A novel upper limb training system based on UR5 using sEMG and IMU sensors

This paper intends to design a system which acquires the trainer's motion and force information in order to manipulate a robot arm applied for rehabilitations. Patients who suffering physical disability also can receive the professorial guiding and cheirapsis even excellent trainers are very busy and insufficient. The key point of this article is data acquisition and reconstruction of the movement of the upper limb by controlling the UR5 robot arm. Upper limb's postures are sensed by Inertial Measurement Unit (IMU) and transferred to STM32 microcontroller using I2C communication protocol. We employed the STM32 microcontroller to calculate attitude angles of both the upper arm and the forearm. And the method with using quaternions to calculate attitude angles is detailedly expounded in this paper. Besides, we employed the MYO armband to acquire upper limb's surface electromyography (sEMG) signals for estimating the muscle force of the upper limb. To verify the feasibility of the proposed system, we make three experiments including analyzing fluctuation range of the attitude angles from IMU signals, classifying muscle force using sEMG signals, and evaluating the effect of motion reconstruction. And the results show that the fluctuation range of acquired data are less than 1 degree, 4 typical motions of upper limb can be reconstructed. The proposed system can be used to reconstruct some upper limb's movement

XLIII Jornadas de Automática: libro de actas: 7, 8 y 9 de septiembre de 2022, Logroño (La Rioja)

[Resumen] Las Jornadas de Automática (JA) son el evento más importante del Comité Español de Automática (CEA), entidad científico-técnica con más de cincuenta años de vida y destinada a la difusión e implantación de la Automática en la sociedad. Este año se celebra la cuadragésima tercera edición de las JA, que constituyen el punto de encuentro de la comunidad de Automática de nuestro país. La presente edición permitirá dar visibilidad a los nuevos retos y resultados del ámbito, y su uso en un gran número de aplicaciones, entre otras, las energías renovables, la bioingeniería o la robótica asistencial. Además de la componente científica, que se ve reflejada en este libro de actas, las JA son un punto de encuentro de las diferentes generaciones de profesores, investigadores y profesionales, incluyendo la componente social que es de vital importancia. Esta edición 2022 de las JA se celebra en Logroño, capital de La Rioja, región mundialmente conocida por la calidad de sus vinos de Denominación de Origen y que ha asumido el desafío de poder ganar competitividad a través de la transformación verde y digital. Pero también por ser la cuna del castellano e impulsar el Valle de la Lengua con la ayuda de las nuevas tecnologías, entre ellas la Automática Inteligente. Los organizadores de estas JA, pertenecientes al Área de Ingeniería de Sistemas y Automática del Departamento de Ingeniería Eléctrica de la Universidad de La Rioja (UR), constituyen un pilar fundamental en el apoyo a la región para el estudio, implementación y difusión de estos retos. Esta edición, la primera en formato íntegramente presencial después de la pandemia de la covid-19, cuenta con más de 200 asistentes y se celebra a caballo entre el Edificio Politécnico de la Escuela Técnica Superior de Ingeniería Industrial y el Monasterio de Yuso situado en San Millán de la Cogolla, dos marcos excepcionales para la realización de las JA. Como parte del programa científico, dos sesiones plenarias harán hincapié, respectivamente, sobre soluciones de control para afrontar los nuevos retos energéticos, y sobre la calidad de los datos para una inteligencia artificial (IA) imparcial y confiable. También, dos mesas redondas debatirán aplicaciones de la IA y la implantación de la tecnología digital en la actividad profesional. Adicionalmente, destacaremos dos clases magistrales alineadas con tecnología de última generación que serán impartidas por profesionales de la empresa. Las JA también van a albergar dos competiciones: CEABOT, con robots humanoides, y el Concurso de Ingeniería de Control, enfocado a UAVs. A todas estas actividades hay que añadir las reuniones de los grupos temáticos de CEA, las exhibiciones de pósteres con las comunicaciones presentadas a las JA y los expositores de las empresas. Por último, durante el evento se va a proceder a la entrega del “Premio Nacional de Automática” (edición 2022) y del “Premio CEA al Talento Femenino en Automática”, patrocinado por el Gobierno de La Rioja (en su primera edición), además de diversos galardones enmarcados dentro de las actividades de los grupos temáticos de CEA. Las actas de las XLIII Jornadas de Automática están formadas por un total de 143 comunicaciones, organizadas en torno a los nueve Grupos Temáticos y a las dos Líneas Estratégicas de CEA. Los trabajos seleccionados han sido sometidos a un proceso de revisión por pares

Enhancing tele-operation - Investigating the effect of sensory feedback on performance

The decline in the number of healthcare service providers in comparison to the growing numbers of service users prompts the development of technologies to improve the efficiency of healthcare services. One such technology which could offer support are assistive robots, remotely tele-operated to provide assistive care and support for older adults with assistive care needs and people living with disabilities. Tele-operation makes it possible to provide human-in-the-loop robotic assistance while also addressing safety concerns in the use of autonomous robots around humans. Unlike many other applications of robot tele-operation, safety is particularly significant as the tele-operated assistive robots will be used in close proximity to vulnerable human users. It is therefore important to provide as much information about the robot (and the robot workspace) as possible to the tele-operators to ensure safety, as well as efficiency. Since robot tele-operation is relatively unexplored in the context of assisted living, this thesis explores different feedback modalities that may be employed to communicate sensor information to tele-operators. The thesis presents research as it transitioned from identifying and evaluating additional feedback modalities that may be used to supplement video feedback, to exploring different strategies for communicating the different feedback modalities. Due to the fact that some of the sensors and feedback needed are not readily available, different design iterations were carried out to develop the necessary hardware and software for the studies carried out. The first human study was carried out to investigate the effect of feedback on tele-operator performance. Performance was measured in terms of task completion time, ease of use of the system, number of robot joint movements, and success or failure of the task. The effect of verbal feedback between the tele-operator and service users was also investigated. Feedback modalities have differing effects on performance metrics and as a result, the choice of optimal feedback may vary from task to task. Results show that participants preferred scenarios with verbal feedback relative to scenarios without verbal feedback, which also reflects in their performance. Gaze metrics from the study also showed that it may be possible to understand how tele-operators interact with the system based on their areas of interest as they carry out tasks. This findings suggest that such studies can be used to improve the design of tele-operation systems.The need for social interaction between the tele-operator and service user suggests that visual and auditory feedback modalities will be engaged as tasks are carried out. This further reduces the number of available sensory modalities through which information can be communicated to tele-operators. A wrist-worn Wi-Fi enabled haptic feedback device was therefore developed and a study was carried out to investigate haptic sensitivities across the wrist. Results suggest that different locations on the wrist have varying sensitivities to haptic stimulation with and without video distraction, duration of haptic stimulation, and varying amplitudes of stimulation. This suggests that dynamic control of haptic feedback can be used to improve haptic perception across the wrist, and it may also be possible to display more than one type of sensor data to tele-operators during a task. The final study carried out was designed to investigate if participants can differentiate between different types of sensor data conveyed through different locations on the wrist via haptic feedback. The effect of increased number of attempts on performance was also investigated. Total task completion time decreased with task repetition. Participants with prior gaming and robot experience had a more significant reduction in total task completion time when compared to participants without prior gaming and robot experience. Reduction in task completion time was noticed for all stages of the task but participants with additional feedback had higher task completion time than participants without supplementary feedback. Reduction in task completion time varied for different stages of the task. Even though gripper trajectory reduced with task repetition, participants with supplementary feedback had longer gripper trajectories than participants without supplementary feedback, while participants with prior gaming experience had shorter gripper trajectories than participants without prior gaming experience. Perceived workload was also found to reduce with task repetition but perceived workload was higher for participants with feedback reported higher perceived workload than participants without feedback. However participants without feedback reported higher frustration than participants without feedback.Results show that the effect of feedback may not be significant where participants can get necessary information from video feedback. However, participants were fully dependent on feedback when video feedback could not provide requisite information needed.The findings presented in this thesis have potential applications in healthcare, and other applications of robot tele-operation and feedback. Findings can be used to improve feedback designs for tele-operation systems to ensure safe and efficient tele-operation. The thesis also provides ways visual feedback can be used with other feedback modalities. The haptic feedback designed in this research may also be used to provide situational awareness for the visually impaired