MP4 | Video: h264, 1280×720 | Audio: AAC, 44.1 KHz
Language: English | Size: 211.37 MB | Duration: 0h 44m
Learn how to build your own Aeroponics system and control it remotely using a web dashboard
What you’ll learn
Learn about the newly launched Raspberry Pi 3
Learn how to configure and use the on-board WIFI and the Bluetooth module
Get to know how to build flow meter using Raspberry Pi and measure the flow rate or quantity of a gas or liquid moving through a pipe
Stepwise process to build the Aeroponics system
Learn to connect Raspberry Pi and the sensors to IoT cloud platform
Remotely visualize the data on the dashboard and take action depending on the report
Remotely switch ON & OFF the mist machine to control the humidity level
Requirements
Basic knowledge of Python programming and Linux command
Description
IOT enabled Aeroponics using Raspberry Pi 3 is an intermediate course on the newly launched Raspberry Pi 3. The course is ideal for those who want to explore the possibilities of Raspberry Pi in the field of agriculture. This course will take your intermediate coding skills to the next level. The course covers two projects.
In the first project, you will learn how to program the flow sensor to measure exactly one or more litres of liquid or gas. This can be implemented in any project where you want to know the consumption day by day. Going forward you will learn how to program the small LCD screen and display the dynamic data. Once you are done with it, we will proceed to our major project Aeroponics system. In this, you will learn how to build the system from the ground up and control it remotely using the Raspberry Pi. You will also learn how to integrate with the IoT platform and control the entire system remotely. You will have a dashboard where you can visualize the data in the form of a graph, table, gauge meter, etc. Apart from that, you can also control the mist machine by turning ON and OFF through a virtual switch on your dashboard. This will be a fun project, and you will learn to program for Internet of Things.
The course provides the complete source code of both the projects.
The entire course can be completed over a fortnight, including the hardware assembly and coding in Python programming.
By the end of this course, you will have enough knowledge about the Aeroponics system and how to implement in the real time scenario.
Overview
Section 1: Introduction
Lecture 1 What will you learn in this course
Lecture 2 The new Raspberry Pi 3
Lecture 3 Setting up the on-board Bluetooth on your Raspberry Pi 3
Section 2: Flow Meter
Lecture 4 Project concept and the hardware requirements
Lecture 5 Circuit diagram – Flow sensor connection
Lecture 6 Programming the flow sensor
Lecture 7 Real time demonstration : Flow meter
Lecture 8 Complete Source Code
Section 3: Aeroponics
Lecture 9 Concept behind Aeroponics system
Lecture 10 Hardware requirements and design of the Aeroponics system
Lecture 11 Circuit diagram – LCD connection with the GPIO pins
Lecture 12 Table – LCD and the GPIO pins mapping
Lecture 13 Understanding and programming the 16×2 LCD
Lecture 14 16×2 LCD Real time demonstration
Lecture 15 Complete Source Code
Lecture 16 Circuit diagram – Aeroponics
Lecture 17 Choosing the right IoT gateway
Lecture 18 Designing the Dashboard
Lecture 19 IoT : Back-end configuration in Raspberry Pi
Lecture 20 Aeroponics programming : Initializing the API
Lecture 21 Aeroponics programming : Controlling the mist machine
Lecture 22 Live Dashboard
Lecture 23 Real time demonstration Aeroponics
Lecture 24 Complete Source Code
This course is for anyone who wish to explore Raspberry Pi in the field of Agriculture and wants to know in depth about IoT
Homepage
https://www.udemy.com/course/iot-enabled-aeroponics-using-raspberry-pi-3/
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