2. Hardware Description
The used components and
the reason behind each
option
Table of Contents
Why IoT for industrial
applications
1 3
Our prototype
An overview of the system
functionality
4
Software Description
Software functionality,
features and mechnisms
2
4. Industry 4.0
One of the keys to success in Industry 4.0
and smart manufacturing is adding IoT
connectivity to machinery.
intelligent inputs (analog, digital, video,
audio) and outputs (analog, digital, video,
audio) communicating using Internet data
communications concepts and
technologies.
6. Structure and objectives
1
Automated
control
Real time monitoring,
Maintenance, quality
controls, process
monitoring
2
Safety
Ensuring reliability and
safety in the
workplace
3
Economised
consumption
Power consumption
reduction
8. Processing
Unit
ESP-32 Module
● Wi-Fi networking solution
● Low cost, low power system
● processing and storage capability through its
GPIOs
● Integrated with sensors and specific application
devices
● Various peripherals and communication
protocols ADCs, DACs, UART, SPI, I2C
9. LDR Light dependent
resistors
Light
Gas
CO concentration in
the air MQ-07
A
Sensors
Temperature
Temperature and
humidity sensor DHT-11
Fire
Flame Sensor
Module KY-26
B
C
D
A
B
C D
10. Lighting Bulbs
Ventilating Fan
Regulating and adjusting
the environment temp
Controlled by MCU with
relays
Actuators
Motors
Stepper and DC motors
Alerting Buzzer
Indication of any
ubnormal situations
13. What does the platfom offer ?
1
Sensors
Status boxes,
dynamic information
2
Loads
Automated control
3
Actuators
Parameters adjustemt
and regulations
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