연구동향 분석

신장반사로 인한 근활성도 예측 모델을 이용한 삼두박근 반사 해석

강문정(Moon Jeong Kang) 조영남(Young Nam Jo) 채제욱(Je Wook Chae) 유홍희(Hong Hee Yoo) 2015년

논문상세정보
인용/피인용
' 신장반사로 인한 근활성도 예측 모델을 이용한 삼두박근 반사 해석' 의 주제별 논문영향력
논문영향력 선정 방법
논문영향력 요약
주제
  • 기계공학
  • elbowreflex(삼두박근반사)
  • muscle activation(근활성도)
  • stretch reflex(신장 반사)
동일주제 총논문수 논문피인용 총횟수 주제별 논문영향력의 평균
925 0

0.0%

' 신장반사로 인한 근활성도 예측 모델을 이용한 삼두박근 반사 해석' 의 참고문헌

  • 건강한 성인의 슬개건 반사 시 무릎 감쇠효과를 고려한 대퇴사두근의 근력 및 근활성도 예측
    강문정 대한기계학회논문집 B 38 (1) : 57 ~ 62 [2014]
  • The Heat of Shortening and Dynamics Constants of Muscles
    Hill, A. V. Proceedings of the Royal Society of London, Series B, Biological Sciences 126 (843) : 136 ~ 195 [1938]
  • The Effect of Whole Body Vibration on the H-reflex, the Stretch Reflex, and the Short-latency Response During Hopping
    Ritzmann, R. Scand. J. Med. Sci. Sports 23 : 331 ~ 339 [2013]
  • Stretch Reflex Sensitivity: Effects of Postural and Muscle Length Changes
    He, J. IEEE Trans. Rehab. Eng. 6 (2) : 182 ~ 189 [1998]
  • Spinal Mechanisms of the Functional Stretch Reflex
    Ghez, C. Exp. Brain. Res. 32 : 55 ~ 68 [1978]
  • Spastic Hypertonia: Mechanisms and Measurement
    Katz, R. T. Arch. Phys. Med. Rehab. 70 : 144 ~ 155 [1989]
  • Relating Reflex Gain Modulation in Posture Control to Underlying Neural Network Properties Using a Neuromuscuolskeletal Model
    Schuurmans, J. J. Comput, Neurosci 30 : 555 ~ 565 [2011]
  • Pendulousness of the Leg as a Diagnostic Test
    Wartenberg, R. Neurology 1 : 18 ~ 24 [1951]
  • Neuromuscular Model for the Stretch Reflex in Passive Movement of Spastic Elbow Joint
    Feng, C. J. Proc. IEEE Eng. Med. Bio. Soc. 20 (5) : 2317 ~ 2320 [1998]
  • Neuromuscular Model for
    Feng, C. J. Proc. Bio. Soc. 20 (5) : 2317 ~ 2320 [1998]
  • Neuro-musculoskeletal Modeling:Estimation of Muscle Forces and Joint Moments and Movements from Measurements of Neural Command
    Buchanan, T. S. J. Appl. Biomech 20 : 367 ~ 395 [2004]
  • Musculoskeletal Model of the Upper Limb Based on the Visible Human Male Dataset
    Garner, B. A. Comp. Meth. Biomech. Biomed. Eng. 4 : 93 ~ 126 [2010]
  • Muscle and Tendon: Properties, Models, Scaling, and Application to Biomechanics and Motor Control
    Zajac, F. E. Critical Reviews in Biomed. Eng 17 (4) : 395 ~ 411 [1989]
  • Moment Arms and Musculotendon Lengths Estimation for a Three-dimensional Lower-limb Model
    Menegaldo, L. L. J. Biomech. 37 : 1447 ~ 1453 [2004]
  • Moment Arms And Lengths Of Human Upper Limb Muscles As Functions Of Joint Angles
    Pigeon, P. J. Biomech 29 (10) : 1365 ~ 1370 [1996]
  • Involuntary Activity in Biceps Following the Sudden Application of Velocity to the Abducted Forearm
    Hammond, P.H. J. Physiol 127 : 23 ~ [1954]
  • Inertia and Muscle Contraction Parameters for Musculoskeletal Modelling of The Shoulder Mechanism
    Veeger, H. E. J. J. Biomech. 24 (7) : 615 ~ 629 [1991]
  • Decoupling of Stretch Reflex and Background Muscle Activity During Anticipatory Postural Adjustments in Humans
    Vedula, S. Exp. Brain. Res 205 : 205 ~ 213 [2010]
  • Artificial Muscle Technology: Physical Principles and Naval Prospects
    Madden, J.D.W. IEEE J. Oceanic Eng 29 (3) : 706 ~ 728 [2004]
  • Age-related Changes of the Stretch Reflex Excitability in Human Ankle Muscles
    Obata, H. J. Electromyogr. Kines. 20 (1) : 55 ~ 60 [2010]
  • Adjustments To Zatsiorsky-Seluyanov's Segment Inertia Parameters
    Leva, P. D. J. Biomech. 29 (9) : 1223 ~ 1230 [1996]
  • A Rigorous Model of Reflex Function Indicates that Position and Force Feedback are Flexibly Tuned to Position and Force Tasks
    Mugge, W. Exp. Brain. Res. 200 : 325 ~ 340 [2010]
  • A Quantitative Analysis of Pendular Motion of the Lower Leg in Spastic Human Subjects
    Lin, D. C. IEEE Trans. Biomed. Eng. 28 (9) : 906 ~ 918 [1991]
  • A Musculoskeletal Model of the Human Lower Extremity: the Effect of Muscle, Tendon and Moment Arm on the Moment-Angle Relationship of Musculotendon actuators at the Hip, Knee and Ankle
    Hoy, M. G. J. Biomech. 23 (2) : 157 ~ 169 [1990]
  • A Dynamic Neuromuscular Model for Describing the Pendulum Test of Spasticity
    He, J. IEEE Trans. Biomed. Eng. 44 : 175 ~ 184 [1997]