Improving anterior deltoid activity in a musculoskeletal shoulder model - an analysis of the torque-feasible space at the sternoclavicular joint.

Modelling the shoulder's musculature is challenging given its mechanical and geometric complexity. The use of the ideal fibre model to represent a muscle's line of action cannot always faithfully represent the mechanical effect of each muscle, leading to considerable differences between model-estimated and in vivo measured muscle activity. While the musculo-tendon force coordination problem has been extensively analysed in terms of the cost function, only few works have investigated the existence and sensitivity of solutions to fibre topology. The goal of this paper is to present an analysis of the solution set using the concepts of torque-feasible space (TFS) and wrench-feasible space (WFS) from cable-driven robotics. A shoulder model is presented and a simple musculo-tendon force coordination problem is defined. The ideal fibre model for representing muscles is reviewed and the TFS and WFS are defined, leading to the necessary and sufficient conditions for the existence of a solution. The shoulder model's TFS is analysed to explain the lack of anterior deltoid (DLTa) activity. Based on the analysis, a modification of the model's muscle fibre geometry is proposed. The performance with and without the modification is assessed by solving the musculo-tendon force coordination problem for quasi-static abduction in the scapular plane. After the proposed modification, the DLTa reaches 20% of activation.

Control remoto del robot ABB IRB 120 por tecnología Wifi

Durante toda la evolución de la tecnología, se han empleado aparatos interconexionados por cables. Los cables limitan la libertad de movimiento del usuario y pueden captar interferencias entre ellos si la red de cableado es elevada. Mientras avanzaba la tecnología inalámbrica, se ha ido adaptando al equipamiento electrónico a la vez que se iban haciendo cada vez más pequeños. Por esto, se impone la necesidad de utilizarlos como controles a distancia sin el empleo de cables debido a los inconvenientes que estos conllevan. El presente trabajo, pretende unificar tres tecnologías que pueden tener en el futuro una gran afinidad. · Dispositivos basados en el sistema Android. Desde sus inicios, han tenido una evolución meteórica. Se han ido haciendo cada vez más rápidos y mejores. · Sistemas inalámbricos. Los sistemas wifi o bluetooth, se han ido incorporando a nuestras vidas cada vez más y están prácticamente en cualquier aparato. · Robótica. Cualquier proceso de producción incorpora un robot. Son necesarios para hacer muchos trabajos que, aunque el hombre lo puede realizar, un robot reduce los tiempos y la peligrosidad de los procesos. Aunque las dos primeras tecnologías van unidas, ¿quién no tiene un teléfono con conexión wifi y bluetooth?, pocos diseños aúnan estos campos con la Robótica. El objetivo final de este trabajo es realizar una aplicación en Android para el control remoto de un robot, empleando el sistema de comunicación inalámbrico. La aplicación desarrollada, permite controlar el robot a conveniencia del usuario en un entorno táctil/teledirigido. Gracias a la utilización de simulador en ambos lenguajes (RAPID y Android), ha sido posible realizar la programación sin tener que estar presente ante el robot objeto de este trabajo. A través de su progreso, se ha ido evolucionando en la cantidad de datos enviados al robot y complejidad en su procesamiento, a la vez que se ha mejorado en la estética de la aplicación. Finalmente se usó la aplicación desarrollada con el robot, consiguiendo con éxito que realizara los movimientos que eran enviados con la tablet programada.

Lessons from the Digital Divide

Peer-reviewed

Mecanização no preparo de amostras por microondas: o estado da arte

This review presents the latest advances of the mechanisation in sample preparation using microwave oven. The fundamental principles of microwaves field interaction with matter are presented, followed by the basic principles of microwave equipment construction. Hyphenation of microwave oven with flow injection analysis or robotic are discussed as well as some metodological difficulties and solutions by its implementation.

Multi-sensor Simultaneous Localization and Mapping

Simultaneous localization and mapping(SLAM) is a very important problem in mobile robotics. Many solutions have been proposed by different scientists during the last two decades, nevertheless few studies have considered the use of multiple sensors simultane¬ously. The solution is on combining several data sources with the aid of an Extended Kalman Filter (EKF). Two approaches are proposed. The first one is to use the ordinary EKF SLAM algorithm for each data source separately in parallel and then at the end of each step, fuse the results into one solution. Another proposed approach is the use of multiple data sources simultaneously in a single filter. The comparison of the computational com¬plexity of the two methods is also presented. The first method is almost four times faster than the second one.

Manipulador robótico con visión artificial

En los tiempos que corren la robótica forma uno de los pilares más importantes en la industria y una gran noticia para los ingenieros es la referente a las ventas de estos, ya que en 2013, unos 179.000 robots industriales se vendieron en todo el mundo, de nuevo un máximo histórico y un 12% más que en 2012 según datos de la IFR (International Federation of Robotics). Junto a esta noticia, la robótica colaborativa entra en juego en el momento que los robots y los seres humanos deben compartir el lugar de trabajo sin que nos veamos excluidos por las maquinas, por lo tanto lo que se intenta es que los robots mejoren la calidad del trabajo al hacerse cargo de los trabajos peligrosos, tediosos y sucios que no son posibles o seguros para los seres humanos. Otro concepto muy importante y directamente relacionado con lo anterior que está muy en boga y se escucha desde hace relativamente poco tiempo es el de la fabrica del futuro o “Factory Of The Future” la cual intenta que los operarios y los robots encuentren la sintonía en el entorno laboral y que los robots se consideren como maquinaria colaborativa y no como sustitutiva, considerándose como uno de los grandes nichos productivos en plena expansión. Dejando a un lado estos conceptos técnicos que nunca debemos olvidar si nuestra carrera profesional va enfocada en este ámbito industrial, el tema central de este proyecto está basado, como no podía ser de otro modo, en la robótica, que junto con la visión artificial, el resultado de esta fusión, ha dado un manipulador robótico al que se le ha dotado de cierta “inteligencia”. Se ha planteado un sencillo pero posible proceso de producción el cual es capaz de almacenar piezas de diferente forma y color de una forma autónoma solamente guiado por la imagen capturada con una webcam integrada en el equipo. El sistema consiste en una estructura soporte delimitada por una zona de trabajo en la cual se superponen unas piezas diseñadas al efecto las cuales deben ser almacenadas en su lugar correspondiente por el manipulador robótico. Dicho manipulador de cinemática paralela está basado en la tecnología de cables, comandado por cuatro motores que le dan tres grados de libertad (±X, ±Y, ±Z) donde el efector se encuentra suspendido sobre la zona de trabajo moviéndose de forma que es capaz de identificar las características de las piezas en situación, color y forma para ser almacenadas de una forma ordenada según unas premisas iníciales.

Ambient intelligence application based on environmental measurements performed with an assistant mobile robot

This paper proposes the use of an autonomous assistant mobile robot in order to monitor the environmental conditions of a large indoor area and develop an ambient intelligence application. The mobile robot uses single high performance embedded sensors in order to collect and geo-reference environmental information such as ambient temperature, air velocity and orientation and gas concentration. The data collected with the assistant mobile robot is analyzed in order to detect unusual measurements or discrepancies and develop focused corrective ambient actions. This paper shows an example of the measurements performed in a research facility which have enabled the detection and location of an uncomfortable temperature profile inside an office of the research facility. The ambient intelligent application has been developed by performing some localized ambient measurements that have been analyzed in order to propose some ambient actuations to correct the uncomfortable temperature profile.

Els robots s'inspiren en les taràntules

La robòtica està experimentant un gran auge, amb el disseny de màquines cada cop més sofisticades i complexes pel que fa a les funcions que poden dur a terme i a la capacitat d'interacció amb les persones. Molta inspiració ve de la natura. Un dels reptes actuals és optimitzar els sistemes que controlen el moviment de les extremitats perquè permetin ajustar la velocitat i la coordinació de manera precisa i ràpida. Anna N. Ahn i els seus col·laboradors, dels departaments de biologia i d'enginyeria del Pitzer College i del Harvey Mudd College de Claremont, als EUA, han proposat un sistema de control basat en el moviment de les extremitats de les aranyes. Concretament, han estudiat la locomoció hidràulica de les taràntules, que es veu afectada per la temperatura, segons han publicat a The Journal of Experimental Biology.

Novel Robot Solutions for Carrying out Field Joint Welding and Machining in the Assembly of the Vacuum Vessel of ITER

It is necessary to use highly specialized robots in ITER (International Thermonuclear Experimental Reactor) both in the manufacturing and maintenance of the reactor due to a demanding environment. The sectors of the ITER vacuum vessel (VV) require more stringent tolerances than normally expected for the size of the structure involved. VV consists of nine sectors that are to be welded together. The vacuum vessel has a toroidal chamber structure. The task of the designed robot is to carry the welding apparatus along a path with a stringent tolerance during the assembly operation. In addition to the initial vacuum vessel assembly, after a limited running period, sectors need to be replaced for repair. Mechanisms with closed-loop kinematic chains are used in the design of robots in this work. One version is a purely parallel manipulator and another is a hybrid manipulator where the parallel and serial structures are combined. Traditional industrial robots that generally have the links actuated in series are inherently not very rigid and have poor dynamic performance in high speed and high dynamic loading conditions. Compared with open chain manipulators, parallel manipulators have high stiffness, high accuracy and a high force/torque capacity in a reduced workspace. Parallel manipulators have a mechanical architecture where all of the links are connected to the base and to the end-effector of the robot. The purpose of this thesis is to develop special parallel robots for the assembly, machining and repairing of the VV of the ITER. The process of the assembly and machining of the vacuum vessel needs a special robot. By studying the structure of the vacuum vessel, two novel parallel robots were designed and built; they have six and ten degrees of freedom driven by hydraulic cylinders and electrical servo motors. Kinematic models for the proposed robots were defined and two prototypes built. Experiments for machine cutting and laser welding with the 6-DOF robot were carried out. It was demonstrated that the parallel robots are capable of holding all necessary machining tools and welding end-effectors in all positions accurately and stably inside the vacuum vessel sector. The kinematic models appeared to be complex especially in the case of the 10-DOF robot because of its redundant structure. Multibody dynamics simulations were carried out, ensuring sufficient stiffness during the robot motion. The entire design and testing processes of the robots appeared to be complex tasks due to the high specialization of the manufacturing technology needed in the ITER reactor, while the results demonstrate the applicability of the proposed solutions quite well. The results offer not only devices but also a methodology for the assembly and repair of ITER by means of parallel robots.

Physical Realization of an Optical Automatic Target Recognition System

In the modern warfare there is an active development of a new trend connected with a robotic warfare. One of the critical elements of robotics warfare systems is an automatic target recognition system, allowing to recognize objects, based on the data received from sensors. This work considers aspects of optical realization of such a system by means of NIR target scanning at fixed wavelengths. An algorithm was designed, an experimental setup was built and samples of various modern gear and apparel materials were tested. For pattern testing the samples of actively arm engaged armies camouflages were chosen. Tests were performed both in clear atmosphere and in the artificial extremely humid and hot atmosphere to simulate field conditions.

Joustavan särmäyssolun kehittäminen

Tässä diplomityössä esitellään robotisoinnin teoria ja robottisolun oheislaitteet, vaihtoehdot, toiminta ja turvallisuus. Joustavalla tuotantosolulla tarkoitetaan automaattista valmistusjärjestelmää, jossa on useita toisiinsa liitettyjä koneita yhteisellä ohjausjärjestelmällä. Solun komponentteja ovat tuotantolaitteet ja -koneet, ohjausjärjestelmät, valvontalaitteet ja anturit, toimi- ja säätölaitteet sekä ohjelmointijärjestelmä. Joustavaa tuotantosolua voidaan kehittää tehostamalla työntekijöiden koulutusta, ohjelmointia, asetusten tekemistä ja layouttia. Diplomityöhön liittyvä kehitystehtävä koskee heinäveteläisen alihankintakonepajan, Metalliset Oy:n, tuotannon tehostamista robotisoinnin avulla. Metalliset Oy:n joustavan särmäyssolun kehittämiskeinoiksi valittiin nykyisen järjestelmän tehostaminen, uuden tuotantosolun luominen olemassa olevia laitteita hyödyntäen ja tulevaisuuden tuotantosolun kehittäminen. Vertailussa parhaimmaksi osoittautui uuden tuotantosolun luominen olemassa olevia laitteita hyödyntäen.

Uuden robottisolun ohjelmointitavan mahdollisuudet pienille ja keskisuurille yrityksille

Robotin ohjelmointi on aikaa vievää ja tarvitsee robotin ohjelmoinnin tuntevan operaattorin toimimaan robotin opettajana. Saadakseen robottisolun kustannustehokkaaksi operaattorilla olisi hyvä olla useampi solu hoidettavanaan samaan aikaan. Tämä ei ole suuri ongelma suurille yrityksille, joissa voi olla kymmeniä robottisoluja. Jos kyseessä on pieni tai keskisuuri yritys, automatisointi-investointi voi jäädä tekemättä ohjelmoinnin vaikeuden aiheuttaman ongelman vuoksi. Diplomityössä keskityttiin tutkimaan robotisointia pienten ja keskisuurten yritysten kannalta. Teoriaosassa on keskitytty robottisolun suunnittelun kannalta tarvittaviin perustietoihin robotin rakenteesta, ohjausjärjestelmästä, ohjelmoinnista sekä turvallisuudesta. Näiden perustietojen lisäksi on huomioitu hitsauksen automatisointia sekä taluttamalla ohjelmoitavan robottisolun tekninen konsepti. Taluttamalla ohjelmoitavan robottisolun konseptin käsittelyosassa on myös perehdytty taluttamalla ohjelmoinnin vaatimiin komponentteihin kuten voima/vääntö-anturi. Robottisolun suunnittelu on tehtävä koneasetuksen vaatimusten mukaan. Turvallisuus osiossa on käsitelty koneasetuksen vaatimuksia koneensuunnittelulle ja käytännön osassa on käsitelty Winnovan taluttamalla ohjelmoitavan robottisolun suunnittelua koneasetuksen ohjeiden mukaan. Käytännön osassa on tutkittu taluttamalla ohjelmoinnin tuomia etuja muihin ohjelmointimenetelmiin nähden sekä suoritettu investointilaskelmat taluttamalla ohjelmoitavasta ja opettamalla ohjelmoitavasta robottisolusta. Koetuloksista nähdään taluttamalla ohjelmoinnin olevan nopeampi ja yksinkertaisempi tapa ohjelmoida robottia kuin opettamalla ohjelmointi. Investointilaskelmien vertailusta nähdään taluttamalla ohjelmoinnin tulevan opettamalla ohjelmointia edullisemmaksi vaihtoehdoksi käyttökustannusten edullisuuden ansiosta.

Mobile Teleoperation of a Mobile Robot

This thesis describes the design and implementation of a graphical application on a mobile device to teleoperate a mobile robot. The department of information technology in Lappeenranta University conducts research in robotics, and the main motivation was to extend the available teleoperation applications for mobile devices. The challenge was to port existing robot software library onto an embedded device platform, then develop a suitable user interface application that provides sufficient functionality to perform teleoperation tasks over a wireless communication network. This thesis involved investigating previous teleoperation applications and conducted similar experiments to test and evaluate the designed application for functional activity and measure performance on a mobile device which have been identified and achieved. The implemented solution offered good results for navigation purposes particularly for teleoperating a visible robot and suggests solutions for exploration when no environment map for the operator is present.

Learning Robot Environment through Simulation

Traditionally simulators have been used extensively in robotics to develop robotic systems without the need to build expensive hardware. However, simulators can be also be used as a “memory”for a robot. This allows the robot to try out actions in simulation before executing them for real. The key obstacle to this approach is an uncertainty of knowledge about the environment. The goal of the Master’s Thesis work was to develop a method, which allows updating the simulation model based on actual measurements to achieve a success of the planned task. OpenRAVE was chosen as an experimental simulation environment on planning,trial and update stages. Steepest Descent algorithm in conjunction with Golden Section search procedure form the principle part of optimization process. During experiments, the properties of the proposed method, such as sensitivity to different parameters, including gradient and error function, were examined. The limitations of the approach were established, based on analyzing the regions of convergence.