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Figure 4.14 - Variation of stance-COM RV with stance hip pitch .................................... 70
Figure 4.15 - Up vector RV range and hip plots with torso servoing enabled...................... 72
Figure 4.16 - Continuous-time up vector component phase diagram with torso servoing......... 73
Figure 4.17 - Robo-bird base PCG for running ........................................................ 74
Figure 4.18 - A running robo-bird........................................................................ 74
Figure 5.1 - Speed control using composite RV ........................................................ 79
Figure 5.2 - Forward velocity (m/s) versus time for velocity feedback .............................. 80
Figure 5.3 - Steady-state velocity vs Qbiasd
.............................................................. 80
Figure 5.4 - Acceleration and deceleration............................................................... 80
Figure 5.5 - Turning perturbations for human model with ball-and-socket hips.................... 83
Figure 5.6 - Typical operation of a right turn perturbation............................................. 84
Figure 5.7 - Hip plots for the most successful turning perturbation trials ........................... 85
Figure 5.8 - Hip plots for less successful turning perturbation trials................................. 86
Figure 5.9 - Turning perturbation with torso servoing applied........................................ 86
Figure 5.10 - Point-following............................................................................. 88
Figure 5.11 - Path following .............................................................................. 88
Figure 5.12 - Stride rate perturbation for human model with ball-and-socket hips ................. 89
Figure 5.13 - Results of applying different stride rate perturbation scalings ........................ 90
Figure 5.14 - Average speed for varying stride rates................................................... 91
Figure 5.15 - Bent-knee perturbation for a human model.............................................. 92
Figure 5.16 - Bent-knee walking with a parameter scaling of 1.0 .................................... 92
Figure 5.17 - Bent-over walking perturbation........................................................... 92
Figure 5.18 - Bent-over walking.......................................................................... 93
Figure 5.19 - Composite bent-knee, bent-over and bent-neck perturbation ......................... 94
Figure 5.20 - Ducking...................................................................................... 94
Figure A-1 - States of a 1 degree-of-freedom swinging pendulum plotted vs time................109
Figure A-2 - State-space trajectory of a simple swinging pendulum ................................109
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![[CONVERTED BY MYRMIDON]](Imgs/convBy.GIF)