By Mary Mehrnoosh Eshaghian-Wilner
Brings the newest advances in nanotechnology and biology to computing
This pioneering e-book demonstrates how nanotechnology can create even swifter, denser computing architectures and algorithms. moreover, it attracts from the most recent advances in biology with a spotlight on bio-inspired computing on the nanoscale, bringing to mild a number of new and cutting edge functions corresponding to nanoscale implantable biomedical units and neural networks.
Bio-Inspired and Nanoscale built-in Computing good points a professional staff of interdisciplinary authors who provide readers the advantage of their very own breakthroughs in built-in computing in addition to a radical research and analyses of the literature. conscientiously edited, the booklet starts with an introductory bankruptcy supplying a common evaluate of the sector. It ends with a bankruptcy environment forth the typical subject matters that tie the chapters jointly in addition to a forecast of rising avenues of study.
one of the vital issues addressed within the e-book are modeling of nano units, quantum computing, quantum dot mobile automata, dielectrophoretic reconfigurable nano architectures, multilevel and third-dimensional nanomagnetic recording, spin-wave architectures and algorithms, fault-tolerant nanocomputing, molecular computing, self-assembly of supramolecular nanostructures, DNA nanotechnology and computing, nanoscale DNA series matching, scientific nanorobotics, heterogeneous nanostructures for biomedical diagnostics, biomimetic cortical nanocircuits, bio-applications of carbon nanotubes, and nanoscale photograph processing.
Readers in electric engineering, laptop technological know-how, and computational biology will achieve new insights into how bio-inspired and nanoscale units can be utilized to layout the subsequent new release of stronger built-in circuits.Content:
Chapter 1 An creation to Nanocomputing (pages 1–30): Elaine Ann Ebreo Cara, Stephen Chu, Dr. Mary Mehrnoosh Eshaghian?Wilner, Eric Mlinar, Dr. Alireza Nojeh, Fady Rofail, Michael M. Safaee, Shawn Singh, Daniel Wu and Chun Wing Yip
Chapter 2 Nanoscale units: purposes and Modeling (pages 31–65): Dr. Alireza Nojeh
Chapter three Quantum Computing (pages 67–109): Dr. John H. Reif
Chapter four Computing with Quantum?Dot mobile Automata (pages 111–153): Dr. Konrad Walus and Dr. Graham A. Jullien
Chapter five Dielectrophoretic Architectures (pages 155–173): Alexander D. Wissner?Gross
Chapter 6 Multilevel and Three?Dimensional Nanomagnetic Recording (pages 175–201): Dr. S. Khizroev, R. Chomko, Dr. I. Dumer and Dr. D. Litvinov
Chapter 7 Spin?Wave Architectures (pages 203–223): Dr. Mary Mehrnoosh Eshaghian?Wilner, Alex Khitun, Dr. Shiva Navab and Dr. Kang L. Wang
Chapter eight Parallel Computing with Spin Waves (pages 225–241): Dr. Mary Mehrnoosh Eshaghian?Wilner and Dr. Shiva Navab
Chapter nine Nanoscale general electronic Modules (pages 243–261): Dr. Shiva Navab
Chapter 10 Fault? and Defect?Tolerant Architectures for Nanocomputing (pages 263–293): Sumit Ahuja, Gaurav Singh, Debayan Bhaduri and Sandeep Shukla
Chapter eleven Molecular Computing: Integration of Molecules for Nanocomputing (pages 295–326): Dr. James M. travel and Dr. Lin Zhong
Chapter 12 Self?Assembly of Supramolecular Nanostructures: Ordered Arrays of steel Ions and Carbon Nanotubes (pages 327–348): Dr. Mario Ruben
Chapter thirteen DNA Nanotechnology and its organic purposes (pages 349–375): Dr. John H. Reif and Dr. Thomas H. LaBean
Chapter 14 DNA series Matching at Nanoscale point (pages 377–389): Dr. Mary Mehrnoosh Eshaghian?Wilner, Ling Lau, Dr. Shiva Navab and David D. Shen
Chapter 15 Computational projects in clinical Nanorobotics (pages 391–428): Dr. Robert A. Freitas
Chapter sixteen Heterogeneous Nanostructures for Biomedical Diagnostics (pages 429–453): Dr. Hongyu Yu, Mahsa Rouhanizadeh, Lisong Ai and Tzung ok. Hsiai
Chapter 17 Biomimetic Cortical Nanocircuits (pages 455–482): Dr. Alice C. Parker, Aaron okay. Friesz and Ko?Chung Tseng
Chapter 18 Biomedical and Biomedicine functions of CNTs (pages 483–514): Dr. Tulin Mangir
Chapter 19 Nanoscale photo Processing (pages 515–534): Dr. Mary Mehrnoosh Eshaghian?Wilner and Dr. Shiva Navab
Chapter 20 Concluding feedback at the start of a brand new Computing period (pages 535–545): Varun Bhojwani, Stephen Chu, Dr. Mary Mehrnoosh Eshaghian?Wilner, Shawn Singh and Chun Wing Yip
Read or Download Bio-Inspired and Nanoscale Integrated Computing PDF
Similar biomedical engineering books
Supplying a starting place in warmth and mass shipping, this ebook covers engineering ideas of warmth and mass move. the writer discusses organic content material, context, and parameter regimes and provides sensible functions for organic and biomedical engineering, commercial nutrition processing, environmental regulate, and waste administration.
With the increase of complex automated info assortment structures, tracking units, and instrumentation applied sciences, huge and intricate datasets accrue as an inevitable a part of biomedical firm. the provision of those great quantities of information deals exceptional possibilities to improve our realizing of underlying organic and physiological features, buildings, and dynamics.
Biotechnology is an expansive box incorporating services in either the existence technology and engineering disciplines. In biotechnology, the scientist is anxious with constructing the main favorable biocatalysts, whereas the engineer is directed in the direction of strategy functionality, defining stipulations and techniques that may maximize the construction power of the biocatalyst.
This authoritative ebook on MALDI MS, now ultimately to be had in its moment version and edited by means of one in every of its inventors, supplies an in-depth description of the numerous assorted purposes, in addition to a close dialogue of the expertise itself. completely up to date and elevated, with contributions from key avid gamers within the box, this distinctive ebook offers a accomplished assessment of MALDI MS besides its percentages and boundaries.
- M-health: fundamentals and applications
- The Illustrated Wavelet Transform Handbook
- Snapshots of Hemodynamics: An Aid for Clinical Research and Graduate Education
- Handbook of Anatomical Models for Radiation Dosimetry (Series in Medical Physics and Biomedical Engineering)
- Usability Testing of Medical Devices
- Computer-Assisted Drug Design
Extra resources for Bio-Inspired and Nanoscale Integrated Computing
W. Shor. Algorithms for Quantum Computation: Discrete Logarithms and Factoring. IEEE Symposium on Foundations of Computer Science: pp 124–134, 1994. 34. L. M. Vandersypen, M. Steffen, G. Breyta, C. S. Yannoni, M. H. Sherwood, and I. L. Chuang. Experimental realization of Shor’s quantum factoring algorithm using nuclear magnetic resonance. Nature, 414: pp 883–887, Dec 2001. 35. N. L. Kedersha, D. F. Hill, K. E. Kronquist, L. H. Rome. H. Subpopulations of liver coated vesicles resolved by preparative agarose gel electrophoresis.
Computational Tasks in Medical Nanorobotics. Insitute for Molecular Manufacturing, 2007. 42. P. Chapman. Nanotechnology in the pharmaceutical industry. Expert Opinion on Theraperutic Patients. 15(3): pp. 249–255, 2005. 43. G. A. Silva. Introduction to nanotechnology and its applications to medicine: applying nanotechnology to medicine. Surgical Neurology, 61: pp 216–220, 2004. 30 CHAPTER 1: AN INTRODUCTION TO NANOCOMPUTING 44. G. A. Silva. Neurosicence nanotechnology: progress, opportunities, and challenges.
P. W. Rothemund, N. Papadakis, and E. Winfree. Algorithmic self-assembly of DNA sierpinski triangles. PLoS Biology, 2(12): Dec 2004. 31. P. W. Rothemund. Folding DNA to create nanoscale shapes and patterns. Nature, 440: pp 297–302, 2006. 32. M. A. Nielsen and Isaac L. Chuang. Quantum Computation and Quantum Information. Cambridge: Cambridge University Press, 2000. 33. P. W. Shor. Algorithms for Quantum Computation: Discrete Logarithms and Factoring. IEEE Symposium on Foundations of Computer Science: pp 124–134, 1994.
Bio-Inspired and Nanoscale Integrated Computing by Mary Mehrnoosh Eshaghian-Wilner