Bionic Technology That Enhances The Human Body

  bionic technology that enhances the human body: Digital People Sidney Perkowitz, Joseph Henry Press, 2005-10-31 Robots, androids, and bionic people pervade popular culture, from classics like Frankenstein and R.U.R. to modern tales such as The Six Million Dollar Man, The Terminator, and A.I. Our fascination is obvious – and the technology is quickly moving from books and films to real life. In a lab at MIT, scientists and technicians have created an artificial being named COG. To watch COG interact with the environment – to recognize that this machine has actual body language – is to experience a hair-raising, gut-level reaction. Because just as we connect to artificial people in fiction, the merest hint of human-like action or appearance invariably engages us. Digital People examines the ways in which technology is inexorably driving us to a new and different level of humanity. As scientists draw on nanotechnology, molecular biology, artificial intelligence, and materials science, they are learning how to create beings that move, think, and look like people. Others are routinely using sophisticated surgical techniques to implant computer chips and drug-dispensing devices into our bodies, designing fully functional man-made body parts, and linking human brains with computers to make people healthier, smarter, and stronger. In short, we are going beyond what was once only science fiction to create bionic people with fully integrated artificial components – and it will not be long before we reach the ultimate goal of constructing a completely synthetic human-like being. It seems quintessentially human to look beyond our natural limitations. Science has long been the lens through which we squint to discern our future. Although we are rightfully fearful about manipulating the boundaries between animate and inanimate, the benefits are too great to ignore. This thoughtful and provocative book shows us just where technology is taking us, in directions both wonderful and terrible, to ponder what it means to be human.
  bionic technology that enhances the human body: The Promise of Assistive Technology to Enhance Activity and Work Participation National Academies of Sciences, Engineering, and Medicine, Health and Medicine Division, Board on Health Care Services, Committee on the Use of Selected Assistive Products and Technologies in Eliminating or Reducing the Effects of Impairments, 2017-09-01 The U.S. Census Bureau has reported that 56.7 million Americans had some type of disability in 2010, which represents 18.7 percent of the civilian noninstitutionalized population included in the 2010 Survey of Income and Program Participation. The U.S. Social Security Administration (SSA) provides disability benefits through the Social Security Disability Insurance (SSDI) program and the Supplemental Security Income (SSI) program. As of December 2015, approximately 11 million individuals were SSDI beneficiaries, and about 8 million were SSI beneficiaries. SSA currently considers assistive devices in the nonmedical and medical areas of its program guidelines. During determinations of substantial gainful activity and income eligibility for SSI benefits, the reasonable cost of items, devices, or services applicants need to enable them to work with their impairment is subtracted from eligible earnings, even if those items or services are used for activities of daily living in addition to work. In addition, SSA considers assistive devices in its medical disability determination process and assessment of work capacity. The Promise of Assistive Technology to Enhance Activity and Work Participation provides an analysis of selected assistive products and technologies, including wheeled and seated mobility devices, upper-extremity prostheses, and products and technologies selected by the committee that pertain to hearing and to communication and speech in adults.
  bionic technology that enhances the human body: Toward Replacement Parts for the Brain Theodore W. Berger, Dennis Glanzman, 2005 The latest advances in research on intracranial implantation of hardware models of neural circuitry.
  bionic technology that enhances the human body: Targeted Muscle Reinnervation Todd A. Kuiken, Aimee E. Schultz Feuser, Ann K. Barlow, 2013-07-23 Implement TMR with Your Patients and Improve Their Quality of LifeDeveloped by Dr. Todd A. Kuiken and Dr. Gregory A. Dumanian, targeted muscle reinnervation (TMR) is a new approach to accessing motor control signals from peripheral nerves after amputation and providing sensory feedback to prosthesis users. This practical approach has many advantage
  bionic technology that enhances the human body: The Body Electric James Geary, 2002 Marie, a sixty-three-year old Belgian woman, has been totally blind since the age of fifty-seven. But now, thanks to electrodes implanted around her right optic nerve, she can see lights, shapes, and colors again. Marie is one of a handful of people around the world who have had computer chips implanted in their bodies to extend, enhance, or repair their senses. The idea of actually melding man and machine still seems futuristic, unlikely and a little scary. But in The Body Electric, James Geary examines the startling possibilities opened up by the merger of the biological and the technological. This remarkable convergence holds the promise of restoring sight to the blind and mobility to the paralyzed. It might also provide us with bionic senses, such as the ability to see infrared radiation or feel objects at a distance. By linking neurons in the brain directly to silicon chips, scientists are also exploring the possibility of creating virtual eyes, ears, and limbs on the Internet and allowing people to control appliances by thought alone. Machines, too, are getting silicon senses. Researchers are endowing computers with the ability to see, hear, smell, taste, touch--and conceivably think. The Body Electric offers an accessible and astute survey of this exciting area of research with its potential commercial, medical and military applications. Drawing on fields as diverse as artificial intelligence and biology, The Body Electric asks: Are you any less you after a bionic implant? If all of our senses are electronically enhanced how will we tell the difference between virtual reality and the actual world? Will it matter? The merger of our technology and ourselves is already beginning to change the way we see, hear, smell, taste, touch, and think about the world, opening the doors of perception just another crack.
  bionic technology that enhances the human body: Converging Technologies for Improving Human Performance Mihail C. Roco, William Sims Bainbridge, 2013-04-17 M. C. Roco and W.S. Bainbridge In the early decades of the 21st century, concentrated efforts can unify science based on the unity of nature, thereby advancing the combination of nanotechnology, biotechnology, information technology, and new technologies based in cognitive science. With proper attention to ethical issues and societal needs, converging in human abilities, societal technologies could achieve a tremendous improvement outcomes, the nation's productivity, and the quality of life. This is a broad, cross cutting, emerging and timely opportunity of interest to individuals, society and humanity in the long term. The phrase convergent technologies refers to the synergistic combination of four major NBIC (nano-bio-info-cogno) provinces of science and technology, each of which is currently progressing at a rapid rate: (a) nanoscience and nanotechnology; (b) biotechnology and biomedicine, including genetic engineering; (c) information technology, including advanced computing and communications; (d) cognitive science, including cognitive neuroscience. Timely and Broad Opportunity. Convergence of diverse technologies is based on material unity at the nanoscale and on technology integration from that scale.
  bionic technology that enhances the human body: Smart Prosthetics The National Academies, Conference, Arnold and Mabel Beckman Center of the National Academies, Irvine, California, November 9-11, 2006, 2007-04-08 The 2006 conference, Smart Prosthetics: Exploring Assistive Devices for the Body and Mind, attracted scientists, engineers and medical researchers to participate in a series of task groups to develop research plans to address various challenges within the prosthetics field. Eleven conference task groups gave the participants eight hours to develop new research approaches to various challenges, including: build a smart prosthesis that will grow with a child; develop a smart prosthetic that can learn better and/or faster; refine technologies to create active orthotic devices; and describe a framework for replacing damaged cortical tissue and fostering circuit integration to restore neurological function. Representatives from public and private funding organizations, government, industry, and the science media also participated in the task groups. This book provides a summary of the conference task groups. For more information about the conference, visit the Smart Prosthetics conference site. The National Academies Keck Futures Initiative was launched in 2003 to stimulate new modes of scientific inquiry and break down the conceptual and institutional barriers to interdisciplinary research. The National Academies and the W.M. Keck Foundation believe considerable scientific progress and social benefit will be achieved by providing a counterbalance to the tendency to isolate research within academic fields. The Futures Initiative is designed to enable researchers from different disciplines to focus on new questions upon which they can base entirely new research, and to encourage better communication between scientists as well as between the scientific community and the public. Funded by a $40 million grant from the W.M. Keck Foundation, the National Academies Keck Futures Initiative is a 15-year effort to catalyze interdisciplinary inquiry and to enhance communication among researchers, funding agencies, universities, and the general public with the object of stimulating interdisciplinary research at the most exciting frontiers. The Futures Initiative builds on three pillars of vital and sustained research: interdisciplinary encounters that counterbalance specialization and isolation; the identification and exploration of new research topics; and communication that bridges languages, cultures, habits of thought, and institutions. Toward these goals, the National Academies Keck Futures Initiative incorporates three core activities each year: Futures conferences, Futures grants, and National Academies Communication Awards. For more information about the Initiative, visit www.keckfutures.org.
  bionic technology that enhances the human body: Human Enhancement Technologies and Our Merger with Machines Woodrow Barfield, Sayoko Blodgett-Ford, 2021-06-15 A cross-disciplinary approach is offered to consider the challenge of emerging technologies designed to enhance human bodies and minds. Perspectives from philosophy, ethics, law, and policy are applied to a wide variety of enhancements, including integration of technology within human bodies, as well as genetic, biological, and pharmacological modifications. Humans may be permanently or temporarily enhanced with artificial parts by manipulating (or reprogramming) human DNA and through other enhancement techniques (and combinations thereof). We are on the cusp of significantly modifying (and perhaps improving) the human ecosystem. This evolution necessitates a continuing effort to re-evaluate current laws and, if appropriate, to modify such laws or develop new laws that address enhancement technology. A legal, ethical, and policy response to current and future human enhancements should strive to protect the rights of all involved and to recognize the responsibilities of humans to other conscious and living beings, regardless of what they look like or what abilities they have (or lack). A potential ethical approach is outlined in which rights and responsibilities should be respected even if enhanced humans are perceived by non-enhanced (or less-enhanced) humans as “no longer human” at all.
  bionic technology that enhances the human body: Wearable Robotics Jacob Rosen, 2019-11-16 Wearable Robotics: Systems and Applications provides a comprehensive overview of the entire field of wearable robotics, including active orthotics (exoskeleton) and active prosthetics for the upper and lower limb and full body. In its two major sections, wearable robotics systems are described from both engineering perspectives and their application in medicine and industry. Systems and applications at various levels of the development cycle are presented, including those that are still under active research and development, systems that are under preliminary or full clinical trials, and those in commercialized products. This book is a great resource for anyone working in this field, including researchers, industry professionals and those who want to use it as a teaching mechanism. - Provides a comprehensive overview of the entire field, with both engineering and medical perspectives - Helps readers quickly and efficiently design and develop wearable robotics for healthcare applications
  bionic technology that enhances the human body: Bionic Beasts Jolene Gutiérrez, 2021-01-01 Audisee® eBooks with Audio combine professional narration and sentence highlighting to engage reluctant readers! What happens when a young elephant steps on a buried land mine? What happens when a sea turtle’s flipper is injured by a predator? Thanks to recent advances in technology, we have new ways to design and build prosthetic body parts that can help these animals thrive. Meet an Asian elephant named Mosha, a Kemp’s ridley sea turtle named Lola, a German Shepherd named Cassidy, a greylag goose named Vitória, and Pirate, a Berkshire-Tamworth pig. Each of these animals was struggling, but through a variety of techniques and technologies, humans created devices that enabled the animals to live and move more comfortably. Discover the stories of how veterinarians, doctors, and even students from around the world used 3D printing and other techniques to build bionic body parts for these amazing animals.
  bionic technology that enhances the human body: New Technologies and the Law in War and Peace William H. Boothby, 2019 Explains how existing and proposed law seek to tackle challenges posed by new and emerging technologies in war and peace.
  bionic technology that enhances the human body: Emerging Technologies and Ethical Issues in Engineering National Academy of Engineering, 2004-09-02 Engineers and ethicists participated in a workshop to discuss the responsible development of new technologies. Presenters examined four areas of engineering-sustainability, nanotechnology, neurotechnology, and energy-in terms of the ethical issues they present to engineers in particular and society as a whole. Approaches to ethical issues include: analyzing the factual, conceptual, application, and moral aspects of an issue; evaluating the risks and responsibilities of a particular course of action; and using theories of ethics or codes of ethics developed by engineering societies as a basis for decision making. Ethics can be built into the education of engineering students and professionals, either as an aspect of courses already being taught or as a component of engineering projects to be examined along with research findings. Engineering practice workshops can also be effective, particularly when they include discussions with experienced engineers. This volume includes papers on all of these topics by experts in many fields. The consensus among workshop participants is that material on ethics should be an ongoing part of engineering education and engineering practice.
  bionic technology that enhances the human body: Orthotics and Prosthetics in Rehabilitation Michelle M. Lusardi, Caroline C. Nielsen, 2007 Whether you are a student or a clinician, if you work with patients with neuromuscular and musculoskeletal impairments, you will find this text supplies a strong foundation in and appreciation for the field of orthotics and prosthetics that will give you the critical skills you need when working with this unique client population.
  bionic technology that enhances the human body: Gods and Robots Adrienne Mayor, 2020-04-21 Traces the story of how ancient cultures envisioned artificial life, automata, self-moving devices and human enhancements, sharing insights into how the mythologies of the past related to and shaped ancient machine innovations.
  bionic technology that enhances the human body: Bespoke Bodies Amanda Hawkins, Sam Aquillano, 2020-12-15
  bionic technology that enhances the human body: Comprehensive Management of the Upper-Limb Amputee Diane J. Atkins, Robert H. III Meier, 2012-12-06 Each year in the United States, an estimated 40,000 persons lose a limb. Of these amputees, approximately 30% lose a hand or an arm. This loss is most frequently related to trauma occurring in the healthy young adult male and is often work related. Approximately 3% of all amputees are born with congenital limb absence. In children, the ratio of congenital to acquired amputation is 2: 1, and the ratio of upper-limb to lower-limb amputees is 1. 2: 1. Therefore, since relatively few amputations result in upper-limb loss, only a small number of health practitioners, even those specializing in amputee rehabilitation, have the opportunity to provide services for a significant number of arm amputees. As a result, clinicians need to share their experiences so that the full range of options for optimum care and rehabilitation of the patient population may be considered. To meet this challenge for wider communication of clinical experience, a group of upper-limb amputee specialists met in Houston, Texas, in 1981 to serve as the core faculty for a course entitled Contemporary Issues in Upper Extremity Amputation and Prosthetic Function. This program provided the opportunity for surgeons, physiatrists, engineers, prosthetists, social workers, psychologists, occupational therapists, and physical therapists from the United States and Canada to discuss their extensive experience in working with upper extremity amputees. A second conference continuing the discussion of upper limb amputee rehabilitation was held one year later.
  bionic technology that enhances the human body: To Be a Machine Mark O'Connell, 2017-02-28 “This gonzo-journalistic exploration of the Silicon Valley techno-utopians’ pursuit of escaping mortality is a breezy romp full of colorful characters.” —New York Times Book Review (Editor's Choice) Transhumanism is a movement pushing the limits of our bodies—our capabilities, intelligence, and lifespans—in the hopes that, through technology, we can become something better than ourselves. It has found support among Silicon Valley billionaires and some of the world’s biggest businesses. In To Be a Machine, journalist Mark O'Connell explores the staggering possibilities and moral quandaries that present themselves when you of think of your body as a device. He visits the world's foremost cryonics facility to witness how some have chosen to forestall death. He discovers an underground collective of biohackers, implanting electronics under their skin to enhance their senses. He meets a team of scientists urgently investigating how to protect mankind from artificial superintelligence. Where is our obsession with technology leading us? What does the rise of AI mean not just for our offices and homes, but for our humanity? Could the technologies we create to help us eventually bring us to harm? Addressing these questions, O'Connell presents a profound, provocative, often laugh-out-loud-funny look at an influential movement. In investigating what it means to be a machine, he offers a surprising meditation on what it means to be human.
  bionic technology that enhances the human body: Organic Bionics Gordon G. Wallace, Simon E. Moulton, Robert M.I. Kapsa, Michael Higgins, 2012-09-06 The first reference on this emerging interdisciplinary research area at the interface between materials science and biomedicine is written by pioneers in the field, who address the requirements, current status and future challenges. Focusing on inherently conducting polymers, carbon nanotubes and graphene, they adopt a systematic approach, covering all relevant aspects and concepts: synthesis and fabrication, properties, introduction of biological function, components of bionic devices and materials requirements. Established bionic devices, such as the bionic ear are examined, as are emerging areas of application, including use of organic bionic materials as conduits for bone re-growth, spinal cord injury repair and muscle regeneration. The whole is rounded off with a look at future prospects in sustainable energy generation and storage. Invaluable reading for materials scientists, polymer chemists, electrotechnicians, chemists, biologists, and bioengineers.
  bionic technology that enhances the human body: Enhancing Human Capacities Julian Savulescu, Ruud ter Meulen, Guy Kahane, 2011-05-12 Enhancing Human Capacities is the first to review the very latest scientific developments in human enhancement. It is unique in its examination of the ethical and policy implications of these technologies from a broad range of perspectives. Presents a rich range of perspectives on enhancement from world leading ethicists and scientists from Europe and North America The most comprehensive volume yet on the science and ethics of human enhancement Unique in providing a detailed overview of current and expected scientific advances in this area Discusses both general conceptual and ethical issues and concrete questions of policy Includes sections covering all major forms of enhancement: cognitive, affective, physical, and life extension
  bionic technology that enhances the human body: More Than Human Ramez Naam, 2005 What if you could be smarter, stronger, and have a better memory just by taking a pill? What if we could alter our genes to cure Alzheimer’s and Parkinson’s? What if we could halt or even reverse the human aging process? What if we could communicate with each othersimply by thinking about it? These questions were once the stuff of science fiction. Today, advances in biotechnology have shown that they’re plausible, even likely to be accomplished in the near future. In labs around the world, researchers looking for ways to help the sick and injured have stumbled onto techniques that enhance healthy animals—making them stronger, faster, smarter, and longer-lived—in some cases, even connecting their minds to robots and computers across the Internet. Now science is on the verge of applying this knowledge to healthy men and women, allowing us to alter humanity in ways we’d previously only dreamed possible. The same research that could cure Alzheimer’s is leading to drugs and genetic techniques that could boost human intelligence. The techniques being developed to stave off heart disease and cancer have the potential to slow or even reverse human aging. And brain implants that restore motion to the paralyzed and sight to the blind are already allowing a small set of patients to control robots and computers simply by thinking about it. Not everyone welcomes this scientific progress. Cries of “against nature” arise from skeptics even as scientists break new ground at an astounding pace. Across the political spectrum, the debate roils: Should we embrace the power to alter our minds and bodies, or should we restrict it? Distilling the most radical accomplishments being made in labs worldwide, including gene therapy, genetic engineering, stem cell research, life extension, brain-computer interfaces, and cloning,More Than Humanoffers an exciting tour of the impact biotechnology will have on our lives. Throughout this remarkable trip, author Ramez Naam shares an impassioned vision for the future with revealing insight into the ethical dilemmas posed by twenty-first-century science. Encouraging us to celebrate rather than fear these innovations, Naam incisively separates fact from myth, arguing that these much-maligned technologies have the power to transform the human race for the better, so long as individuals and families are left free to decide how and if to use them. If you’ve ever wondered about the boundaries of humanity,More Than Humanoffers a vision of a world where we use our knowledge to improve ourselves, unhindered by the fear of change.
  bionic technology that enhances the human body: Wearable Robots José L. Pons, 2008-04-15 A wearable robot is a mechatronic system that is designed around the shape and function of the human body, with segments and joints corresponding to those of the person it is externally coupled with. Teleoperation and power amplification were the first applications, but after recent technological advances the range of application fields has widened. Increasing recognition from the scientific community means that this technology is now employed in telemanipulation, man-amplification, neuromotor control research and rehabilitation, and to assist with impaired human motor control. Logical in structure and original in its global orientation, this volume gives a full overview of wearable robotics, providing the reader with a complete understanding of the key applications and technologies suitable for its development. The main topics are demonstrated through two detailed case studies; one on a lower limb active orthosis for a human leg, and one on a wearable robot that suppresses upper limb tremor. These examples highlight the difficulties and potentialities in this area of technology, illustrating how design decisions should be made based on these. As well as discussing the cognitive interaction between human and robot, this comprehensive text also covers: the mechanics of the wearable robot and it’s biomechanical interaction with the user, including state-of-the-art technologies that enable sensory and motor interaction between human (biological) and wearable artificial (mechatronic) systems; the basis for bioinspiration and biomimetism, general rules for the development of biologically-inspired designs, and how these could serve recursively as biological models to explain biological systems; the study on the development of networks for wearable robotics. Wearable Robotics: Biomechatronic Exoskeletons will appeal to lecturers, senior undergraduate students, postgraduates and other researchers of medical, electrical and bio engineering who are interested in the area of assistive robotics. Active system developers in this sector of the engineering industry will also find it an informative and welcome resource.
  bionic technology that enhances the human body: Handbook of Neuroethics Jens Clausen, Neil Levy, 2014-10-28 Based on the study of neuroscientific developments and innovations, examined from different angles, this Handbook provides a comprehensive overview of the international neuroethical debate, and offers unprecedented insights into the impact of neuroscientific research, diagnosis, and therapy. Neuroethics – as a multi-disciplinary and inter-disciplinary endeavor – examines the implications of the neurosciences for human beings in general and for their self-understanding and their social interactions in particular. The range of approaches adopted in neuroethics and thus in this handbook includes but is not limited to historical, anthropological, ethical, philosophical, theological, sociological and legal approaches. The Handbook deals with a plethora of topics, divided into in three parts: the first part contains discussions of theories of neuroethics and how neuroscience impacts on our understanding of personal identity, free will, and other philosophical concepts. The second part is dedicated to issues involved in current and future clinical applications of neurosciences, such as brain stimulation, brain imaging, prosthetics, addiction, and psychiatric ethics. The final part deals with neuroethics and society and includes chapters on neurolaw, neurotheology, neuromarketing, and enhancement.
  bionic technology that enhances the human body: Lower-limb Prosthetics Norman Berger, Sidney Fishman, 1997
  bionic technology that enhances the human body: WIPO Technology Trends 2019 - Artificial Intelligence World Intellectual Property Organization, 2019-01-21 The first report in a new flagship series, WIPO Technology Trends, aims to shed light on the trends in innovation in artificial intelligence since the field first developed in the 1950s.
  bionic technology that enhances the human body: Cyborg Martin Caidin, 1984-07-12
  bionic technology that enhances the human body: Spiritualities, ethics, and implications of human enhancement and artificial intelligence Ray Kurzweil, Christopher Benek, Jacob Boss, Philip Reed-Butler, Michael Caligiuri, Irene J. Dabrowski, Mark Graves, Anthony L. Haynor, Braden Molhoek, Peter Robinson, Una Stroda, Tracy J. Trothen, Alan Weissenbacher, 2020-03-02 By taking a religiously and spiritually literature approach, this volume gets the heart of several emerging ethical issues crucial to both human identity and personhood beyond the human as technology advances in the areas of human enhancement and artificial intelligence (AI). Several significant questions are addressed by the contributors, such as: How far should we go in improving our biological selves? How long should we aspire to live? What are fair and just human enhancements? When will AIs become people? What does AI spirituality consist of? Can AIs do more than project humour and emotions? What are the religious undertones of these high technology quests for better AI and improved human existence? Established and emerging voices explore these questions, and more, in Spiritualities, ethics, and implications of human enhancement and artificial intelligence. This volume will be of interest to university students and researchers absorbed by issues surrounding spiritualities, human enhancement, and artificial intelligence; while also providing points for reflection for the wider public as these topics become increasingly important to our common future.
  bionic technology that enhances the human body: The Sorcerers and Their Apprentices Frank Moss, 2011 From the director of the famed MIT Media Laboratory comes an exhilarating behind the-scenes exploration of the research center where our nation's foremost scientists are creating the innovative new technologies that will transform our future--
  bionic technology that enhances the human body: The Internet of Medical Things (IoMT) R. J. Hemalatha, D. Akila, D. Balaganesh, Anand Paul, 2022-03-29 INTERNET OF MEDICAL THINGS (IOMT) Providing an essential addition to the reference material available in the field of IoMT, this timely publication covers a range of applied research on healthcare, biomedical data mining, and the security and privacy of health records. With their ability to collect, analyze and transmit health data, IoMT tools are rapidly changing healthcare delivery. For patients and clinicians, these applications are playing a central part in tracking and preventing chronic illnesses — and they are poised to evolve the future of care. In this book, the authors explore the potential applications of a wave of sensor-based tools—including wearables and stand-alone devices for remote patient monitoring—and the marriage of internet-connected medical devices with patient information that ultimately sets the IoMT ecosystem apart. This book demonstrates the connectivity between medical devices and sensors is streamlining clinical workflow management and leading to an overall improvement in patient care, both inside care facilities and in remote locations.
  bionic technology that enhances the human body: Nexus Ramez Naam, 2012-12-18 Book 1 of the Nexus Trilogy - Continued in Book 2: Crux In the near future, the experimental nano-drug Nexus can link humans together, mind to mind. There are some who want to improve it. There are some who want to eradicate it. And there are others who just want to exploit it. When a young scientist is caught improving Nexus, he's thrust over his head into a world of danger and international espionage - for there is far more at stake than anyone realizes. From the halls of academe to the halls of power, from the headquarters of an elite US agency in Washington DC to a secret lab beneath a top university in Shanghai, from the underground parties of San Francisco to the illegal biotech markets of Bangkok, from an international neuroscience conference to a remote monastery in the mountains of Thailand - Nexus is a thrill ride through a future on the brink of explosion. Shortlisted for the Arthur C Clarke Award Shortlisted for the Prometheus Award Shortlisted for the Kitschies Award An NPR Best Book of 2013! Good. Scary good. - Wired Provocative... A double-edged vision of the post-human.- The Wall Street Journal A lightning bolt of a novel, with a sense of awe missing from a lot of current fiction.- Ars Technica Starred Review. Naam turns in a stellar performance in his debut SF novel... What matters here is the remarkable scope and narrative power of the story.- Booklist A superbly plotted high-tension technothriller ... full of delicious, thoughtful moral ambiguity ... a hell of a read.- Cory Doctorow A gripping piece of near future speculation... all the grit and pace of the Bourne films.- Alastair Reynolds, author of Revelation Space A sharp, chilling look at our likely future.- Charles Stross, author of Singularity Sky and Halting State The most brilliant hard SF thriller I've read in years. Reminds me of Michael Crichton at his best.- Brenda Cooper, author of The Creative Fire A rich cast of characters...the action scenes are crisp, the glimpses of future tech and culture are mesmerizing.- Publishers Weekly Any old writer can take you on a roller coaster ride, but it takes a wizard like Ramez Naam to take you on the same ride while he builds the roller coaster a few feet in front of you.- John Barnes, author of Directive 51 Michael Crichton-like.- SFX Magazine An incredibly imaginative, action-packed intellectual romp!- Dani Kollin, Prometheus Award-winning author of The Unincorporated Man The only serious successor to Michael Crichton.- Scott Harrison, author of Archangel
  bionic technology that enhances the human body: Fundamentals of Digital Manufacturing Science Zude Zhou, Shane (Shengquan) Xie, Dejun Chen, 2011-10-22 The manufacturing industry will reap significant benefits from encouraging the development of digital manufacturing science and technology. Digital Manufacturing Science uses theorems, illustrations and tables to introduce the definition, theory architecture, main content, and key technologies of digital manufacturing science. Readers will be able to develop an in-depth understanding of the emergence and the development, the theoretical background, and the techniques and methods of digital manufacturing science. Furthermore, they will also be able to use the basic theories and key technologies described in Digital Manufacturing Science to solve practical engineering problems in modern manufacturing processes. Digital Manufacturing Science is aimed at advanced undergraduate and postgraduate students, academic researchers and researchers in the manufacturing industry. It allows readers to integrate the theories and technologies described with their own research works, and to propose new ideas and new methods to improve the theory and application of digital manufacturing science.
  bionic technology that enhances the human body: H+/- Gregory R. Hansell, 2011-01-25
  bionic technology that enhances the human body: Implantable Bioelectronics Evgeny Katz, 2014-02-27 Here the renowned editor Evgeny Katz has chosen contributions that cover a wide range of examples and issues in implantable bioelectronics, resulting in an excellent overview of the topic. The various implants covered include biosensoric and prosthetic devices, as well as neural and brain implants, while ethical issues, suitable materials, biocompatibility, and energy-harvesting devices are also discussed. A must-have for both newcomers and established researchers in this interdisciplinary field that connects scientists from chemistry, material science, biology, medicine, and electrical engineering.
  bionic technology that enhances the human body: Being Bionic Bronwen Calvert, 2017-01-30 The contradictions and complexities of the cyborg therefore hold particular appeal to programme makers of dramatic TV narratives. Bronwen Calvert examines the uses and representations of the cyborg in this ground-breaking text, by looking at its frequent appearance in a wide variety of popular and cult shows: from the iconic Daleks of Doctor Who and bionic female empowerment in Terminator: The Sarah Connor Chronicles, to the duality of humanoid and distinctly robotic cyborgs in Battlestar Galactica. In doing so, she reveals how television's defining traits shape our experience of cyborgs and help us as viewers to question contemporary issues such as surveillance and terrorism, as well as the function of simulation and ultimately what it means to be human.
  bionic technology that enhances the human body: Powered Upper Limb Prostheses Ashok Muzumdar, 2012-12-06 Powered Upper Limb Prostheses deals with the concept, implementation and clinical application of utilizing inherent electrical signals within normally innervated residual muscles under voluntary control of an upper limb amputee. This amplifies these signals by battery-powered electrical means to make a terminal device, the prosthetic hand, move to perform intended function. The reader is introduced to various facets of upper limb amputations and their clinical management in both children and adults. The authors from Canada, USA and Great Britain are well known practicioners, academics and researchers in the field. The book has over 130 illustrations and contains an extensive bibliography.
  bionic technology that enhances the human body: Cyber-Humans Woodrow Barfield, 2015-12-17 It is predicted that robots will surpass human intelligence within the next fifty years. The ever increasing speed of advances in technology and neuroscience, coupled with the creation of super computers and enhanced body parts and artificial limbs, is paving the way for a merger of both human and machine. Devices which were once worn on the body are now being implanted into the body, and as a result, a class of true cyborgs, who are displaying a range of skills beyond those of normal humans-beings, are being created. There are cyborgs which can see colour by hearing sound, others have the ability to detect magnetic fields, some are equipped with telephoto lenses to aid their vision or implanted computers to monitor their heart, and some use thought to communicate with a computer or to manipulate a robotic arm. This is not science-fiction, these are developments that are really happening now, and will continue to develop in the future. However, a range of legal and policy questions has arisen alongside this rise of artificial intelligence. Cyber-Humans provides a deep and unique perspective on the technological future of humanity, and describes how law and policy will be particularly relevant in creating a fair and equal society and protecting the liberties of different life forms which will emerge in the 21st century. Dr Woodrow (Woody) Barfield previously headed up the Sensory Engineering Laboratory, holding the position of Industrial and Systems Engineering Professor at the University of Washington. His research revolves around the design and use of wearable computers and augmented reality systems and holds both JD and LLM degrees in intellectual property law and policy. He has published over 350 articles and major presentations in the areas of computer science, engineering and law. He currently lives in Chapel Hill, NC, USA.
  bionic technology that enhances the human body: The Ethics of Human Enhancement Steve Clarke, Julian Savulescu, C. A. J. Coady, Alberto Giubilini, Sagar Sanyal, 2016 We humans can enhance some of our mental and physical abilities above the normal upper limits for our species with the use of particular drug therapies and medical procedures. We will be able to enhance many more of our abilities in more ways in the near future. Some commentators have welcomed the prospect of wide use of human enhancement technologies, while others have viewed it with alarm, and have made clear that they find human enhancement morally objectionable. The Ethics of Human Enhancement examines whether the reactions can be supported by articulated philosophical reasoning, or perhaps explained in terms of psychological influences on moral reasoning. An international team of ethicists refresh the debate with new ideas and arguments, making connections with scientific research and with related issues in moral philosophy.
  bionic technology that enhances the human body: Fundamental Orthopedic Management for the Physical Therapist Assistant Robert C. Manske, 2015-05-22 - NEW Differential Diagnosis and Emergent Conditions chapter shows how similar symptoms can mask potentially dangerous pathologies and conditions, and may require re-evaluation by the supervising therapist. - NEW Musculoskeletal Imaging chapter explains in basic terms the various types of musculoskeletal imaging used when examining musculoskeletal injuries. - NEW Orthopedic Management Concepts Specific to Women chapter covers the issues, pathology, and progression of women's health issues as they relate to physical rehabilitation. - NEW! Full-color design and illustrations add clarity to anatomy and procedural drawings and make it easier to learn important concepts. - NEW! Important Concepts highlight useful tips and tricks of patient practice. - NEW student resources on the Evolve companion website include critical thinking applications, weblinks to related sites, and references with links to Medline® abstracts.
  bionic technology that enhances the human body: Enhancing Me Pete Moore, 2008-05-27 Science is developing more and more potential for human beings to enhance themselves. The pace of change is rapid, and some people are already warning that we are heading for a post-human future populated by ever-lasting, self-sustaining intelligence systems into which the contents of a human mind have been poured... Is this true? In Enhancing Me, Pete Moore examines the ways in which technology can change our bodies, our brains, our emotions, and how long we live. He talks to people who have actually been 'enhanced' to find out what it's like and how beneficial it is; and to the experts to find out what the future holds - including a look at some of the more controversial, headline-grabbing claims. He also looks at what drives us to want to be 'superhuman', and the consequences for the individual and society alike: If you could live forever, would you want to? If you could download your mind onto a computer, would you still be you? Should we insert chips into our children, so we can track where they are? Should we force violent criminals to have mood-controlling brain implants? Would you want technology to improve your memory... or help you forget? If you've ever wondered - or worried - about the pace at which technology is progressing, then this book will give you an eye-opening glimpse of the future in this fascinating field. About the author Pete Moore has been a freelance science writer since 1993, and specialises in making 'academish' intelligible to people who only speak English! He has received seven national awards for his work, and has appeared on radio and television on 50 different occasions, discussing his books and related news events. He is a public speaker and a member of Toastmasters International; as well as a fellow of the Royal Society of Arts, a visiting lecturer in ethics at Trinity College Bristol, and a course tutor on the Science Communication MSc at the University of the West of England, Bristol.
  bionic technology that enhances the human body: Design Meets Disability Graham Pullin, 2009 How design for disabled people and mainstream design could inspire, provoke, and radically change each other.
  bionic technology that enhances the human body: Second Ascent Alison Osius, 1991 Describes how a talented rock climber survived a double amputation at seventeen to return to his chosen sport.
Bionic - YouTube
Minecraft's Cyborg Leader 🦾😁 SUBSCRIBE to join the Cyborg Army! 💙 BANGER MERCH 🡆 https://www.bionic.shop Business 🡆 bionic@fixated.co Twitter 🡆 @dannybionic Instagram 🡆 …

BIONIC Definition & Meaning - Merriam-Webster
: having the normal biological ability to perform a physical task increased by special devices. : of or relating to bionics. : having normal biological capability or performance enhanced by or as if …

Bionics - Wikipedia
Bionics or biologically inspired engineering is the application of biological methods and systems found in nature to the study and design of engineering systems and modern technology. [1]

Bionics | Definition & Facts | Britannica
bionics, science of constructing artificial systems that have some of the characteristics of living systems. Bionics is not a specialized science but an interscience discipline; it may be …

BIONIC | English meaning - Cambridge Dictionary
BIONIC definition: 1. using artificial materials and methods to produce activity or movement in a person or animal…. Learn more.

BIONIC Definition & Meaning | Dictionary.com
Bionic definition: utilizing electronic devices and mechanical parts to assist humans in performing difficult, dangerous, or intricate tasks, as by supplementing or duplicating parts of the body.. …

What does bionic mean? - Definitions.net
Bionic refers to the artificial or mechanical systems or body parts that imitate or replicate the functioning of natural biological structures, especially in humans. It typically involves using …

Bionic - definition of bionic by The Free Dictionary
Define bionic. bionic synonyms, bionic pronunciation, bionic translation, English dictionary definition of bionic. adj. 1. Of or relating to bionics. 2. Having anatomical structures or …

Bionic - Wikitubia | Fandom
Danny (born: December 5, 2000 [age 24]), better known online as Bionic, is an American Minecraft YouTuber best known for his trolling and UHC videos. He often collaborates with his …

The Official Bionic Shop
This is the official merchandise shop of Youtuber Bionic. Here you will find all things Bionic, including shirts, stickers, comic books, and so much more!

Bionic - YouTube
Minecraft's Cyborg Leader 🦾😁 SUBSCRIBE to join the Cyborg Army! 💙 BANGER MERCH 🡆 …

BIONIC Definition & Meaning - Merriam-Webster
: having the normal biological ability to perform a physical task increased by special devices. : of or relating to …

Bionics - Wikipedia
Bionics or biologically inspired engineering is the application of biological methods and systems …

Bionics | Definition & Facts | Britannica
bionics, science of constructing artificial systems that have some of the characteristics of living systems. …

BIONIC | English meaning - Cambridge Dictionary
BIONIC definition: 1. using artificial materials and methods to produce activity or movement in a person or …