• 제목/요약/키워드: fault tolerant gaits

검색결과 14건 처리시간 0.024초

평판 발을 가지는 사족 보행 로봇의 내고장성 걸음새 (Fault Tolerant Straight-Line Gaits of a Quadruped Robot with Feet of Flat Shape)

  • 양정민;곽성우
    • 제어로봇시스템학회논문지
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    • 제18권2호
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    • pp.141-148
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    • 2012
  • This paper proposes fault tolerant gaits of a quadruped robot with feet of flat shape. Fault tolerant gaits make it possible for a legged robot to continue static walking against a leg failure. In the previous researches, it was assumed that a legged robot had feet that have point contact with the surface. When the robot is endowed with feet having flat shape, fault tolerant gaits can show better performance compared with the former gaits, especially in terms of the stride length and gait stability. In this paper, fault tolerant gaits of a quadruped robot against a locked joint failure are addressed in straight-line motion and crab walking, respectively.

자율 보행 로봇을 위한 내고장성 제어 (Fault Tolerance in Control of Autonomous Legged Robots)

  • 양정민
    • 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.

교착 회피를 고려한 내고장성 세다리 걸음새 (Fault-Tolerant Tripod Gaits Considering Deadlock Avoidance)

  • 노지명;양정민
    • 대한전기학회논문지:시스템및제어부문D
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    • 제53권8호
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    • pp.585-593
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    • 2004
  • Fault-tolerant gait planning in legged locomotion is to design gaits with which legged robots can maintain static stability and motion continuity against a failure in a leg. For planning a robust and deadlock-free fault-tolerant gait, kinematic constraints caused by a failed leg should be closely examined with respect to remaining mobility of the leg. In this paper, based on the authors's previous results, deadlock avoidance scheme for fault-tolerant gait planning is proposed for a hexapod robot walking over even terrain. The considered fault is a locked joint failure, which prevents a joint of a leg from moving and makes it locked in a known position. It is shown that for guaranteeing the existence of the previously proposed fault-tolerant tripod gait of a hexapod robot, the configuration of the failed leg must be within a range of kinematic constraints. Then, for coping with failure situations where the existence condition is not satisfied, the previous fault-tolerant tripod gait is improved by including the adjustment of the foot trajectory. The foot trajectory adjustment procedure is analytically derived to show that it can help the fault-tolerant gait avoid deadlock resulting from the kinematic constraint and does not make any harmful effect on gait mobility. The post-failure walking problem of a hexapod robot with the normal tripod gait is addressed as a case study to show the effectiveness of the proposed scheme.

에너지 안정여유도를 이용한 사족 보행 로봇의 내고장성 걸음새 (Designing Fault-Tolerant Gaits for Quadruped Robots Using Energy Stability Margins)

  • 양정민
    • 대한전기학회논문지:시스템및제어부문D
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    • 제55권7호
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    • pp.319-326
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    • 2006
  • This paper proposes a novel fault-tolerant gait for Quadruped robots using energy stability margins. The previously developed fault-tolerant gaits for quadruped robots have a drawback of having marginal stability margin, which may lead to tumbling. In the process of tumbling, the potential energy of the center of gravity goes through a maximum. The larger the difference between the potential energy of the center of gravity of the initial position and that of this maximum, the less the robot tumbles. Hence this difference of potential energy, dubbed as Energy Stability Margin (ESM), can be regarded as the stability margin. In this paper, a novel fault-tolerant gait is presented which gives positive ESM to a quadruped robot suffering from a locked joint failure. Positive ESM is obtained by adjusting foot positions between leg swing sequences. The advantage of the proposed fault-tolerant gait is demonstrated in a case study where a quadruped robot with a failed leg walks on a even slope.

관절고착고장에 대한 육각 보행 로봇의 내고장성 걸음새 생성 (Fault-Tolerant Gait Generation of Hexapod Robots for Locked Joint Failures)

  • 장정민
    • 대한전기학회논문지:시스템및제어부문D
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    • 제54권3호
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    • pp.131-140
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    • 2005
  • Fault-tolerant gait generation of a hexapod robot with crab walking is proposed. The considered fault is a locked joint failure, which prevents a joint of a leg from moving and makes it locked in a known position. Due to the reduced workspace of a failed leg, fault-tolerant crab walking has a limitation in the range of heading direction. In this paper, an accessible range of the crab angle is derived for a given configuration of the failed leg and, based on the principles of fault-tolerant gait planning, periodic crab gaits are proposed in which a hexapod robot realizes crab walking after a locked joint failure, having a reasonable stride length and stability margin. The proposed crab walking is then applied to path planning on uneven terrain with positive obstacles. i.e., protruded obstacles which legged robots cannot cross over but have to take a roundabout route to avoid. The robot trajectory should be generated such that the crab angle does not exceed the restricted range caused by a locked joint failure.

비평탄 지형에서 사각 보행 로봇의 고장후 보행 (Post-Failure Walking of Quadruped Robots on a Rough Planar Terrain)

  • 양정민;박용국
    • 대한전기학회논문지:시스템및제어부문D
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    • 제54권9호
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    • pp.547-555
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    • 2005
  • A fault-tolerant gait of multi-legged robots with static walking is a gait which can maintain gait stability and continue its walking against an occurrence of a leg failure. This paper proposes fault-tolerant gait planning of a quadruped robot walking over a rough planar terrain. The considered fault is a locked joint failure, which prevents a joint of a leg from moving and makes it locked in a known position. In this Paper, two-phase discontinuous gaits are presented as a new fault-tolerant gait for quadruped robots suffering from a locked joint failure. By comparing with previously developed one-phase discontinuous gaits, it is shown that the proposed gait has great advantages in gait performance such as the stride length and terrain adaptability. Based on the two-phase discontinuous gait, quasi follow-the-leader(FTL) gaits are constructed which enable a quadruped robot to traverse two-dimensional rough terrain after an occurrence of a locked joint failure. During walking, two front legs undergo the foot adjustment procedure for avoiding stepping on forbidden areas. The Proposed wait planning is verified by using computer graphics simulations.

육각 보행 로봇의 내고장성 세다리 걸음새 (Fault-Tolerant Tripod Gaits for Hexapod Robots)

  • 양정민;노지명
    • 대한전기학회논문지:시스템및제어부문D
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    • 제52권12호
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    • pp.689-695
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    • 2003
  • Fault-tolerance is an important design criterion for robotic systems operating in hazardous or remote environments. This paper addresses the issue of tolerating a locked joint failure in gait planning for hexapod walking machines which have symmetric structures and legs in the form of an articulated arm with three revolute joints. A locked joint failure is one for which a joint cannot move and is locked in place. If a failed joint is locked, the workspace of the resulting leg is constrained, but hexapod walking machines have the ability to continue static walking. A strategy of fault-tolerant tripod gait is proposed and, as a specific form, a periodic tripod gait is presented in which hexapod walking machines have the maximum stride length after a locked failure. The adjustment procedure from a normal gait to the proposed fault-tolerant gait is shown to demonstrate the applicability of the proposed scheme.

사각보행로봇의 관절고착고장을 위한 내고장성 걸음새 (Fault Tolerant Gaits of Quadruped Robots for Locked Joint Failures)

  • 양정민;김종환
    • 대한전자공학회:학술대회논문집
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    • 대한전자공학회 1999년도 추계종합학술대회 논문집
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    • pp.707-711
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    • 1999
  • In this paper, an algorithm of fault tolerant gaits for a quadruped robot is proposed for the purpose of tolerating a locked joint failure. The robot can continue its walking after a locked failure occurs to a joint of a leg by the proposed algorithm. In particular, a periodic gait is proposed as a special form of the proposed algorithm and its existence and efficiency are analytically proven.

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고장이 존재하는 육족 보행 로봇을 위한 대수적 힘 분배 (Algebraic Force Distribution in Hexapod Walking Robots with a Failed Leg)

  • 양정민
    • 한국지능시스템학회논문지
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    • 제19권4호
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    • pp.457-463
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    • 2009
  • 본 논문에서는 육족 보행 로봇의 새로운 힘 분배 알고리듬을 제안한다. 본 논문에서 고려하는 육족 보행 로봇은 다리 하나에 관절고착고장이 발생하여 내고장성 정적 세다리 걸음새로 보행한다. 제안되는 힘 분배 알고리듬의 핵심은 내고장성 걸음새가 가지는 안정여유도를 결정하는 지지 다리의 미끄러짐을 최소화시키는 것이다. 불연속적으로 움직이는 내고장성 세다리 걸음새는 정상 걸음새보다 안정도가 떨어진다는 약점이 있다. 본 논문에서 제안하는 힘 분배 알고리듬은 이러한 약점을 고려하여 내고장성 걸음새의 지지 다리가 세 개라는 성질과 Zero-Interaction Force 원리를 이용하여 최적화 기법을 쓰지 않고 대수적으로 모든 다리의 힘 성분을 구한다. 컴퓨터 시뮬레이션 사례 연구를 통해서 제안된 힘 분배 알고리듬과 기존 방법의 비교 분석을 실시하고 제안된 방법의 효용성을 입증한다.

비평탄 지형 보행을 위한 내고장성 FTL 걸음새 (Fault Tolerant FTL Gaits for Walking over Irregular Terrain)

  • 양정민
    • 전자공학회논문지SC
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    • 제43권3호
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    • pp.16-24
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    • 2006
  • 본 논문에서는 비평탄 지형을 보행하기 위한 육족 보행 로봇의 내고장성 걸음새 계획을 제안한다. 본 논문에서 고려하고 있는 고장은 관절고착고장으로 로봇 다리의 관절 하나가 어떤 위치에 고착되어서 보행이 끝날 때까지 움직일 수 없는 상태를 말한다. 기존에 제안되었던 평탄 지형 보행을 위한 내고장성 세다리 걸음새 계획을 바탕으로 본 논문에서는 육족 보행 로봇이 관절고착고장이 발생한 후에도 이차원 착지 불가능 영역이 존재하는 비평탄 지형을 걸을 수 있도록 하는 내고장성 FTL(Follow-The-Leader) 걸음새를 구현한다. 제안된 FTL 걸음새는 고장 난 다리의 착지점에서 로봇이 가질 수 있는 최대한의 보폭을 낼 수 있으며, 기존 내고장성 걸음새보다 착지 불가능 영역을 뛰어넘는 능력이 더 우수하다. 컴퓨터 시뮬레이션을 통해서 제안된 FTL 걸음새의 응용가능성을 검증한다.