbook of Research on Advanced Intelligent Control Engineering and Automation by : Azar, Ahmad Taher

Download or read book Handbook of Research on Advanced Intelligent Control Engineering and Automation written by Azar, Ahmad Taher and published by IGI Global. This book was released on 2014-11-30 with total page 795 pages. Available in PDF, EPUB and Kindle. Book excerpt: In industrial engineering and manufacturing, control of individual processes and systems is crucial to developing a quality final product. Rapid developments in technology are pioneering new techniques of research in control and automation with multi-disciplinary applications in electrical, electronic, chemical, mechanical, aerospace, and instrumentation engineering. The Handbook of Research on Advanced Intelligent Control Engineering and Automation presents the latest research into intelligent control technologies with the goal of advancing knowledge and applications in various domains. This text will serve as a reference book for scientists, engineers, and researchers, as it features many applications of new computational and mathematical tools for solving complicated problems of mathematical modeling, simulation, and control.

Feedback Control of MEMS to Atoms

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Publisher : Springer Science & Business Media
ISBN 13 : 1441958312
Total Pages : 386 pages
Book Rating : 4.4/5 (419 download)

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Book Synopsis Feedback Control of MEMS to Atoms by : Jason J. Gorman

Download or read book Feedback Control of MEMS to Atoms written by Jason J. Gorman and published by Springer Science & Business Media. This book was released on 2011-12-16 with total page 386 pages. Available in PDF, EPUB and Kindle. Book excerpt: Control from MEMS to Atoms illustrates the use of control and control systems as an essential part of functioning integrated systems. The book is organized according to the dimensional scale of the problem, starting with micro-scale systems and ending with atomic-scale systems. Similar to macro-scale machines and processes, control systems can play a major role in improving the performance of micro- and nano-scale systems and in enabling new capabilities that would otherwise not be possible. However, the majority of problems at these scales present many new challenges that go beyond the current state-of-the-art in control engineering. This is a result of the multidisciplinary nature of micro/nanotechnology, which requires the merging of control engineering with physics, biology and chemistry.

Feedback Control of MEMS to Atoms

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Publisher : Springer Science & Business Media
ISBN 13 : 1441958320
Total Pages : 386 pages
Book Rating : 4.4/5 (419 download)

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Book Synopsis Feedback Control of MEMS to Atoms by : Jason J. Gorman

Download or read book Feedback Control of MEMS to Atoms written by Jason J. Gorman and published by Springer Science & Business Media. This book was released on 2011-12-17 with total page 386 pages. Available in PDF, EPUB and Kindle. Book excerpt: Control from MEMS to Atoms illustrates the use of control and control systems as an essential part of functioning integrated systems. The book is organized according to the dimensional scale of the problem, starting with micro-scale systems and ending with atomic-scale systems. Similar to macro-scale machines and processes, control systems can play a major role in improving the performance of micro- and nano-scale systems and in enabling new capabilities that would otherwise not be possible. However, the majority of problems at these scales present many new challenges that go beyond the current state-of-the-art in control engineering. This is a result of the multidisciplinary nature of micro/nanotechnology, which requires the merging of control engineering with physics, biology and chemistry.

Intelligent Robotics and Applications

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Publisher : Springer
ISBN 13 : 3642408494
Total Pages : 767 pages
Book Rating : 4.6/5 (424 download)

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Book Synopsis Intelligent Robotics and Applications by : Jangmyung Lee

Download or read book Intelligent Robotics and Applications written by Jangmyung Lee and published by Springer. This book was released on 2013-08-23 with total page 767 pages. Available in PDF, EPUB and Kindle. Book excerpt: This two volume set LNAI 8102 and LNAI 8103 constitutes the refereed proceedings of the 6th International Conference on Intelligent Robotics and Applications, ICIRA 2013, held in Busan, South Korea, in September 2013. The 147 revised full papers presented were carefully reviewed and selected from 184 submissions. The papers discuss various topics from intelligent robotics, automation and mechatronics with particular emphasis on technical challenges associated with varied applications such as biomedical application, industrial automation, surveillance and sustainable mobility.

A System Dynamics Approach to User Independence in High Speed Atomic Force Microscopy

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Publisher :
ISBN 13 :
Total Pages : 146 pages
Book Rating : 4.:/5 (74 download)

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Book Synopsis A System Dynamics Approach to User Independence in High Speed Atomic Force Microscopy by : Daniel James Burns

Download or read book A System Dynamics Approach to User Independence in High Speed Atomic Force Microscopy written by Daniel James Burns and published by . This book was released on 2010 with total page 146 pages. Available in PDF, EPUB and Kindle. Book excerpt: As progress in molecular biology and nanotechnology continues, demand for rapid and high quality image acquisition has increased to the point where the limitations of atomic force microscopes (AFM) become impediments to further discovery. Many biological processes of interest occur on time scales faster than the observation capability of conventional AFMs, which are typically limited to imaging rates on the order of minutes. Imaging at faster scan rates excite resonances in the mechanical scanner that can distort the image, thereby preventing higher speed imaging. Although traditional robust feedforward controllers and input shaping have proven effective at minimizing the influence of scanner distortions, the lack of direct measurement and use of model-based controllers has required disassembling the microscope to access lateral motion with external sensors in order to perform a full system identification experiment, which places excessive demands on routine microscope operators. This work represents a new way to characterize the lateral scanner dynamics without addition of lateral sensors, and shape the commanded input signals in such a way that disturbing dynamics are not excited in an automatic and user-independent manner. Scanner coupling between the lateral and out-of-plane directions is exploited and used to build a minimal model of the scanner that is also sufficient to describe the source of the disturbances. This model informs the design of an online input shaper used to suppress components of the high speed command signals. The method presented is distinct from alternate approaches in that neither an information-complete system identification experiment, nor microscope modification are required. This approach has enabled an increase in the scan rates of unmodified commercial AFMs from 1-4 lines/second to over 100 lines/second and has been successfully applied to a custom-built high speed AFM, unlocking scan rates of over 1,600 lines/second. Images from this high speed AFM have been taken at more than 10 frames/second. Additionally, bulky optical components for sensing cantilever deflection and low bandwidth actuators constrain the AFM's potential observations, and the increasing instrument complexity requires operators skilled in optical alignment and controller tuning. Recent progress in MEMS fabrication has allowed the development of a new type of AFM cantilever with an integrated sensor and actuator. Such a fully instrumented cantilever enables direct measurement and actuation of the cantilever motion and interaction with the sample, eliminating the need for microscope operators to align the bulky optical components. This technology is expected to not only allow for high speed imaging but also the miniaturization of AFMs and expand their use to new experimental environments. Based on the complexity of these integrated MEMS devices, a thorough understanding of their behavior and a specialized controls approach is needed to guide non-expert users in their operation and extract high performance. The intrinsic properties of such MEMS cantilevers are investigated, and a combined approach is developed for sensing and control, optimized for high speed detection and actuation.