Jau-Ching Lu scite author profile

Jau-Ching Lu

4Publications

40Citation Statements Received

75Citation Statements Given

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Affiliations

University of Michigan–Ann Arbor, National Taiwan University, Theodore Roosevelt High School

Publications

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Design of a leg-wheel hybrid mobile platform

Shen

Cheng

et al. 2009

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We introduce the design of a leg-wheel hybrid platform Quattroped. Comparing to most hybrid platforms which have separate mechanisms of wheels and legs, this robot is implemented with a transformation mechanism which directly changes the morphology of wheels (i.e. a full circle) into 2 degree-of-freedom legs (i.e. combining two half-circles as a leg). The mechatronics, software infrastructure, and the initial experimental test of the robot are also reported.

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State Derivation of a 12-Axis Gyroscope-Free Inertial Measurement Unit

Lin

2011

Sensors

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The derivation of linear acceleration, angular acceleration, and angular velocity states from a 12-axis gyroscope-free inertial measurement unit that utilizes four 3-axis accelerometer measurements at four distinct locations is reported. Particularly, a new algorithm which derives the angular velocity from its quadratic form and derivative form based on the context-based interacting multiple model is demonstrated. The performance of the system was evaluated under arbitrary 3-dimensional motion.

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Turning in a Bipedal Robot

Chen

Lin

2013

J Bionic Eng

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Sensor Data Fusion for Body State Estimation in a Bipedal Robot and Its Feedback Control Application for Stable Walking

Chen

Huang

et al. 2015

Sensors

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We report on a sensor data fusion algorithm via an extended Kalman filter for estimating the spatial motion of a bipedal robot. Through fusing the sensory information from joint encoders, a 6-axis inertial measurement unit and a 2-axis inclinometer, the robot’s body state at a specific fixed position can be yielded. This position is also equal to the CoM when the robot is in the standing posture suggested by the detailed CAD model of the robot. In addition, this body state is further utilized to provide sensory information for feedback control on a bipedal robot with walking gait. The overall control strategy includes the proposed body state estimator as well as the damping controller, which regulates the body position state of the robot in real-time based on instant and historical position tracking errors. Moreover, a posture corrector for reducing unwanted torque during motion is addressed. The body state estimator and the feedback control structure are implemented in a child-size bipedal robot and the performance is experimentally evaluated.

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Jau-Ching Lu

Design of a leg-wheel hybrid mobile platform

State Derivation of a 12-Axis Gyroscope-Free Inertial Measurement Unit

Turning in a Bipedal Robot

Sensor Data Fusion for Body State Estimation in a Bipedal Robot and Its Feedback Control Application for Stable Walking

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