Robotteknik

Introduction This book divides two parts. The first part indicate why (AI) product manufacturers need to concern moral or ethic to manufacture any (AI) products. The second part indicate why scientists need to concern science moral or ethic to do whose scientific researches. In first part, I shall indicate these two questions to concern the difference between (AI) scientist moral and other scientist moral. (AI) research and development raises two questions about moral responsibilities: Should we continue to develop artificial intelligent entities? If we do, what are our moral responsibilities to them? I write this (AI) moral first part aims to let readers to make argument that to judge why robots need have legal, ethic, or moral limitation to concern whether much of robot ethics is concerned with the well-being of human or/and not ethical employment, or moral regard and threaten of robots. Whether robot ethic or moral or legal questions ought need to be considered by law or society or fully moral agent, and whether any robot ethic or moral or legal issues whether are permitted to enter contracts and largely whether are held fully responsible to ( at least some of ) their actions. The most important aim that I expect my readers can make critically logical mind to give yourself opinions to concern whether either which robots will ethical consequence or in this situation, it is not an issue of the morality of the decider, but rather the moral weight of the choice once made. In AI weapon immoral application aspect, Nowadays, artificial intelligence (AI) technology is popular to be applied to different industry aspects, such as medical, construction, transportation, hospital, education etc. Although, (AI) is a human invention new development. IN fact, it seems only beneficial to human's daily life. But, it will also have threats to influence human's safety in possible , if some scientists or self-interest mind people who aim to apply (AI) to earn more profit or apply (AI) tools to be weapon to attack other countries to achieve to dominate all human's ambitious intention. Thus, (AI) will bring negative influences to our society, instead of positive influences if we can not apply this kind of new technological tools immorally. I shall give my opinions to indicate what reasons will cause (AI) artificial intelligent tools to be applied to social military defense weapon by human's intention. In my this books, I hope my readers can know what will cause human's immoral behaviors to bring our societies to bring more dangerous or risks or threats if human applied (AI) technology to achieve whose immoral or ambitious intention. Finally, I hope that human ought not apply (AI) technology to do any behavioral attack to satisfy ourselves interest or dominate global world ambition to avoid (AI) technological war occurrence in the future one day. I shall bring the question: Whether AI weapon application is moral or immoral to AI scientist invention.

This book concerns to be given my opinions to explain how artificial intelligent technology will impact our life and will influence economic development in the future as well as how to influence human job market change. In labor market part, I shall indicate how artificial intelligence technology influences future macro global economy change. Advances in artificial intelligence (AI) technology is for the progress in critical areas, such as health, education, energy, economy inclusion, social welfare and the environment. Thus, it brings this question: Which (AI) workers be instead of traditional human workers in these different new markets? In recent years, machines had been used to be human's tasks in the performance of certain tasks related to intelligence , such as aspects of image recognition. Experts also forecast that rapid progress in the field of specialized artificial intelligence will continue. Then, it also brings this question: Does (AI) exceed that of human performance on more and more tasks? If it is truth, will some of human jobs to be disappeared? (AI) will be instead of human some simple jobs, then unemployment rate to the low skillful and low educated workers will be increased. Whether (AI) will be raised either production or performance or unemployment to bring human job market more advantages or more disadvantages? In my this book, I shall explain whether (AI) will bring benefits or disadvantages to human job market. I shall give example to let my readers to think how to support my final view point. In macro economy change part, chapter one, I shall explain what the (AI) functions are benefited to human and I shall indicate whether how it can impact human job nature as well as I shall explain whether (AI) can influence to change to human job market to be better or worse in future global labor market. In chapter two, I shall indicate how (AI) will influence global economic technology productivity change as well as I shall indicate whether (AI) technology can impact global service management industry development. In chapter three, I shall indicate whether (AI) technology will influence digital industry economic change as well as I shall indicate whether (AI) technology can influence developing countries' economic change and health and manufacturing change , even global economic change in our future life. Part four concerns how to apply AI technological development to tourism industry. It has these two research questions need to be answered? (1) Can apply (AI) learning machine predict travelling consumer behavior? (2) Can (AI) big data gathering learning machine be replaced to human travelling marketing research method, e.g. survey or traveler psychological and travelling marketing research or travelling environment micro and macro economic human judgement of traveler consumption behavior prediction methods to predict travelling consumer behaviors more accurate?

Mit Beginn der ersten industriellen Revolution entwickelten sich im Laufe der Zeit sukzessiv neuartige Technologien, deren konvergierendes Zusammenspiel in der gegenwärtigen vierten industriellen Revolution mündeten. Die Mensch-Roboter-Kollaboration (MRK) bildet hierbei ein Interaktionskonzept zwischen Mensch und Roboter in einem gemeinsamen Arbeitsbereich. Das Ziel ist eine Verbesserung menschlicher Arbeitsbedingungen bei gleichzeitiger Produktivitätssteigerung.MRK erfahren derzeit eine revolutionäre Weiterentwicklung von statisch programmierten MRK-Systemen hin zu dynamisch lernenden MRK-Systemen auf Basis von Methoden der Künstlichen Intelligenz (KI). Der Nutzen lässt sich anhand der Dimensionen von Flexibilität, Sicherheit sowie Produktivität und der damit verbundenen Steigerung erkennen. Die Integration von leistungsfähiger schwacher KI lässt zugleich neue arbeitswissenschaftliche Herausforderungen entstehen. Es gilt insbesondere einen ganzheitlichen Ansatz in der soziotechnischen Arbeitsgestaltung zu verfolgen. Unternehmen stehen in diesem Zusammenhanggegenwärtig keine benötigten praxisnahen Handlungsempfehlungen zur Verfügung.Das Werk setzt sich folgerichtig zum Ziel, erstmals einen integrativen arbeitswissenschaftlichen Handlungsrahmen unter Berücksichtigung der soziotechnischen Gestaltungselemente herzuleiten. Dieser dient zur Sensibilisierung, ermöglicht es Verbesserungspotenziale und Handlungsmöglichkeiten eigenständig zu identifizieren und bildet in idealtypischer Form die relevanten arbeitswissenschaftlichen Erfolgsfaktoren und Handlungsfelder ab.

The Codexation Dilemma, also known as the Human Mental Handicap, is one of the greatest intellectual foundations in the study of the mind that refutes the idea that consciousness originates in the brain. This assertion, according to Lawsin, is based on the fact that consciousness exists because biological sensors have an inherent dual capability of interacting with the environment. The ability to interact through association is the tell-tale sign that something is alive, aware, and conscious.Besides Associative Consciousness, other new concepts have been integrated into the creation of our living, thinking machine. The classical definitions of being alive, living, and with life, for example, have been redefined. The criteria of life have been revisited. A Brain without The Brain, Intuitive Aneural Network, Generated Interim Emergence, and Inscriptional Physics have been introduced. Because of this new knowledge, a self-conscious machine capable of producing its own kind was developed. Along with this, the Science of Autognorics was born.In this book, Joey Lawsin, the formulator of the Single Theory of Everything and Inscription by Design, reveals the secrets and inner workings of ELFS. These engineered lifeforms can see, smell, taste, hear, speak, feel, think, breed, fly, swim, and even die. They are in vivo machinas synonymous with living organisms. Because of their metallic skins, they are sometimes called the Silver Species.

This book presents a comprehensive guide to the design of playing robots and the related play experiences. Play is a natural activity for building and improving abilities, and it reveals important particularly for persons with disabilities. Many social, physical and cultural factors may hinder children with disabilities from fully enjoying play as their peers. Autonomous robots with specific characteristics can enhance the ludic experience, having implications for the character of the play and presenting opportunities related to autonomy and physical movement, the very nature of robots. Their introduction into play thus provides everybody, and in particular persons with disabilities, new possibilities for developing abilities, improving general status, participating in social contexts, as well as supporting professionals in monitoring progress.This book presents a framework for the design of playful activities with robots, developed over 20 years' experience at AIRLab - POLIMI. Part 1 introduces the play concepts and characteristics, and research results about play of children with different kinds of impairments. Part 2 focuses on implementing robots able to play. The design of playful activities is discussed, as well as the necessary characteristics for them to be useful in both general play and activities involving disability-related limitations. In Part 3, the defined framework is used to analyze possibilities involving robots available on the toy market, robots developed at research labs, and robots to be developed in the next future. The aim of the book is to give developers, caregivers, and users a set of methodological tools for selecting, exploring, and designing inclusive play activities where robots play a central role.

I write this book aim to let readers to feel whether how artificial intelligent technology will influence future technological development to influence human life. How can artificial intelligent tools can bring positive or negative impact to influence future technological development to developing and developed countries ? The another research questions : Should robotic production of factor of technology be caused to economic development? What is future (AI) artificial intelligent products development trend and reasonable development stages? How to predict consumer behaviors to persuade who to feel (AI) products are more satisfactory to their needs? Why do consumers feel them to need to buy any (AI) products to use? Will it have other similar products to replace (AI) any products? How is the reasonable stages to achieve future (AI) development in success? What are the different development stages between developed and developing countries ? Whether (AI) robotic workers can be instead of traditional human workers in these different new markets to bring positive or negative impact to change human job nature change? In recent years, machines had been used to be human's tasks in the performance of certain tasks related to intelligence , such as aspects of image recognition. Experts also forecast that rapid progress in the field of specialized artificial intelligence will continue. Then, it also brings this question: Does (AI) exceed that of human performance on more and more tasks to replace human jobs? If it is truth, will some of human jobs to be disappeared? (AI) will be instead of human some simple jobs, then unemployment rate to the low skillful and low educated workers will be increased. Whether (AI) will be raised either production or performance or unemployment to bring human job market more advantages or more disadvantages? In my this book, I shall explain whether (AI) will bring benefits or disadvantages to human job market.

¿¿¿¿ Unlock Your Potential in Robotics Research with Our Book Bundle! ¿¿¿¿Are you passionate about robotics? Do you dream of becoming an expert in this exciting field? Look no further! Introducing the "Mastering Robotics Research" book bundle-a comprehensive collection of knowledge that will take you from an enthusiastic beginner to a seasoned expert.¿¿¿¿ Book 1: Introduction to Robotics Research: A Beginner's Guide· Dive into the captivating history of robotics.· Master essential terminologies and concepts.· Lay a solid foundation for your journey into robotics research.¿¿¿¿ Book 2: Fundamentals of Robotics Research: Building a Strong Foundation· Explore the mechanics of robotics, including kinematics and dynamics.· Understand sensors, actuators, and more.· Equip yourself with the fundamental knowledge required to excel in robotics research.¿¿¿¿ Book 3: Advanced Techniques in Robotics Research: Becoming a Specialist· Delve into cutting-edge technologies like computer vision and machine learning.· Develop advanced control systems expertise.· Specialize in niche areas and elevate your research skills.¿¿¿¿ Book 4: Mastering Robotics Research: From Enthusiast to Expert· Ascend to the pinnacle of robotics expertise.· Tackle real-world challenges and innovate.· Discover how to contribute groundbreaking research to the field.¿¿¿¿ Limited Time Offer: Grab your "Mastering Robotics Research" book bundle now and embark on a transformative journey in the world of robotics. Your expertise awaits!Order your bundle today and unlock a world of robotics knowledge!

This book explores cloud robotics by casting a light on key issues and proposing a novel approach towards implementation and practical aspects to allow for the widespread adoption of cloud-based functionality. The advent of cloud robotics can to unleash a new generation of smart robotic devices by allowing robots to explore cloud computing capabilities to share data and to offload heavy processing applications. Cloud robotics is investigated as an enabler to a series of applications and devices, questioning how the insertion of network and cloud technologies into such systems might affect the interaction between a robot and the human operating it, and what are the limiting requirements for cloud-based solutions. Aiming at researchers and practitioners, this book also presents a methodology based on open-source software and commercial off-the-shelf devices to provide a common standard for reproducing and benchmarking different cloud robotics systems.

The book discusses how Unmanned Aerial Vehicles (UAVs) can leverage the sub-6 GHz massive MIMO to address cell selection and interference issues in future wireless networks. The book takes a close look at utilizing UAVs to achieving direct and efficient device-to device (D2D) communications in the sky. Also, the key 6G enablers (cell-free architectures, artificial intelligence, reconfigurable intelligent surfaces, THz communications, and non-terrestrial networks) for UAV communication are broached, and the primary technological challenges of each enabler are discussed extensively. Furthermore, the book covers the design of adaptable UAVs to operate in diverse and harsh environmental conditions. Additionally, the existing UAVs' networking protocols and how these can be greatly enhanced to address the issue of intermittent network changes and channel impairments are discussed. The prospects and societal benefits envisioned in future UAVs are also presented.

This volume gathers select proceedings of the 10th International Conference on Wave Mechanics and Vibrations (WMVC), held in Lisbon, Portugal, on July 4-6, 2022. It covers recent developments and cutting-edge methods in wave mechanics and vibrations applied to a wide range of engineering problems. It presents analytical and computational studies in structural mechanics, seismology and earthquake engineering, mechanical engineering, aeronautics, robotics and nuclear engineering among others. The volume will be of interest for students, researchers, and professionals interested in the wide-ranging applications of wave mechanics and vibrations. 

This book is an attempt to address this wide topic with a multi-disciplinary approach. Nowadays, robotics is developing at a much faster pace than ever in the past, both inside and outside industrial environments. While other publications focus on describing the theoretical basis of robot motion, this book pays special attention to explain the fundamentals through real applications. Thus, it represents a perfect combination for studying this topic along with other theoretical books. Each chapter has been authored by experts in specific areas spanning from the mechanics of machinery to control theory, informatics, mechatronics. Chapters have been divided into two sections. The first one is aiming to give a theoretical background. The second section is focused on applications. This book project can be foreseen as a reference for young professionals/researchers to overview the most significant aspects in robotics.

This book gathers peer-reviewed contributions presented at the International Conference on Construction Logistics, Equipment and Robotics (CLEaR), held at the TUM Academy Center Raitenhaslach near Munich, Germany on October 09-11, 2023. The contributions encompass three main themes, construction logistics, equipment and robotics, and cover a diverse range of topics such as supply chain management¿, process management¿, LEAN and industrialized construction¿, production systems, BIM and digtial twin¿, sensoric and embedded systems¿, zero emission and sustainability, autonomous machines¿, IIoT and collaborative machines¿, autonomous mobile robots¿, computer vision and perception systems¿, cloud/edge computing¿, and human robot interaction. They explore the latest findings in the field of construction industry, and discuss new perspectives and practices that will strengthen the role of construction logistics as part of the Industry 4.0.

This book reports on intelligent methods and solutions in engineering production and maintenance. It describes advanced tools for optimizing production processes, increasing their automation, safety and sustainability. Contributions cover different stages of the production process, such as product design, supply chain, and equipment maintenance and safety. This is one of the two volumes based on the 4th International Conference on Intelligent Systems in Production Engineering and Maintenance, ISPEM 2023, held on September 13-15, 2023, in Wroclaw, Poland.

This book gives a step-by-step introduction to designing and building your own robots.  As with other books in the Arduino series, the book begins with a quick overview of the Arduino Integrated Development Environment (IDE) used to write sketches, and the hardware systems aboard the Arduino UNO R3 and the Mega 2560 Rev 3.  The level of the text makes it accessible for students, hobbyist and professionals' first introduction to both Arduino and Robotics.  This book will be accessible by all levels of students, advanced hobbyists and engineering professionals, whether using as a self-reference or within a structure design laboratory. The text then examines the many concepts and characteristics common to all robots.  In addition, throughout the book , reasonably priced, easily accessible and available off-the-shelf robots are examined. Examples include wheeled robots, tracked robots and also a robotic arm.  After a thorough and easy to follow  Arduino IDE and hardware introduction, the book launches into "e;do it yourself"e; or DIY concepts.  A unique feature of the book is to start with a hands-on introduction to low cost 3D printing.  These concepts will allow you to design and print your own custom robot parts and chassis.  We then explore concepts to sense a robot's environment, move the robot about and provide a portable power source.  We conclude with a several DIY robot projects.

This present book provides valuable insights on the technical, societal and legal challenges posed by the use of artificial intelligent systems in a plethora of different applications, from embodied robotic systems to ML algorithms. Engaging with concerns about equity, privacy, surveillance and respect for human dignity, "e;Towards Trustworthy Artificial Intelligent Systems"e; highlights the fundamental factors on which stakeholders' trust relies, identifying benchmarking, standardisation and certification as milestones grounding and consolidating that future trust. The multidisciplinary approach followed will make this book a valuable resource for all those involved in the production and deployment of AIs, as well as for academia and legal practitioners. 

This book introduces several appearance-based place recognition pipelines based on different mapping techniques for addressing loop-closure detection in mobile platforms with limited computational resources. The motivation behind this book has been the prospect that in many contemporary applications efficient methods are needed that can provide high performance under run-time and memory constraints. Thus, three different mapping techniques for addressing the task of place recognition for simultaneous localization and mapping (SLAM) are presented. The book at hand follows a tutorial-based structure describing each of the main parts needed for a loop-closure detection pipeline to facilitate the newcomers. It mainly goes through a historical review of the problem, focusing on how it was addressed during the years reaching the current age. This way, the reader is initially familiarized with each part while the place recognition paradigms follow.

This book aims at sharing knowledge about the technological opportunities and the main research challenges regarding robotics for logistics in supermarkets and retail stores, from the perspectives of the end-users, logistic companies, technology providers, and robotic researchers. The authors have been involved into the H2020 project Robotics Enabling Fully Integrated Logistics Lines for Supermarkets (REFILLS), aimed at improving logistics in supermarkets thanks to mobile robotic systems in close and smart collaboration with humans. The readers will find a comprehensive analysis of the main logistic processes in retail stores with possible robotized solutions, involving mechanical design, perception, and control. These technologies have been validated in realistic environments, and some of them have been tested into real supermarkets. The book is intended for a broad academic and industrial readership, including operators in the field of logistics, distribution, and retail.

This book introduces a novel model-based dexterous manipulation framework, which, thanks to its precision and versatility, significantly advances the capabilities of robotic hands compared to the previous state of the art. This is achieved by combining a novel grasp state estimation algorithm, the first to integrate information from tactile sensing, proprioception and vision, with an impedance-based in-hand object controller, which enables leading manipulation capabilities, including finger gaiting. The developed concept is implemented on one of the most advanced robotic manipulators, the DLR humanoid robot David, and evaluated in a range of challenging real-world manipulation scenarios and tasks. This book greatly benefits researchers in the field of robotics that study robotic hands and dexterous manipulation topics, as well as developers and engineers working on industrial automation applications involving grippers and robotic manipulators.

Rapid technological advances in the field of robotics and autonomous systems (RAS) are transforming the international security environment and the conduct of contemporary conflict. Bringing together leading experts from across the globe, this book provides timely analysis on the current and future challenges associated with greater utilization of RAS by states, their militaries, and a host of non-state actors.Technologically driven change in the international security environment can come about through the development of one significant technology, such as the atomic bomb. At other times, it results from several technologies maturing at roughly the same pace. This second image better reflects the rapid technological change that is taking us into the robotics age. Many of the chapters in this edited volume explore unresolved ethical, legal, and operational challenges that are only likely to become more complex as RAS technology matures. Though the precise ways in which the impact of autonomous systems - both physical and non-physical - will be felt in the long-run is hidden from us, attempting to anticipate the direction of travel remains an important undertaking and one that this book makes a critical effort to contend with.The chapters in this book were originally published as a special issue of the journal Small Wars & Insurgencies.