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As mainstream music consumers wait with baited breath for the next musical upheaval, a small core of tech-savvy individuals are re-shaping the aural landscape without the assurance of being part of any larger movement. Their ideologies and creative approaches differ wildly, but they share a desire to take sound beyond the realm of mere entertainment. Drawing on extensive research into the world of audio extremity, Micro-Bionic includes interviews with William Bennett (Whitehouse), Peter Rehberg (Mego) and Peter Christopherson (Throbbing Gristle/Coil).
Micro- and Nano-Bionic Surfaces: Biomimetics, Interface Energy Field Effects, and Applications synthesizes the latest research in bio-inspired surfaces and devices for tactile and flow field perception. The book provides solutions to common problems related to flow field/tactile perception, intelligent MEMS sensors, smart materials, material removal methods, cell/particle control methods, and micro-nano robot technology. With a heavy emphasis on applications throughout, the book starts by providing insights into biomimetic device design, outlining strategies readers can adopt for various engineering applications. From there, it introduces the controlling methods of smart materials, controlling methods from external energy input, and more. Sections demonstrate how to solve problems of high efficiency, high quality, and low damage material removal for metals, composites, soft tissues, and other materials by applying bionic wave-motion surface characteristics. The latest theoretical and technical developments in field control methods applied to biological interfaces are also discussed, and the book concludes with a chapter on fabrication strategies to synthesize micro/nano functional particles based on bio-templates. - Provides an overview on the latest research in bio-inspired surfaces and devices for tactile and flow-field perception - Introduces techniques for characterizing different bionic surfaces and how to use energy fields analysis to treat different bionic surface and interface problems - Discusses the latest theoretical and experimental developments in field control and their applications in the biomedical field - Outlines fabrication methods and assembly and alignment processes of micro-/nano-functional particles based on microorganism templates
Micro Bionic is an exciting survey of electronic music and sound art from cultural critic and mixed-media artist Thomas Bey William Bailey. This superior revised edition includes all of the original supplements neglected by the publishers of the first edition, including a full index, bibliography, additional notes / commentary and an updated discography. As the title suggests, the unifying theme of the book is that of musicians and sound artists taking bold leaps forward in spite of (or sometimes because of) their financial, technological, and social restrictions. Some symptoms of this condition include the gigantic discography amassed by the one-man project Merzbow, the drama of silence enacted by onkyo and New Berlin Minimalism, the annihilating noise transmitted from the humble laptop computers of Russell Haswell and Peter Rehberg and much more besides. Although the journey begins in the Industrial 1980s, in order to trace how the innovations of that period have gained greater currency in the present, it surveys a wide array of artists breaking ground in the 21st century with radical attitudes and techniques. A healthy amount of global travel and concentrated listening have combined to make this a sophisticated yet accessible document, unafraid to explore both the transgressive extremes of this culture and the more deftly concealed interstices thereof. Part historical document, part survival manual for the marginalized electronic musician, part sociological investigation, Micro Bionic is a number of different things, and as such will likely generate a variety of reactions from inspiration to offense. Numerous exclusive interviews with leading lights of the field were also conducted for this book: William Bennett (Whitehouse), Peter Christopherson (r.i.p., Throbbing Gristle / Coil), Peter Rehberg, John Duncan, Francisco López, Carl Michael von Hausswolff, Bob Ostertag, Zbigniew Karkowski and many others weigh in with a diversity of thoughts and opinions that underscore the incredible diversity to be found within new electronic music itself.
Bionics means learning from the nature for the development of technology. The science of "bionics" itself is classified into several sections, from materials and structures over procedures and processes until evolution and optimization. Not all these areas, or only a few, are really known in the public and also in scientific literature. This includes the Lotus-effect, converted to the contamination-reduction of fassades and the shark-shed-effect, converted to the resistance-reduction of airplanes. However, there are hundreds of highly interesting examples that contain the transformation of principles of the nature into technology. From the large number of these examples, 250 were selected for the present book according to "prehistory", "early-history", "classic" and "modern time". Most examples are new. Every example includes a printed page in a homogeneous arrangement. The examples from the field "modern time" are joint in blocks corresponding to the sub-disciplines of bionics.
The three volume set LNAI 10462, LNAI 10463, and LNAI 10464 constitutes the refereed proceedings of the 10th International Conference on Intelligent Robotics and Applications, ICIRA 2017, held in Wuhan, China, in August 2017. The 235 papers presented in the three volumes were carefully reviewed and selected from 310 submissions. The papers in this first volume of the set are organized in topical sections on soft, micro-nano, bio-inspired robotics; human-machine interaction; swarm robotics; underwater robotics.
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.
This book examines the future trend toward "intelligent" warfare considering the global environment, the history of warfare, and scientific and technological advancement. It develops a comprehensive set of theoretical frameworks, application concepts, and evaluation criteria for military intelligence. The volume is packed with theoretical highlights and vivid examples, including the tracking of Osama bin Laden, the decapitation strike against Qasem Soleimani, the remote assassination of Iranian nuclear scientists, the drone war in the Nagorno–Karabakh conflict, modern equipment deployed in the Palestinian–Israeli conflict, and the war between social media groups. In addition, the author envisions a possible future for "intelligent" wars in which adversarial parties engage in combat through virtual and unmanned systems. This nature may help avoid the brutality and high death toll associated with traditional warfare. The book explores the possibility of future civilized warfare. It will be of interest to researchers, academics, and students in the fields of politics, military intelligence, and military technology, and to those who are interested in intelligent warfare in general.
A man (Frank) wakes up with a beautiful woman (Kim) in a plush hotel room in San Juan Puerto Rico to find that he has no memories back from that moment. As it turns out Frank is a very prominent, abundantly wealthy lawyer who owns his own firm based in San Diego but has offices all over the world. Kim is his long term life as well as his business partner. They are blessed with many interesting friends who have unique lives of their own. As the mystery of who he is unfolds Frank seeks the help of prominent psychiatrist and medical doctors specializing in memory loss. After exhausting the mental and physical possibilities and with the help of friends, detectives and Kim they retrace Franks steps all the way around the world to a micro bionic research company in Beijing China. What they find out boggles ones mind as to the advancement of micro biotic organisms. But wait; Im just about to give it all away. Its time for you to read the rest of the story. Enjoy!
Micro/nanorobots have emerged as functional agents and versatile tools for investigating the complex microenvironments within biological systems. Operating at a scale comparable to cells, these micro/nanorobots offer controllable motion and customizable characteristics, whilst swarming micro/nanorobots exhibit exceptional efficiency, robustness, and adaptivity. As a result, these active particles hold significant potential for interacting with living cells, diseased tissues, and organs, offering viable approaches to uncovering natural principles of development and addressing diseases such as drug-tolerant infections and bacterial self-organization. To tackle these challenges, functionalized micro/nanorobots, through active intervention, can yield substantial effects on the development and treatment of cellular environments, bacterial biofilms, and tissue restoration. In this regard, we are organizing a special issue to delineate the current state of the art of micro/nanorobots in biological contexts and to advance therapeutics by elucidating the underlying mechanisms in living systems. In the contemporary era of advancing nanomedicine, the utilization of micro/nanorobots in clinical therapy is still in its nascent stages within the realm of modern healthcare. Biomedical and biological environments hold immense promise as platforms for these active agents, showcasing remarkable functionalities and efficacy in vitro, ex vivo, and in vivo. Micro/nanorobots have the capacity to emulate the behaviors of living cells, particularly bacteria, which play a crucial role in microbial infections, thus impacting public health and medical devices. These active agents possess the potential to overcome biological barriers and enable targeted therapies for various healthcare issues, including the prevention and treatment of diseased tissues and biofilms, which will significantly enhance the minimally invasive operations and remote treatments for the next-generation human healthcare system. The objectives of this research topic are threefold: (1) to investigate the novel functionalities of micro/nanorobots in biological contexts, (2) to unravel the underlying principles of cell, tissue, and organ development, and (3) to innovate active therapeutic approaches for addressing diseased tissues and microbial biofilms
The 4-volume set LNAI 13013 – 13016 constitutes the proceedings of the 14th International Conference on Intelligent Robotics and Applications, ICIRA 2021, which took place in Yantai, China, during October 22-25, 2021. The 299 papers included in these proceedings were carefully reviewed and selected from 386 submissions. They were organized in topical sections as follows: Robotics dexterous manipulation; sensors, actuators, and controllers for soft and hybrid robots; cable-driven parallel robot; human-centered wearable robotics; hybrid system modeling and human-machine interface; robot manipulation skills learning; micro_nano materials, devices, and systems for biomedical applications; actuating, sensing, control, and instrumentation for ultra-precision engineering; human-robot collaboration; robotic machining; medical robot; machine intelligence for human motion analytics; human-robot interaction for service robots; novel mechanisms, robots and applications; space robot and on-orbit service; neural learning enhanced motion planning and control for human robot interaction; medical engineering.