Robot control software: Difference between revisions
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From here we were able to make the robots go to any given position. However, an inaccuracy of approximately 5 degrees was found in the turning of the robots, due to slipping and the inaccuracy of the rotation sensors in the actuators themselves. This lead to the fact that when the robot was following a route, the inaccuracy of keeping track of its location, increased after every turn the robot made. | From here we were able to make the robots go to any given position. However, an inaccuracy of approximately 5 degrees was found in the turning of the robots, due to slipping and the inaccuracy of the rotation sensors in the actuators themselves. This lead to the fact that when the robot was following a route, the inaccuracy of keeping track of its location, increased after every turn the robot made. | ||
The way the convertion of steps to distance and degrees is programmed, is shown below: | |||
'''Hier het script dat de tachocount omzet naar degrees en afstand''' | |||
Back to: [[PRE2015 2 Groep1]] | Back to: [[PRE2015 2 Groep1]] |
Revision as of 16:42, 17 January 2016
Place Robot Control Software Pseudo-code and src-code here.
localisation
The localisation of the robots is a very important part of the project. With localisation, the robot is able to keep track of its own position and direction. This is of high importance when a robot encounters a heavy object, because now it can find out which robot is the nearest to him and ask this specific robot for help. Besides the localisation, also a bluetooth-communication script is necessary to accomplish this. The way this communication is drafted and scripted is written in Bluetooth Communication.
Programming the Localisation
To begin, first the following information should be a given for the robot:
- Its beginposition (x- and y-coordinate)
- Its begindirection (angle of its direction with respect to the x-axis)
From this point on the rotation sensor inside of the actuators used for the NXT Robots are used to keep track of the robot's position. When the wheels of the robot are rotating, the robot is either going forward, going backwards or turning. This has to be taken into account when converting the steps of the motor to either angle or distance.
When the robot is going forward, the rotation sensor counts the steps that the actuator makes. These steps are then converted to a distance in the java script. To calculate this convergence factor, the robot was programmed to drive forward and continuously print the steps of the actuators on its display until the pressure sensors gave a value above zero. Next, the robot was placed at an exact distance of 1 meter from a heavy object. After hitting the heavy object the values of step was read and the convergence was calculated by dividing 100 by the amount of steps. This gave us the amount of steps per centimeter. This was done 3 times and the average value was exactly 35 steps. So in conclusion, from here the robots were able to drive a given straight distance with an inaccuracy of approximately 1 cm.
This same principle was used to establish the amount of steps per degree of turning. We entered an amount of steps (positive for one actuator, negative for the other) so the robot would start turning. This was done until the amount of steps for turning 360 degrees was known. After this the convergence factor from steps to degrees turned out to be 5/31.
From here we were able to make the robots go to any given position. However, an inaccuracy of approximately 5 degrees was found in the turning of the robots, due to slipping and the inaccuracy of the rotation sensors in the actuators themselves. This lead to the fact that when the robot was following a route, the inaccuracy of keeping track of its location, increased after every turn the robot made.
The way the convertion of steps to distance and degrees is programmed, is shown below:
Hier het script dat de tachocount omzet naar degrees en afstand
Back to: PRE2015 2 Groep1