Project Name : Automatic Bottle Filling Machine
Description : Make Automatic Bottle Filling Machine Using Arduino.
Steps Video : https://youtu.be/wkq_g18f8P8
Project Code : mediafire.com/folder/6sb7e3gp0jgjo/PCB
Required Components :
1) Arduino Nano - https://amzn.to/2Q472XW
2) 2x16 LCD - https://amzn.to/2LGtqBa
3) Water Pump - https://amzn.to/32ExZma
4) Water Bottles - https://amzn.to/2Q17Psu
5) Large Pulley - https://amzn.to/32Il8zL
6) Stepper Motor - https://amzn.to/2Q4EAVP
Credits : Easy HomeMade Projects
➖ @programmers_buddy ➖
Description : Make Automatic Bottle Filling Machine Using Arduino.
Steps Video : https://youtu.be/wkq_g18f8P8
Project Code : mediafire.com/folder/6sb7e3gp0jgjo/PCB
Required Components :
1) Arduino Nano - https://amzn.to/2Q472XW
2) 2x16 LCD - https://amzn.to/2LGtqBa
3) Water Pump - https://amzn.to/32ExZma
4) Water Bottles - https://amzn.to/2Q17Psu
5) Large Pulley - https://amzn.to/32Il8zL
6) Stepper Motor - https://amzn.to/2Q4EAVP
Credits : Easy HomeMade Projects
➖ @programmers_buddy ➖
YouTube
How to Make Automatic Bottle Filling Machine Using Arduino
JLCPCB Prototype for $2(Any Color): https://jlcpcb.com
Good News!
Now you can order me to design a custom PCB for you!
https://goo.gl/rUxA5C
List of Materials:
(Affiliate Links Amazon)
Arduino LCD 2X16:
https://amzn.to/4a313rh
Arduino NANO:
https://amzn.to/3Ncm9K3…
Good News!
Now you can order me to design a custom PCB for you!
https://goo.gl/rUxA5C
List of Materials:
(Affiliate Links Amazon)
Arduino LCD 2X16:
https://amzn.to/4a313rh
Arduino NANO:
https://amzn.to/3Ncm9K3…
A Laptop for programmers in Budget
Description Video : https://www.youtube.com/watch?v=z2rT9pUNBRA
Amazon Link : https://amzn.to/2Q8aGQo
Credits : Hitesh Choudhary
➖ @programmers_buddy ➖
Description Video : https://www.youtube.com/watch?v=z2rT9pUNBRA
Amazon Link : https://amzn.to/2Q8aGQo
Credits : Hitesh Choudhary
➖ @programmers_buddy ➖
Tutorial Name : How to Develop and Evaluate Naive Classifier Strategies Using Probability
Description : In this tutorial, you will discover how to develop and evaluate naive classification strategies for machine learning.
Tutorial Link : https://machinelearningmastery.com/how-to-develop-and-evaluate-naive-classifier-strategies-using-probability/
Credits : Jason Brownlee
➖ @programmers_buddy ➖
Description : In this tutorial, you will discover how to develop and evaluate naive classification strategies for machine learning.
Tutorial Link : https://machinelearningmastery.com/how-to-develop-and-evaluate-naive-classifier-strategies-using-probability/
Credits : Jason Brownlee
➖ @programmers_buddy ➖
MachineLearningMastery.com
How to Develop and Evaluate Naive Classifier Strategies Using Probability - MachineLearningMastery.com
A Naive Classifier is a simple classification model that assumes little to nothing about the problem and the performance of which provides a baseline by which all other models evaluated on a dataset can be compared.
There are different strategies that…
There are different strategies that…
Component Name : Generic Arduino UNO Kit for Robotic Projects
Description : The Arduino Uno is a microcontroller board based on the ATmega328 ."Uno" means one in Italian and is named to mark the upcoming release of Arduino 1.0. It has 14 digital input or output pins , 6 analog inputs, a 16 MHz ceramic resonator, a USB connection, a power jack, an ICSP header and a reset button. It contains everything needed to support the microcontroller, simply connect it to a computer with a USB cable or power it with a AC-to-DC adapter or battery to get started. The Uno differs from all preceding boards in that it does not use the FTDI USB-to-serial driver chip. Instead, it features the Atmega16U2Atmega8U2 up to version R2) programmed as a USB-to-serial converter. This is your first step towards interfacing the LCD and keypad with your Arduino.
Kit Contains :
🔹Arduino UNO
🔹Arduino character LCD 16x2
🔹USB cable A to B Type
🔹4 x 4 keypad
Amazon Link : https://amzn.to/2I2XVA2
Description : The Arduino Uno is a microcontroller board based on the ATmega328 ."Uno" means one in Italian and is named to mark the upcoming release of Arduino 1.0. It has 14 digital input or output pins , 6 analog inputs, a 16 MHz ceramic resonator, a USB connection, a power jack, an ICSP header and a reset button. It contains everything needed to support the microcontroller, simply connect it to a computer with a USB cable or power it with a AC-to-DC adapter or battery to get started. The Uno differs from all preceding boards in that it does not use the FTDI USB-to-serial driver chip. Instead, it features the Atmega16U2Atmega8U2 up to version R2) programmed as a USB-to-serial converter. This is your first step towards interfacing the LCD and keypad with your Arduino.
Kit Contains :
🔹Arduino UNO
🔹Arduino character LCD 16x2
🔹USB cable A to B Type
🔹4 x 4 keypad
Amazon Link : https://amzn.to/2I2XVA2
Project Name : OpenSpiel
Technology Used : Machine Learning
Description : OpenSpiel is a collection of environments and algorithms for research in general reinforcement learning and search/planning in games. OpenSpiel supports n-player (single- and multi- agent) zero-sum, cooperative and general-sum, one-shot and sequential, strictly turn-taking and simultaneous-move, perfect and imperfect information games, as well as traditional multiagent environments such as (partially- and fully- observable) grid worlds and social dilemmas. OpenSpiel also includes tools to analyze learning dynamics and other common evaluation metrics. Games are represented as procedural extensive-form games, with some natural extensions. The core API and games are implemented in C++ and exposed to Python. Algorithms and tools are written both in C++ and Python. There is also a branch of pure Swift in the swift subdirectory.
Project Link : https://github.com/deepmind/open_spiel
Credits : DeepMind
➖ @programmers_buddy ➖
Technology Used : Machine Learning
Description : OpenSpiel is a collection of environments and algorithms for research in general reinforcement learning and search/planning in games. OpenSpiel supports n-player (single- and multi- agent) zero-sum, cooperative and general-sum, one-shot and sequential, strictly turn-taking and simultaneous-move, perfect and imperfect information games, as well as traditional multiagent environments such as (partially- and fully- observable) grid worlds and social dilemmas. OpenSpiel also includes tools to analyze learning dynamics and other common evaluation metrics. Games are represented as procedural extensive-form games, with some natural extensions. The core API and games are implemented in C++ and exposed to Python. Algorithms and tools are written both in C++ and Python. There is also a branch of pure Swift in the swift subdirectory.
Project Link : https://github.com/deepmind/open_spiel
Credits : DeepMind
➖ @programmers_buddy ➖
GitHub
GitHub - google-deepmind/open_spiel: OpenSpiel is a collection of environments and algorithms for research in general reinforcement…
OpenSpiel is a collection of environments and algorithms for research in general reinforcement learning and search/planning in games. - google-deepmind/open_spiel
Component Name : Digital Temperature and Humidity Sensor Module
Product Description : The dht22 ( rht03 ) is a basic, low-cost digital temperature and humidity sensor. It uses a capacitive humidity sensor and a thermistor to measure the surrounding air, and spits out a digital signal on the data pin (no analog input pins needed). Its fairly simple to use, but requires careful timing to grab data. The only real downside of this sensor is you can only get new data from it once every 2 seconds, so when using our library, sensor readings can be up to 2 seconds old. Simply connect the first pin on the left to 3-5v power, the second pin to your data input pin and the right most pin to ground. Although it uses a single-wire to send data it is not dallas one wire compatible if you want multiple sensors, each one must have its own data pin feature & application: High precision capacitive type full range temperature compensated relative humidity and temperature measurement calibrated digital signal outstanding long-term stability extra components not needed long transmission distance low power consumption 4 pins packaged and fully interchangeable.
Features :
🔹3 to 5v power and i/o
🔹2.5ma max current use during conversion (while requesting data)
🔹1-1.5ma measuring current, no more than 0.5 hz sampling rate (once every 2 seconds) body size 27mm x 59mm x 13.5mm (1.05″ x 2.32″ x 0.53″)
🔹40-50 ua standby current, good for 0-100 percent humidity readings with 2-5 percent accuracy, 4 pins, 0.1″ spacing
Amazon Link : https://amzn.to/2Lu8Ipm
Product Description : The dht22 ( rht03 ) is a basic, low-cost digital temperature and humidity sensor. It uses a capacitive humidity sensor and a thermistor to measure the surrounding air, and spits out a digital signal on the data pin (no analog input pins needed). Its fairly simple to use, but requires careful timing to grab data. The only real downside of this sensor is you can only get new data from it once every 2 seconds, so when using our library, sensor readings can be up to 2 seconds old. Simply connect the first pin on the left to 3-5v power, the second pin to your data input pin and the right most pin to ground. Although it uses a single-wire to send data it is not dallas one wire compatible if you want multiple sensors, each one must have its own data pin feature & application: High precision capacitive type full range temperature compensated relative humidity and temperature measurement calibrated digital signal outstanding long-term stability extra components not needed long transmission distance low power consumption 4 pins packaged and fully interchangeable.
Features :
🔹3 to 5v power and i/o
🔹2.5ma max current use during conversion (while requesting data)
🔹1-1.5ma measuring current, no more than 0.5 hz sampling rate (once every 2 seconds) body size 27mm x 59mm x 13.5mm (1.05″ x 2.32″ x 0.53″)
🔹40-50 ua standby current, good for 0-100 percent humidity readings with 2-5 percent accuracy, 4 pins, 0.1″ spacing
Amazon Link : https://amzn.to/2Lu8Ipm
Project Name : Trippy
Language Used : JavaScript
Description : A mobile application for travelling.
Project Link : https://github.com/NielsLindberg/Trippy
Credits : Niels Lindberg-Poulsen
➖ @programmers_buddy ➖
Language Used : JavaScript
Description : A mobile application for travelling.
Project Link : https://github.com/NielsLindberg/Trippy
Credits : Niels Lindberg-Poulsen
➖ @programmers_buddy ➖
GitHub
NielsLindberg/Trippy
Contribute to NielsLindberg/Trippy development by creating an account on GitHub.
Project Name : Deep Reinforcement Learning in PyTorch
Language Used : Python
Description : Modular, optimized implementations of common deep RL algorithms in PyTorch, with unified infrastructure supporting all three major families of model-free algorithms: policy gradient, deep-q learning, and q-function policy gradient. Intended to be a high-throughput code-base for small- to medium-scale research (large-scale meaning like OpenAI Dota with 100's GPUs).
Project Link : https://github.com/astooke/rlpyt
Credits : astooke
➖ @programmers_buddy ➖
Language Used : Python
Description : Modular, optimized implementations of common deep RL algorithms in PyTorch, with unified infrastructure supporting all three major families of model-free algorithms: policy gradient, deep-q learning, and q-function policy gradient. Intended to be a high-throughput code-base for small- to medium-scale research (large-scale meaning like OpenAI Dota with 100's GPUs).
Project Link : https://github.com/astooke/rlpyt
Credits : astooke
➖ @programmers_buddy ➖
GitHub
GitHub - astooke/rlpyt: Reinforcement Learning in PyTorch
Reinforcement Learning in PyTorch. Contribute to astooke/rlpyt development by creating an account on GitHub.
Component Name : Raspberry Pi 3-MODB-1GB Motherboard
Product Description : The Raspberry Pi 3 Model B builds upon the features of its predecessors with a new, faster processor on board to increase its speed. It also features Wi-Fi and Bluetooth low energy capabilities to enhance the functionality and the ability to power more powerful devices over the USB ports
Features :
🔹1.2GHz 64-bit quad-core ARMv8 CPU, 1 GB RAM
🔹802.11n wireless LAN, 10/100Mbps lan speed, Upgraded switched Micro USB power source up to 2.5A
🔹Bluetooth 4.1, Bluetooth low energy
🔹4 USB ports, 40 GPIO pins, full HDMI port, combined 3.5mm audio jack and composite video
🔹Camera interface (CSI), Display interface (DSI), Micro SD card slot (now push-pull rather than push-push), Video Core IV 3D graphics core
Amazon Link : https://amzn.to/2LxQIdM
Product Description : The Raspberry Pi 3 Model B builds upon the features of its predecessors with a new, faster processor on board to increase its speed. It also features Wi-Fi and Bluetooth low energy capabilities to enhance the functionality and the ability to power more powerful devices over the USB ports
Features :
🔹1.2GHz 64-bit quad-core ARMv8 CPU, 1 GB RAM
🔹802.11n wireless LAN, 10/100Mbps lan speed, Upgraded switched Micro USB power source up to 2.5A
🔹Bluetooth 4.1, Bluetooth low energy
🔹4 USB ports, 40 GPIO pins, full HDMI port, combined 3.5mm audio jack and composite video
🔹Camera interface (CSI), Display interface (DSI), Micro SD card slot (now push-pull rather than push-push), Video Core IV 3D graphics core
Amazon Link : https://amzn.to/2LxQIdM
Project Name : Dog Project
Description : In this project, you will learn how to build a pipeline that can be used within a web or mobile app to process real-world, user-supplied images. Given an image of a dog, your algorithm will identify an estimate of the canine’s breed. If supplied an image of a human, the code will identify the resembling dog breed. Along with exploring state-of-the-art CNN models for classification, you will make important design decisions about the user experience for your app.
Project Link : https://github.com/NielsLindberg/dog-project
Credits : Niels Lindberg-Poulsen
➖ @programmers_buddy ➖
Description : In this project, you will learn how to build a pipeline that can be used within a web or mobile app to process real-world, user-supplied images. Given an image of a dog, your algorithm will identify an estimate of the canine’s breed. If supplied an image of a human, the code will identify the resembling dog breed. Along with exploring state-of-the-art CNN models for classification, you will make important design decisions about the user experience for your app.
Project Link : https://github.com/NielsLindberg/dog-project
Credits : Niels Lindberg-Poulsen
➖ @programmers_buddy ➖
GitHub
NielsLindberg/dog-project
Contribute to NielsLindberg/dog-project development by creating an account on GitHub.
Tutorial Name : How to Make an Amazing Tensorflow Chatbot
Description : We'll go over how chatbots have evolved over the years and how Deep Learning has made them way better. Then we'll build our own chatbot using the Tensorflow machine learning library in Python.
Tutorial Link: https://youtu.be/SJDEOWLHYVo
Code Used : https://github.com/llSourcell/tensorflow_chatbot
Credits : Siraj Raval
➖ @programmers_buddy ➖
Description : We'll go over how chatbots have evolved over the years and how Deep Learning has made them way better. Then we'll build our own chatbot using the Tensorflow machine learning library in Python.
Tutorial Link: https://youtu.be/SJDEOWLHYVo
Code Used : https://github.com/llSourcell/tensorflow_chatbot
Credits : Siraj Raval
➖ @programmers_buddy ➖
YouTube
How to Make an Amazing Tensorflow Chatbot Easily
We'll go over how chatbots have evolved over the years and how Deep Learning has made them way better. Then we'll build our own chatbot using the Tensorflow machine learning library in Python.
The code & coding challenge for this video are here:
https:/…
The code & coding challenge for this video are here:
https:/…
Project Name : Golf Game
Language Used : Python
Description : This is a 9 hole 2D golf game created using pygame.
Project Link : https://github.com/techwithtim/Golf-Game
Working : https://youtu.be/RJJugb2uJPs
Credits : Tech With Tim
➖ @programmers_buddy ➖
Language Used : Python
Description : This is a 9 hole 2D golf game created using pygame.
Project Link : https://github.com/techwithtim/Golf-Game
Working : https://youtu.be/RJJugb2uJPs
Credits : Tech With Tim
➖ @programmers_buddy ➖
GitHub
GitHub - techwithtim/Golf-Game: This is a 9 hole 2D golf game created using pygame.
This is a 9 hole 2D golf game created using pygame. - GitHub - techwithtim/Golf-Game: This is a 9 hole 2D golf game created using pygame.
Component Name : Servo Motor
Features :
🔹Torque: 1.8 kg-cm (4.8v).
🔹Speed: 0.10 sec/60 degree.
🔹Weight: 9 grams.
🔹Gear Type: Plastic.
🔹Rotational Range: 180 degree.
Amazon Link : https://amzn.to/2AlfW8H
Features :
🔹Torque: 1.8 kg-cm (4.8v).
🔹Speed: 0.10 sec/60 degree.
🔹Weight: 9 grams.
🔹Gear Type: Plastic.
🔹Rotational Range: 180 degree.
Amazon Link : https://amzn.to/2AlfW8H
Project Name : Telegram Bot
Language Used : Python
Description : Telegram bot compatible with Python 3.7. Webhooks with ngrok to Telegram bot message stream, conditional responses.
Project Link : https://github.com/jg-fisher/python-telegram-bot
Steps Video : https://youtu.be/GWH1XDXfAXQ
Credits : John Fisher
➖ @programmers_buddy ➖
Language Used : Python
Description : Telegram bot compatible with Python 3.7. Webhooks with ngrok to Telegram bot message stream, conditional responses.
Project Link : https://github.com/jg-fisher/python-telegram-bot
Steps Video : https://youtu.be/GWH1XDXfAXQ
Credits : John Fisher
➖ @programmers_buddy ➖
GitHub
GitHub - jg-fisher/python-telegram-bot: Telegram bot with Python 3.7
Telegram bot with Python 3.7. Contribute to jg-fisher/python-telegram-bot development by creating an account on GitHub.
Programmers Buddy pinned «Programmers Buddy : This channel is created to build a better community for all people who are interested in programming, coding and technology. Here you will find best projects, tutorials, resources, etc. which will help you to build your own projects and…»
Project Name : Flutter Music Player
Language Used : Dart
Description : Flutter Music Player - First Open Source Flutter based material design music player with audio plugin to play local music files.
Project Link : https://github.com/iampawan/Flutter-Music-Player
Credits : Pawan Kumar
➖ @programmers_buddy ➖
Language Used : Dart
Description : Flutter Music Player - First Open Source Flutter based material design music player with audio plugin to play local music files.
Project Link : https://github.com/iampawan/Flutter-Music-Player
Credits : Pawan Kumar
➖ @programmers_buddy ➖
GitHub
GitHub - iampawan/Flutter-Music-Player: Flutter Music Player - First Open Source Flutter based material design music player with…
Flutter Music Player - First Open Source Flutter based material design music player with audio plugin to play local music files. - iampawan/Flutter-Music-Player
Project Name : Energy Meter
Description : In this project you will build your own energy meter for use around the home using an Arudino and a current transformer / CT. Since this meter only monitors the supply current, it works well for loads which operate close to unity power factor (purely resistive).
Steps Video : https://youtu.be/W2Pa91I6QuY
Project Details : http://www.the-diy-life.com/simple-arduino-home-energy-meter/
Credits : Michael Klements
➖ @programmers_buddy ➖
Description : In this project you will build your own energy meter for use around the home using an Arudino and a current transformer / CT. Since this meter only monitors the supply current, it works well for loads which operate close to unity power factor (purely resistive).
Steps Video : https://youtu.be/W2Pa91I6QuY
Project Details : http://www.the-diy-life.com/simple-arduino-home-energy-meter/
Credits : Michael Klements
➖ @programmers_buddy ➖
YouTube
Make A Simple Arduino Energy Meter
This video guide shows you how to build your own energy meter for use around the home using an Arudino and a current transformer / CT. Since this meter only monitors the supply current, it works well for loads which operate close to unity power factor (purely…
Project Name : Airline Reservation System
Language Used : Java
Description : In this JAVA Major project mainly we are going to concentrate on ticket booking function, this function will take the user inputs like their requirements (flight name, flight source & destination, Number of seats, Seat numbers), after entering all of his/her requirements in this application, it can check at backend & provide us the total information about flights. When we open the first page of this project we can find the basic information (basic fair & discounts) about today flight timings.
Project Link : https://projectworlds.in/java-projects-with-source-code/airline-reservation-system-java-project/
Demo : https://youtu.be/DSwy6wgP2aw
Credits : Project Worlds
➖ @programmers_buddy ➖
Language Used : Java
Description : In this JAVA Major project mainly we are going to concentrate on ticket booking function, this function will take the user inputs like their requirements (flight name, flight source & destination, Number of seats, Seat numbers), after entering all of his/her requirements in this application, it can check at backend & provide us the total information about flights. When we open the first page of this project we can find the basic information (basic fair & discounts) about today flight timings.
Project Link : https://projectworlds.in/java-projects-with-source-code/airline-reservation-system-java-project/
Demo : https://youtu.be/DSwy6wgP2aw
Credits : Project Worlds
➖ @programmers_buddy ➖
Projectworlds | All Type Software Project available Free or Paid
Airline Reservation System Java Project | Projectworlds
Airline Reservation System” main aim is to provide the online ticket & seat reservation of National and International Flights and also give us the information about flight departures.
Project Name : Crypto App
Language Used : Dart
Description : Cryptocurrency App with MVP design pattern to track all the coins data in realtime for android & iOS . Written in dart using Flutter SDK. Please don't forget to give stars so that i keep updating the project.
Project Link : https://github.com/iampawan/CryptoApp
Credits : Pawan Kumar
➖ @programmers_buddy ➖
Language Used : Dart
Description : Cryptocurrency App with MVP design pattern to track all the coins data in realtime for android & iOS . Written in dart using Flutter SDK. Please don't forget to give stars so that i keep updating the project.
Project Link : https://github.com/iampawan/CryptoApp
Credits : Pawan Kumar
➖ @programmers_buddy ➖
GitHub
GitHub - iampawan/CryptoApp: Cryptocurrency App with MVP Design Pattern to track all the coins data in realtime for android & iOS…
Cryptocurrency App with MVP Design Pattern to track all the coins data in realtime for android & iOS . Written in dart using Flutter SDK. - iampawan/CryptoApp
Project Name : Arduino Robot With PS4 Controller
Description : You will understand how to use a wireless Playstation 2 (PS2) joystick to pilot a robotic tank. An Arduino Uno board was used at the core of this project. It receives commands from the wireless controller and sets the speed of the motors.
Steps Video : https://youtu.be/1oH0zqkGxNc
Project Details : https://www.instructables.com/id/Arduino-Robot-With-PS2-Controller-PlayStation-2-Jo/
Credits : Igor Fonseca Albuquerque
To buy the required components, search the name of the component on our channel you will get amazon link to buy it.
➖ @programmers_buddy ➖
Description : You will understand how to use a wireless Playstation 2 (PS2) joystick to pilot a robotic tank. An Arduino Uno board was used at the core of this project. It receives commands from the wireless controller and sets the speed of the motors.
Steps Video : https://youtu.be/1oH0zqkGxNc
Project Details : https://www.instructables.com/id/Arduino-Robot-With-PS2-Controller-PlayStation-2-Jo/
Credits : Igor Fonseca Albuquerque
To buy the required components, search the name of the component on our channel you will get amazon link to buy it.
➖ @programmers_buddy ➖
YouTube
Arduino Robot with PS2 controller (PlayStation 2 joystick)
In this tutorial I'll show you how to use a wireless Playstation 2 (PS2) joystick to pilot a robotic tank. An Arduino Uno board was used at the core of this project. It receives commands from the wireless controller and sets the speed of the motors.
Full…
Full…