How can we grow our prosperity through automation without leaving people lacking income or purpose? What career advice should we give today's kids? How can we make future AI systems more robust, so that they do what we want without crashing, malfunctioning or getting hacked? Should we fear an arms race in lethal autonomous weapons? Will machines eventually outsmart us at all tasks, replacing humans on the job market and perhaps altogether? Will AI help life flourish like never before or give us more power than we can handle?

What sort of future do you want? This book empowers you to join what may be the most important conversation of our time. It doesn't shy away from the full range of viewpoints or from the most controversial issues--from superintelligence to meaning, consciousness and the ultimate physical limits on life in the cosmos.

There is a robotics revolution underway. A record 3.1 million robots are working in factories right now, doing everything from assembling computers to packing goods and monitoring air quality and performance. A far greater number of smart machines impact our lives in countless other ways--improving the precision of surgeons, cleaning our homes, extending our reach to distant worlds--and we're on the cusp of even more exciting opportunities.

In The Heart and the Chip, roboticist Daniela Rus and science writer Gregory Mone provide an overview of the interconnected fields of robotics, artificial intelligence, and machine learning, and reframe the way we think about intelligent machines while weighing the moral and ethical consequences of their role in society. Robots aren't going to steal our jobs: they're going to make us more capable, productive, and precise.

At once optimistic and realistic, Rus and Mone envision a world in which these technologies augment and enhance our skills and talents, both as individuals and as a species--a world in which the proliferation of robots allows us all to be more human.

In the popular imagination, superhuman artificial intelligence is an approaching tidal wave that threatens not just jobs and human relationships, but civilization itself. Conflict between humans and machines is seen as inevitable and its outcome all too predictable.

In this groundbreaking book, distinguished AI researcher Stuart Russell argues that this scenario can be avoided, but only if we rethink AI from the ground up. Russell begins by exploring the idea of intelligence in humans and in machines. He describes the near-term benefits we can expect, from intelligent personal assistants to vastly accelerated scientific research, and outlines the AI breakthroughs that still have to happen before we reach superhuman AI. He also spells out the ways humans are already finding to misuse AI, from lethal autonomous weapons to viral sabotage.

If the predicted breakthroughs occur and superhuman AI emerges, we will have created entities far more powerful than ourselves. How can we ensure they never, ever, have power over us? Russell suggests that we can rebuild AI on a new foundation, according to which machines are designed to be inherently uncertain about the human preferences they are required to satisfy. Such machines would be humble, altruistic, and committed to pursue our objectives, not theirs. This new foundation would allow us to create machines that are provably deferential and provably beneficial.

As robots are increasingly integrated into modern society--on the battlefield and the road, in business, education, and health--Pulitzer-Prize-winning New York Times science writer John Markoff searches for an answer to one of the most important questions of our age: will these machines help us, or will they replace us?

In the past decade alone, Google introduced us to driverless cars, Apple debuted a personal assistant that we keep in our pockets, and an Internet of Things connected the smaller tasks of everyday life to the farthest reaches of the internet. There is little doubt that robots are now an integral part of society, and cheap sensors and powerful computers will ensure that, in the coming years, these robots will soon act on their own. This new era offers the promise of immense computing power, but it also reframes a question first raised more than half a century ago, at the birth of the intelligent machine: Will we control these systems, or will they control us?

In Machines of Loving Grace, New York Times reporter John Markoff, the first reporter to cover the World Wide Web, offers a sweeping history of the complicated and evolving relationship between humans and computers. Over the recent years, the pace of technological change has accelerated dramatically, reintroducing this difficult ethical quandary with newer and far weightier consequences. As Markoff chronicles the history of automation, from the birth of the artificial intelligence and intelligence augmentation communities in the 1950s, to the modern day brain trusts at Google and Apple in Silicon Valley, and on to the expanding tech corridor between Boston and New York, he traces the different ways developers have addressed this fundamental problem and urges them to carefully consider the consequences of their work.

We are on the verge of a technological revolution, Markoff argues, and robots will profoundly transform the way our lives are organized. Developers must now draw a bright line between what is human and what is machine, or risk upsetting the delicate balance between them.

This introduction to cyborg theory provides a critical vantage point for analyzing the claims around emerging technologies like automation, robots, and AI. Cyborg analyzes and reframes popular and scholarly conversations about cyborgs from the perspective of feminist cyborg theory. Drawing on their combined decades of training, teaching, and research in the social sciences, design, and engineering education, Laura Forlano and Danya Glabau introduce an approach called critical cyborg literacy. Critical cyborg literacy foregrounds power dynamics and pays attention to the ways that social and cultural factors such as gender, race, and disability shape how technology is imagined, developed, used, and resisted.

Forlano and Glabau offer critical cyborg literacy as a way of thinking through questions about the relationship between humanity and technology in areas such as engineering and computing, art and design, and health care and medicine, as well as the social sciences and humanities. Cyborg examines whether modern technologies make us all cyborgs--if we consider, for instance, the fact that we use daily technologies at work, have technologies embedded into our bodies in health care applications, or use technology to critically explore possibilities as artists, designers, activists, and creators. Lastly, Cyborg offers perspectives from critical race, feminist, and disability thinkers to help chart a path forward for cyborg theory in the twenty-first century.

Studio 5000 Logix Designer: A Learning Guide for ControlLogix Basics

Presents instructions and programming concepts in an easy to follow, step-by-step method by highlighting essential methods and techniques of using Studio 5000 Logix Designer software, and the ControlLogix platform.

This book illustrates essential techniques and practices for effectively using Studio 5000 development software to build ControlLogix solutions by addressing key elements of PAC program development that must be understood, and built upon, to gain proficiency in troubleshooting or developing ControlLogix based projects.

Richard Baldwin, one of the world's leading globalization experts, argues that the inhuman speed of this transformation threatens to overwhelm our capacity to adapt. From computers in the office to automatic ordering systems in restaurants, we are familiar with the how digital technologies offer convenience while also eliminating jobs. Globotics will disrupt the lives of millions of white-collar workers much faster than automation, industrialization, and globalization disrupted the lives of factory workers in previous centuries. The result will be a backlash. Professional, white-collar, and service workers will agitate for a slowing of the unprecedented pace of disruption, as factory workers have done in years past.

Baldwin argues that the globotics upheaval will be countered in the short run by shelter-ism - government policies that shelter some service jobs from tele-migrants and thinking computers. In the long run, people will work in more human jobs-activities that require real people to use the uniquely human ability of independent thought-and this will strengthen bonds in local communities. Offering effective strategies such as focusing on the social value of work, The Globotics Upheaval will help people prepare for the oncoming wave of an advanced robotic workforce.

There is a robotics revolution underway. A record 3.1 million robots are working in factories right now, doing everything from assembling computers to packing goods and monitoring air quality and performance. A far greater number of smart machines impact our lives in countless other ways--improving the precision of surgeons, cleaning our homes, extending our reach to distant worlds--and we're on the cusp of even more exciting opportunities.

In The Heart and the Chip, roboticist Daniela Rus and science writer Gregory Mone provide an overview of the interconnected fields of robotics, artificial intelligence, and machine learning, and reframe the way we think about intelligent machines while weighing the moral and ethical consequences of their role in society. Robots aren't going to steal our jobs: they're going to make us more capable, productive, and precise.

At once optimistic and realistic, Rus and Mone envision a world in which these technologies augment and enhance our skills and talents, both as individuals and as a species--a world in which the proliferation of robots allows us all to be more human.

The unveiling of increasingly intelligent robots had become a near daily occurrence when NASA revealed the robotic 'bee' helpers it was sending to the International Space Station in 2019. NASA's Bees explores this and 49 more of the most groundbreaking discoveries and advances across the surprisingly long history of robotics and the closely related field of artificial intelligence.

From the mechanical men of ancient legend to Tesla's self-driving cars, Nasa's Bees charts the fascinating evolution of the idea of using intelligent man-made or synthetic objects to fulfill our needs. It is a thorough and accessible guide to the history of some of the fastest growing areas of scientific research today.

Lucid exploration of the story of robotics through an examination of 50 of its greatest discoveries and advances
- Fully illustrated throughout, with lively illustrations that illuminate the discoveries
- The discoveries cover a broad range of topical concerns, exploring the benefits of each advance and its potential impact on our daily lives as well as the future of the field
- Part of the Great Experiments Series

The LEGO(R) BOOST(R) Idea Book explores 95 creative ways to build simple robots with the LEGO BOOST set. Each model includes a parts list, minimal text, screenshots of programs, and colorful photographs from multiple angles so you can re-create it without step-by-step instructions.

You'll learn to build robots that can walk and crawl, shoot and grab objects, and even draw using a pen Each model demonstrates handy mechanical principles that you can use to come up with your own creations.

Models come with building hints and ideas for putting your own spin on things. Best of all, every part you need to build these models comes in the LEGO BOOST Creative Toolbox (set #17101).

The latest developments in robotics and artificial intelligence and a preview of the coming decades, based on research and interviews with the world's foremost experts.

If there's one universal trait among humans, it's our social nature. The craving to connect is universal, compelling, and frequently irresistible. This concept is central to Robots and the People Who Love Them. Socially interactive robots will soon transform friendship, work, home life, love, healthcare, warfare, education, and nearly every nook and cranny of modern life. This book is an exploration of how we, the most gregarious creatures in the food chain, could be changed by social robots. On the other hand, it considers how we will remain the same, and asks how human nature will express itself when confronted by a new class of beings created in our own image.

Drawing upon recent research in the development of social robots, including how people react to them, how in our minds the boundaries between the real and the unreal are routinely blurred when we interact with them, and how their feigned emotions evoke our real ones, science writer Eve Herold takes readers through the gamut of what it will be like to live with social robots and still hold on to our humanity. This is the perfect book for anyone interested in the latest developments in social robots and the intersection of human nature and artificial intelligence and robotics, and what it means for our future.

A comprehensive, step-by-step guide to understanding the basics of robotics and creating your own robotics applications within days, not months

Key Features:

- Build a strong foundation in ROS 2 and instill confidence for future robotics projects

- Leverage best practices to create scalable ROS 2 applications with Python and C++

- Follow a step-by-step process to create and simulate a custom robot using ROS 2

- Purchase of the print or Kindle book includes a free PDF eBook

Book Description:

ROS 2 from Scratch, written by the cofounder of a robotics company with years of experience in teaching and engineering, will equip you with the skills necessary to develop cutting-edge robotic systems efficiently.

This book will help you understand why you should use Robot Operating System (ROS), clarifying what ROS is and isn't. It focuses on applied learning-no unnecessary filler, no abstract theory, and no abrupt leaps into complex topics. You'll discover how to install ROS 2, set up your environment, and explore concepts through hands-on experiments, as well as create a ROS 2 application for a custom robot. The chapters expand upon core concepts such as nodes, communication via topics, client-server interactions with services, complex behaviors using actions, runtime configurations with parameters, and seamless node orchestration via launch files. Each concept is clearly explained with the help of real-life analogies and practical examples, using Python and C++. The book will also guide you through creating a real-world project that incorporates TFs, URDF, RViz, and Gazebo.

By the end of this book, you'll be able to create new software for any robot in no time and easily join existing projects for new job roles, research endeavors, and beyond.

What You Will Learn:

- Understand what ROS 2 is, when to use it, and how to use it

- Write ROS 2 programs using nodes, topics, services, actions, and custom interfaces

- Scale your application with parameters and launch files

- Get a complete overview of how TFs work for any ROS-powered robot

- Create a robot model (with URDF) and visualize TFs on RViz

- Adapt the URDF to spawn and control your robot in the Gazebo simulator

Who this book is for:

This book is for engineers, researchers, teachers, students, and hobbyists eager to learn ROS 2 from scratch and build real-world robotics applications efficiently. If you're struggling to get started with ROS 2 or find existing tutorials overwhelming, then this book is for you. This book teaches you all the basics you need to create your own ROS 2 apps, without prior ROS knowledge. Basic Linux command line and Python programming skills (C++ optional for following the C++ code examples) are necessary.

Table of Contents

- Introduction to ROS 2 - What Is ROS 2?

- Installing and Setting Up ROS 2

- Uncovering ROS 2 Core Concepts

- Writing and Building a ROS 2 Node

- Topics - Sending and Receiving Messages between Nodes

- Services - Client/Server Interaction between Nodes

- Actions - When Services Are Not Enough

- Parameters - Making Nodes More Dynamic

- Launch Files - Starting All Your Nodes at Once

- Discovering TFs with RViz

- Creating a URDF for a Robot

- Publishing TFs and Packaging the URDF

- Simulating a Robot in Gazebo

- Going Further - What to Do Next

Robots are entering the mainstream. Technologies have advanced to the point of mass commercialization--Roomba, for example--and adoption by governments--most notably, their use of drones. Meanwhile, these devices are being received by a public whose main sources of information about robots are the fantasies of popular culture. We know a lot about C-3PO and Robocop but not much about Atlas, Motoman, Kiva, or Beam--real-life robots that are reinventing warfare, the industrial workplace, and collaboration. In this book, technology analyst John Jordan offers an accessible and engaging introduction to robots and robotics, covering state-of-the-art applications, economic implications, and cultural context.

Jordan chronicles the prehistory of robots and the treatment of robots in science fiction, movies, and television--from the outsized influence of Mary Shelley's Frankenstein to Isaac Asimov's I, Robot (in which Asimov coined the term robotics). He offers a guided tour of robotics today, describing the components of robots, the complicating factors that make robotics so challenging, and such applications as driverless cars, unmanned warfare, and robots on the assembly line.

Roboticists draw on such technical fields as power management, materials science, and artificial intelligence. Jordan points out, however, that robotics design decisions also embody such nontechnical elements as value judgments, professional aspirations, and ethical assumptions, and raise questions that involve law, belief, economics, education, public safety, and human identity. Robots will be neither our slaves nor our overlords; instead, they are rapidly becoming our close companions, working in partnership with us--whether in a factory, on a highway, or as a prosthetic device. Given these profound changes to human work and life, Jordan argues that robotics is too important to be left solely to roboticists.

For readers of The Second Machine Age or The Soul of an Octopus, a bold, exciting exploration of how building diverse kinds of relationships with robots--inspired by how we interact with animals--could be the key to making our future with robot technology work

There has been a lot of ink devoted to discussions of how robots will replace us and take our jobs. But MIT Media Lab researcher and technology policy expert Kate Darling argues just the opposite, suggesting that treating robots with a bit of humanity, more like the way we treat animals, will actually serve us better. From a social, legal, and ethical perspective, she shows that our current ways of thinking don't leave room for the robot technology that is soon to become part of our everyday routines. Robots are likely to supplement--rather than replace--our own skills and relationships. So if we consider our history of incorporating animals into our work, transportation, military, and even families, we actually have a solid basis for how to contend with this future.

A deeply original analysis of our technological future and the ethical dilemmas that await us, The New Breed explains how the treatment of machines can reveal a new understanding of our own history, our own systems, and how we relate--not just to nonhumans, but also to one another.

Build Your Own Robot introduces you to the exciting world of robotics in a way that's fun and affordable! You'll build your own real robot with easy-to-find hardware and free open source software. Plus, all the components you need can be assembled with simple tools like a screwdriver.

In Build Your Own Robot you'll learn how to:

• Use cameras to capture photos and let your robot see
• Add cameras and basic computer vision
• Coordinate DC motors to move your robot
• Write a web app to control your robot
• Set up controls for joysticks
• Read QR codes to find and identify objects

Purchase of the print book includes a free eBook in PDF and ePub formats from Manning Publications.

About the technology

You can build your own robot! With this book, you'll use readily-available hardware and author Marwan Alsabbagh's clear step-by-step instructions to create a robot that moves, manipulates objects, and responds to its environment. Along the way, you'll learn some serious skills like computer vision, networking, and the basics of robotics programming.

About the book

Build Your Own Robot is a project-based guide that takes you from spinning your first DC motor to programming a mobile robot that you can control from your phone or computer. You'll write simple Python code to help your new friend spin, move, and find its way. You'll even teach it to track faces and fetch snacks. Plus, a helpful hardware purchasing guide makes it easy to find exactly what you need to get started!

What's inside

• Coordinate DC motors to move your robot
• Write a web app to control your robot
• Adding cameras and basic computer vision
• Read QR codes to find and identify objects

Examples use simple Python code. No special skills or expensive tools required.

About the author

Marwan Alsabbagh is a seasoned software developer, who has studied mathematics and computer science at McGill University.

The technical editor on this book was Alexander Ryker.

Table of Contents

1 What is a robot?
2 Getting started
3 Driving the robot
4 Creating a robot shell
5 Controlling robots remotely
6 Creating robot web apps
7 Joystick-controlled robots
8 Keyboard-controlled camera
9 Face-following camera
10 Robotic QR code finder
11 Building a snack-pushing robot
A Hardware purchasing guide
B Configuring the Raspberry Pi
C Robot assembly guide
D Mocking the CRICKIT library

Wearable exoskeletons are electro-mechanical systems designed to assist, augment, or enhance motion and mobility in a variety of human motion applications and scenarios. The applications, ranging from providing power supplementation to assist the wearers to situations where human motion is resisted for exercising applications, cover a wide range of domains such as medical devices for patient rehabilitation training recovering from trauma, movement aids for disabled persons, personal care robots for providing daily living assistance, and reduction of physical burden in industrial and military applications. The development of effective and affordable wearable exoskeletons poses several design, control and modelling challenges to researchers and manufacturers. Novel technologies are therefore being developed in adaptive motion controllers, human-robot interaction control, biological sensors and actuators, materials and structures, etc.

In this book, the editors and authors report recent advances and technology breakthroughs in exoskeleton developments. It will be of interest to engineers and researchers in academia and industry as well as manufacturing companies interested in developing new markets in wearable exoskeleton robotics.

Publisher's Note: Products purchased from Third Party sellers are not guaranteed by the publisher for quality, authenticity, or access to any online entitlements included with the product.