Book Volume 2
Introduction
Page: 1-30 (30)
Author: Juntian Qu*, Zhenkun Li*, Qigao Fan*, Hongchao Cui* and Yueyue Liu*
DOI: 10.2174/9789815256475124020002
PDF Price: $15
Abstract
Soft robots are an important part of the development of robotics. The research and
development of flexible structures are important bases for the development of soft robots. In
this chapter, we first introduce the design concepts of soft robots from different perspectives.
The soft robot is systematically introduced from the perspectives of drive, material, and
structure. In addition, the origin of soft robots is reviewed, and the early development of soft
robots is systematically discussed. Finally, the further development of soft robots is researched
and discussed, and the prospect of further development of soft robots is explored.
Actuation Techniques for Soft Robots
Page: 31-73 (43)
Author: Juntian Qu*, Zhenkun Li*, Qigao Fan*, Hongchao Cui* and Yueyue Liu*
DOI: 10.2174/9789815256475124020003
PDF Price: $15
Abstract
The objective of this chapter is to examine and explore the relevant aspects of soft
actuation technology. Unlike traditional rigid robots, soft robots are predominantly composed
of flexible materials. Soft robots exhibit exceptional adaptability and flexibility, enabling them
to execute various tasks in complex environments. Nevertheless, the classification of soft robot
driving modes presents a challenging problem due to the wide range of driving forms and
materials utilized in their design.
Firstly, we present a comprehensive definition of soft actuation technology and classify robots
into three groups based on their driving methods and motion forms: traditional rigid robots,
soft-mimicking robots, and soft robots. Subsequently, our attention turns to the classification
of soft robot driving modes. Based on the principles of different driving modes, we categorize
the driving modes of soft robots into two groups: structure-function-driven and materialfunction-driven. Furthermore, we provide comprehensive explanations and analyses of several
prevalent driving modes for soft robots, such as fluid-driven, magnetic-driven, cable-driven,
shape memory material-driven, and electro-active polymer-driven, in addition to highlighting
recent advancements in these domains.
Finally, we summarize the issues and challenges encountered in the advancement of soft robot
actuation technology after examining various soft robot driving modes in recent years.
Soft Robot Sensing and Perception
Page: 74-102 (29)
Author: Juntian Qu*, Zhenkun Li*, Qigao Fan*, Hongchao Cui* and Yueyue Liu*
DOI: 10.2174/9789815256475124020004
PDF Price: $15
Abstract
This section introduces the sensing and perception of the soft robots. First, the sensor
of the soft robots are classified. Then, the state of the soft robot’s sensing and perception model
is introduced, i.e., passive mode, semi-active mode, active mode and interactive perceptive
mode. Moreover, according to the sensing and perception mode, several sensing and perception
technologies are presented. In the end, several challenges regarding the sensing and perception
of the soft robots are summarized.
Material, Design and Fabrication of Soft Robots
Page: 103-166 (64)
Author: Juntian Qu*, Zhenkun Li*, Qigao Fan*, Hongchao Cui* and Yueyue Liu*
DOI: 10.2174/9789815256475124020005
PDF Price: $15
Abstract
Elastomer, hydrogel, shape memory polymers, electro-active polymers, and liquid
metal possess some advantages and special performance, especially in soft robots. The
flexibility of soft robots, for example, also derives from biologically inspired structural designs
and numerous additive manufacturing methods.
This chapter provides a detailed overview of the above five types of materials. The concepts,
composition, classification, synthesis principles and properties of these materials are discussed
in details. We also summarize and classify the design of release structures for soft robots,
including crawling soft robots on land and underwater soft-bodied robots. We analysis and
summarize the design and manufacturing methods of soft robots through the existing relevant
research results, and finally elaborate on the problems facing future development, in the hope
that it can help and guide the direction of research related to soft robots.
Soft Robots Modeling and Control
Page: 167-192 (26)
Author: Juntian Qu*, Zhenkun Li*, Qigao Fan*, Hongchao Cui* and Yueyue Liu*
DOI: 10.2174/9789815256475124020006
PDF Price: $15
Abstract
This section introduces the classification of soft robots modeling and control
methods. In this section, we present the following modeling methods of soft robots, i.e.,
mechanics models, geometrical models, discrete material models and surrogate models. In
addition, based on above models, three kinds of control framework are described, which consist
of model-based control, model-free control and hybrid control approach. In the end, the
summaries and challenges are also presented to conclude the modeling and control framework
of the soft robots.
Applications of Soft Robots
Page: 193-250 (58)
Author: Juntian Qu*, Zhenkun Li*, Qigao Fan*, Hongchao Cui and Yueyue Liu*
DOI: 10.2174/9789815256475124020007
PDF Price: $15
Abstract
Soft robots have become increasingly prevalent in today's AI era due to their ability
to meet the specialized needs and technological advancements that rigid robots cannot. Soft
robots are characterized by their flexibility, deformability, and variable stiffness, which greatly
compensate for the limitations of rigid robots in specialized environments. This chapter aims
to provide extensive examples of how soft robots are being applied in various areas including
underwater exploration, agriculture, medicine, industry and space. The chapter will discuss the
types of soft robots, their movement characteristics, driving methods, and the advantages they
bring to different applications. By showcasing the vast potential and research value of soft
robots, this chapter underscores their significant role in promoting technological innovation and
societal progress.
Challenges and Perspectives of Soft Robotics
Page: 251-267 (17)
Author: Juntian Qu*, Zhenkun Li*, Qigao Fan*, Hongchao Cui* and Yueyue Liu
DOI: 10.2174/9789815256475124020008
PDF Price: $15
Abstract
In recent years, soft robotics has developed very rapidly and has been widely used
in industrial, agricultural, marine and military fields. However, the field of soft robotics still
faces many problems. This chapter introduces the current challenges in the field of soft robotics,
including actuation, sensing, materials, design, fabrication, modeling and control. Finally, we
propose some suggestions and outlooks to overcome these challenges.
Subject Index
Page: 268-273 (6)
Author: Juntian Qu*, Zhenkun Li*, Qigao Fan*, Hongchao Cui* and Yueyue Liu*
DOI: 10.2174/9789815256475124020009
Introduction
Introduction to Advanced Soft Robotics is an introductory textbook on soft body robotics. The content is designed to enable readers to better understand soft body robotics. Starting with an introduction to the subject, contents explain fundamental concepts such as perception and sensing, fabrication techniques and material design. These introductory chapters demonstrate the design concept and related design structures of soft robots from multiple perspectives, which can provide considerable design references for robotics learners and enthusiasts. Next, the book explains modeling and control for soft robotics and the applications. Key features of this book include easy-to-understand language and format, simple illustrations and a balanced overview of the subject (including a section on challenges and future prospects for soft robotics), and scientific references.