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Many wearable robots are not fully capable of fitting the motion of the wearer, owing to their limited degrees-of-freedom (DOF). This limitation disturbs motions such as corner curving, which are required in daily life. In this study, the effect of the DOF restriction on the corner curving motion was observed and analyzed. The gait motions, when curving a round corner with and without the restriction...
A lot of research about using animal walking patterns on quadruped robots such as cheetah, cats and others. The big problem is about how to make this fourlegged robot run fast and maintain stability. The instability of the robot makes visual sensors such as Camera, Thermal sensor and various sensors used to get significant disturbance. With this problem, this paper made a system in the form of Walking...
In this paper, a strides detection algorithm is proposed using inertial sensors worn on the ankle. This innovative approach based on geometric patterns can detect both normal walking strides and atypical strides such as small steps, side steps and backward walking that existing methods struggle to detect. It is also robust in critical situations, when for example the wearer is sitting and moving the...
Wearable robots are regarded as a new transportation system in daily living for complete paraplegics due to spinal cord injury (SCI). For the motion control of a wearable robot, the normal gait pattern of people without disabilities is often applied as a reference input. When the natural dynamics of the human body can be utilized and the displacement of center of gravity (CoG) is possible, the normal...
We are developing an appearance-based proficiency evaluation system for individual fundamental football skills. As a basic stage of the research, we propose a method to discriminate between beginners and experts based on features of the inside-kick motion, which is a fundamental skill in football. In addition, we propose a method for scoring the inside-kick motion. To provide ground truth, a football...
This paper presents the gait design and comparison study of a quadruped robot. The main contributions of this paper are: (i) Explore the modularized system design of an 8 degree-of-freedom quadruped robot with a power management system. (ii) Propose a gait design method based on drive function. (iii) Propose another gait design method based on foot trajectory. (iv) The simulation of the walk and trot...
The aim of the study is to design a novel protocol to characterize the ankle movements during dorsal and plantar flexion reaching tasks using the pediAnklebot. Five healthy children were instructed to control a pointer and hit targets appearing on the monitor, by moving their ankle alternatively up and down. The protocol consisted of 60 targets, 30 up and 30 down, reachable via dorsiflexion and plantarflexion...
In this paper, we presented a low cost assistive device of an exoskeleton robot, to assist the lower limb muscle by following the gait pattern generation. The paper presents the technique how to duplicate the natural gait motion pattern based robotic platform from the neutral person motion as data pattern generation, to control the positioning of foot trajectory by following the data pattern generation...
Human bodies and movements exhibit inherent symmetry. However, an important class of everyday movements, such as walking, does not maintain symmetry at every time instance. The symmetry in these movements is a spatiotemporal glide-reflection symmetry. The ability to measure this type of symmetry will provide us opportunities for various computer-aided applications including health monitoring, rehabilitation,...
Passive prosthetic feet are not able to provide non-amputee kinematics and kinetics for the ankle joint. Persons with amputations show reduced interlimb symmetry, slower walking speeds, and increased walking effort. To improve ankle range of motion and push off, various powered prosthetic feet were introduced. This feasibility study analyzed if predefined motor reference trajectories can be used to...
In this paper, we present a control method for bipedal robotic walking based on insights we obtain from simple models. Inspired by the virtual pendulum (VP) concept and the spring-mass walking models, we propose a force direction control method to redirect the axial force of a compliant leg in order for walking with upright trunk. We first consider a dynamic simulation of a simple planar walking model...
With growing ageing population, acquiring joint measurements with sufficient accuracy for reliable gait assessment is essential. Additionally, the quality of gait analysis relies heavily on accurate feature selection and classification. Sensor-driven and one-camera optical motion capture systems are becoming increasingly popular in the scientific literature due to their portability and cost-efficacy...
A novel control method for the walking assistance device using predefined walking trajectory used to walk for the elderly or the patients with weak leg muscle on stairs from plain more safely and naturally is proposed in this paper. Two control method, torque control and impedance control, used per their usage purpose are introduced, and the later one is focused in this paper. To make sure the use...
The goal of this paper is to present a method for generating a basic trajectory for a planar bipedal robot with point feet. Since the mechanism is underactuated, partial feedback linearisation is used as a control method. In order to omit dynamic singularities only relative angles are used in the output function and the information about the absolute position of the robot is supplied using a virtual...
Trajectories planning and motion control of two-legged robots comprise many subtasks for different scenarios. In this paper the problem of stabilization of humanoid robot Darwin-OP in a standing position is considered. The robot balances on a rotating surface with unknown angle and speed. Estimation of surface inclination is provided by data of motor encoders and inertial measurements of accelerometer...
In the context of highly automated driving an important aspect is the understanding of Vulnerable Road Users' behavior. In this article we concentrate on starting cyclists at an urban intersection and investigate 104 trajectories of uninstructed cyclists' heads, feet, and bikes. A detailed analysis shows that on average cyclists' heads start moving 0.33 s earlier than the bike. Even 0.31 s before...
The purpose of this paper is design a stable walking gait for robot UXA-90. We applied Zero Moment Point (ZMP) based preview control to generate Center of Mass (CoM) trajectory. The ankle trajectories were created by spline interpolation method. Experiment results show that our method can make robot walking stable.
The lift-and-carry of non-rigid objects is challenging for both people and bipedal robots. Examples include lifting and carrying jugs, jerry cans or bags that are respectively filled with water, gasoline or sand. Carrying such objects often makes it difficult to walk due to the shifting center-of-mass. As such, tripping and falling are risks. Such lift-and-carry is a common material handling task...
Heel-toe walking can increase the stride length within the same joint limit of the robot. This paper proposes a method to compute the foot angle for heel-toe walking. In heel-toe walking, the value of the foot angle influences the movement of the legs, so it is proposed to select the foot angle to minimize the movement of the legs. The changes in stride and movement of leg with or without the heel-toe...
This paper presents motion planning and control algorithms for a belt-driven locomotion interface that allows the rendering of an infinite virtual environment, in which a user can walk on a level surface or walk up (or down) stairs. The paper mainly focuses on the development of the cancellation algorithm that brings the user back in the physical workspace of the locomotion interface, and thus generates...
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