Program for measuring the volume of a room
These are a series of programs that measure the length and volume of a room. They are meant to work with the robot Voli.
- #6pvre1
- 10 May 2019
These are a series of programs that measure the length and volume of a room. They are meant to work with the robot Voli.
This MyBlock is made in substitution for a regular wait-gyro-rate block. It is made with a filter so that big differences in sensor data don't show up as much. It also uses only absolute values of the data so negative or positive angle on the gyro sensor does not matter. The MyBlock ends, when the rate is below a certain value, which is inputed by a parameter.
By default the Gyro sensor is connected on port 2 but if your robot is different, make sure to change the blocks to suit it.
This is a program for the Sebastian crab robot. It makes the robot walk, but also keeps track of where its legs are. It makes those who overrun the others to stop and wait for them.
This program allows Radarford to measure the speed of oncoming cars, and control their speed. The Radarford instructions you can find here.
A robot that can be an ATM or smart lock with color code. The programs pull in and push out the color card and play sounds if the colors are in correct order. When the order is incorrect, you hear an error sound.
The robot takes place in lesson 7 of level 3.0 Security Systems.
This program lets the robot Safe be opened with a password, and demonstrates how passwords can be stolen.
This is the second program for the Watchtower Security Bot. These programs are meant to build on the security features the robot offers, and to return it to its starting condition afterbeing used. You can find the first program for this robot here.
A program, that uses the Radarfrod robot to detect the speed of a moving vehicle. It has the following MyBlocks:
NOTE: The program contains my blocks, that will appear broken if you use any version before 1.3.0 of the EV3 Mindstorms Software
A program for the Comet robot.
It uses an Infrared sensor and the Infrared remote control. The program uses the following MyBlocks:
NOTE: The program contains my blocks, that will appear broken if you use any version before 1.3.0 of the EV3 Mindstorms Software
This program is for Cardiidae - a LEGO Mindstorms EV3 Clam robot. It provides a solution for the final tasks in Lesson 1, level D1. It makes the clam robot detect when it is being opened and then to close itself.
The program consists of My-Block which reads the current power from motor A and transmits it to motor D.
A program for one of the scariest robots ever - Mantissa.
A collection of MyBlocks, that help you use the Turtle robot. The MyBlocks used are the following:
FollowCourse: Makes the turtle rotate, until it reaches the course it uses. If it's already on it, this MyBlock makes the turtle go forward. It uses the power you set it on.
PickNewCourse: Makes the turtle pick a new course.
HideInShell: Makes the turtle hide in its shell for the designated amount of seconds.
CurrentAndDesiredCourse: Displays the Current course and the course it wants on the display of the robot.
Careful: Gyro Sensor port in this program is port 3. Check your cables when you run this program.
NOTE: The program contains my blocks, that will appear broken if you use any version before 1.3.0 of the EV3 Mindstorms Software
A program, that makes the Turtle follow a designated course and get back to it, even if it's been manually rotated. It also hides in its shell when it sees anything close to it.
Careful: Gyro Sensor port in this program is port 3. Check your cables when you run this program.
NOTE: The program contains my blocks, that will appear broken if you use version before 1.3.0 of the EV3 Mindstorms Software
A program, that detects vibrations on the surface the robot stands. The program is designed for this SecurityPlate robot.
The robot is available at /materials/662-ev3-finger-bot
The solution of every task in the first lesson of the 3.0 module
The program is designed for this robot.
The last tasks require a second construction with a touch sensor.