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New gait planning using a nonholonomic model with difference equation constraints is proposed for biped robot walking. A model of a pivoting telescopic segment is used as the kinematic foothold selection model of a bipedal robot. The repetitive and discontinuous constraints of pivoting, expanding, and contracting make up the set of walking trajectory data. The k-step reachable region is defined as...
An obstacle avoidance method using virtual impedance wall is proposed for multi-legged robot. The swing leg employs compliance control to avoid the collided object and the robot keeps the moving direction as much as possible while swing legs keep a preferred operating region. The preferred operating region is surrounded with virtual impedance wall. When the leg comes to go over the threshold of preferred...
Rotation is one of efficient transportation method for big or heavy object. For implementing the rolling operation to the small and light weight robot, the friction control is necessary considering its movable range, balance and actuator power. In this paper, we propose a new rolling manipulation by using whole body motion for multi-legged robot. The weight shift control is implemented considering...
New dynamic rolling-walk motion for multi-legged robot with Sensory Compensation is proposed. The motion is realized by using the isotropic leg arrangement and the dynamic center of mass control inspired by bipedal robots. By using the Preview Control of Zero Moment Point with cart-table model based on the bipedal robot technique, the robot's center of mass trajectory is planned for the dynamic motion...
Recently, human-friendly robots such are mainly focused on their functions. And, based on these functions, many researchers have tried to realize good applications for convenient human life. While, a mental safety and affinity for human are also important topics to co-existence with robots. The evaluation techniques of robot motion and design are necessary to consider the above things. However, the...
A new method for bipedal walking on rough terrain by using ZMP criteria map is proposed. The rough terrain walking is classified to ldquostep uprdquo and ldquostep downrdquo by landing timing of a swing leg. The walking pattern is modified in real-time according to the difference between the ideal timing and the measured timing by a force sensor on the foot. In the case of ldquostep uprdquo, the landing...
A stair recognition with laser range scanning for continuous stair climbing by limb mechanism ldquoASTERISKrdquo is proposed. In this research, laser range scanning is divided into rough scan for fast scanning, and precise scan for range scanning. We use 2D laser range finder attached with motor for 3D laser range scanning. As a result of the experiment, the robot could recognize a stair position...
A ladder climbing motion for limb mechanism robot "ASTERISK" is proposed. This robot has six legs. The upper three legs hold on the upper rung from its both sides alternately, just like pinching it. The lower three legs hold on the lower rung in the same way. Hence the robot can climb the ladder stably. Depending on the posture of the robot, when it lifts up its body, the robot automatically...
In this paper, the sampling real-time QMDP value method is proposed and applied to a goalkeeper task of a soccer robot. Soccer is a challenging task for an autonomous robot that has poor computing resources and sensors, and a good subject in the study of decision making in dynamic environments. A robot frequently decides its behavior without enough observation of the environment. In the proposed method,...
Real-time emergent stop walking motion is necessary for humanoid robots. We propose a new emergent stop method using modification criteria map. The stable gait change is generated by adjusting the amount of the ZMP modification according to the timing of stop command. The modified ZMP trajectory is given so that the humanoid robot can change the current motion without falling down. The modification...
Marionette system provides an intuitive teleoperation system for the difficulty controlling whole-body motion of a multi-joint robot and the complicated observation of its condition. This system employs a small robot which has similar form to a control target as an operating/displaying device, so that the device provides an operational feeling like manipulating a doll, so it is named Marionette device...
This paper describes a real-time gait change for a walking humanoid robot. We propose a control method to change the gait motion by modifying a pre-defined zero moment point (ZMP) trajectory in real time. The stable gait change is generated by adjusting the amount of the ZMP modification according to the timing of stop command. The modified ZMP trajectory is given so that the humanoid robot can change...
Time optimal control method for quadruped walking robots are developed and installed into a practical robot system. Each leg is modeled as a two link manipulator whose time optimal control theory has already been established by Bobrow. However, in legged robot systems, each leg supports their body weight, and the reaction forces from its ground must be inside of their friction corn. Moreover, the...
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