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Research on Animals and Vehicles
Chapter 8 of RaibertBy Rick Cory
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Animal Locomotionl Design experiments to probe mechanisms of
biological systemsl Each experiment arises in the course of
studying legged machinesl Allow research of biological systems to
stimulate developments in robotics
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Experiments in Animal Locomotion
l Algorithms for Balancel Symmetry in Balancel Algorithms for Foot Placementl Distribution of Body Massl Yaw Controll Conserving Angular Momentuml Virtual Legs
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BalanceRaibert’s Method:
¸ Uses linear feedback servo to calculate foot placement
¸ Respect to body’s center of mass¸ Based on symmetric tipping behavior of inverted pendulum
Animals Experiments:¸ Changes in forward running speed¸ Angular momentum during flight phase¸ Actual foot placement
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Symmetry in BalanceRaibert’s Method:
¸ Motion of the body and feet are even and oddfunctions of time
¸ Independent of the number of legs¸ Provides Sufficient but not necessary conditions
Further Questions:¸ How universal is symmetrical balance in humans
and animals?¸ What is the precision of the symmetry?¸ Does is extend to angular body motion?¸ How do asymmetries in the body structure
influence the symmetry in observed motion
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Foot Placementl Critical In Traversing
Irregular Terrainsl Subject must choose
footholds with respect tovariations and obstacles
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Other Foot Placement Strategiesl Leg Stiffnessl Hopping Heightl Forward Speed
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Body Mass DistributionNormalized moment of inertia: j = J/(md2)
J – Body moment of Inertiam – mass of the bodyd – half the hip spacing
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Normalized Moment of Inertial j > 1
- An upward force on the left leg causes the right hip toaccelerate upward
l j = 1- System acts as two separate oscillators with neutral stability
l j < 1- An upward force on the left leg causes the right hip to
accelerate downward
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Yaw Controll Yaw Control
-Difficult for one legged machines (no foot to exerttorsional torque on the ground)
-Humans, in principle, develop torsional traction onthe ground about the yaw axis
-Experiments to measure torsional torque duringrunning and relate the results to yaw motions
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Conservation of Angular Momentum
l A legged system must conserve its angularmomentum during flight phase
l Conserving angular momentum in stancephase-Not required because legs exert forces on ground-However, keeping angular momentum constant
can achieve higher efficiency-How precisely is angular momentum preserved?
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Virtual LegsRaibert’s Method:
¸ Divide quadruped running problem into twosimpler problems
¸ Algorithms to control virtual Legs¸ Control physical legs to achieve desired virtual leg
behavior
Animal Experiments:¸ Make measurements on the ground force during
trotting and pacing¸ Disturb one or both feet and measure force
response
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Developing Useful Legged Robots
l Variety of Difficult Problems to be solved inorder to develop USEFUL legged machines-Walk and Run on Flat Floor [1]
; Essentially solved given desired direction and speed-Travel on Rough Terrain [3]-Speed and Position Measurement [2]-Terrain Sensing and Perception [4]-Self-Contained Power [3]-Optimize Payload, Range, and Speed [1]
; Optimization problem for mechanical engineering
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Travel on Rough Terrainl Control and planning algorithms must be
solved to negotiate difficult terrainl Several ways terrain becomes rough
-Not Level-Limited traction (slippery)-Areas of poor or nonexistent support (holes)-Vertical variation in available footholds (steps)-Obstacles- Intricate footholds (ladder)
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Speed and Position Management
l Provide a mobile system with information about-Where it is-Direction of Motion-Speed of Motion
l Band width needed for legged systems is large!-Fine grain information needed
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Terrain Sensing and Perceptionl Single most important barrier to achieving
useful legged systemsl Problems involve
-Sensing-Perception-Spatial Representation
l Difficulty is related to generality of situations
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Self Contained Powerl Real legged systems need to provide their
own powerl Not a problem for carrying power for large
scale systemsl Smaller scale (human size) is a difficult
engineering problem
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Conclusionl Combine work in the study of animals and the
construction of machinesl Biological systems provide motivation but are
extremely complicated to studyl Laboratory Robots are easily built and studied
but have poor performance as compared tobiological systems
l Robotics contributes to robotics and biologyBiology contributes to biology and robotics