9 research outputs found
Soft Gripping: Specifying for Trustworthiness
Soft robotics is an emerging technology in which engineers create flexible
devices for use in a variety of applications. In order to advance the wide
adoption of soft robots, ensuring their trustworthiness is essential; if soft
robots are not trusted, they will not be used to their full potential. In order
to demonstrate trustworthiness, a specification needs to be formulated to
define what is trustworthy. However, even for soft robotic grippers, which is
one of the most mature areas in soft robotics, the soft robotics community has
so far given very little attention to formulating specifications. In this work,
we discuss the importance of developing specifications during development of
soft robotic systems, and present an extensive example specification for a soft
gripper for pick-and-place tasks for grocery items. The proposed specification
covers both functional and non-functional requirements, such as reliability,
safety, adaptability, predictability, ethics, and regulations. We also
highlight the need to promote verifiability as a first-class objective in the
design of a soft gripper.Comment: Updated the Standards subsection of paper. 9 pages, 2 figures, 1
table, 34 reference
Soft Robotics: A Route to Equality, Diversity, and Inclusivity in Robotics
: Robotics is entering our daily lives. The discipline is increasingly crucial in fields such as agriculture, medicine, and rescue operations, impacting our food, health, and planet. At the same time, it is becoming evident that robotic research must embrace and reflect the diversity of human society to address these broad challenges effectively. In recent years, gender inclusivity has received increasing attention, but it still remains a distant goal. In addition, awareness is rising around other dimensions of diversity, including nationality, religion, and politics. Unfortunately, despite the efforts, empirical evidence shows that the field has still a long way to go before achieving a sufficient level of equality, diversity, and inclusion across these spectra. This study focuses on the soft robotics community-a growing and relatively recent subfield-and it outlines the present state of equality and diversity panorama in this discipline. The article argues that its high interdisciplinary and accessibility make it a particularly welcoming branch of robotics. We discuss the elements that make this subdiscipline an example for the broader robotic field. At the same time, we recognize that the field should still improve in several ways and become more inclusive and diverse. We propose concrete actions that we believe will contribute to achieving this goal, and provide metrics to monitor its evolution
Soft Gripping: Specifying for Trustworthiness
Soft robotics is an emerging technology in which engineers create flexible devices for use in a variety of applications. In order to advance the wide adoption of soft robots, ensuring their trustworthiness is essential; if soft robots are not trusted, they will not be used to their full potential. In order to demonstrate trustworthiness, a specification needs to be formulated to define what is trustworthy. However, even for soft robotic grippers, which is one of the most mature areas in soft robotics, the soft robotics community has so far given very little attention to formulating specifications. In this work, we discuss the importance of developing specifications during development of soft robotic systems, and present an extensive example specification for a soft gripper for pick-and-place tasks for grocery items. The proposed specification covers both functional and non-functional requirements, such as reliability, safety, adaptability, predictability, ethics, and regulations. We also highlight the need to promote verifiability as a first-class objective in the design of a soft gripper
Abstracts of the 6th FECS Conference 1998 Lectures
International audienc