NAO Software 1.12 documentation

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Joint control

Overview | API | Tutorial

See also

• NAOqi Motion

---

What it does

These API are dedicated to control directly the position of NAO joints.

Each joint can be controlled individually, or in parallel with other joints.

There are two ways of controlling a joint or a group of joints:

• animation methods (time fixed, blocking function)

  • ALMotionProxy::angleInterpolation
  • ALMotionProxy::angleInterpolationWithSpeed

• reactive methods (could be changed every ALMotion cycle, non blocking function)

  • ALMotionProxy::setAngles
  • ALMotionProxy::changeAngles

How it works

These API just create a higher level of the DCM actuator control and provide interpolation to have more smooth behavior.

Getting started

“Body”, chains and joint names

Joints can be controled:

• individually, using a joint name, or
• in parallel, using a chain of joints or a group of joints like “Body”.

The table below lists the chains and all the joints included in each chain:

Body is ...	Head + LArm + LLeg + RLeg + RArm
The chain ...	Head	LArm	LLeg	RLeg	RArm
involves the joints ...	HeadYaw	LShoulderPitch	LHipYawPitch1	RHipYawPitch1	RShoulderPitch
	HeadPitch	LShoulderRoll	LHipRoll	RHipRoll	RShoulderRoll
		LElbowYaw	LHipPitch	RHipPitch	RElbowYaw
		LElbowRoll	LKneePitch	RKneePitch	RElbowRoll
		LWristYaw2	LAnklePitch	RAnklePitch	RWristYaw2
		LHand2	RAnkleRoll	LAnkleRoll	RHand2

Note

¹ LHipYawPitch and RHipYawPitch share the same motor so they move simultaneously and symmetrically. In case of conflicting orders, LHipYawPitch always takes the priority.

² These joints do not exist in the NAO Body type “H21”.

The group “Body” adresses all the joints of the robot (the number of joints depends on your NAO Body type). It is possible to get the list of joints available on your robot using the ALMotionProxy::getJointNames method, described in the section: Case 2: Programmatic access to Joint Names.

Joint range and direction

Depends of your NAO Version, you could access to the joint range and direction by following the link below:

NAO V3.2

• Head joints
• Left Arm joints, Right Arm joints
• Pelvis joints
• Left Leg joints, Right Leg joints

NAO V3.3

• Head joints
• Left Arm joints, Right Arm joints
• Pelvis joints
• Left Leg joints, Right Leg joints

NAO V4

• Head joints
• Left Arm joints, Right Arm joints
• Pelvis joints
• Left Leg joints, Right Leg joints

Use Cases

Case 1: Controlling Joints

To control a joint, you need to specify the name of the joint, the target angle in radians, and how fast you want to go to the target angle.

almotion_controllingjoints.py

import sys
from naoqi import ALProxy

if (len(sys.argv) < 2):
    print "Usage: 'python motion_setangles.py IP [PORT]'"
    sys.exit(1)

IP = sys.argv[1]
PORT = 9559
if (len(sys.argv) > 2):
    PORT = sys.argv[2]
try:
    proxy = ALProxy("ALMotion", IP, PORT)
except Exception,e:
    print "Could not create proxy to ALMotion"
    print "Error was: ",e
    sys.exit(1)
    
proxy.setStiffnesses("Head", 0.1)

# Simple command for the HeadYaw joint at 10% max speed
names            = "HeadYaw"
angles           = 0.2
fractionMaxSpeed = 0.1
proxy.setAngles(names,angles,fractionMaxSpeed)

Case 2: Timed Interpolations

When you know in advance the trajectory that you want to follow, the ALMotionProxy::angleInterpolation and ALMotionProxy::angleInterpolationWithSpeed methods can be used to set up an interpolation.

# Example showing a joint trajectory with a single destination
names = "HeadYaw"
angleLists = 1.0
times = 1.0
isAbsolute = True
proxy.angleInterpolation(names, angleLists, times, isAbsolute)

You can command multiple joints in one command, by using a single time, and a number of target angles equal to the number of joints

# Example showing a command for the two joints in the 'Head' alias
# 'Head' is expanded to ['HeadYaw','HeadPitch']
names = "Head"
angleLists = [-1.0,-1.0]
times = 1.0
isAbsolute = True
proxy.angleInterpolation(names, angleLists, times, isAbsolute)

The same command can take a list of angles with corresponding times

# Shake the head from side to side
names = "HeadYaw"
angleLists = [1.0, -1.0, 1.0, -1.0, 0.0]
times      = [1.0,  2.0, 3.0,  4.0, 5.0]
isAbsolute = True
proxy.angleInterpolation(names, angleLists, times, isAbsolute)

Similarly, trajectories can be specified for multiple joints

# Two trajectories in one command. Each trajectory must have a
# corresponding number of times
names      = ["HeadYaw", "HeadPitch"]
angleLists = [[1.0, -1.0, 1.0, -1.0], [-1.0]]
times      = [[1.0,  2.0, 3.0,  4.0], [ 5.0]]
isAbsolute = True
proxy.angleInterpolation(names, angleLists, times, isAbsolute)

Case 3: Reactive Control

The commands ALMotionProxy::setAngles and ALMotionProxy::changeAngles, do not block the calling thread. This makes them ideal for being called often in reactive control loops, such as head tracking. You can call them often, with contradictory commands, and motion will ensure that the trajectory is smooth in position and continuous in velocity.

almotion_reactivecontrol.py

import sys
import time
from naoqi import ALProxy

if (len(sys.argv) < 2):
    print "Usage: 'python motion_setangles.py IP [PORT]'"
    sys.exit(1)

IP = sys.argv[1]
PORT = 9559
if (len(sys.argv) > 2):
    PORT = sys.argv[2]
try:
    proxy = ALProxy("ALMotion", IP, PORT)
except Exception,e:
    print "Could not create proxy to ALMotion"
    print "Error was: ",e
    sys.exit(1)

proxy.setStiffnesses("Head", 0.1)

# Example simulating reactive control
names = "HeadYaw"
angles = 0.3
fractionMaxSpeed = 0.1
proxy.setAngles(names,angles,fractionMaxSpeed)
# wait half a second
time.sleep(0.5)
# change target
angles = 0.0
proxy.setAngles(names,angles,fractionMaxSpeed)
# wait half a second
time.sleep(0.5)
# change target
angles = 0.1
proxy.setAngles(names,angles,fractionMaxSpeed)

It is also possible to use time with angleInterpolation to do reactive control.

almotion_angleinterpolationreactif.py

import sys
import time
from naoqi import ALProxy
import almath

if (len(sys.argv) < 2):
    print "Usage: 'python motion_angleinterpolationreactif.py IP [PORT]'"
    sys.exit(1)

IP = sys.argv[1]
PORT = 9559
if (len(sys.argv) > 2):
    PORT = sys.argv[2]
try:
    proxy = ALProxy("ALMotion", IP, PORT)
except Exception,e:
    print "Could not create proxy to ALMotion"
    print "Error was: ",e
    sys.exit(1)
    
proxy.setStiffnesses("Head", 1.0)

# Head Start to zeros
names             = "Head"
targetAngles      = [0.0, 0.0]
maxSpeedFraction  = 0.2 # Using 20% of maximum joint speed 
proxy.angleInterpolationWithSpeed(names, targetAngles, maxSpeedFraction)

# Example showing a reactive control with time function angleInterpolation
# Goal: after 1.0 second, retarget from 40 to 0 degree: smooth transition

# Interpolate the head yaw to 20 degrees in 2.0 seconds
# With post, angleInterpolation become non-blocking
names      = "HeadYaw"
angleLists = 20.0*almath.TO_RAD
timeLists  = 2.0
isAbsolute = True
proxy.post.angleInterpolation(names, angleLists, timeLists, isAbsolute)
time.sleep(0.5)

# Call getTaskList to have the previous angleInterpolation task number
TaskList = proxy.getTaskList()

# Prepare the next target to 50.0 degrees in 1.0 second
angleLists = 50.0*almath.TO_RAD
timeLists  = 1.0
proxy.post.angleInterpolation(names, angleLists, timeLists, isAbsolute)
time.sleep(0.5)

# Kill the first angleInterpolation (go to 40.0 degrees), the second start
# smoothly from the current joint position and velocity (go to 0 degrees)
proxy.killTask(TaskList[0][1])

time.sleep(2.0)
proxy.setStiffnesses("Head", 0.0)

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