• 제어로봇시스템학회논문지
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• 제9권11호
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• pp.943-951
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• 2003

A strategy for fault-tolerant gaits of autonomous legged robots is proposed. A legged robot is considered to be fault tolerant with respect to a given failure if it is guaranteed to be capable of walking maintaining its static stability after the occurrence of the failure. The failure concerned in this paper is a locked joint failure for which a joint in a leg cannot move and is locked in place. If a failed joint is locked, the workspace of the resulting leg is constrained, but legged robots have fault tolerance capability to continue static walking. An algorithm for generating fault-tolerant gaits is described and, especially, periodic gaits are presented for forward walking of a hexapod robot with a locked joint failure. The leg sequence and the formula of the stride length are analytically driven based on gait study and robot kinematics. The transition procedure from a normal gait to the proposed fault-tolerant gait is shown to demonstrate the applicability of the proposed scheme.

• 제어로봇시스템학회논문지
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• 제18권9호
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• pp.837-844
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• 2012

We introduce a pattern generation method for a hopping one-legged robot and verify it experimentally. The pattern is derived from the liner and angular momentum of a COM (Center of Mass), which are pre-scheduled. Because of the relation between angular velocities of joints and momemtums of the COM, joint angle trajectories are easily obtained. In addition, the landing impact force is reduced by only adjusting the landing timing. In the experiment, the one-legged robot hops in place with 0.06 s of flying time, and makes continuous hopping. Based on our experimental results, the proposed method can be applied to hopping and running of biped humanoid robots.

• 한국지능시스템학회논문지
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• 제24권3호
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• pp.304-309
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• 2014

본 논문에서는 허리 구조를 갖는 복합 바퀴-다리 이동형 로봇의 설계 방법을 제안한다. 제안된 복합 이동형 로봇은 비평탄 및 평탄 지형에서의 효과적인 이동을 위하여 로봇의 다리에 바퀴가 결합된 복합 바퀴-다리 구조와 로봇 주행 중 보행 자세로의 안정적인 전환과 비평탄 지형에서 기구적인 제한의 개선을 위하여 허리 관절을 갖는 구조로 설계하였다. 또한 다양한 지형을 인지하기 위하여 LRF센서, PSD센서, CCD 카메라를 사용하였다. 제안한 로봇 시스템의 검증을 위해 지형별 주행과 보행 자세를 선택할 수 있는 운동 계획 기법을 제안하였다. 실제 복합 바퀴-다리 이동형 로봇을 설계 및 제작하고, 제안된 운동계획을 사용한 실험을 통해 지형에 따른 효율적인 이동 성능을 검증하였다.

• 한국기계가공학회지
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• 제20권11호
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• pp.74-79
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• 2021

Generally, multi-legged walking robots have excellent mobility in rough and uneven terrain, and they are deployed for the safety of rescuers in various disaster environments. However, as each leg is driven by a number of actuators, it leads to a complicated structure and high power consumption; therefore, it is difficult to put them into practical use. In this article, a new concept is proposed of a walking robot whose legs are driven by a complex linkage structure to overcome the deficiencies of conventional multi-legged walking robots. A double crank-rocker mechanism is proposed, making it possible for one DC motor to actuate the left and right movements of two neighboring thighs of the multi-legged walking robot. Each leg can also move up and down through an improved cam structure. Finally, each mechanism is connected by spur and bevel gears, so that only two DC motors can drive all legs of the walking robot. The feasibility of the designed complex linkage mechanism was verified using the UG NX program. It was confirmed through actual production that the proposed multi-legged walking robot performs the desired motion.

• 로봇학회논문지
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• 제17권4호
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• pp.500-507
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• 2022

In this study, a motion planning method based on the integer representation of contact status between wheels and the ground is proposed for planning swing motion of a 6×6 wheel-legged robot to cross large obstacles and gaps. Wheel-legged robots can drive on a flat road by wheels and overcome large obstacles by legs. Autonomously crossing large obstacles requires the robot to perform complex motion planning of multi-contacts and wheel-rolling at the same time. The lift-off and touch-down status of wheels and the trajectories of legs should be carefully planned to avoid collision between the robot body and the obstacle. To address this issue, we propose a planning method for swing motion of robot legs. It combines an integer representation of discrete contact status and a trajectory optimization based on the direct collocation method, which results in a mixed-integer nonlinear programming (MINLP) problem. The planned motion is used to control the joint angles of the articulated legs. The proposed method is verified by the MuJoCo simulation and shows that over 95% and 83% success rate when the height of vertical obstacles and the length of gaps are equal to or less than 1.68 times of the wheel radius and 1.44 times of the wheel diameter, respectively.

• 한국정보통신학회논문지
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• 제13권9호
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• pp.1964-1972
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• 2009

본 논문은 4족 보행로봇 및 MSRS를 이용한 분산 웹 환경 로봇 서비스 개발환경을 제안하였다. 로봇 서비스 개발 환경은 고수준의 복잡한 로봇어플리케이션이 분산 웹 환경에서 동작 가능하게 하기 위하여, 마이크로소프트사의 MSRS를 이용해 로봇 기능들을 네트워크 노드에서 실행되는 서비스들로 구현하였다. 제안된 개발환경은 4족 보행 로봇인 제니보를 로봇플랫폼으로 선정하여 구현되어 졌다. 실험을 통해 개발된 로봇 서비스들은 분산 웹 환경 하에서 동적인 실행, 구성 및 원격 모니터링이 가능함을 보여주었다. 또한 개발된 로봇 서비스들을 복잡한 로봇어플리케이션을 쉽게 제작할 수 있도록 하는 비주얼프로그램 언어에서 사용하여 응용어플리케이션을 제작해 그 가능성을 검증하였다.

• 로봇학회논문지
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• 제7권2호
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• pp.76-82
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• 2012

In this study, we aim to develop energy efficient walking and running robot with compliant leg. So, we propose the energy efficient locomotion control method. And, we experiment the proposed control method applying to the experimental robot with compliant leg. From the experiment, we look at whether the proposed control method can the robot walk and run energy efficiently.

• EDISON SW 활용 경진대회 논문집
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• 제5회(2016년)
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• pp.384-388
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• 2016

This paper proposed a m.Sketch to search the optimal link lengths for a legged walking robot. In order to apply the m.Sketch for the proposed, set the design parameters of the constraints and use the m.Skecth to get optimal GL(Groud Length) and GAC(Ground Angle Coefficient). The legged robot designed based on four-bar linkage theory and Theo Jansen mechanism. The stride length of the legged walking robot was defined based on the proposed kinematic analysis. Use the Edison Design m.Sketch simulate and find the optimal link length having the best of the Ground Length (GL) and Ground Angle Coefficient(GAC). And use these length implemented the Theo Jansen mechanism both in Science box parts and acrylic. In addition to the further expansion of the legs to reach the goaltranslating heavy objects or person.

• 제어로봇시스템학회:학술대회논문집
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• 제어로봇시스템학회 2001년도 ICCAS
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• pp.83.3-83
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• 2001

A method to adaptively control leg-ends trajectories of a five-legged walking robot, Cepheus-2, has been developed in terms of a kind of a table look-up method. Cepheus-2 is a five-legged robot with a pentagonal body with two joints of each leg. The robot control system has a hierarchical autonomic-integrated architecture with a main computer (PC), a manager and servo modules. Being given the goals of walking by the main computer, the manager module assigns a type of leg-end trajectories of which data are described with the work space coordinates for the legs. Every servo module generates the joint angle data. In steady walking of the robot on flat floor without obstacle, two joints have to generate the assigned trajectory and five legs ...

• 한국정밀공학회:학술대회논문집
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• 한국정밀공학회 2010년도 춘계학술대회 논문집
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• pp.377-378
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• 2010