Duration: 6-8 hours in one or several sessions
Age group: 7-15
Requirements from prior knowledge: None
Applied technology: custom Arduino-based robotic kits, designed by ESI CEE, programmable using Scratch visual programming language.
Orchestration: teams of 3-5 students work together

Find out more about this workshop

This workshops inspires students to think and dream about using robotics in real life. The students discuss and learn what a robot is and how robots can be used in everyday context through demonstrations and creativity+programming exercises. The activity is specially designed to develop skills as follows:

  1. Creativity: within the workshop students learn and practice how to construct and generate innovative ideas to address real life problems using Tony Buzan mind-mapping techniques.
  2. Digital fluency: Students discuss, learn and use the robotics key elements while generating ideas about the creative use of robotics and building and programming a real robot.
  3. Communication: Students have to clearly communicate their plans and ideas how to construct the body of the robot, to correctly connect the root electronics and to program the robot.
  4. Collaboration: While students in each team are changing their roles during each task, they learn how to work effectively and respectfully with others in order and to build relevantly complex robotics system.

Robotics is intriguing and fun, which is why we believe it makes a wonderful tool to engage students in Science, Technology, Engineering and Mathematics. We know that learning by doing makes children fall in love with creativity and robotics and helps them maintain their in-born curiosity about natural life and technology.

Since the beginning of 2016, more than 500 students participated in the Educational Robotics for Creativity workshops, having rated their experience with an average score of 4.9 out of 5.

The robotic kit design is shared and updated in a public repository in order to be easily accessible to other tutors and contributors. Activity plans for this workshop are available upon request.


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Duration: 6-8 hours in one or several sessions
Age group: 9-11 (4th grade, Bulgarian education system)
Requirements from prior knowledge: Assumed 3d grade knowledge of mathematics (Bulgarian educational system)
Used technology: The Finch robot by Birdbrain Technologies programmable using Scratch visual programming language.
Orchestration: teams of 3-5 students work together

Find out more about this workshop


The goal of this workshop is to introduce and exercise mathematical concepts, which are covered in the national school curriculum for mathematics for the fourth grade in Bulgarian schools, using programming and robotics.

Participants play 5 different games with the robot. Every game builds on the previous one and is broken down into quests, through which they exercise their knowledge on mathematics and adopt new concepts while exercising them. We use programming to boost logical thinking and showcase the practicality of mathematics with cool devices, such as robots. In this workshop, with the aid of Mind Maps and visual programming, children exercise their knowledge of circles, semicircles, radius, diameter, angles and how to measure them, as well as arithmetic functions. With the means of robotics, we have created fun games in which children solve mathematical problems with measuring tools, such as protractor and ruler, Mind Maps and creativity.

In addition, and of equal importance to the subject of mathematics, this workshop is specifically designed to support and encourage the development of the following skills:

  1. Problem solving skills are stimulated by encouraging students to solve different kind of problems in conventional ways, but also to seek innovative ways to find solutions. Children are stimulated to identify and ask significant questions that clarify various points of views and lead to better solutions.
  2. Communication is important for the successful outcome of the games. This includes the ability to articulate thoughts and ideas effectively in a group. Groups consist of student of diverse points of view, knowledge and abilities, which requires a certain ability to communicate complex ideas clearly, effectively and patiently.
  3. Flexibility and adaptability is a skill which is greatly incorporated on many levels. Students have to be flexible in order to incorporate feedback from other team members and tutors effectively, and furthermore to understand, negotiate and balance diverse views and beliefs to reach workable solutions.

We believe that mathematics is fun. And we know how to show you.

Since November of 2016, a little more than 200 students participated in the Visualizing Mathematics with the Mathbot workshops, having rated their experience with an average score of 4.95 out of 5.

Activity plans for this workshop are available upon request.


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We’re happy to work with teachers and researchers (from Bulgaria and beyond) from various subject fields to:

  • transfer expertise and exchange experience in the field;
  • help you identify the right technology to fit in your context;
  • help you to create exercises to achieve the desired learning outcomes and target your objectives;
Find out more about the teacher workshops


We all know that children quickly fall in love with robots. What’s more, this instant attraction to technology, has a very deep impact on children. It’s our firm believe that this is one very productive way, we could foster student’s motivation in the learning process, and furthermore, improve their understanding not only in technology, but also in other subject domains. Our team is very passionate about complimenting formal education through educational robotics activities and we love working with teachers and pedagogues!

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After having worked with teachers, we significantly improved our workshops and we are now full of more ideas we would like to share with you and maybe implement together.

We are also interested in research in the field of educational robotics and emerging technology as well as research in innovative ways for improving teamwork and communication (human-machine interaction). 


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Want to work together? Get in touch with us!