CLASSIFICATION OF EQUIPMENT AND EDUCATIONAL KITS FOR SCHOOLS

The educational kits shown on photos and in the list below could be produced using the simplest and safest methods for in-class use. The primary manufacturing technique will be CNC milling of plastic (4 – 5 mm thick foam PVC, in various colors). Some components may also be created using vacuum forming. These kits can be fabricated directly at educational institutions if needed, making production technology a part of the educational process.

This project is envisioned as an open educational initiative. It aims to incorporate artificial intelligence not only as a subject of study (exploring AI systems, their components, and applications) but also as a tool to enhance the learning process. AI will be used to assist educators and facilitate student engagement, making the delivery of educational material more effective and interactive. Course will be optimized for individual use, on-line use and in class use.

The full list of equipment included in this project is detailed below. It covers a wide range of tools, kits, and laboratories tailored for different age groups and designed to foster skills in STEM, robotics, programming, and beyond.

Primary School (Ages 6-10)

1. Learning tools for basic concepts:

• Clock
• Scales (2 types)
• Tellurium
• Abacus
• Calendar
• Thermometer
• Speedometer
• Barometer
• and more

2. Developmental and play kits:

• Labyrinth
• Logic Mouse

3. Construction kits:

• Mechanisms
• Levers
• Constructions (bridges)

4. Mini-laboratories and demonstration kits:

The kits listed below include various types of sensors to collect information about biosignals, physical quantities, electricity and magnetism, sound and optical waves, water pH, air quality, gas composition. The kits are based on the Arduino board and accessories such as a signal processor and various types of sensors, actuators, indicators to achieve the level of complex laboratory equipment.

• Mini-laboratory “Biology”
• Mini-laboratory “Water and Air”
• Mini-laboratory “Sound”
• Mini-laboratory “Magnetism”
• Mini-laboratory “Mechanics”
• Mini-laboratory “Optics”
• Mini-laboratory “Heat”
• Mini-laboratory “Electricity”
• Demonstration kit “Fundamentals of primary school sciences”
• Kit for Young Physicists
• Kit for Young Biologists

5. Digital equipment:

• USB digital microscope
• Digital laboratory with sensors:
  • Gas composition sensors
  • Light and sound sensors
  • Magnetic field sensor
  • Motion sensor
  • pH sensors
  • Humidity, temperature, etc.

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Middle School (Ages 11-14) High School (Ages 15-18)

1. Robotics and programming:

• Arduino-based kits:
  • Mobile platform (Arduino)
  • Balancing robot (Arduino)
  • IIoT
  • Smart house
  • Smart manufacture
  • Smart warehouse
  • Robotic arm + AI-based computer vision
  • Green house
  • Biomedicine & neurotechnology kit
  • Modeling worm neural system on Arduino
  • “AI-based computer vision” kit
  • Programmable electronic blocks
  • Educational Kit with scientific sensors
  • Alternative energy
  • Robotics kit with programming environment (blocks)
• Raspberry Pi-based kits:
  • Raspberry Pi and Internet of Things kit
  • Kit for studying Neurotechnologies
  • Robotics kit for AI and computer vision
  • Kit for studying alternative energy
• Specific solutions:
  • Competition preparation kit
  • Humanoid robot
  • Programmable drone
  • Kit for studying PID controllers

2. Laboratories:

• STEM laboratory:
  • 3D Printer
  • CNC machine
  • Laser engraving machine
  • Hand tool kit (drills, sanders, etc.)
• Electronics laboratory:
  • Boards for assembling electrical circuits
  • Kits for biomedical electronics
  • Conveyor for studying branching algorithms
• Robotics laboratory:
  • Robotic Arm
  • Smart Home
  • Greenhouse
  • Kit for warehouse processes modeling
  • Kit for modeling industrial processes

3. Demonstration systems:

• Kit for studying alternative energy sources
• Virtual and augmented reality Goggles

4. Specialized sensors:

Environmental sensors:

• Temperature sensors
• Humidity sensors
• Soil moisture sensors
• Light sensors
• Water level sensors
• Air quality sensors
• Gas sensors
• pH sensors

Soil nutrient and gas sensors:

• Soil NPK (Nitrogen, Phosphorus, Potassium) sensors
• Dissolved Oxygen (DO) sensors
• Ammonia (NH₃) sensors

Biometric and biomedical sensors:

• Fingerprint readers
• Pulse sensors
• Galvanic Skin Response sensors
• Electromyography (EMG) sensors
• Electroencephalography (EEG) sensors
• Electrocardiography (ECG) sensors
• Electrooculography (EOG) sensors

Motion and position sensors:

• Passive Infrared (PIR) sensors
• Accelerometers
• Gyroscopes
• Ultrasonic sensors
• Infrared proximity sensors

Advanced imaging and proximity sensors:

• Millimeter-Wave (mmWave) Radar Sensors

Multi-parameter soil sensors:

• 7-in-1 Soil Sensors

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Directions for Educational Kits and Courses

STEM and basic sciences:

• Basic experiments in STEM (mathematics, engineering, physics, chemistry, biology).
• Use of digital laboratories.

Robotics and programming:

• Modules based on Arduino, Raspberry Pi.
• Practical courses: algorithms, neural networks, IoT.

Construction and design:

• Working with 3D printers, CNC machines.
• Creating models, robots, mechanisms.

Neurotechnologies and biotechnology:

• Kits for studying physiology, psychology, neurotechnology and mental health.
• Introduction of laboratory research.

Cybersecurity and networks:

• Courses on cryptography and information protection.
• Modules on blockchain technologies.

For cooperation and details:

info@botshare.ai

Botshare book: Open Robotics AI & Deep Tech Education

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