• 제목/요약/키워드: Dynamic walking

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지능형 제어기법 및 센서 인터페이스를 이용한 이족 보행 로봇의 동적보행 제어 (Dynamic Walking Control of Biped Walking Robot using Intelligent Control Method and Sensor Interface)

  • 고재원;임동철
    • 전기학회논문지P
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    • 제56권4호
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    • pp.161-167
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    • 2007
  • This paper introduces a dynamic walking control of biped walking robot using intelligent sensor interface and shows an intelligent control method for biped walking robot. For the dynamic walking control of biped walking robot, serious motion controllers are used. They are main controller(using INTEL80C296SA MPU), sub controller(using TMS320LF2406 DSP), sensor controller(using Atmega128 MPU) etc. The used sensors are gyro sensor, tilt sensor, infrared sensor, FSR sensor etc. For the feasibility of a dynamic walking control of biped walking robot, we use the biped walking robot which has twenty-five degrees of freedom(D.O.F.) in total. Our biped robot is composed of two legs of six D.O.F. each, two arms of five D.O.F. each, a waist of two D.O.F., a head of one D.O.F.

이족보행로봇의 동적보행과 역동역학 해석 (Dynamic Walking and Inverse Dynamic Analysis of Biped Walking Robot)

  • 박인규;김진걸
    • 대한기계학회:학술대회논문집
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    • 대한기계학회 2000년도 춘계학술대회논문집A
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    • pp.548-555
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    • 2000
  • The dynamic walking and the inverse dynamics of the biped walking robot is investigated in this paper. The biped robot is modeled with 14 degrees of freedom rigid bodies considering the walking pattern and kinematic construction of humanoid. The method of the computer aided multibody dynamics is applied to the dynamic analysis. The equations of motion of biped are initially represented as terms of the Cartesian coordinates, then they are converted to the minimum number of equations of motion in terms of the joint coordinates using the velocity transformation matrix. For the consideration of the relationships between the ground and foot, the holonomic constraints are added or deleted on the equations of motion. The number of these constraints can be changed by types of walking pattern with three modes. In order for the dynamic walking to be stabilizable, optimized trunk positions are iteratively determined by satisfying the system ZMP(Zero Moment Point) and ground conditions.

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이족보행로봇의 동적 보행을 위한 혼합 위치/힘 제어 (Hybrid Position/Force Control for Dynamic Walking of Biped Walking Robot)

  • 박인규;김진걸
    • 한국정밀공학회:학술대회논문집
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    • 한국정밀공학회 2000년도 춘계학술대회 논문집
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    • pp.566-569
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    • 2000
  • This hybrid position/force control for the dynamic walking of the biped robot is performed in this paper. After the biped robot was modeled with 14 degrees of freedom of the multibody dynamics, the equations of motion are constructed using velocity transformation technique. Then the inverse dynamic analysis is performed for determining the driving torques and the ground reaction forces. From this analysis, obtains the maximum ground contact force at the moment of contacting which act on the rear of the sole of swing leg and the distribution curve of the ground reaction. Because these maximum force and distribution type acts an important role to the stability of the whole dynamic walking, they are reduced and distributed smoothly by means of the trajectory of the modified ground reaction force. This new trajectory is used to the reference input for more stable dynamic walking of the whole walking region.

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만성 뇌졸중 환자의 목 통증 및 목 가동범위와 균형 능력 및 보행과의 상관관계 (Correlations Between Neck Pain, Range of Motion, Balance, and Gait in Patients with Chronic Stroke)

  • 전민기;김명권
    • PNF and Movement
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    • 제22권2호
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    • pp.305-314
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    • 2024
  • Purpose: This study examines the correlations between neck pain, neck range of motion, static and dynamic balance abilities, and walking abilities in patients with chronic stroke. Methods: A total of 29 participants were selected from patients with chronic stroke experiencing moderate to severe neck pain. Their neck pain, neck range of motion, static and dynamic balance abilities, and walking abilities were assessed and measured. Pearson's correlation coefficient was used to analyze the measurements and determine the correlations between neck pain, neck range of motion, static and dynamic balance abilities, and walking abilities. Results: Neck pain significantly correlated with static and dynamic balance and walking abilities. Regarding neck ROM, neither neck flexion nor extension showed significant correlations with static balance and walking abilities. However, except for left-lateral flexion, neck lateral flexion showed significant correlations with static and dynamic balance and walking abilities. Left-lateral flexion did not show a significant correlation with dynamic balance ability. Except for left rotation, neck rotation showed significant correlations with static and dynamic balance and walking abilities. Left rotation did not show a significant correlation with dynamic balance ability. Conclusion: The results of this study demonstrate that there are correlations between neck pain, neck range of motion, balance abilities, and walking ability.

재활훈련용 이쪽보행 RGO 로봇의 Dynamic PLS 설계와제어 - <응력해석과 FEM을 중심으로> (Design and Control of a Dynamic PLS of the Biped Walking RGO-Robot for a Trainning of Rehabilitation)

  • 김명회;장대진;박창일;박영필
    • 한국정밀공학회:학술대회논문집
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    • 한국정밀공학회 2002년도 춘계학술대회 논문집
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    • pp.238-243
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    • 2002
  • This paper presents a design and a control of a biped walking AGO-robot and dynamic walking simulation for this system. The biped walking RGO-robot is distinguished from other one by which has a very light-weight and a new RGO type with servo motors. The gait of a biped walking AGO-robot depends on the constrains of mechanical kinematics and initial posture. The stability of dynamic walking is investigated by ZMP(Zero Moment Point) of the biped walking AGO-robot. It is designed according to a human wear type and is able to accomodate itself to human environments. The joints of each leg are adopted with a good kinematic characteristics. To test of the analysis of joint kinematic properties, we did the strain stress analysis of dynamic PLS and the study of FEM with a dynamic PLS. It will be expect that the spinal cord injury patients are able to train effectively with a biped walking RGO-robot.

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이족보행로봇 IWR의 기구학적 모델링과 역동역학 해석 (Kinematic Modeling and Inverse Dynamic Analysis of the IWR Biped Walking Robot)

  • 김진석;박인규;김진걸
    • 한국정밀공학회:학술대회논문집
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    • 한국정밀공학회 2000년도 춘계학술대회 논문집
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    • pp.561-565
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    • 2000
  • This paper deals with dynamic walking and inverse dynamic analysis of the IWR biped walking robot. The system has nine bodies of the multibody dynamics. and all of the .joints of them are made up of the revolute joints at first. The problem of redundant constraint in double support phase is solved by changing the type of the joints considering kinematic relation. To make sure of its dynamic walking, the movement of balancing weight is determined by which satisfies not only the condition of ZMP by applying the principle of D'Alembert but also the contact condition of the ground. The modeling of IWR and dynamic walking are realized using DADS.

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균형추를 장착한 4족 로봇의 보행 안정성에 관한 연구 (A Study on the Walking Stability of the Quadruped Robot with WBO)

  • 최기훈;김영탁;유재명
    • 한국정밀공학회지
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    • 제22권6호
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    • pp.118-126
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    • 2005
  • There are many types of walking robots in the world. For dynamic walking of the robots it is necessary to keep its dynamic stability. The dynamic stability is influenced by the position of ZMP (zero moment point). In this paper we study the control of the ZMP position of walking robot. For experiment we developed a quadruped robot and analyzed the dynamic stability of the robot. Developed robot has 2 joints at each leg and WBO (weight balancing oscillator) on the body of the robot. The WBO is designed to move linearly from side to side when the robot walks dynamically. Walking test was performed to verify the validity of the proposed methods. Especially we showed that the dynamic stability of the robot can be improved without sacrifice of the walking speed by control the WBO.

이족로봇의 동적 보행계획과 역동역학 해석 (Dynamic Walking Planning and Inverse Dynamic Analysis of Biped Robot)

  • 박인규;김진걸
    • 한국정밀공학회지
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    • 제17권9호
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    • pp.133-144
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    • 2000
  • The dynamic walking planning and the inverse dynamics of the biped robot is investigated in this paper. The biped robot is modeled with 14 degrees of freedom rigid bodies considering the walking pattern and kinematic construction of humanoid. The method of the computer aided multibody dynamics is applied to the dynamic analysis. The equations of motion of biped are initially represented as terms of the Cartesian corrdinates then they are converted to the minimum number of equations of motion in terms of the joint coordinates using the velocity transformation matrix. For the consideration of the relationships between the ground and foot the holonomic constraints are added or deleted on the equations of motion. the number of these constraints can be changed by types of walking patterns with three modes. In order for the dynamic walking to be stabilizable optimized trunk positions are iteratively determined by satisfying the system ZMP(Zero Moment Point) and ground conditions.

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Modeling of Dynamic Loads Due to Pedestrian Walking

  • 김기철
    • 한국공간구조학회논문집
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    • 제5권1호
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    • pp.81-89
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    • 2005
  • Walking loads are influenced by various parameters so that they need to be measured considering such parameters. Walking frequency(rate) is experimentally investigated as the most important parameter in determining the walking load expressed with dynamic load factor. This study focuses on the derivation of continuous walking load-time functions at any walking frequency ranging from 1.30Hz to 2.70Hz. Experiments were conducted to obtain time-histories of walking loads at the increment of 0.1Hz, which are decomposed into harmonic loads by the Fourier transformation. The polynomial load-time functions are proposed representing the relationship between harmonic coefficients and walking frequencies, thereby easily formulating walking load-time histories for dynamic load factor with various walking frequencies.

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척수마비 재활훈련용 이족보행 RGO 로봇의 Dynam ic PLS 생체역학적 특성분석 <응력해석과 FEM을 중심으로> (Analysis of a Dynamic PLS of the Biped Walking RGO-Robot for a Trainning of Rehabilitation)

  • 김명회;장대진;박창일;박영필
    • 한국정밀공학회:학술대회논문집
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    • 한국정밀공학회 2002년도 춘계학술대회 논문집
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    • pp.136-141
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    • 2002
  • This paper presents a design and a control of a biped walking RGO-robot and dynamic walking simulation for this system. The biped walking RGO-robot is distinguished from other one by which has a very light-weight and a new AGO type with servo motors. The gait of a biped walking RGO-robot depends on the constrains of mechanical kinematics and initial posture. The stability of dynamic walking is investigated by ZMP(Zero Moment Point) of the biped walking RGO-robot. It is designed according to a human wear type and is able to accomodate itself to human environments. The joints of each leg are adopted with a good kinematic characteristics. To test of the analysis of joint kinematic properties, we did the strain stress analysis of dynamic PLS and the study of FEM with a dynamic PLS. It will be expect that the spinal cord injury patients are able to train effectively with a biped walking AGO-robot.

  • PDF