Create Your Own SumoBots Battle

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This page is for the NXT Brick. In order for a SuGObot to be able to play, it needs a program. This nxt battle bot designs must know how to read the line and eye sensors, and drive the motors to perform the game strategy.

This way the robots all use a similar strategy, so it's all up to the mechanical design and game play to produce a winning SuGObot. However, for other competitions, if people are designing their own robots at home and bringing them to a nxt battle bot designs Battle" style competition, there's no reason why the team can't also develop it's own programs.

A SuGO program can be written in many different languages. This file not only contains the main program, but it also contains all the other files needed to run the program eg: Two Styles of SuGObot programs are presented here. The first PV1 style assumes that the robot has two light sensors to detect the black line around the ring. The second C2 style assumes you have one nxt battle bot designs sensor, and one color sensor.

Depending on what type of sensors you have, you should download the corrosponding programs nxt battle bot designs manuals. When you run the program it counts down 5 seconds, then calibrates the line sensors and starts hunting for the opponent. This program is used to check the wiring and sensors on your SuGObot before you get on the playing field. The program puts the SuGObot through some simple movements, and then speaks what it sees from nxt battle bot designs sensors.

The program lets you reverse the motor directions in case your motor configuration causes the robot to move backwards instead of forwards.

Teams should print this out, and have it with them whenever they build, and need to test their SuGObot. These two programs are good illustrations of what we mean by that.

Both programs make strong use of Subroutines or MyBlocks. These appear as blocks with a teal colored band across them. Each MyBlock can be double clicked to show further detail. The idea is that MyBlocks enable the program to be divided into smaler portions that can be tested or modified independantly.

MyBlocks can also be shared nxt battle bot designs programs to make it easier to create new SuGO programs with more sophisticated strategies, based on pre-tested functions. These programs also make extensive use of text files to save SuGO setup information, and variables to share this information between the different MyBlocks. Join us on Facebook!

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EV3 Enterprise Recommended build for our lessons. This robot has a base that only uses 82 pieces. Sensor and motor modules easily snap on to the base robot as the student needs. The robot has optional instructions for adding a gyro and second color sensor. The infrared can also replaced with the ultrasonic if needed.

This robot has been tested and approved by EV3Lessons. The robot has optional instructions for adding a second color sensor. There is also an optional handle that can be added when the robots are used in camps or classrooms. This build is slightly smaller than Droid Bot 2. An optional handle allows for easy carrying in classrooms. It has been designed to allow the builder to easily replace the infrared sensor with the ultrasonic, use a rechargeable battery, and add a gyro sensor if needed.

You will need a second color sensor to do the Squaring lesson. The Cyberbot recommended NXT build for our lessons. This new NXT robot design is compact and very sturdy - ideal for classroom usage. It has been designed for use in our lessons and also works well on our Training Mats. We name it Cyberbot because of its distinctive handle which makes it look like a Cyberman from Dr.

Sanjay and Arvind Seshan, Droids Robotics. They may require parts beyond the retail or educational kits. This is a simple, quick-build design that has been used by classroom teachers around the world. You can easily add attachments and sensors to this build. This is a basic robot using the NXT that is good for classrooms. Since the brick is low to the ground, this design is a very stable build. The design incorporates all the basic sensors needed for classroom activities.

This is great starting robot design that uses the NXT. It features an outer wall as well as two touch sensors. This robot can also line follow. It has a back bumper for aligning straightening the robot by bumping into walls and objects and a third large motor for attachments. There are a few variations on the build available on this site. Brian Wheeler, Hoosier Girlz. This robot is a good starter robot.

The sensors in front act as a bumper. Bayou Bot - EV3 Build. This is a robot that has a strong outer frame with shielded color sensors. It uses two color sensors, an ultrasonic and a gyro. It uses large motorcycle wheels and a ball wheel. This robot has been physically built by the designer. This robot is made with parts in the EV3 home edition only. It has a basic system for attaching motorized and passive attachments.

Optimal Prime - EV3 Build. This is a quick-build robot that uses only 37 pieces including motors, sensors and wires. It features the gyro, touch and color sensors. This is a base robot similar to the one available in the Educational EV3 set , but constructed with parts available in the NXT set.

Driving Bas3 - EV3 Build. This is a base robot similar to the one available in the Educational EV3 set , but constructed with parts available in the retail set. They feature three sets of wheels and two ultrasonic sensors each. To learn more about these robots, read this article. It uses Mindsensor's SumoEyes. It is shared here with his permission. Download the "Custom Remote". In the false-colored picture, the pink tooth gear that is directly connected to the EV3 Large Motor touches the turquoise tooth gear.

This "gearing down" increases its torque three times, for increased pushing power. The center motor operates the yellow "flipper" arms for upending opposing robots in a Lego Sumo or Battlebot competition. Four-Wheel Drive Sumo Bot. EV3Lessons does not take responsibility for the quality of build instructions provided. Please refer to our copyright license information. If you use any materials in a contest with or without modification , you must document and inform judges where the original ideas came from.

To view in lessons in English, switch your language to English above. Not all lessons are here or none at all , because no translations have been provided. Sanjay and Arvind Seshan Droid-Bot 2. This is a software limitation. Use the Photograph-based instructions if you need to. See LDD file if needed. Many of our lessons are compatible with the NXT.

RileyRover - EV3 Build This is a simple, quick-build design that has been used by classroom teachers around the world. Damien Kee Build Instructions. Optimal Prime - EV3 Build This is a quick-build robot that uses only 37 pieces including motors, sensors and wires.

Driving Bas3 - EV3 Build This is a base robot similar to the one available in the Educational EV3 set , but constructed with parts available in the retail set. This section is devoted to Sumo bots. David Luders lxf file. Sam Last lxf file.