Sensor-based navigating mobile robots for people with disabilities

People with severe physical disabilities need help with everyday tasks, such as getting dressed, eating, brushing their teeth, scratching themselves, drinking, etc. They also need support to be able to work. They are usually helped by one or more persona

The Useworthiness of Robots for People with Physical Disabilities

This thesis deals with robotics and the new possibilities it offers people with physical disabilities. I focus on the user and the use of the technology and, in particular, on what makes robotic aids worth using - useworthiness as distinguished from usability. User experience of the wheelchair-mounted Manus manipulator shows that robotic arms must meet technical requirements in terms of acceleration, speed, and pattern of movement. Easy horizontal and vertical adjustment of the end-effector is another requirement which must be met to enable a user to carry out the most common movements faster with less concentration. Experience of the useworthiness of robots was first obtained through the development of page-turning end-effectors for the RAID workstation. The principles of separating pages and the page-turning movements are analyzed and described in this thesis. End-effectors are essential to the functionality and useworthiness of robots. The performance requirements for the automatic grasping function for simplified robot use have been brought out through user trials. The thesis demonstrates that user trials with robots as assistive devices can result in new knowledge about both the use of the technology itself and the personal characteristics - needs, abilities, wishes, and dreams - of the user. Parts of the thesis have already been published or will be published in the form of articles and conference papers: - Robotics in rehabilitation. IEEE Transactions on Rehabilitation Engineering, vol. 3, no 1, pp. 77-83, March 1995. - The Manus Manipulator as a Tool for Rehabilitation. To be published in the Scandinavian Journal of Rehabilitation Medicine. - Technical results from Manus user trials. Proceedings of the sixth International Conference on Rehabilitation Robotics (ICORR), pp. 136-141, Stanford, California, USA, July 1999. - Robot control methods and results from user trials on the RAID workstation. Proceedings of the fourth International Conference on Rehabilitation Robotics (ICORR), pp. 97-101, Wilmington, Delaware, USA, June 1994. - RAID - A Robotic Workstation for the Disabled. Proceedings of the 2nd European Conference on the Advancement of Rehabilitation Technology (ECART 2), pp. 24.3, Stockholm, Sweden, May 1993

Overcoming barriers and increasing independence: service robots for elderly and disabled people

This paper discusses the potential for service robots to overcome barriers and increase independence of elderly and disabled people. It includes a brief overview of the existing uses of service robots by disabled and elderly people and advances in technology which will make new uses possible and provides suggestions for some of these new applications. The paper also considers the design and other conditions to be met for user acceptance. It also discusses the complementarity of assistive service robots and personal assistance and considers the types of applications and users for which service robots are and are not suitable

Personal Autonomy Rehabilitation in Home Environments by a Portable Assistive Robot

Increasingly disabled and elderly people with mobility problems want to live autonomously in their home environment. They are motivated to use robotic aids to perform tasks by themselves, avoiding permanent nurse or family assistant supervision. They must find means to rehabilitate their abilities to perform daily life activities (DLAs), such as eating, shaving, or drinking. These means may be provided by robotic aids that incorporate possibilities and methods to accomplish common tasks, aiding the user in recovery of partial or complete autonomy. Results are highly conditioned by the system's usability and potential. The developed portable assistive robot ASIBOT helps users perform most of these tasks in common living environments. Minimum adaptations are needed to provide the robot with mobility throughout the environment. The robot can autonomously climb from one surface to another, fixing itself to the best place to perform each task. When the robot is attached to its wheelchair, it can move along with it as a bundle. This paper presents the work performed with the ASIBOT in the area of rehabilitation robotics. First, a brief description of the ASIBOT system is given. A description of tests that have been performed with the robot and several impaired users is given. Insight into how these experiences have influenced our research efforts, especially, in home environments, is also included. A description of the test bed that has been developed to continue research on performing DLAs by the use of robotic aids, a kitchen environment, is given. Relevant conclusions are also included.This work has been supported by the CAM Project S2009/DPI-1559/ROBOCITY2030 I

The design and evaluation of an interface and control system for a scariculated rehabilitation robot arm

This thesis is concerned with the design and development of a prototype implementation of a Rehabilitation Robotic manipulator based on a novel kinematic configuration. The initial aim of the research was to identify appropriate design criteria for the design of a user interface and control system, and for the subsequent evaluation of the manipulator prototype. This led to a review of the field of rehabilitation robotics, focusing on user evaluations of existing systems. The review showed that the design objectives of individual projects were often contradictory, and that a requirement existed for a more general and complete set of design criteria. These were identified through an analysis of the strengths and weaknesses of existing systems, including an assessment of manipulator performances, commercial success and user feedback. The resulting criteria were used for the design and development of a novel interface and control system for the Middlesex Manipulator - the novel scariculated robotic system. A highly modular architecture was adopted, allowing the manipulator to provide a level of adaptability not approached by existing rehabilitation robotic systems. This allowed the interface to be configured to match the controlling ability and input device selections of individual users. A range of input devices was employed, offering variation in communication mode and bandwidth. These included a commercial voice recognition system, and a novel gesture recognition device. The later was designed using electrolytic tilt sensors, the outputs of which were encoded by artificial neural networks. These allowed for control of the manipulator through head or hand gestures. An individual with spinal-cord injury undertook a single-subject user evaluation of the Middlesex Manipulator over a period of four months. The evaluation provided evidence for the value of adaptability presented by the user interface. It was also shown that the prototype did not currently confonn to all the design criteria, but allowed for the identification of areas for design improvements. This work led to a second research objective, concerned with the problem of configuring an adaptable user interface for a specific individual. A novel form of task analysis is presented within the thesis, that allows the relative usability of interface configurations to be predicted based upon individual user and input device characteristics. An experiment was undertaken with 6 subjects performing 72 tasks runs with 2 interface configurations controlled by user gestures. Task completion times fell within the range predicted, where the range was generated using confidence intervals (α = 0.05) on point estimates of user and device characteristics. This allowed successful prediction over all task runs of the relative task completion times of interface configurations for a given user

Nurses experience on modern technologies and patient safety within Gerontology Care in Finland : Literature Review

Gerontology is a growing field of nursing especially with the rapid increase of aging population in most of the developed countries. This has made modern technology in gerontology also known as gerotechnology essential in taking care of elderly patients. The adoption of gerotechnology has rather been slow with most of the old generation showing low integration of technology mainly because of little knowledge on the same. The aim of this research is to analyze the nurses’ experience on modern technologies and patient safety within the Gerontology sector using the case of Finland. The specific objectives included analysis of the modern medical technology surrounding gerontology in Finland; find out nurses’ experiences of modern technology within Finland and safety of modern technology regarding gerotechnology in Finland. Data used for literature review of this study was collected from article databases such as: Elsevier,OnlineWiley Google Scholar,Cinahl, and other online manual searches. The manual online searches were done using different key words and phrases to unearth relevant articles which contained adequate data on the topic of research. On the findings, the study identified that regarding the introduction of modern technology in gerontology care, the number of healthcare professionals was reduced thus needing only few nurses with the skills to operate the devices

Design of a Multiple-User Intelligent Feeding Robot for Elderly and Disabled

The number of elderly people around the world is growing rapidly. This has led to an increase in the number of people who are seeking assistance and adequate service either at home or in long-term- care institutions to successfully accomplish their daily activities. Responding to these needs has been a burden to the health care system in terms of labour and associated costs and has motivated research in developing alternative services using new technologies. Various intelligent, and non-intelligent, machines and robots have been developed to meet the needs of elderly and people with upper limb disabilities or dysfunctions in gaining independence in eating, which is one of the most frequent and time-consuming everyday tasks. However, in almost all cases, the proposed systems are designed only for the personal use of one individual and little effort to design a multiple-user feeding robot has been previously made. The feeding requirements of elderly in environments such as senior homes, where many elderly residents dine together at least three times per day, have not been extensively researched before. The aim of this research was to develop a machine to feed multiple elderly people based on their characteristics and feeding needs, as determined through observations at a nursing home. Observations of the elderly during meal times have revealed that almost 40% of the population was totally dependent on nurses or caregivers to be fed. Most of those remaining, suffered from hand tremors, joint pain or lack of hand muscle strength, which made utensil manipulation and coordination very difficult and the eating process both messy and lengthy. In addition, more than 43% of the elderly were very slow in eating because of chewing and swallowing problems and most of the rest were slow in scooping and directing utensils toward their mouths. Consequently, one nurse could only respond to a maximum of two diners simultaneously. In order to manage the needs of all elderly diners, they required the assistance of additional staff members. The limited time allocated for each meal and the daily progression of the seniors’ disabilities also made mealtime very challenging. Based on the caregivers’ opinion, many of the elderly in such environments can benefit from a machine capable of feeding multiple users simultaneously. Since eating is a slow procedure, the idle state of the robot during one user’s chewing and swallowing time can be allotted for feeding another person who is sitting at the same table. The observations and studies have resulted in the design of a food tray, and selection of an appropriate robot and applicable user interface. The proposed system uses a 6-DOF serial articulated robot in the center of a four-seat table along with a specifically designed food tray to feed one to four people. It employs a vision interface for food detection and recognition. Building the dynamic equations of the robotic system and simulation of the system were used to verify its dynamic behaviour before any prototyping and real-time testing

Design and development of a robotic workstation for the disabled

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