step length

There is a high correlation between step length and height of a person.

These characteristics are displaced from each other by the step length, as shown in Fig. 6.5.

However, several non-pathological causes for alternating step length are possible.

The step lengths, however, have to be double the distance to the fold singularities.

For example, take a random walk until it hits a circle of radius r times the step length.

This forced him to increase his step length, to raise his leading leg in order to get out of the hole he had created.

The motor illustrated in Fig.1.6 has eighteen rotor teeth and a step length of 5 degrees.

A step length is said to satisfy the Wolfe conditions if the following two inequalities hold:

The Wolfe conditions, however, can result in a value for the step length that is not close to a minimizer of .

The step length can be simply expressed in terms of the numbers of phases and rotor teeth.

For the multi-stack variable-reluctance stepping motor typical step lengths are in the range 2-15 degrees.

For a hybrid stepping motor with p rotor teeth the step length is given by Eqn.

The step length from the fourth iteration on demonstrates the superlinear speed of convergence.

This simplified approach to starting rate can be applied to motors with any step length, excitation scheme and load.

The step length is reduced and the stance phase duration is also reduced.

This condition, when used appropriately as part of a backtracking linesearch, is enough to generate an acceptable step length.

Hybrid motors have a small step length (typically 1.8 degrees), which can be a great advantage when high resolution angular positioning is required.

This is your step length.

Firstly, typical step lengths (15 degrees) are longer than in the hybrid type so less steps are required to move a given distance.

A stepping motor has a step length of 15 degrees and the pull-out torque/speed characteristic shown in Fig. 6.8.

People walking with each foot on a different treadmill belt can adapt their step length when one belt begins moving faster than the other.

This posture is typically associated with trotting gaits, and the body flexes from side-to-side during movement to increase step length.

Ground-contact time would be shorter than on concrete, they reckoned, yet step length would be increased, and with it, speed.

A three-phase variable-reluctance motor has a step length of 15 degrees and has one phase excited by the rated current.

If you have the type of pedometer that converts the number of steps into distance, you will have to set your step length.