Post on 19-Apr-2020
Lecture 2: Terrestrial Locomotion I Simple Analyses of Ballistic Movement. 1. Recap: Jumping...2. Current approaches for analyzing terrestrial
locomotion.3. Gaits and patterns of limb motion4. Ballistic walking and the inverted pendulum
Comfort level with physics: 3.32 + 0.84
Comfort level with calculus: 2.80 + 1.12
α = 55y
x
|uo| = 3.4 m/s
m= 3 10-3 kg
uo= [uo cos α, uo sin α]
After take-off forces sum to zero
No air resistance
Survey question: the moon has 1/6 earth g. Because of that lower gravitational acceleration
(a)You would walk faster on the moon(b)You would walk slower on the moon(c)There would be no difference in your walking
speed
1. Recap: Jumping...2. Current approaches for analyzing
terrestrial locomotion.3. Gaits and patterns of limb motion4. Ballistic walking and the inverted
pendulum
Log
Cost
of T
rans
port
Log Body Mass (kg)-5 -4 -3 -2 -1 0 1 2 3 4 5 6
2.0
1.0
0
-1.0
-2.0
antmouse
lizardrabbit
dogchetah
humanelephant
fly beebat
pigeonfish
shark dolphin
human
Cost (P/WV; E/Wd) of transport declines with body sizeBIG DOG
ASIMO
Muscle forces are manifest as ground reaction forces and energy (PE,KE) exchanges of the body
Is KE red or blue?KE = mv2/2PE = mgh
Movement Biomechanics
stride length
time (s) -> 0 0.5 1.0
1. Recap: Jumping...2. Current approaches for analyzing terrestrial locomotion.3. Gaits and patterns of limb motion4. Ballistic walking and the inverted pendulum
GAITS•stride length: distance between footfalls of the same foot
•stride frequency: number of footfalls per time•duty factor: fraction of stride time that a foot is on the ground (human walking = 0.5 - 0.6, running = 0.35). Gaits with duty factors less than 0.5 imply airborne phases.
• relative phase: time a foot is set down as a fraction of the stride time.
V
Ballistic Walking: The Inverted Pendulum
V
Ballistic Walking: The Inverted Pendulum
stride length
V
Ballistic Walking: The Inverted Pendulum
Ballistic Walking: The Inverted Pendulum
Ballistic Walking: The Inverted PendulumSurvey question: the moon has 1/6 earth g. Would you be
able to walk faster on the moon?
Modifiers of the radius of curvature Lumbar flexionPelvic rotationPelvic tilt
Lumbar flexionPelvic rotationPelvic tiltPlantar flexion
http://www.biomotionlab.ca/Demos/BMLwalker.html
How fast did T. rex run?
10
5
2
1 0.1 0.5 1 2 5 10 20Rela
tive
Strid
e Le
ngth
S/L
S
LFr = V2/ g L