• 제목/요약/키워드: gait stability margin

검색결과 23건 처리시간 0.02초

경사면 보행 안정성 향상을 위한 불연속 걸음새 제어 (Discontinuous Zigzag Gait Control to Increase the Stability During Walking in Slope)

  • 박세훈;이연정
    • 제어로봇시스템학회논문지
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    • 제15권9호
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    • pp.959-966
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    • 2009
  • An essential consideration when analyzing the gait of walking robots is their ability to maintain stability during walking. Therefore, this study proposes a vertical waist-jointed walking robot and gait algorithm to increase the gait stability margin while walking on the slope. First, the energy stability margin is compared according to the posture of the walking motion on slope. Next, a vertical waist-jointed walking robot is modeled to analyze the stability margin in given assumption. We describe new parameters, joint angle and position of a vertical waist-joint to get COG (center of gravity of a body) in walking. Finally, we prove the superiority of the proposed gait algorithm using simulation and conclude the results.

허리관절을 가지는 4족보행로봇의 지그재그 걸음새 계획 (Discontinuous Zigzag Gait Planning of Quadruped Walking Robot with an Articulated Spine)

  • 박세훈;하영호;이연정
    • 제어로봇시스템학회논문지
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    • 제10권8호
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    • pp.703-710
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    • 2004
  • This paper presents discontinuous zigzag gait analysis for a newly modeled quadruped walking robot with an articulated spine which connects the front and rear parts of the body. An articulated spine walking robot can move easily from side to side, which is an important feature to guarantee a larger gait stability margin than that of a conventional single rigid-body walking robot. First, we suggest a kinematic modeling of an articulated spine robot which has new parameters such as a waist-joint angle, a rotate angle of a front and rear body and describe characteristics of gait using an articulated spine. Next, we compared the difference of walking motion of newly modeled robot with that of a single rigid-body robot and analyzed the gait of an articulated spine robot using new parameters. On the basis of above result, we proposed a best walking motion with maximum stability margin. To show the effectiveness of proposed gait planning by simulation, firstly the fastest walking motion is identified based on the maximum stride, because the longer the stride, the faster the walking speed. Next, the gait stability margin variation of an articulated spine robot is compared according to the allowable waist-joint angle.

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.

사족 보행 로봇의 관절고착고장을 위한 내고장성 걸음새의 안정여유도에 관한 연구 (Stability Margin of Fault-Tolerant Gaits to Joint Jam for Quadruped Robots)

  • 양정민
    • 전자공학회논문지SC
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    • 제43권5호
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    • pp.19-27
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    • 2006
  • 본 논문은 사족 보행 로봇에 대한 내고장성 걸음새의 안정여유도를 개선하는 방법을 논한다. 기존에 제안되었던 재고장성 걸음새는 사족 보행 로봇이 다리 고장이 발생한 후에도 보행을 계속할 수 있게 하였다. 하지만 내고장성 걸음새가 임계 안정여유도를 가지므로 몸체 무게중심의 위치가 순차적으로 바뀔 때에는 걸음새가 불안정해질 수 있다는 약점을 지니고 있다. 본 논문에서는 이러한 약점을 극복하기 위해서 양(陽)으로 안정여유도를 가지는 내고장성 걸음새를 관절고착고장에 대해서 제안한다. 관절고착고장은 로봇 다리의 관절 하나가 한 지점에 고착되어 더 이상 움직일 수 없는 상태를 말한다. 양의 안정여유도는 걸음새 동작 과정에서 한 다리가 이동하기 전에 지지 다리들의 위치를 조정함으로써 얻어질 수 있다. 제안된 걸음새의 우수성을 입증하기 위해서 안정여유도, 보폭 등의 매개 변수들을 중심으로 기존 걸음새와 성능 비교를 수행한다.

기하학적 탐색을 이용한 4각 보행로봇의 지그재그 걸음새 계획 (Zigzag Gait Planning of n Quadruped Walking Robot Using Geometric Search Method)

  • 박세훈;이승하;이연정
    • 제어로봇시스템학회논문지
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    • 제8권2호
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    • pp.142-150
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    • 2002
  • This paper presents a systematic method of the zigzag gait planning for quadruped walking robots. When a robot walks with a zigzag gait, its body is allowed to move from side to side, while the body movement is restricted along a moving direction in conventional continuous gaits. The zigzag movement of the body is effective to improve the gait stability margin. To plan a zigzag gait in a systematic way, the relationship between the center of gravity(COG) and the stability margin is firstly investigated. Then, new geometrical method is introduced to plan a sequence of the body movement which guarantees a maximum stability margin as well as monotonicity along a moving direction. Finally, an optimal swing-leg sequence is chosen for a given arbitrary configuration of the robot. To verify the proposed method, computer simulations have been performed for both cases of a periodic gait and a non-periodic gait.

외력 대처 기능을 갖는 사각 보행 로보트 적응 걸음새에 관한 연구 (A study on an adaptive gait for a quadruped walking robot under external forces)

  • 강동오;이연정;이승하;홍예선
    • 전자공학회논문지B
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    • 제33B권9호
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    • pp.1-12
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    • 1996
  • In this paper, we propose an adaptive gait by which a quadruped walking robot can walk against external disturbances. This adaptive gait mechanism makes it possible for a quadruped walking robot to change its gait and accommodate external disturbances form various external environmental factors. Under the assumption that external disturbances can be converted to an external force acting on the body of a quadruped walking robot, we propose a new criterion for the stability margin of a waling robot by using an effective mass center based on the zero moment point under unknown external force. And for a solution of an adaptive gait against external disturbances, an method of altitude control and reflexive direction control is suggested. An algorithmic search method for an optimal stride of the quadruped mehtod, the gait stability margin of a quadruped walking robot is optimized in changing its direction at any instance for and after the reflexive direction control. To verify the efficiency of the proposed approach, some simulaton results are provided.

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Gait Stability in K-pop Professional Dancers

  • Jang, Young Kwan;Hong, Su Yeon;Jang, Inyoung
    • 한국운동역학회지
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    • 제26권4호
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    • pp.377-382
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    • 2016
  • Objective: The purpose of this study was to provide data on gait characteristics of K-pop professional dancers. Method: Participants were divided into four groups: male dancers (n=10, age: $28.2{\pm}3.4years$, height: $175{\pm}6cm$, weight: $68.9{\pm}5.6kg$), female dancers (n=10, age: $26.7{\pm}3.1years$, height: $162{\pm}4cm$, weight: $52.1{\pm}3.7kg$), non-dancer males (n=10, age: $25.2{\pm}2.6years$, height: $171{\pm}6cm$, weight: $66.4{\pm}5.3kg$), or non-dancer females (n=10, age: $26.2{\pm}3.0years$, height: $161{\pm}5cm$, weight: $56.4{\pm}6.7kg$). Twelve infrared cameras (Qualisys, Oqus 500, Sweden, 150 Hz.) were used to capture three-dimensional motion data. Gait motion data of professional dancers and ordinary persons were obtained. Results: K-pop dancers' dynamic stability during the female toe off event and the male heel contact event was better compared with that of ordinary persons in the front-rear direction. In addition, the results showed a significant difference in the margin of stability (MoS). However, the medial-lateral direction of both female and male dancers during heel contact and the toe off event was more stable compared with ordinary person, who exhibited an increased MoS than did the dancers. Conclusion: This study aimed to investigate the gait characteristics of K-pop professional dancers in comparison with ordinary persons using gait parameters and MoS. The stability of K-pop professional dancers' dynamic gait in the front-rear direction was better than that in the medial-lateral direction. Therefore, further studies in which the dance movements of K-pop dancers are sub-divided and analyzed will be necessary to reduce related injury.

Turning Gait Planning of a Quadruped Walking Robot with an Articulated Spine

  • Park, Se-Hoon;Lee, Yun-Jung
    • 제어로봇시스템학회:학술대회논문집
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    • 제어로봇시스템학회 2004년도 ICCAS
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    • pp.1926-1930
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    • 2004
  • We suggest a turning gait planning of a quadruped walking robot with an articulated spine. Robot developer has tried to implement a gait more similar to that of natural animals with high stability margin. Therefore, so many types of walking robot with reasonable gait have been developed. But there is a big difference with a natural animal walking motion. A key point is the fact that natural animals use their waist-oint(articulated spine) to walk. For example, a crocodile which has short legs relative to a long body uses their waist to walk more quickly and to turn more effectively. The other animals such as tiger, dog and so forth, also use their waist. Therefore, this paper proposes discontinuous turning gait planning for a newly modeled quadruped walking robot with an articulated spine which connects the front and rear parts of the body. Turning gait is very important as same as straight gait. All animals need a turning gait to avoid obstacle or to change walking direction. Turning gait has mainly two types of gaits; circular gait and spinning gait. We apply articulated spine to above two gaits, which shows the majority of an articulated spine more effectively. Firstly, we describe a kinematic relation of a waist-joint, the hip, and the center of gravity of body, and then apply a spinning gait. Next, we apply a waist-joint to a circular gait. We compare a gait stability margin with that of a conventional single rigid body walking robot. Finally, we show the validity of a proposed gait with simulation.

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곤충형 다리구조의 4족 보행로봇의 개발 (Development of quadruped walking robot with insectile leg)

  • 안영명;최기훈;김태형;김영탁
    • 대한기계학회:학술대회논문집
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    • 대한기계학회 2001년도 춘계학술대회논문집B
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    • pp.301-306
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    • 2001
  • In this paper, we developed a quadruped walking robot, FRAMIX-T, with insectile leg mechanism and we inspected the efficiency of it in detail. In robotics, the legs of insect type are appropriate for the stability and the agile movement. So we first performed a gait analysis using duty factor, stride, phase etc., and analyzed the stability margin to improve the stability of robot. On the basis of this research, we planned the wave gait suitable for FRAMIX-T and performed a walking experiment. From this result, we proved the high efficiency using insectile leg mechanism and the possibility of walking with improved stability and mobility.

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Analysis on Regular Rotational Gait of a Quadruped Walking Robot

  • Kim, Whee-Kuk;Whang Cho;Yi, Byung-Ju
    • Transactions on Control, Automation and Systems Engineering
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    • 제4권2호
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    • pp.147-155
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    • 2002
  • In this paper, the regular rotational gaits of the quadruped crawling robot are studied. It is assumed that the proposed regular rotational gaits starts from one of six support patterns in a translational gaits and end up with one of six support patterns in a translational gaits. Noting that six support patterns in a regular translational gait belong to two different groups with respect to regular rotational gait, the static stability margin and the maximum rotational displacement during one rotational stride period for the two representative support patterns are investigated. It is expected that the proposed regular rotational gaits will enhance the omni-directional characteristics of the quadruped crawling robot.