Today we will tell you how to make a robot from available materials. The resulting “high-tech android,” although small in size and unlikely to help you with housework, will certainly amuse both children and adults.

Required materials

In order to make a robot with your own hands, you do not need knowledge of nuclear physics. This can be done at home from ordinary materials that you always have on hand. So what we need:
  • 2 pieces of wire
  • 1 motor
  • 1 AA battery
  • 3 push pins
  • 2 pieces of foam board or similar material
  • 2-3 heads of old toothbrushes or a few paper clips

1. Attach the battery to the motor

Using a glue gun, attach a piece of foam cardboard to the motor housing. Then we glue the battery to it.

This step may seem confusing. However, to make a robot, you need to make it move. We put a small oblong piece of foam cardboard on the motor axis and secure it with a glue gun. This design will give the motor an imbalance, which will set the entire robot in motion.

Place a couple of drops of glue on the very end of the destabilizer, or attach some decorative element - this will add individuality to our creation and increase the amplitude of its movements.

3. Legs

Now you need to equip the robot with lower limbs. If you use toothbrush heads for this, glue them to the bottom of the motor. You can use the same foam board as a layer.

The next step is to attach our two pieces of wire to the motor contacts. You can simply screw them on, but it would be even better to solder them, this will make the robot more durable.

5. Battery connection

Using a heat gun, glue the wire to one end of the battery. You can choose any of the two wires and either side of the battery - polarity does not matter in this case. If you're good at soldering, you can also use soldering instead of glue for this step.

6. Eyes

A pair of beads, which we attach with hot glue to one end of the battery, are quite suitable as the robot’s eyes. At this step, you can show your imagination and come up with the appearance of the eyes at your discretion.

7. Launch

Now let's bring our homemade product to life. Take the free end of the wire and attach it to the unoccupied battery terminal using adhesive tape. You shouldn't use hot glue for this step because it will prevent you from turning off the motor if necessary.

How to make a robot at home so that everything works out? You need to start simple and gradually complicate it! Instructions for creating robots with your own hands at home literally flooded the Internet. The author of the article will not remain aloof from this. In general, this process can be divided into three parts: theoretical, preparatory and actual assembly. Within the framework of the article, all of them will be considered, and the general scheme for developing a cleaner will be described.

Creating a robot at home

To develop from scratch, you need knowledge about current, voltage, and the functioning of various elements such as triggers, capacitors, resistors, transistors. You should also learn how to solder all this on circuits and use connecting wires. It is necessary to work out every aspect of movement and execution of actions, achieving maximum detail in actions to achieve your goal. And this knowledge is necessary if you are really interested in how to make a robot at home, and not just idle curiosity.

Preparatory processes

Before you start figuring out how to make a robot at home, you need to take good care of the conditions in which it will be assembled. First you need to prepare a workplace where the desired device will be created. It is necessary to place the structure itself and its constituent parts somewhere. You should also consider the issue of convenient placement of the soldering iron, rosin and solder. The workplace should be as optimized as possible so that it provides convenience when interacting with the structure.

Assembly

It is necessary to think over the “backbone” of the structure on which everything will be built. Usually one part is selected, and all the others are soldered to it. Speaking about the quality of soldering, it should be said that the places where it will be carried out must be cleaned. Also, depending on the thickness of the wires and legs used, it is necessary to select a sufficient amount of solder so that the elements do not fall off during operation. To simplify signal transmission processes and prevent the possibility of a short circuit, it can be etched. Then all the necessary elements are applied to it, the resulting structure is connected to a power source and, if necessary, the device is modified.

Simple robot

How to make something easy at home? And also useful? You need to keep your home clean, and it is advisable to automate this process. Of course, it is difficult to create a full-fledged cleaning robot, but a minimal design that will ensure the collection of dust from the floors of rooms is quite possible. To be honest, we will consider one that works in one place and at the same time removes small debris located in the dislocation zone. To create such a design, you must have the following materials:

  1. Plastic plate.
  2. Three small brushes that are used to clean shoes or floors.
  3. Two fans that can be taken from outdated computers.
  4. 9V battery and connector for it.
  5. A tie or clamps that can snap themselves into place.
  6. Bolts and nuts.

Drill holes for the brushes at equal distances. Attach them. It is desirable that all brushes be placed at an equal distance from the others and the center of the plate. Using bolts and nuts, an adjusting fastener should be attached to each of them, and they themselves are fixed with their help. The adjusting fastener sliders should be set to the middle position. We will use fans for movement. We connect them to the battery and place them in parallel so that they ensure the robot rotates in a circle. This design will be used as a vibration motor. Throw on the terminals and the structure is ready for use. If the robot moves to the side during the cleaning process, work with the adjustment fasteners. The design presented in the article does not require significant financial costs or skills and experience. When creating the robot, inexpensive materials were used, obtaining which is not a significant problem. If you want to complicate the design and make it move purposefully, you will need improvements in the form of additional motors and microcontrollers. Here's how to make a robot at home. Just think how much you can improve here! The widest field for design activities.

One of the very time-consuming and exciting activities is building your own robot.

Everyone, from teenagers to adults, dreams of making either a small and cute or a large and multifunctional robot, as many people have so many different modifications of robotics. Do you want to make a robot?

Before such a serious project, you should first make sure of your capabilities. Building a robot is not the cheapest or easiest thing to do. Think about what kind of robot you want to make, what functions it should perform, perhaps it will be just a decorative robot made from old parts or it will be a fully functional robot with complex, moving mechanisms.

I have met many craftsmen who create decorative robots from old, worn-out mechanisms, such as watches, alarm clocks, televisions, irons, bicycles, computers and even cars. These robots are made simply for beauty; they, as a rule, leave very vivid impressions, especially children like them. Teenagers are generally interested in robots as something mysterious, still unknown.

Parts of decorative robots are attached in various ways: with glue, welding, and screws. In such an activity there are no unnecessary parts; any details are used, from a small spring to the largest bolt. Robots can be small, tabletop, and some craftsmen manage to make decorative robots of human size.

It is much more difficult and no less interesting to make a working robot. The robot doesn’t have to look like a person, it can be a tin can with horns and caterpillars :) here you can use your imagination ad infinitum.

Previously, robots were mostly mechanical, all movements were controlled by complex mechanisms. Today, most crude mechanical components can be replaced with electrical circuits, and the “brain” of a robot can be just one microcircuit into which the necessary data is entered through a computer.

Today, the Lego company produces special kits for constructing robots, while such construction kits are expensive and not available to everyone.

Personally, I’m interested in making a robot with my own hands from scrap materials. The biggest problem encountered during construction is the lack of electrical knowledge. If mechanically you can still do something without problems, then with electrical circuits things are more complicated; it is often necessary to combine several different electrical components, and this is where difficulties begin, but all this can be fixed. When creating a robot, problems may arise with electric motors; good motors are expensive, you have to disassemble old toys, this is not very convenient. Many radio components have also become scarce, more and more equipment is made on complex microcircuits, and this requires serious knowledge. Despite all the difficulties, many of us continue to create amazing robots for a variety of purposes. Robots can do laundry, clean up dust, draw, move objects, make us laugh, or simply decorate our desktop.

I will periodically publish photographs of my new robots on the site, if you are also interested in this topic, then be sure to send your stories with photographs or write about your inventions on the forum.

On the shelves of modern stores for children you can find a wide variety of toys. And every child asks his parents to buy him one or another toy “new thing.” What if family budget planning does not include this? To save money, you can try making a new toy yourself. For example, how to make a robot at home, is it possible? Yes, it is quite possible, it is enough to prepare the necessary materials.

Is it possible to assemble a robot yourself?

Nowadays it’s difficult to surprise anyone with a robot toy. The modern technology and computer industry has come a long way. But you may still be surprised by the information on how to make a simple robot at home.

Undoubtedly, it is difficult to understand the operating principle of various microcircuits, electronics, programs and designs. It is difficult to do in this case without basic knowledge in the field of physics, programming and electronics. Even so, every person can assemble a robot on their own.

A robot is an automated machine that is capable of performing various actions. In the case of a homemade robot, it is enough that the car simply moves.

To make assembly easier, you can use available tools: a telephone handset, a plastic bottle or plate, a toothbrush, an old camera or a computer mouse.

Vibrating bug

How to make a small robot? At home, you can make the simplest version of a vibrating bug. You need to stock up on the following materials:

  • a motor from an old children's car;
  • lithium battery CR-2032 series, similar to a tablet;
  • a holder for this very tablet;
  • paper clips;
  • electrical tape;
  • soldering iron;
  • LED.

First you need to wrap the LED with electrical tape, leaving free ends. Using a soldering iron, solder one LED end to the back wall of the battery holder. We solder the remaining tip to the contact of the motor from the machine. The paper clips will serve as legs for the vibrating bug. The wires from the battery holder are connected to the motor wires. The bug will vibrate and move after the holder comes into contact with the battery itself.

Brushbot - children's fun

So, how to make a mini-robot at home? A funny car can be assembled from scrap materials, such as a toothbrush (head), double-sided tape and a vibration motor from an old mobile phone. It is enough to glue the motor to the brush head, and that’s it - the robot is ready.

Power supply will be provided by a coin cell battery. For remote control you will have to come up with something.

Cardboard robot

How to make a robot at home if a child demands it? You can come up with an interesting toy from simple cardboard.

You need to stock up:

  • two cardboard boxes;
  • 20 plastic bottle caps;
  • wire;
  • with tape.

It happens that dad wants to make some kind of wonder for the baby, but nothing sensible comes to mind. Therefore, you can think about how to make a real robot at home.

First you need to use the box as a body for the robot and cut out the bottom of it. Then you need to make 5 holes: under the head, for the arms and legs. In the box intended for the head, you need to make one hole that will help connect it to the body. Wire is used to hold the robot parts together.

After attaching the head, you need to think about how to make a robot arm at home. To do this, a wire is inserted into the side holes, onto which plastic covers are placed. We get movable arms. We do the same with our legs. You can make holes in the lids with an awl.

To ensure the stability of the cardboard robot, careful attention must be paid to the cuts. They give the toy a good appearance. It is difficult to connect all the parts if the cut line is incorrect.

If you decide to glue boxes together, do not overdo it with the amount of glue. It is better to use durable cardboard or paper.

The simplest robot

How to make a light robot at home? It is difficult to create a full-fledged automated machine, but it is still possible to assemble a minimal design. Let's consider a simple mechanism that, for example, can perform certain actions in one zone. You will need the following materials:

    Plastic plate.

    A pair of medium-sized brushes for cleaning shoes.

    Computer fans in the amount of two pieces.

    Connector for 9-V battery and the battery itself.

    Clamp and tie with snap function.

We drill two holes with the same distance in the brush plate. We fasten them. The brushes should be located at the same distance from each other and the middle of the plate. Using nuts, we attach the adjusting mount to the brushes. We install the sliders from the fastenings in the middle location. Computer fans must be used to move the robot. They are connected to a battery and placed in parallel to ensure the rotation of the machine. It will be some kind of vibration motor. Finally, you need to put on the terminals.

In this case, you will not need large financial expenses or any technical or computer experience, because here we describe in detail how to make a robot at home. It is not difficult to get the necessary parts. To improve the motor functions of the design, microcontrollers or additional motors can be used.

Robot, like in advertising

Many people are probably familiar with the browser’s commercial, in which the main character is a small robot spinning and drawing shapes on paper with felt-tip pens. How to make a robot at home from this advertisement? Yes, very simple. To create such an automated cute toy, you need to stock up on:

  • three felt-tip pens;
  • thick cardboard or plastic;
  • motor;
  • round battery;
  • foil or electrical tape;
  • glue.

So, we create a form for the robot from plastic or cardboard (more precisely, we cut it out). It is necessary to make a triangular shape with rounded corners. In each corner we make a small hole into which a felt-tip pen can fit. We make one hole near the center of the triangle for the motor. We get 4 holes around the entire perimeter of a triangular shape.

Then insert the markers one by one into the holes made. A battery must be attached to the motor. This can be done using glue and foil or electrical tape. In order for the motor to stay firmly on the robot, it is necessary to fix it with a small amount of glue.

The robot will move only after connecting the second wire to the attached battery.

Lego robot

"Lego" is a series of toys for children, which consists mainly of construction parts connected into one element. Parts can be combined, while creating more and more new items for games.

Almost all children from 3 to 10 years old love to assemble such a construction set. In particular, children's interest increases if parts can be assembled into a robot. So, to assemble a moving robot from Lego, you need to prepare the parts, as well as a miniature motor and control unit.

In addition, ready-made kits with parts are now sold that allow you to assemble any robot yourself. The main thing is to master the attached instructions. For example:

  • prepare the parts as indicated in the instructions;
  • screw the wheels, if any;
  • we assemble fasteners that will serve as support for the motor;
  • insert a battery or even several into a special unit;
  • install the engine;
  • connect it to the motor;
  • We load a special program into the design’s memory that allows you to control the toy.

It would seem that it is quite difficult to assemble a robot, and a person without certain knowledge will not be able to do it at all. But that's not true. Of course, it is difficult to build a full-fledged automated machine, but anyone can do the simplest version. Just read our article on how to make a robot at home.

Surely, after watching enough movies about robots, you have often wanted to build your own comrade in battle, but you didn’t know where to start. Of course, you won't be able to build a bipedal Terminator, but that's not what we're trying to achieve. Anyone who knows how to hold a soldering iron correctly in their hands can assemble a simple robot and this does not require deep knowledge, although it will not hurt. Amateur robotics is not much different from circuit design, only much more interesting, because it also involves areas such as mechanics and programming. All components are easily available and are not that expensive. So progress does not stand still, and we will use it to our advantage.

Introduction

So. What is a robot? In most cases, this is an automatic device that responds to any environmental actions. Robots can be controlled by humans or perform pre-programmed actions. Typically, the robot is equipped with a variety of sensors (distance, rotation angle, acceleration), video cameras, and manipulators. The electronic part of the robot consists of a microcontroller (MC) - a microcircuit that contains a processor, a clock generator, various peripherals, RAM and permanent memory. There are a huge number of different microcontrollers in the world for different applications, and on their basis you can assemble powerful robots. AVR microcontrollers are widely used for amateur buildings. They are by far the most accessible and on the Internet you can find many examples based on these MKs. To work with microcontrollers, you need to be able to program in assembler or C and have basic knowledge of digital and analog electronics. In our project we will use C. Programming for MK is not much different from programming on a computer, the language syntax is the same, most functions are practically no different, and new ones are quite easy to learn and convenient to use.

What do we need

To begin with, our robot will be able to simply avoid obstacles, that is, repeat the normal behavior of most animals in nature. Everything we need to build such a robot can be found in radio stores. Let's decide how our robot will move. I think the most successful are the tracks that are used in tanks; this is the most convenient solution, because the tracks have greater maneuverability than the wheels of a vehicle and are more convenient to control (to turn, it is enough to rotate the tracks in different directions). Therefore, you will need any toy tank whose tracks rotate independently of each other, you can buy one at any toy store at a reasonable price. From this tank you only need a platform with tracks and motors with gearboxes, the rest you can safely unscrew and throw away. We also need a microcontroller, my choice fell on ATmega16 - it has enough ports for connecting sensors and peripherals and in general it is quite convenient. You will also need to purchase some radio components, a soldering iron, and a multimeter.

Making a board with MK



Robot diagram

In our case, the microcontroller will perform the functions of the brain, but we will not start with it, but with powering the robot’s brain. Proper nutrition is the key to health, so we will start with how to properly feed our robot, because this is where novice robot builders usually make mistakes. And in order for our robot to work normally, we need to use a voltage stabilizer. I prefer the L7805 chip - it is designed to produce a stable 5V output voltage, which is what our microcontroller needs. But due to the fact that the voltage drop on this microcircuit is about 2.5V, a minimum of 7.5V must be supplied to it. Together with this stabilizer, electrolytic capacitors are used to smooth out voltage ripples and a diode is necessarily included in the circuit to protect against polarity reversal.
Now we can move on to our microcontroller. The case of the MK is DIP (it’s more convenient to solder) and has forty pins. On board there is an ADC, PWM, USART and much more that we will not use for now. Let's look at a few important nodes. The RESET pin (9th leg of the MK) is connected by resistor R1 to the “plus” of the power source - this must be done! Otherwise, your MK may unintentionally reset or, more simply put, glitch. Also a desirable measure, but not mandatory, is to connect RESET through the ceramic capacitor C1 to ground. In the diagram you can also see a 1000 uF electrolyte; it saves you from voltage dips when the engines are running, which will also have a beneficial effect on the operation of the microcontroller. Quartz resonator X1 and capacitors C2, C3 should be located as close as possible to pins XTAL1 and XTAL2.
I won’t talk about how to flash MK, since you can read about it on the Internet. We will write the program in C; I chose CodeVisionAVR as the programming environment. This is a fairly user-friendly environment and is useful for beginners because it has a built-in code creation wizard.


My robot board

Motor control

An equally important component in our robot is the motor driver, which makes it easier for us to control it. Never and under no circumstances should motors be connected directly to the MK! In general, powerful loads cannot be controlled directly from the microcontroller, otherwise it will burn out. Use key transistors. For our case, there is a special chip - L293D. In such simple projects, always try to use this particular chip with the “D” index, as it has built-in diodes for overload protection. This microcircuit is very easy to control and is easy to get in radio stores. It is available in two packages: DIP and SOIC. We will use DIP in the package due to the ease of mounting on the board. L293D has separate power supply for motors and logic. Therefore, we will power the microcircuit itself from the stabilizer (VSS input), and the motors directly from the batteries (VS input). L293D can withstand a load of 600 mA per channel, and it has two of these channels, that is, two motors can be connected to one chip. But to be on the safe side, we will combine the channels, and then we will need one micra for each engine. It follows that the L293D will be able to withstand 1.2 A. To achieve this, you need to combine the micra legs, as shown in the diagram. The microcircuit works as follows: when a logical “0” is applied to IN1 and IN2, and a logical one is applied to IN3 and IN4, the motor rotates in one direction, and if the signals are inverted and a logical zero is applied, then the motor will begin to rotate in the other direction. Pins EN1 and EN2 are responsible for turning on each channel. We connect them and connect them to the “plus” of the power supply from the stabilizer. Since the microcircuit heats up during operation, and installing radiators on this type of case is problematic, heat removal is ensured by GND legs - it is better to solder them on a wide contact pad. That's all you need to know about engine drivers for the first time.

Obstacle sensors

So that our robot can navigate and not crash into everything, we will install two infrared sensors on it. The simplest sensor consists of an IR diode that emits in the infrared spectrum and a phototransistor that will receive the signal from the IR diode. The principle is this: when there is no obstacle in front of the sensor, the IR rays do not hit the phototransistor and it does not open. If there is an obstacle in front of the sensor, then the rays are reflected from it and hit the transistor - it opens and current begins to flow. The disadvantage of such sensors is that they can react differently to different surfaces and are not protected from interference - the sensor may accidentally be triggered by extraneous signals from other devices. Modulating the signal can protect you from interference, but we won’t bother with that for now. For starters, that's enough.


The first version of my robot's sensors

Robot firmware

To bring the robot to life, you need to write firmware for it, that is, a program that would take readings from sensors and control the motors. My program is the simplest, it does not contain complex structures and will be understandable to everyone. The next two lines include header files for our microcontroller and commands for generating delays:

#include
#include

The following lines are conditional because the PORTC values ​​depend on how you connected the motor driver to your microcontroller:

PORTC.0 = 1;
PORTC.1 = 0;
PORTC.2 = 1;
PORTC.3 = 0;

The value 0xFF means that the output will be log. “1”, and 0x00 is log. "0".

With the following construction we check whether there is an obstacle in front of the robot and on which side it is:

If (!(PINB & (1< {
...
}

If light from an IR diode hits the phototransistor, then a log is installed on the microcontroller leg. “0” and the robot starts moving backward to move away from the obstacle, then turns around so as not to collide with the obstacle again and then moves forward again. Since we have two sensors, we check for the presence of an obstacle twice – on the right and on the left, and therefore we can find out which side the obstacle is on. The command "delay_ms(1000)" indicates that one second will pass before the next command begins to execute.

Conclusion

I've covered most of the aspects that will help you build your first robot. But robotics doesn't end there. If you assemble this robot, you will have a lot of opportunities to expand it. You can improve the robot's algorithm, such as what to do if the obstacle is not on some side, but right in front of the robot. It also wouldn’t hurt to install an encoder - a simple device that will help you accurately position and know the location of your robot in space. For clarity, it is possible to install a color or monochrome display that can show useful information - battery charge level, distance to obstacles, various debugging information. It wouldn't hurt to improve the sensors - installing TSOPs (these are IR receivers that perceive a signal only of a certain frequency) instead of conventional phototransistors. In addition to infrared sensors, there are ultrasonic sensors, which are more expensive and also have their drawbacks, but have recently been gaining popularity among robot builders. In order for the robot to respond to sound, it would be a good idea to install microphones with an amplifier. But what I think is really interesting is installing the camera and programming machine vision based on it. There is a set of special OpenCV libraries with which you can program facial recognition, movement according to colored beacons and many other interesting things. It all depends only on your imagination and skills.
List of components:
  • ATmega16 in DIP-40 package>
  • L7805 in TO-220 package
  • L293D in DIP-16 housing x2 pcs.
  • resistors with a power of 0.25 W with ratings: 10 kOhm x 1 pc., 220 Ohm x 4 pcs.
  • ceramic capacitors: 0.1 µF, 1 µF, 22 pF
  • electrolytic capacitors: 1000 µF x 16 V, 220 µF x 16 V x 2 pcs.
  • diode 1N4001 or 1N4004
  • 16 MHz quartz resonator
  • IR diodes: any two of them will do.
  • phototransistors, also any, but responding only to the wavelength of infrared rays
Firmware code:
/*****************************************************
Firmware for the robot

MK type: ATmega16
Clock frequency: 16.000000 MHz
If your quartz frequency is different, then you need to specify this in the environment settings:
Project -> Configure -> "C Compiler" Tab
*****************************************************/

#include
#include

Void main(void)
{
//Configure input ports
//Through these ports we receive signals from sensors
DDRB=0x00;
//Turn on pull-up resistors
PORTB=0xFF;

//Configure output ports
//Through these ports we control the motors
DDRC=0xFF;

//Main loop of the program. Here we read the values ​​from the sensors
//and control the engines
while (1)
{
//Let's go forward
PORTC.0 = 1;
PORTC.1 = 0;
PORTC.2 = 1;
PORTC.3 = 0;
if (!(PINB & (1< {
//Go backwards 1 second
PORTC.0 = 0;
PORTC.1 = 1;
PORTC.2 = 0;
PORTC.3 = 1;
delay_ms(1000);
//Wrap it up
PORTC.0 = 1;
PORTC.1 = 0;
PORTC.2 = 0;
PORTC.3 = 1;
delay_ms(1000);
}
if (!(PINB & (1< {
//Go backwards 1 second
PORTC.0 = 0;
PORTC.1 = 1;
PORTC.2 = 0;
PORTC.3 = 1;
delay_ms(1000);
//Wrap it up
PORTC.0 = 0;
PORTC.1 = 1;
PORTC.2 = 1;
PORTC.3 = 0;
delay_ms(1000);
}
};
}

About my robot

At the moment my robot is almost complete.


It is equipped with a wireless camera, a distance sensor (both the camera and this sensor are installed on a rotating tower), an obstacle sensor, an encoder, a signal receiver from the remote control and an RS-232 interface for connecting to a computer. It operates in two modes: autonomous and manual (receives control signals from the remote control), the camera can also be turned on/off remotely or by the robot itself to save battery power. I am writing firmware for apartment security (transferring images to a computer, detecting movements, walking around the premises).

According to your wishes, I am posting a video:

UPD. I re-uploaded the photos and made some minor corrections to the text.



This article is also available in the following languages: Thai

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    THANK YOU so much for the very useful information in the article. Everything is presented very clearly. It feels like a lot of work has been done to analyze the operation of the eBay store

    • Thank you and other regular readers of my blog. Without you, I would not have been motivated enough to dedicate much time to maintaining this site. My brain is structured this way: I like to dig deep, systematize scattered data, try things that no one has done before or looked at from this angle. It’s a pity that our compatriots have no time for shopping on eBay because of the crisis in Russia. They buy from Aliexpress from China, since goods there are much cheaper (often at the expense of quality). But online auctions eBay, Amazon, ETSY will easily give the Chinese a head start in the range of branded items, vintage items, handmade items and various ethnic goods.

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        What is valuable in your articles is your personal attitude and analysis of the topic. Don't give up this blog, I come here often. There should be a lot of us like that. Email me I recently received an email with an offer that they would teach me how to trade on Amazon and eBay. And I remembered your detailed articles about these trades. area I re-read everything again and concluded that the courses are a scam. I haven't bought anything on eBay yet. I am not from Russia, but from Kazakhstan (Almaty). But we also don’t need any extra expenses yet. I wish you good luck and stay safe in Asia.

  • It’s also nice that eBay’s attempts to Russify the interface for users from Russia and the CIS countries have begun to bear fruit. After all, the overwhelming majority of citizens of the countries of the former USSR do not have strong knowledge of foreign languages. No more than 5% of the population speak English. There are more among young people. Therefore, at least the interface is in Russian - this is a big help for online shopping on this trading platform. eBay did not follow the path of its Chinese counterpart Aliexpress, where a machine (very clumsy and incomprehensible, sometimes causing laughter) translation of product descriptions is performed. I hope that at a more advanced stage of development of artificial intelligence, high-quality machine translation from any language to any in a matter of seconds will become a reality. So far we have this (the profile of one of the sellers on eBay with a Russian interface, but an English description):
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