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Electrocardiogram (ECG) signals are one of the most common and important physiological signals for assessing cardiovascular health. The rapid advancement in wearable technology has opened new avenues for continuous monitoring of various cardiovascular diseases (CVDs) in non-clinical settings. At the same time, the amount of data available for analysis due to these unobtrusive sensors has increased...
This paper focuses on a lower limb walking assistant robot. This robot has been designed and modeled for two tasks of facilitating healthy people, and assisting patients for walking. First, basic concepts of the motion mechanism are presented. Next, its kinematics and dynamics equations have been developed. Kinematics analysis has been done using Denavit-Hartenberg scheme to obtain position, velocity...
Using Bhuman walking engine, this paper presents an LTI model for Nao robot walking control. The robot is assumed as a point mass in a 2-D maneuver. Model calculations and validation have been done using experimental data, performing various tests on the robot, and using system identification tools. Afterwards, a robust controller is designed to control the robot position in the horizontal (x-y) plane...
The fuzzy logic controller for ball and plate based on Mamdani maximum-product method is proposed in this paper to improve the performance of the system. Various kinds of ball and plate test-beds, considered as typical multivariable, nonlinear systems, are usually employed to conduct researches for evaluating developed control algorithms. Although most of these equipment have been presented as two...
In this paper, a method for stabilizing biped robots stepping by a combination of Divergent Component of Motion (DCM) tracking and step adjustment is proposed. In this method, the DCM trajectory is generated, consistent with the predefined footprints. Furthermore, a swing foot trajectory modification strategy is proposed to adapt the landing point, using DCM measurement. In order to apply the generated...
This paper presents a novel approach for modeling features of style and affect in human motion. Our approach is based on inputs collected from experienced animators. For this purpose, an interface is developed that allows for editing of motion sequences by adding a limited number of Gaussian radial basis functions (RBFs) to different joint trajectories in 3-D Cartesian space. Animators are asked to...
Maintaining the balance or stability of legged robots in natural terrains is a challenging problem. Besides the inherent unstable characteristics of legged robots, the sources of instability are the irregularities of the ground surface and also the external pushes. In this paper, a push recovery framework for restoring the robot balance against external unknown disturbances will be demonstrated. It...
Ability of quadruped robots for adjusting posture for crossing natural obstacles is an important issue. These robots should change their footholds to avoid any obstacles. In this paper, a gait planning algorithm based on Cartesian CPG-based controller for a quadruped robot in order to cross different planar obstacles will be developed. In proposed approach, the rhythmic patterns in central pattern...
Quadruped animals have high agility and grace skills in the motion over natural environment. An important feature of such animals is their abilities in the selection of appropriate gait in the response to the terrain irregularities and also the smooth transition between them in order to increase the stability or conserve the energy. In this paper, a Cartesian CPG-based controller for the gait generation...
To obtain satisfactory performance for legged robots, they should be able to move on natural environment stably. In this article, the path planning of a quadruped robot in the motion over uneven terrains will be investigated. One of major problems for traversing uneven terrains is the robot stability. Thus, a condition to guarantee the robot stability over such terrains will be proposed. This condition...
This paper focuses on a robotic human-like leg. This robot was designed and modeled for task of kicking soccer ball to desired target. In addition, applications of this robot have been explained and its kinematics and dynamics equations have been developed. Kinematic analysis has been done using Denavit-Hartenberg method and position, velocity and acceleration of center of mass (CoM) of all links...
Quadruped robots have many advantages over other robots. Their excellent potentials to traverse different terrains are one of main advantages which distinguish these robots from wheeled mobile robot. In this article, the gait planning problem and also the design of an appropriate controller for a quadruped robot will be investigated. To this end, an explicit dynamics model of an 18-DOF quadruped robot...
In this paper, it is highly proposed to take into account of both heels and active toe joints during the walking of a biped robot with 7-DOF legs. The main goal of this research is to examine significance of exploiting heels and active toe joints on reducing the maximum knee joint torque as well as the total energy consumption. To this end, six different walking patterns are presented, while the main...
In this paper, kinematics analysis and dynamic modeling of a novel spatial parallel robot is elaborated. The proposed mechanism is to be exploited in a compounded serial-parallel mobile robotic system to accomplish stabilized heavy object manipulation by a serial manipulator mounted on the parallel mechanism. In fact, this parallel mechanism has been designed to acquire a suitable maneuverability...
This paper presents a new approach based on temporal minimization for separation and extraction of high/low-energy variants embedded in human motion. A data set of over 6500 frames is used for training the proposed algorithm. Spatiotemporal cubic splines are employed for approximating the trajectories associated with walking sequences. The optimal numbers of control points required for synthesizing...
In this paper, dynamics and gait planning of a quadruped robot is discussed. To this end, using Lagrangian method the equations of motion are first derived. Then, an approach is proposed to eliminate the terms corresponding to the constraints caused by the feet on the ground. The obtained dynamics model is validated using Matlab SimMechanics. Finally, gait planning of the robot is developed such that...
Control of the humanoid robots requires appropriate gait planning that satisfies stable walking. In this study, a Modified Transpose Jacobian (MTJ) control algorithm for object manipulation by two humanoid robots is developed. Such cooperative humanoid robots may typically get employed in hazardous situation and industrial applications. In the present paper, a high performance and robust controller...
Stability fulfilment for biped robots is drastically essential. Thus, to predict and maintain a dynamic stable status of biped robots defining an accurate stability measure is required which can represent dynamic equilibrium condition. Several postural stability metrics have been proposed so far. In this article, the Moment-Height stability (MHS) measure which has been previously proposed for wheeled...
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