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Books on the topic 'Wearable robotic'

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Author: Grafiati
Published: 14 March 2023

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1

L, Pons José, ed. Wearable robots: Biomechatronic exoskeletons. Hoboken: Wiley, 2008.

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2

L, Pons José, ed. Wearable robots: Biomechatronic exoskeletons. Hoboken: Wiley, 2008.

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3

L, Pons José, ed. Wearable robots: Biomechatronic exoskeletons. Hoboken: Wiley, 2008.

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4

Fang, Bin, Fuchun Sun, Huaping Liu, Chunfang Liu, and Di Guo. Wearable Technology for Robotic Manipulation and Learning. Singapore: Springer Singapore, 2020. http://dx.doi.org/10.1007/978-981-15-5124-6.

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5

Moreno, Juan C., Jawad Masood, Urs Schneider, Christophe Maufroy, and Jose L. Pons, eds. Wearable Robotics: Challenges and Trends. Cham: Springer International Publishing, 2022. http://dx.doi.org/10.1007/978-3-030-69547-7.

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6

González-Vargas, José, Jaime Ibáñez, Jose L. Contreras-Vidal, Herman van der Kooij, and José Luis Pons, eds. Wearable Robotics: Challenges and Trends. Cham: Springer International Publishing, 2017. http://dx.doi.org/10.1007/978-3-319-46532-6.

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7

Carrozza, Maria Chiara, Silvestro Micera, and José L. Pons, eds. Wearable Robotics: Challenges and Trends. Cham: Springer International Publishing, 2019. http://dx.doi.org/10.1007/978-3-030-01887-0.

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8

Mooney, Carla. Wearable robots. Chicago, IL: Norwood House Press, 2016.

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9

Andrea, Gaggioli, ed. Advanced technologies in rehabilitation: Empowering cognitive, physical, social, and communicative skills through virtual reality, robots, wearable systems, and brain-computer interfaces. Amsterdam: IOS Press, 2009.

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10

Wearable Robots:: Biomechatronic Exoskeletons. Wiley, 2008.

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11

Guo, Di, Chunfang Liu, Huaping Liu, Bin Fang, and Fuchun Sun. Wearable Technology for Robotic Manipulation and Learning. Springer Singapore Pte. Limited, 2021.

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12

Guo, Di, Chunfang Liu, Huaping Liu, Bin Fang, and Fuchun Sun. Wearable Technology for Robotic Manipulation and Learning. Springer, 2020.

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13

Floreano, Dario, and Nicola Nosengo. Tales from a Robotic World. The MIT Press, 2022. http://dx.doi.org/10.7551/mitpress/13489.001.0001.

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Stories from the future of intelligent machines—from rescue drones to robot spouses—and accounts of cutting-edge research that could make it all possible. Tech prognosticators promised us robots—autonomous humanoids that could carry out any number of tasks. Instead, we have robot vacuum cleaners. But, as Dario Floreano and Nicola Nosengo report, advances in robotics could bring those rosy predictions closer to reality. A new generation of robots, directly inspired by the intelligence and bodies of living organisms, will be able not only to process data but to interact physically with humans and the environment. In this book, Floreano, a roboticist, and Nosengo, a science writer, bring us tales from the future of intelligent machines—from rescue drones to robot spouses—along with accounts of the cutting-edge research that could make it all possible. These stories from the not-so-distant future show us robots that can be used for mitigating effects of climate change, providing healthcare, working with humans on the factory floor, and more. Floreano and Nosengo tell us how an application of swarm robotics could protect Venice from flooding, how drones could reduce traffic on the congested streets of mega-cities like Hong Kong, and how a “long-term relationship model” robot could supply sex, love, and companionship. After each fictional scenario, they explain the technologies that underlie it, describing advances in such areas as soft robotics, swarm robotics, aerial and mobile robotics, humanoid robots, wearable robots, and even biohybrid robots based on living cells. Robotics technology is no silver bullet for all the world's problems—but it can help us tackle some of the most pressing challenges we face.
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14

Enab, Ahmad. Wearable Robotic Exoskeleton: Introduction to SEMG-Based Orthotic Robots. Independently Published, 2019.

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15

Virk, Gurvinder Singh, Shaoping Bai, and Thomas Sugar. Wearable Exoskeleton Systems: Design, Control and Applications. Institution of Engineering & Technology, 2018.

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16

Wearable Robotics. Elsevier, 2020. http://dx.doi.org/10.1016/c2017-0-01139-4.

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17

Pons, José L., Juan C. Moreno, and Rogelio Soto. Wearable Robots. Wiley & Sons, Limited, John, 2015.

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18

Rosen, Jacob. Wearable Robotics: Systems and Applications. Elsevier Science & Technology, 2019.

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19

Rosen, Jacob. Wearable Robotics: Systems and Applications. Elsevier Science & Technology Books, 2019.

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20

Pons, José L. Wearable Robots. Wiley & Sons, Incorporated, John, 2008.

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21

Pons, José L., Juan C. Moreno, and Rogelio Soto. Wearable Robots. Wiley & Sons, Incorporated, John, 2018.

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22

Pons, José L., Juan C. Moreno, and Rogelio Soto. Wearable Robots. Wiley & Sons, Incorporated, John, 2018.

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23

Pons, José L. Wearable Robots: Biomechatronic Exoskeletons. Wiley & Sons, Limited, John, 2008.

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24

Pons, José L. Wearable Robots: Biomechatronic Exoskeletons. Wiley & Sons, Incorporated, John, 2008.

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25

Wearable Exoskeleton Systems: Design, Control and Applications. Institution of Engineering & Technology, 2018.

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26

Ibáñez, Jaime, José González-Vargas, Jose L. Contreras-Vidal, Herman van der Kooij, and José Luis Pons. Wearable Robotics : Challenges and Trends: Proceedings of the 2nd International Symposium on Wearable Robotics, WeRob2016, October 18-21, 2016, Segovia, Spain. Springer, 2016.

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27

Ibáñez, Jaime, José González-Vargas, Jose L. Contreras-Vidal, Herman van der Kooij, and José Luis Pons. Wearable Robotics : Challenges and Trends: Proceedings of the 2nd International Symposium on Wearable Robotics, WeRob2016, October 18-21, 2016, Segovia, Spain. Springer, 2018.

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28

Ibáñez, Jaime, José González-Vargas, Jose L. Contreras-Vidal, Herman van der Kooij, and José Luis Pons. Wearable Robotics : Challenges and Trends: Proceedings of the 2nd International Symposium on Wearable Robotics, WeRob2016, October 18-21, 2016, Segovia, Spain. Springer, 2016.

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29

Wearable Robotics : Challenges and Trends: Proceedings of the 4th International Symposium on Wearable Robotics, WeRob2018, October 16-20, 2018, Pisa, Italy. Springer, 2018.

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30

Virk, G. S., Canjun Yang, and Huayong Yang. Wearable Sensors and Robots: Proceedings of International Conference on Wearable Sensors and Robots 2015. Ingramcontent, 2016.

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31

Virk, G. S., Canjun Yang, and Huayong Yang. Wearable Sensors and Robots: Proceedings of International Conference on Wearable Sensors and Robots 2015. Springer, 2018.

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32

Pons, José L., Maria Chiara Carrozza, and Silvestro Micera. Wearable Robotics : Challenges and Trends: Proceedings of the 4th International Symposium on Wearable Robotics, WeRob2018, October 16-20, 2018, Pisa, Italy. Springer, 2019.

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33

Schneider, Urs, José L. Pons, Juan C. Moreno, Jawad Masood, and Christophe Maufroy. Wearable Robotics : Challenges and Trends: Proceedings of the 5th International Symposium on Wearable Robotics, WeRob2020, and of WearRAcon Europe 2020, October 13-16 2020. Springer International Publishing AG, 2021.

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34

Pons, José L., Urs Schneider, Juan C. Moreno, Jawad Masood, and Christophe Maufroy. Wearable Robotics : Challenges and Trends: Proceedings of the 5th International Symposium on Wearable Robotics, WeRob2020, and of WearRAcon Europe 2020, October 13-16 2020. Springer International Publishing AG, 2022.

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35

The New Shop Class: Getting Started with 3D Printing, Arduino, and Wearable Tech. Apress, 2015.

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36

Lepora, Nathan F. Touch. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780199674923.003.0016.

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Touch is the ability to perceive the world through physical contact. This article describes three principles underlying biological touch sensing and how these principles can result in biomimetic devices. First, that cutaneous touch is superresolved, in that the accuracy of perceiving fine stimulus detail is finer than the spacing between individual sensory mechanoreceptors. Second, that touch is active, in that animals actively select and refine sensations in a purposive manner. Third, that touch is exploratory, in that animals deploy purposive action patterns to encode properties of objects via a lexicon of exploratory procedures. Biomimetic tactile systems have utilized these principles to result in superior sensing capabilities, including systems that mimic the human fingertip and hand (cutaneous touch) and the rodent whisker system (vibrissal touch). Future biomimetic touch could rival human capabilities, enabling tactile sensors to have technological applications spanning across prosthetics, telehaptics, surgical robotics, wearable computing, medical probes, and manufacturing.
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