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1. Towards Assistive Robotic Pick and Place in Open World Environments

   Wang, Dian; Kohler, Colin; ten Pas, Andreas; Wilkinson, Alexander; Liu, Maozhi; Yanco, Holly; Platt, Robert (October 2019, Proceedings of the International Symposium on Robotics Research (ISRR))

   Assistive robot manipulators must be able to autonomously pick and place a wide range of novel objects to be truly useful. However, current assistive robots lack this capability. Additionally, assistive systems need to have an interface that is easy to learn, to use, and to understand. This paper takes a step forward in this direction. We present a robot system comprised of a robotic arm and a mobility scooter that provides both pick-and-drop and pick-and-place functionality for open world environments without modeling the objects or environment. The system uses a laser pointer to directly select an object in the world, with feedback to the user via projecting an interface into the world. Our evaluation over several experimental scenarios shows a significant improvement in both runtime and grasp success rate relative to a baseline from the literature, and furthermore demonstrates accurate pick and place capabilities for tabletop scenarios. 

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2. User experience of assistive apps among people with visual impairment

   https://doi.org/10.3233/tad-220377  

   Kim, Hyung Nam (August 2022, Technology and Disability)

   BACKGROUND: Today, various emerging assistive applications (apps) running on smartphones have been introduced such as Seeing AI, TapTapSee, and BeMyEyes apps. The assistive apps are designed to assist people with visual impairment in navigating unfamiliar environments, reading text, identifying objects and persons. Yet, little is known about how those with visual impairment perceive the assistive apps. OBJECTIVE: This study aims to advance knowledge of user experience with those assistive apps. METHODS: To address the knowledge gap, this study conducted phone interviews with a convenience sample of 30 individuals with visual impairment. RESULTS: The results indicated that those with visual impairment showed a range of preferences, needs, and concerns about user interfaces and interactions with the assistive apps. DISCUSSIONS: Given their needs and concerns, this study offered a set of facilitators to promote user adoption of the assistive apps, which should be valuable guidance to user interface/interaction designers in the field. 

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3. Helping People Through Space and Time: Assistance as a Perspective on Human-Robot Interaction

   https://doi.org/10.3389/frobt.2021.720319  

   Newman, Benjamin A.; Aronson, Reuben M.; Kitani, Kris; Admoni, Henny (January 2022, Frontiers in Robotics and AI)

   As assistive robotics has expanded to many task domains, comparing assistive strategies among the varieties of research becomes increasingly difficult. To begin to unify the disparate domains into a more general theory of assistance, we present a definition of assistance, a survey of existing work, and three key design axes that occur in many domains and benefit from the examination of assistance as a whole. We first define an assistance perspective that focuses on understanding a robot that is in control of its actions but subordinate to a user’s goals. Next, we use this perspective to explore design axes that arise from the problem of assistance more generally and explore how these axes have comparable trade-offs across many domains. We investigate how the assistive robot handles other people in the interaction, how the robot design can operate in a variety of action spaces to enact similar goals, and how assistive robots can vary the timing of their actions relative to the user’s behavior. While these axes are by no means comprehensive, we propose them as useful tools for unifying assistance research across domains and as examples of how taking a broader perspective on assistance enables more cross-domain theorizing about assistance. 

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4. User-driven product development: Designed by, not designed for

   https://doi.org/10.1080/14606925.2023.2275868  

   Peters, Joseph; Bleakney, Adam; Sornson, Annika; Hsiao-Wecksler, Elizabeth; McDonagh, Deana (January 2024, The Design Journal)

   The current state of function and design of accessible assistive technology is lacking, evidenced by low usability and high abandonment rates by people with disabilities (PwD). A significant contributing factor to these negative outcomes is a lack of user-centered design or user-opinion in the product development. The Human Performance and Mobility Maker Lab (HPML) at the University of Illinois Urbana-Champaign is a new facility dedicated to developing assistive technology by PwDs. Rather than being excluded from the design and innovation process, PwDs are the primary drivers of innovation at the HPML. The HPML’s the central tenet is ‘Designed by, not designed for’. The purpose of this paper is to explore various assistive technologies developed in the HPML while providing an empathic framework for other research groups to follow in integrating PwDs into the development and design of assistive technology. 

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5. A Review of Rehabilitative and Assistive Technologies for Upper-Body Exoskeletal Devices

   https://doi.org/10.3390/act12040178  

   Hays, Emilly; Slayton, Jack; Tejeda-Godinez, Gary; Carney, Emily; Cruz, Kobe; Exley, Trevor; Jafari, Amir (April 2023, Actuators)

   This journal review article focuses on the use of assistive and rehabilitative exoskeletons as a new opportunity for individuals with diminished mobility. The article aims to identify gaps and inconsistencies in state-of-the-art assistive and rehabilitative devices, with the overall goal of promoting innovation and improvement in this field. The literature review explores the mechanisms, actuators, and sensing procedures employed in each application, specifically focusing on passive shoulder supports and active soft robotic actuator gloves. Passive shoulder supports are an excellent option for bearing heavy loads, as they enable the load to be evenly distributed across the shoulder joint. This, in turn, reduces stress and strain around the surrounding muscles. On the other hand, the active soft robotic actuator glove is well suited for providing support and assistance by mimicking the characteristics of human muscle. This review reveals that these devices improve the overall standard of living for those who experience various impairments but also encounter limitations requiring redress. Overall, this article serves as a valuable resource for individuals working in the field of assistive and rehabilitative exoskeletons, providing insight into the state of the art and potential areas for improvement. 

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