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1 which reduces femur retraction and decreases step length.
2 gait freezing but not background deficits in step length.
3 reflected in a more variable step width than step length.
4 p width was less than the variability of the step length.
5 , which can impose a left-right asymmetry in step lengths.
6 uantized steps" with great variations in the step lengths.
7 dom walk with a heavy-tailed distribution of step lengths.
8 h efficiency: 1) a lognormal distribution of step lengths, 2) motion that is directionally persistent
9 nsion (86 vs 122 Newton meters), and maximal step length (22 vs 27 in.
10 lity of inverse square distributions of move step-lengths across a much broader range of resource den
11                                              Step length analysis shows that the molecular junction i
12 nts who experience gait freezing had reduced step length and increased step length variability compar
13 es of the steps, resulting in an increase in step length and stance duration and a decrease in swing
14 elerometers recorded gait and walking speed, step length and step frequency were determined from raw
15 d to measure the dependence of step speed on step length and the dependence of critical step length o
16                         Here we measured the step length and width variability to determine if waddli
17 e novel features pertaining to paw sequence, step lengths and exploratory touches were accessible thr
18 nd (3) Traveling mode, characterized by long step lengths and turning angles around 0(o).
19 ed: (1) Resting mode, characterized by short step lengths and turning angles around 180(o); (2) Moder
20 e two discrete movement modes with different step lengths and turning angles in a hypothetical ungula
21 rmediate) mode characterized by intermediate step lengths and variable turning angles, and (3) Travel
22 ignificantly increased step width, decreased step length, and elicited larger trunk sway compared to
23  to cued gait and were observed in dual-task step length, and walking speed however was more limited
24 This looping search pattern, in which flight step lengths are typically power-law distributed, provid
25 metry, which is the normalized difference in step length between the legs.
26 ng ramp releases at close to Vmax and during step length changes (completed within 250 microseconds),
27 l, chooses a particular step frequency f and step length d=v/f.
28 ection of step duration and the selection of step length during such transient control events were pe
29 al stance time (static balance), and maximal step length (dynamic balance/coordination).
30  in balance, postural blood pressure change, step length, lower extremity strength/range of motion, a
31 o characterize autocorrelative properties of step-length movements collated every 3 h for seven free-
32           Levy flights are random walks, the step lengths of which come from probability distribution
33 n step length and the dependence of critical step length on supersaturation in precisely controlled s
34 poral gait parameters such as step duration, step length or step speed.
35 n postural blood pressure change (p = 0.01), step length (p = 0.004), use of > or = 4 medications (p
36 f these models are stable in different speed-step length regimes that overlap with those used by huma
37 equency-related spatial analysis of movement-step lengths reveal that rest cycles related to the spat
38                            Walking speed and step length significantly increased with all cues after
39 cult to make generalizations about speed and step length, such difficulties are not present with simp
40  contrasted with the prolonged adaptation in step length symmetry ( approximately 128 strides) as wel
41 r the same time scale as the improvements in step length symmetry, and the magnitude of these improve
42              Adaptation was characterized by step length symmetry, which is the normalized difference
43 yperbolic law v = L/T, where L is a constant step length that remains unchanged in mutants with adhes
44 he link between lateral tail undulations and step length through the rotation of the pelvic girdle an
45 rnal and seasonal based periodicities in the step-length time series.
46 eezing had reduced step length and increased step length variability compared to patients without gai
47 l participants initially walked with unequal step lengths when the belts moved at different speeds, b
48  FoG episodes and a substantial reduction in step length with frequent trembling of the legs during F

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