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Lately, I have been caught up with learning blender and animation for an upcoming project I plan to work on. Until two days ago, I haven’t given much thought on some of my projects. So I decided to write an update for the status of the autonomous car.
I had a working prototype, shown in the video below. But I somehow lost the code for it, and I am working on a better algorithm.
I got the car from a teacher who wanted to get rid of some junk donated by another student. The car itself has minor modifications. I had to get rid of the control circuit, but luckily there also was an ESC lying around. The ESC had a PWM cable, so I tried to use Arduino’s Servo library to control it, and it worked. The steering mechanism used some weird motor, and I replaced it with a servo motor.I then connected the ESC and coded the computer vision algorithm.
The car is supposed to detect the road at this stage, I’m planning on doing lane detection once I finish redoing the computer vision code. The servo motor is popping out from the steering mechanism, so I’m planning on making a proper mount for the servo.
These past few weeks were a bit busy, I had a lot of stuff from school. I went to a few hackathons, and I worked on the Autonomous car project, but I haven’t made much progress. I am currently working on an app for the PCR Project, so you can control it wirelessly, but you won’t hear from that for a few more weeks. But recently, I received an Arduino MKR1000 from the Hackster.io World’s Largest Arduino contest. So now I have to make a project. This time, I will make a Scanning Tunneling Microscope.
What is a Scanning Tunneling Microscope?
A scanning tunneling microscope is a type of microscope that can “feel” atoms. Normally, when one needs to view a specimen that is fairly small, you would use a light microscope. But when the specimen is so small that it is smaller than the wavelength of visible light, then one would look into other types of microscopes that do not use light to magnify/visualize your specimen. There are many different types of these microscopes. The electron microscope and the atomic force microscope(AFM) are the most widely used. Electron microscopes use electrons instead of photons(light) to view specimens, but they only work when the specimen is either electrically conductive or coated with a conductive substrate(spray). The other type, the AFM, “feels” atoms instead of “seeing” them. The type I will use is a scanning tunneling microscope. In theory, when electrical current is applied to two different objects, and they are moved close enough, electrons can “jump” between the objects. This “jumping” of the electrons is called quantum tunneling. We can use quantum tunneling to “feel” these atoms in a scanning electron microscope. In the microscope, a needle with a very fine point(one atom) is used to scan a specimen, and based on the different voltages produced by the tunneled electrons, we can construct an image of the atomic structure of the specimens.
How will I make it?
In normal scanning tunneling microscopes, a piezo tube or a piezo stack is used to move the scanner tip. I will try to use a piezo buzzer, like the one used in Alexander’s project(RIP Geocities). In his project though, he used an oscilloscope to view a very basic image. I intend to use the MKR1000 to receive and process the data for the STM, and then stream it online so the image can be constructed in probably a simple processing sketch. Since the current that gets tunneled is very low, a preamp and a separate opamp will be needed. I also need some serious vibration isolation and try to keep noise as low as possible. If I can keep noise and vibration low, the microscope is presumed to be able to achieve atomic resolution.
For the first part of designing and building the device, we first need to find the right computer/microcontroller to build our device off of. Before that, though, we need to know what we will plan on using so we can find the best controller for our device.
What I am thinking about the car’s hardware is that it needs some sort of object recognition and obstacle sensing, probably both. We probably want a camera so that we can use computer vision in order to detect certain objects, such as other cars, lane markers, and other things. For the obstacle sensing, I should probably use a few ultrasonic sensors, they are relatively cheap and easy to work with.
Finding the right controller
First, before starting anything, we need to find a microcontroller/computer that can handle all of the needed tasks while fitting into a small form factor, since I’m planning to actually build/mod an RC car, since it is cheaper and easier to work with.
What do I need/want in my controller?
What we need it to be able to do is image processing. Image processing is hard and requires some serious processing power. I will most probably start with OpenCV for the image processing, it’s relatively easy to use once you know python. I also need it to control motors, and steering, so that will probably use up 4 DC Motors, and a servo. we will also use ultrasonic sensors, and those components can be used with minimal effort and processing power. Also, if I am going to make multiple of these cars, I would like the computer/processor to be cheap, so I can easily afford 30 of them later on.
I’ll using the Pi Zero(duh), because it is very, very tiny for a computer. It can handle basic image processing(has the same processor as the pi B+, also has more RAM), and it has 40 GPIO pins, more than enough for what I’m working on. It has only one USB OTG, but that can be fixed with USB hubs. It also doesn’t have WiFi, but I can just plug in a WiFi dongle whenever I need to install software, or I could just download it and put it on a flash drive.
What I need first is the Pi Zero, but unfortunately, they are either out of stock, or sold for $40(why is it called a $5 computer then?) alone. Until then, I will most likely work on other projects until I can get myself at least one.
So, for the past week, school was closed due to the snow, and I wasn’t able to do much on the PCR project(Still going on, it’s not finished, yet). But recently, I got a new idea for a project—to build an autonomous car, or at least to build a smaller version of one as a proof-of-concept. I finally decided to start once the Pi Zero came out but it was never in stock anywhere, so I waited until I could find a sub-$10 one to buy. Yesterday, the Adafruit Pi Zero contest came out. So I started my project on Hackaday.io.
What is my project?
So my next project is basically going to be a self driving car. But I didn’t know where to start. So I looked at the issues in current land transportation and developing autonomous cars. The usual self-driving car that gets all the hype is either overly expensive, overkill, or just plain stupid. Like, really stupid. What I wanted to do was build a better car—but not just the car. I decided that I needed to build/design/develop an infrastructure to support such cars. Why did I decide to do that? Take a look at Google’s Self Driving Car. While it is a huge step in the advancement of driverless cars, it is very expensive. And it has safety issues, although Google has reported that most of the accidents were not of the car’s fault, rather other drivers.
So how/why will I make a better one?
Like I said before, I looked at some issues with current transportation and self driving cars. In current transportation, we can see that there are serious traffic issues and there are only too many accidents happening every day. How can we prevent such issues? Almost all of the time, a car accident happens due to human error—a distracted driver, an inexperienced driver, or just a simple slip of a hand. We can hugely decrease or even eliminate the amount of accidents happening everywhere by replacing a human driver with a computer. But self-driving cars aren’t the best either. They can still crash due to errors in detecting obstacles, they drive slowly and cautiously most of the time, they halt unnecessarily and they still need improvement. This will not help the traffic issue. But what if the cars acted together?They would communicate between each other, maintain their distance from one another, save fuel, navigate with only the most efficient route, be informed of local accidents and obstacles on the road to avoid, and we can theoretically have no traffic jams. Ever. Wouldn’t that be nice? Also, if we need self driving cars to be even more efficient, why don’t we just make our own traffic rules? I’ll probably use Bluetooth communication for the cars to communicate with each other, and for a basic prototype of a device that collects data and communicates with other devices, I will most probably use a cheap microcontroller or computer(I REALLY WISH I COULD GET A PI ZERO RIGHT NOW).
So my first goal is to start with a device that can navigate easily on its own. I’ll probably have a pi zero or some other microcontroller control an RC car, simply because I am 15, and I don’t have too much money, so I can’t buy an actual car. For now, at least. It will have a camera(openCV?) and some other proximity sensor(LIDAR, RADAR?) to detect objects, obstacles and traffic markings to stay on the “road”. Later on, I’ll get/make more devices and then I’ll work on communication and traffic rules. Eventually, if I can get far enough with this project, and maybe even get funding(Who knows?), I might actually be able to buy and mod(or design from scratch) a few cars so I can develop and test them out with actual vehicles. One important thing to consider(If I ever get that far) would be security, and that is a very, very important concern, but right now, I need to actually research and build it first.
Hello world? I guess. I mean, this is my first blog post after all. I think I should introduce myself first. I am an average high school student, trying to keep up with life. I have lots of interest in science and tech, I try to learn by doing projects on them. This is the first time I am actually going to share my projects to others. While I may not be able to post every day, I will try to post at least once a week. Usually, I have multiple projects going on at once, as I keep on getting ideas. I am blogging so I can share what I did with others, and maybe even inspire them to do even more. I am new to blogging, so I appreciate any help! Feel free to send me any tips by email or by commenting below!