Contact Dynamics Modelling for Robots

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Introduction Impulse-momentum contact Point contact Friction forces Contact in robot dynamics modelling Conclusions Damping coefficient Hunt-Crossley contact If we reintroduce the concept of a coefficient of restitution, where e ≈ 1 − αv 1 , it can be shown that: λ ≈ 3 2 αk Mike Boos Contact Dynamics Modelling for Robots
Introduction Impulse-momentum contact Point contact Friction forces Contact in robot dynamics modelling Conclusions Hunt-Crossley contact Hunt-Crossley contact N = kδ 3/2 + (λδ 2/3 ) ˙δ where k = 4 3π(h m,1 + h m,2 ) ( R 1R 2 R 1 + R 2 ) 1/2 λ ≈ 3 2 αk Ri δ Rj e ≈ 1 − αv 1 Mike Boos Contact Dynamics Modelling for Robots
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Page 3 and 4: Outline Introduction Impulse-moment
Page 15 and 16: Hertz theory Introduction Impulse-m
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Contact Dynamics Modelling for Robots

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