989 resultados para force reflecting manual controller
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Over the twentieth century, the allocation of womens' time changed dramatically. This paper explores the implications for the allocation of married womens' time stemming from: (1) the household revolution associated with the introduction of a variety of labor-saving devices in the home; (2) the remarkable increase in the relative wage of women; and (3) changes in childcare requirements associated with changes in fertility patterns. To do so, we construct a life-cycle model with home production and childcare constraints. The parameters of the childcare production function are estimated using micro evidence from U.S. time use data. We find that the increase in the relative wage of women is the most important explanation of the increase in married womens' market work time over the twentieth century. Changes in fertility had large effects up to 1980, but little effect thereafter. The declining price of durables has an appreciable effect only since 1980, an effect that is consistent with a broader interpretation of durable goods reflecting the marketization of home production.
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The objects with which the hand interacts with may significantly change the dynamics of the arm. How does the brain adapt control of arm movements to this new dynamic? We show that adaptation is via composition of a model of the task's dynamics. By exploring generalization capabilities of this adaptation we infer some of the properties of the computational elements with which the brain formed this model: the elements have broad receptive fields and encode the learned dynamics as a map structured in an intrinsic coordinate system closely related to the geometry of the skeletomusculature. The low--level nature of these elements suggests that they may represent asset of primitives with which a movement is represented in the CNS.
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Using the MIT Serial Link Direct Drive Arm as the main experimental device, various issues in trajectory and force control of manipulators were studied in this thesis. Since accurate modeling is important for any controller, issues of estimating the dynamic model of a manipulator and its load were addressed first. Practical and effective algorithms were developed fro the Newton-Euler equations to estimate the inertial parameters of manipulator rigid-body loads and links. Load estimation was implemented both on PUMA 600 robot and on the MIT Serial Link Direct Drive Arm. With the link estimation algorithm, the inertial parameters of the direct drive arm were obtained. For both load and link estimation results, the estimated parameters are good models of the actual system for control purposes since torques and forces can be predicted accurately from these estimated parameters. The estimated model of the direct drive arm was them used to evaluate trajectory following performance by feedforward and computed torque control algorithms. The experimental evaluations showed that the dynamic compensation can greatly improve trajectory following accuracy. Various stability issues of force control were studied next. It was determined that there are two types of instability in force control. Dynamic instability, present in all of the previous force control algorithms discussed in this thesis, is caused by the interaction of a manipulator with a stiff environment. Kinematics instability is present only in the hybrid control algorithm of Raibert and Craig, and is caused by the interaction of the inertia matrix with the Jacobian inverse coordinate transformation in the feedback path. Several methods were suggested and demonstrated experimentally to solve these stability problems. The result of the stability analyses were then incorporated in implementing a stable force/position controller on the direct drive arm by the modified resolved acceleration method using both joint torque and wrist force sensor feedbacks.
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La escoliosis es una desviación lateral de la columna vertebral desde la línea media, caracterizada por una curvatura lateral y por una rotación vertebral. Generalmente, es de carácter idiopático y se presenta, principalmente, en niñas adolescentes. Existen múltiples técnicas de tratamiento conservador para la escoliosis, entre las cuales se encuentran la terapia manual, que complementa el tratamiento para dicha patología. Esta terapia utiliza menos medios físicos, más manipulación de tejidos blandos y óseos, y logra así una recuperación más eficaz, con una mejor calidad de vida. El objetivo de este estudio de caso es comparar y describir los cambios en las condiciones de una paciente de 18 años, con escoliosis idiopática juvenil en columna toracolumbar izquierda, al aplicar un tratamiento de terapia manual. Se realizaron procedimientos de valoración integral mediante terapia manual, ortopedia, postura computarizada, análisis del puesto de trabajo, tratamiento con medios físicos y movilización de las articulaciones torácicas y lumbares, en los segmentos vertebrales que presentaban disminución del deslizamiento inferior de las carillas inferiores de la vértebra superior, sobre las carillas superiores de la vértebra inferior (segmentos T5-T6, T6-T7, T7-T8, T8-T9);técnicas de energía muscular, ejercicios de reeducación postural global, estabilización cervical y lumbar, ejercicios de fortalecimiento para musculatura débil del hemicuerpo izquierdo y de estiramiento, con el fin de elongar la musculatura retraída del hemicuerpo derecho. Al iniciar el tratamiento, se verificó, mediante una radiografía, que el ángulo de Cobb era de 24º; después de las sesiones de terapia manual se logró reducir a 18º, lo que generó una disminución significativa de 6º. Se verificó la efectividad del tratamiento por la disminución del dolor, el aumento de la fuerza muscular, la realineación postural, la satisfacción del paciente y la recuperación significativa comprobada por los estudios radiológicos.
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Es una introducción al mundo científico para los niños, con un texto sencillo y con actividades descritas paso a paso. Así, descubren que la ciencia es divertida de aprender y de interés para su vida cotidiana. Este volumen trata de los distintos tipos de fuerzas existentes para poner las cosas en movimiento: empujar, arrastrar, frenar; está dividido en cuatro secciones, cada una de ellas señalada con un triágulo de distinto color en la esquina de la página.
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Ofrece información, experiencias, preguntas y respuestas acerca de la física. En primer lugar se presenta una reseña histórica para ayudar a los estudiantes en la comprensión de la materia. En puedes sentir la fuerza, se definen algunos términos y explican las leyes de Newton. En cuál es el problema, explora imanes, y los estados de la materia, y en puede ver la luz analiza la teoría de partículas, el color, rayos electromagnéticos, y la velocidad de la luz. Hay experimentos que ayudan a explicar la materia, fricción, gravedad, la velocidad, la electricidad, la presión del aire y la presión del agua. En la sección quién es quién están los perfiles de 16 científicos, de Aristóteles a Dirac ,y sus descubrimientos. Hay un glosario.
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Este manual tiene como objetivo facilitar a los estudiantes de Ciencias de la Educación la aplicación de los contenidos teóricos que adquieren en torno a la reflexividad como competencia docente y como estrategia para la formación del profesorado. Puede ser una guía eficaz que les oriente tanto en el trabajo de campo como en la búsqueda de las fuentes bibliográficas en las que sustentar los análisis de la práctica educativa y los posteriores informes. Está concebido para desarrollar un ciclo reflexivo completo con un profesor en ejercicio. Además de su uso como guía de prácticas en Didáctica, el texto es útil para quienes intervienen en la formación del profesorado y para los propios profesores en ejercicio, quienes pueden encontrar en él herramientas metodológicas que promueven la reflexividad.
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An experimental and theoretical comparison is made of force control performance with different types of innerloop joint servoing techniques. The problem of disturbance rejection and sensitivity to plant dynamics variations (robustness) is addressed. Position, velocity, strain gauge derived joint torque, and current servos are designed and implemented on a specially instrumented industrial robot, and the end-effector force feedback performances achieved are compared. Joint strain derived torque servoing is found to provide the best overall robust force control performance. Experimental results of the robust hard-on-hard contact achieved with the novel force controller implementation based on joint torque sensing are provided. Conclusions are drawn on the force control performance achievable on a geared robot given the joint servoing technique.
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Antarctic biodiversity is evolutionarily complex, reflecting the extreme ambient conditions. Therefore, Antarctic organisms exhibit sophisticated adaptations in all organization levels, including organs, tissues, and cells. Since red blood cells (RBCs) travel through the vertebrates blood delivering O(2) to all tissues and organs and purging the unwanted CO(2), they represent an interesting model to investigate biological adaptations. We have used atomic force microscopy (AFM) to compare the shape and size of RBCs of the Pygoscelid penguins. A total of 18 landmarks were measured in AFM images. When analyzed individually, the parameters were not capable of discriminating the RBCs of each species. However, the simultaneous use of multiple parameters discriminated (74%) among the RBCs. In addition, the use of RBC measurements was sufficient to hierarchically cluster the species in accordance to other common and reliable phylogenetic strategies. In light of these results, the use of RBC characters could effectively benefit taxonomic inferences.
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This paper presents the control strategies of nonlinear vehicle suspension using a magnetorheological (MR) damper. We used two different approaches for modeling and control of the mechanical and electrical parts of the suspension systems with the MR damper. First, we have formulated and resolved the control problem in order to design the linear feedback dumping force controller for a nonlinear suspension system. Then the values of the control dumping force functions were transformed into electrical control signals by the application of a fuzzy logic control method. The numerical simulations were provided in order to show the effectiveness of this method for the semi-active control of the quarter-car suspension.
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This paper describes a technique for extending the force range of thin conductive polymer force sensors used for measuring contact force. These sensors are conventionally used for measuring force by changing electrical resistance when they are compressed. The new method involves measuring change in electrical resistance when the flexible sensor, which is sensitive to both compression and bending, is sandwiched between two layers of spring steel, and the structure is supported on a thin metal ring. When external force is applied, the stiffened sensor inside the spring steel is deformed within the annular center of the ring, causing the sensor to bend in proportion to the applied force. This method effectively increases the usable force range, while adding little in the way of thickness and weight. Average error for loads between 10 N and 100 N was 2.2 N (SD = 1.7) for a conventional conductive polymer sensor, and 0.9 N (SD = 0.4) using the new approach. Although this method permits measurement of greater loads with an error less than 1 N, it is limited since the modified sensor is insensitive to loads less than 5 N. These modified sensors are nevertheless useful for directly measuring normal force applied against handles and tools and other situations involving forceful manual work activities, such as grasp, push, pull, or press that could not otherwise be measured in actual work situations.
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Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)
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Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)
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Pós-graduação em Odontologia - FOAR
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Pós-graduação em Engenharia Mecânica - FEG
