How does a Robot talk? | I'm not a Robot

Introduction

What is this about?

Language is a prerequisite for successful communication, i.e. communication between humans or between humans and animals, but also between humans and machines. Toolbox 7 is about discovering the specific communication features of robots and artificial intelligence together. The educational professionals support the children in developing an understanding of language as a system.

The main idea is to model the educational situation in such a way that children can use the elementary symbols (colours, signs, etc.) to learn to develop a robot or programming language themselves.

Children‘s point of view

How do robots talk?

How do robots learn to speak?

Questions from children

Does a robot understand language as we do?

Who determines how the robot talks?

What we know

Among human languages, an essential division is that between spoken language, sign language and written language.

In the animal kingdom, sign systems and communicative behaviors exist via acoustic, chemical or visual signals.

Wolve is howling
Wolves howl both at territorial boundaries and at central places within the territory.

Ants on its way
Ants can smell where it is going.

Bees in a beehive
The dance of the bees serves to guide conspecifics to food.

Robots and AI-controlled devices „express themselves“ through sounds. A long-lasting beep sounds from the refrigerator if the door is left open for too long. A text appears on the operating display of the washing machine when the lint filter needs to be cleaned. The floor hoover‘s light-emitting diodes flash in a specific sequence when it needs to return to the charging station.

Internet-based, AI-controlled voice assistants (Echo, Siri, Alexa, etc.) speak grammatically correct complete sentences, quote film dialogue and give quick-witted answers to seemingly everyday questions: „Alexa, can you drive a car?” „I always turn the music down when I‘m reversing into a parking space. Otherwise I can‘t see anything - you know that, right?“

Sources

¹Pexels.com | Jason Renfrow Photography
²Unsplash.com | MD_Jerry
³Pexels.com | Pixabay

Goals

Pedagogical professionals

Variety of forms of communication duet to AI
Check and modify if required

Changing communication strategies
Expand your knowledge and apply it in new linguistic situations

Children

Experience human-robot communication
To experience the possibilities, characteristics and challenges of communicating with a robot

Design and develop a robot language
Use different ways and means to create and test robotic language

Exercises

#7 Experimental approach Part 1

Materials

Colored cards
Scissors
Printer
Plasticine

Implementation

We choose five colours and give them meanings, e.g.:

red – I am angry
green – I like something
yellow – I agree
blue – I don‘t like
white – don‘t know

Images with emotions

After determining the meaning, colour cards are made by the children themselves.

Reflection

Can you answer all the questions? Why?
Which questions can you not answer and why?
What else do you need to create your own language or robotic language?

#7 Experimental approach Part 2

Materials

Colored cards
Scissors
Printer

Implementation

Now the children think about questions. For example, one child takes the role of a robot and the other takes the role of a journalist who interviews the robot. The robot answers the questions in a conventional language

Variation

The language can be improved by introducing more colours, integrating Morse elements, and introducing different contextual situations (robot talks to a human, robot talks to an animal, robot talks to a robot etc.).

Reflection

Discuss how people communicate with the robot and how the robots respond, (the children will already have a basic understanding of the logic of creating and talking to the robot).

About this Toolbox

The project „I‘m not a robot: working with artificial intelligence in early childhood education“ is co-funded by the Erasmus+ programme of the European Union.

Toolbox #07 was created in 2022 by Ieva Pažusienė, Birutė Vitytė, Renata Bernotienė .

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