IOT BOARD – Advanced Electronic Systems and Solutions

Iot Board Feature

ALS-SDA-IOT-02

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Development Boards:
Arduino Uno (ATmega328P Development Board)
ESP32 (Inbuild Wi-Fi and Bluetooth)
Raspberry Pi Pico (RP2040 Cortex-M0+ Development Board)
STM32 (Arm Cortex-M3 LQFP 48 pins Development Board)
Raspberry Pi 3/4/5 – 40 Pin Bus Interface (Optional on PCB)
Outputs & Actuators:
RGB LED – (2Nos – On-Board)
User Push Button– (2Nos – On-Board)
Relay – (2Nos – On-Board)
Buzzer – (1Nos – On-Board)
10K Potentiometer – (1Nos – On-Board)
1.8” TFT Display
Extra GPIO & Power Pins to Interface External Sensors
Multi – Sensors:
3-Axis Accelerometer Sensor Module – (1Nos – System on Module) MPU6050
Barometric Pressure Sensor – (1Nos – System on Module) BMP180
Temperature and Humidity Sensor Module – (1Nos – System on Module) DHT11
MQ135 GAS Sensor
Ultrasonic Sensor
Touch, LDR and IR Sensor
Communication Protocols:
LoRa SX1276 RFM95W Module (System on Module)
GSM: A7670C GSM 4G (System on Module)
RS232 Module (System on Module)
RS485 Module (System on Module)
MCP2515 CAN BUS (System on Module)
Extra GPIO & Power Pins to Interface External Sensors
Proposed Solutions with Multi MCU IoT Board
Smart Home Automation
• Components: ESP32, relays, temperature sensors, light sensors, motion detectors.
• Functionality: Control lighting, temperature, and security systems remotely through a mobile app or web interface.
Environmental Monitoring System
• Components: Arduino, ESP32, humidity sensors, air quality sensors, temperature sensors.
• Functionality: Monitor environmental parameters and provide real-time data to a centralized server for analysis and reporting.
Industrial IoT Solutions
• Components: ESP32, pressure sensors, vibration sensors, proximity sensors.
• Functionality: Monitor and control industrial equipment, predict maintenance needs, and optimize operations.

Implementation Plan
Requirements Gathering
• Identify specific use cases and requirements.
• Determine the necessary hardware and software components.
Design and Prototyping
• Design the overall system architecture.
• Develop prototypes using the Multi MCU IoT Kit, Arduino, and ESP32 controllers.
Development
• Implement the IoT solutions as per the design specifications.
• Integrate sensors, actuators, and communication modules.
Testing and Validation
• Conduct thorough testing to ensure system functionality and reliability.
• Validate the system against the defined requirements.
Deployment and Maintenance
• Deploy the IoT solutions in the target environment.
• Establish a maintenance plan for ongoing support and updates.
Benefits
• Scalability: The proposed solutions can be easily scaled to accommodate additional devices and functionalities.
• Cost-Effectiveness: Utilizing Arduino and ESP32 controllers ensures a cost-effective approach to IoT development.
• Real-Time Monitoring: Enables real-time data collection and analysis, leading to better decision-making.
• Remote Control: Provides the ability to control and monitor devices remotely, enhancing convenience and efficiency.

BASIC EXPERIMENTS
• Blink a RGB LED
• Pushbutton with LED
• DHT 11 Interfacing with Arduino
• Interfacing Relay with AC Appliances
• Interfacing PoT for Reading Analog Value
• Interfacing BMP180 Sensor
• Interfacing of MPU6050
• Interfacing of TFT LCD
• Interfacing DHT 11, BMP180, MQ135, ADXL345 with Multi MCU
• Interfacing & Controlling Relay with AC Appliances
ADVANCED EXPERIMENTS
• Programming to send “HELLO WORLD” via Bluetooth
• Experiencing to Interface MPU6050 and BMP180 Sensor and send data to Blynk Cloud App
• Experiencing to Control RGB LED using Blynk
• Experience to send the DHT11 data via MQTT protocol and control the Appliance via MQTT
• Experiencing the DHT 11, IR and Ultrasonic Sensor with LoRaWAN
• Sending DHT 11 sensor Data form Arduino UNO to Blynk through ESP3

Conclusion
The integration of the ALS Multi MCU IoT Kit with different controllers offers a powerful platform for developing a wide range of IoT applications. By following the outlined implementation plan, we can achieve a robust, scalable, and cost-effective IoT system that meets the needs of various industries and applications.

Iot Board Feature

ALS SDA IOT VTU 01

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Development Boards :
Arduino Uno
Provision of BUS connector for Raspberry Pi 3/4/5
Outputs & Actuators:
RGB LED – (1 Nos – On-Board)
User Push Button– (2 Nos – On-Board)
Relay – (1 Nos – On-Board)
Buzzer – (1 Nos – On-Board)
10K Potentiometer – (1 Nos – On-Board)
0.9inch OLED Display
Extra GPIO & Power Pins to Interface External Sensors
Multi – Sensors:
Barometric Pressure Sensor BMP180
Temperature and Humidity Sensor Module DHT11
MQ135 GAS Sensor
Ultrasonic Sensor
Touch Sensor
LDR Sensor
IR Sensor

List of experiments
1. Develop a program to illustrate the working of LED with a push button.
2. Develop a program to illustrate the working of traffic lights for pedestrians.
3. Develop a program for fading the LED.
4. Develop a program to blink 6 LEDs in ODD and Even Fashion.
5. Develop a program to rotate servo motor both in clockwise and anticlockwise direction.
6. Develop a program to simulate the interfacing of LDR with Arduino and control the intensity of LED using LDR.
7. Develop a program to simulate the working of potentiometer and LED by varying the intensity of LED using potentiometer.
8. Develop a program to simulate the working of LCD and print the room temperature value on LCD.
9. Develop a program for scrolling 5 LEDs back and forth.
10. Develop a program to calculate the distance of an object using ultrasonic sensor.
11. Develop a program to detect the collision using infrared sensor.
12. Develop a program to interface temperature sensor to read the room temperature, humidity and heat index and print the readings on the serial monitor.

Iot Board Feature

ALS SDA IOT BIOMED 01

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Micro controller:
ESP32 (In build Wi-Fi and Bluetooth)
Sensors:
• IR Temperature Sensor
• EMG Sensor
• CO2 Gas Sensor
• Heart Rate & Oximeter Sensor
• GSR Sensor
• ECG Sensor
• 4G Module
• RGB LED
• Active Buzzer
• Push Buttons
• Additional pins for GPIO and power for the External Sensor Interface

Experiment List and Objectives for IoT Medical Kit :
Remote Patient Monitoring Objectives:

Monitor vital signs
Send real-time health data to a cloud
Analyze data for early detection of health

Sensors Involved:

Heart rate and oximeter sensor
ECG sensor
EMG sensor
IR temperature sensor
GSR sensor

Wearable Health Monitor Objectives:

Design a wearable device to continuously monitor vital
Alert patients and caregivers of abnormal
Collect long-term health data for
Sensors Involved:
Heart rate and oximeter sensor
ECG sensor
EMG sensor
IR temperature sensor
GSR sensor

Stress and Anxiety Monitoring Objectives:

Monitor physiological responses to
Develop algorithms to detect stress and anxiety
Provide feedback to users for stress

Sensors Involved:

GSR sensor
Heart rate and oximeter sensor
EMG sensor

Chronic Disease Management Objectives:

Monitor patients with chronic diseases like diabetes, heart disease, and respiratory
Provide insights into disease progression and
Improve patient compliance with treatment

Sensors Involved:

Heart rate and oximeter sensor
ECG sensor
IR temperature sensor
CO2 gas sensor

Environmental Health Monitoring Objectives:

Monitor environmental factors affecting health, such as air
Correlate environmental data with health
Develop systems to alert users of poor environmental

Sensors Involved:

CO2 gas sensor
IR temperature sensor
Heart rate and oximeter sensor

Fitness and Performance Tracking Objectives:

Track physical activity and performance
Provide feedback for improving fitness and
Prevent injuries through monitoring muscle activity.

Sensors Involved:

EMG sensor
Heart rate and oximeter sensor
IR temperature sensor

Sleep Quality Monitoring Objectives:

Monitor physiological parameters during
Analyze data to assess sleep quality and detect
Provide insights for improving sleep
Sensors Involved:
Heart rate and oximeter sensor
GSR sensor
IR temperature sensor
ECG sensor

Emergency Health Alerts Objectives:

Detect critical health conditions in real-time.
Send emergency alerts to medical personnel and family
Ensure timely intervention during health

Sensors Involved:

Heart rate and oximeter sensor
ECG sensor
IR temperature sensor

Personalized Health Insights Objectives:

Collect comprehensive health data for personalized health
Use data analytics to provide recommendations for lifestyle changes.
Empower users to take proactive steps for better

Sensors Involved:

All sensors (Heart rate and oximeter sensor, ECG sensor, EMG sensor, IR temperature sensor, CO2 gas sensor, GSR sensor)

Medical Research and Data Collection Objectives:

Collect large datasets for medical
Analyze data for identifying trends and patterns in
Contribute to advancements in medical science and

Sensors Involved:

All sensors (Heart rate and oximeter sensor, ECG sensor, EMG sensor, IR temperature sensor, CO2 gas sensor, GSR sensor)

Iot Board Feature

ALS SDA IOT VTU 01

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