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In this paper, we investigate the effect of haptic cueing on a human operator's performance in the field of bilateral teleoperation of multiple mobile robots, particularly multiple unmanned aerial vehicles (UAVs). Two aspects of human performance are deemed important in this area, namely, the maneuverability of mobile robots and the perceptual sensitivity of the remote environment. We introduce metrics...
As snake is one of the animals with the best obstacle performance in the nature, snake-like robot with the movement mechanism and behavioral pattern of a biological snake has broad application prospects. This paper designs a rope-drive snake-like robot driven by the friction of the rope instead of the traditional twisting forward movement pattern, the new drive mode can provide more power for the...
In this paper, the problem of formation control for a group of nonholonomic mobile robots is presented. Obstacle avoidance is also included in the problem formulation using virtual force method. An objective function is minimized to develop a distributed constrained model predictive control law for a formation of unicycle mobile robots. In the leader-follower formation under consideration, a desired...
The objective of this study is to create a wheel-type anthropomorphic robot to support those who are unable to eat independently. The constructed robot comprises mainly an omni-directional base, a fixed torso mounted on the base, two seven-degrees-of-freedom arms, two robot hands and a head equipped with a panoramic camera and a pan/tilt/zoom (PTZ) camera. For feeding tasks, a vision-guided control...
This paper proposes a new car transportation system, iCART II (intelligent Cooperative Autonomous Robot Transporters - type II), based on “a-robot-for-a-wheel” concept. A prototype system, MRWheel (a Mobile Robot for a Wheel), is designed and downsized less than the half of the conventional robot used in iCART (intelligent Cooperative Autonomous Robot Transporters). In general, it is very difficult...
This paper deals with the navigation of a mobile robot in an unknown environment. The approach developed is based on the Artificial Potential Field (APF) method in which the target creates a virtual potential that attracts the robot while obstacles create a virtual potential that repels the robot. A new form of repelling potential is proposed in order to reduce oscillations and to avoid conflicts...
One characteristic attribute of mobile platforms equipped with a set of independent steering wheels is their omnidirectionality and the ability to realize complex translational and rotational trajectories. An accurate coordination of steering angle and spinning rate of each wheel is necessary for a consistent motion. Since the orientations of the wheels must align to the Instantaneous Center of Rotation...
A virtual flexible curved bar coupled with force delay algorithm is proposed for automatic vehicle following, aiming at improving the accuracy of vehicle trajectory tracking, especially when leader vehicle is accelerating or making turns. A virtual flexible curved bar with force delay has been modeled that connects the leader to the follower. The length of this virtual bar is a function of the turning...
In recent years, high-precision works in a distant place have been enabled by using bilateral control systems. The general master-slave systems are not movable, because they are constrained on a ground. A mobile-hapto has been proposed as a movable master-slave system, in order to realize operations at wide areas in human-living spaces. The movement method of the mobile-hapto is achieved by wheels...
In this paper, a novel ball trajectory prediction method is proposed for a robot ping-pong player. The method is based on the dynamic model in the sky and the bouncing dynamic model between the ball and the table. First, the ambiguity of the dynamic model in the sky is removed. Then, the bouncing model between the ball and the table is proposed to get the relationship of the emergence speed and the...
To have a complete model of a thunniform Fish-Robot, models of both body and tail are required. The dynamic model of the body is developed according to the parameters of a thunniform Fish-Robot built in MIT University, while, as the main part of this paper, the dynamic model of the tail is developed using fuzzy logic. Using experimental data and table look-up scheme, a fuzzy black box is introduced...
To control the motion of a humanoid robot along a desired trajectory in contact with a rigid object, we need to take into account forces that arise from contact with the surface of the object. In this paper we propose a new method that enables the robot to adapt its motion to different surfaces. The initial trajectories are encoded by dynamic movement primitives, which can be learned from visual feedback...
NASA is supposed to implement a sustainable and affordable human and robotic program to explore the solar system and beyond as it is the first goal of The Presidents Vision for U.S. Space Exploration. The robotic exploration across the solar system consists of exploring Jupiters moons, asteroids and other bodies to search for evidence of life, and to understand the history of the solar system. Trajectory...
This paper presents an interaction control scheme for planar anthropomorphic robotic manipulators. Before starting the control phase, an a-priori trajectory is designed. The task is to follow the a-priori trajectory until a collision between the tip of the robot and an obstacle occurs. After the collision, once measured the contact force, the local properties of the obstacle surface in a vicinity...
In this work, we perform the challenging task of a humanoid robot standing up from a chair. First we recorded demonstrations of sit-to-stand motions from normal human subjects as well as actors performing stylized standing motions (e.g. imitating an elderly person). Ground contact force information was also collected for these motions, in order to estimate the human's center of mass trajectory. We...
A mobile manipulator is at the present time a widespread term to refer to robot systems built from a robotic manipulator arm mounted on a mobile platform. A mobile manipulation system offers a dual advantage of mobility offered by a mobile platform and dexterity offered by the manipulator. In this work, the tracking and nonlinear disturbance decoupling problems are studied. We show that this system...
The aim of this work is to describe an intelligent system based on fuzzy logic that is developed to control a quadrotor. A quadrotor is a helicopter with four rotors, that make the vehicle more stable but more complex to model and to control. The quadrotor has been used as a testing platform in the last years for various universities and research centres. A quadrotor has six degrees of freedom, three...
In this paper, we describe a power assist method for a nonholonomic mobile robot designed to carry out office-oriented services. We developed a new mechanism for obtaining an approximate measurement of the zero moment point (ZMP) using three single-axis force sensors so that a robot pushed from any direction by a human can detect the direction and magnitude of the external force. We also propose impedance...
Wing motion in most flapping-wing micro air vehicles (MAVs) is restricted to a flat stroke plane in order to simplify analysis and mechanism design. An MAV actuation and transmission design capable of controlling flapping motions and deviations from the mean stroke plane using relatively simple modifications to a proven design is presented. This allows preliminary investigation into more power-efficient...
This paper describes a novel method for motion generation and reactive collision avoidance. The algorithm performs arbitrary desired velocity profiles in absence of external disturbances and reacts if virtual or physical contact is made in a unified fashion with a clear physically interpretable behavior. The method uses physical analogies for defining attractor dynamics in order to generate smooth...
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