Команда во главе с экспертами из США (Southern Methodist University, руководитель д-р Марк Кристенсен) работает над протезами с использованием оптоволокна, которые имеют динамику движений как у реальной конечности.

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Категория: Управление | 1 Комментарий »

BACKGROUND: Limb exoskeletons rehabilitation robots can stimulate the natural resilience of body through simulated human movement to achieve tissue compensation based on its theoretical basis of continued combined active and passive activities.
OBJECTIVE: To dynamically observe and realize the rehabilitation effect of limb exoskeletons rehabili-tation robots on functional exercise of patients with activity limited knee joint.
METHODS: Twenty early postoperative patients with activity limited knee joint were divided into experiment group and control group randomly. The functional exercise with limb exoskeletons rehabilitation robots was performed in the experiment group. The control group underwent functional exercise with passive training devices CPM. Psychological guide, low-frequency pulse electrotherapy and infrared physiotherapy were performed in both groups during the treatment.

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Категория: Научные статьи | Нет комментариев »

Automotive industry, as an important pillar of the national economy, has been rapidly developing in recent years. But proplems such as energy comsumption and environmental pullution are posed at the same time. Electromechanical variable transmission system is con-sidered one of avilable workarounds. It is brought forward a kind of design methods of dualmode electrome-chanical variable transmission system rotational speed characteristics and dualmode drive diagrams. With the motor operating behavior of running in four quadrants and the speed characteristics of the simple in-ternal and external meshing single planetary gear train, four kinds of dualmode electromechanical transmis-sion system scheme are designed. And the velocity, torque and power characteristics of one of the programs are analyzed. The magnitude of the electric splitflow power is an important factor which influences the system performance, so in the parameters matching design, it needs to reduce the power needs under the first mode of the motor. The motor, output rotational speed range and the position of the mode switching point have relationships with the characteristics design of the planetary gear set. The analysis method is to provide a reference for hybrid vehicles’ design. As the involved rotational speed and torque relation-ships are the natural contact of every part of transmission system, a theory basis of system program and performance analysis was provided.

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Категория: Научные статьи | 1 Комментарий »

There are currently about 262,000 spinal cord injured (SCI) individuals in the United States, with roughly 12,000 new injuries sustained each year at an average age of injury of 40.2 years. Of these, at least 44% (at least 5300 cases per year) result in paraplegia. One of the most significant impairments resulting from paraplegia is the loss of mobility, particularly given the relatively young (average) age at which such injuries occur. Surveys of persons with paraplegia indicate that mobility concerns are among the most prevalent, and that chief among mobility desires is the ability to walk and stand. In addition to impaired mobility, the inability to stand and walk entails severe physiological effects, including muscular atrophy, loss of bone mineral content, frequent skin breakdown problems, increased incidence of urinary tract infection, muscle spasticity, impaired lymphatic and vascular circulation, impaired digestive operation, and reduced respiratory and cardiovascular capacities.

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Категория: Научные статьи | Нет комментариев »

Simple engineered mechanisms that can emulate human-like biomechanics are essential for robust performance of a number of engineered locomotion systems including anthropo-morphic bipedal robots lower-limb wearable exoskeletons and biologically-inspired prosthetic limbs. Ideally, successful emulation of human locomotion in artificial systems is built upon a foundation of simple models (theoretical or empirical) that can accurately characterize the normal mechanical behavior of the human limb in the gait.
The most common modern ankle-foot and knee prostheses, such as the works of Prof. Herr at MIT and Prof. Kuo at Univ. of Michigan, employ a limited number of spring stiffnesses in their design. The gait of an amputee who uses these quasi-passive compliant prostheses could approximately mimic the unaffected limb. However, the current devices still need to exhibit user and task adaptability. The success in the field of exoskeletal devices has been even more limited. Lower extremity exoskele-tons have not yet been able to augment human performance, and advanced orthoses have been mostly limited to latching mechanisms that rigidly support the joints when loaded.

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