User guide (git)

This documentation tries to follow the developement version of Py4bot. It may or may not be up-to-date.

For installation instructions, see here.

Usage overview

As Py4bot is a framework, you will find here a description of the main things you need to understand to write your own applications.

Together with this page, have a look at the complete API.

Architecture

The main parts of the framwork are:

• the robot itself;
• the gait sequencer;
• some remote controllers.

Geometry definition

There are several coordinates systems involved when computing maths in order to make a robot walk; it is important to understand how they are defined. All these systems are cartesian.

In the image below, X axis is in cyan, Y axis is in magenta, and Z axis is in yellow:

Robot coordinates system

This coordinates system is attached to the robot itself:

• the origin is at the center of the robot, in the ground plane
• X and Y axes are in the ground plane
• Y axis is the back-to-front axis of the robot
• Z axis points up

Body coordinates system

This coordinates system is attached to the body. It is defined from the body coordinates system:

• the origin is at the center of the body
• X and Y axes define a plane parallel to the body
• Y axis is the back-to-front axis of the body
• Z define the top side of the body

This system is used to define the position of the body in the robot coordinates system, allowing it to move along the 6 DoF (3 translations, 3 rotations).

Legs coordinates systems

These coordinates systems are attached to the legs, so each leg has its own coordinates system. They are defined from the body coordinates system:

• the origin is at the coxa joint
• X and Y axes define a plane parallele to the body
• X axis is along the coxa of the leg
• Z points up

To summurize, from the body coordinate system, the legs coordinates systems are translated by (x, y) and rotated by gamma0 arround Z:

Todo: improve drawing

Gait coordinates system

Or feet coordinates system?

There is the last coordinates system, which is used by the gaits, to make to robot walk. They are defined from the robot coordinates system:

• the origins are at the center of the feet, in the ground plane
• X and Y axes are in the ground plane
• Y axis is the back-to-front axis of the robot
• Z axis points up

To summurize, from the robot coordinate system, the gaits coordinates systems are translated by (x, y).

Inverse Kinematic

The Inverse kinematic is the the kinematic equations of a robot to determine the joints parameters that provide a desired position of leg (foot).

Here are the angles involved.

3 DoF legs

• gamma: angle of the leg in the the body X/Y plane (angle between body X axis and leg X axis)
• alpha: angle of the femur in the leg X/Z plane (angle between coxa and femur)
• beta: angle of the tibia in the leg X/Z plan (angle between femur and tibia)

4 DoF leg

• tars: angle of the tars in the leg X/Z plan (angle between tibia and tars)

Robot

Drivers

Servos calibration

You can use the py4bot-gui-servocal.py to fine tune your servos calibration, and generate the SERVOS_CALIBRATION dict.

If you launch this tool in the dir. containing your settings.py config file with a previous SERVOS_CALIBRATION dict., it will be used as default values.

Gaits

Controllers

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