Project No. 31: Creating Smart Cane For Blind People

1. Introduction: 

In today’s fast-paced world, mobility and independence are essential for individuals with visual impairments. To address the challenges faced by blind individuals in navigating their surroundings, we present a Smart Stick designed to provide obstacle detection and navigation assistance. By integrating infrared (IR) sensors, an ultrasonic sensor, a buzzer, a red LED, and a vibrator motor, our system aims to enhance the mobility and safety of blind individuals while also catering to the needs of those who are deaf or hard of hearing. 

The primary objective of our project is to develop a reliable and user-friendly Smart Stick that offers real-time obstacle detection and situational awareness. By utilizing an Arduino board and strategically placing two IR sensors at the front of the stick, we can detect objects within close proximity. An ultrasonic sensor positioned horizontally between the IR sensors allows for measuring distances to objects in the user’s path.

The Smart Stick incorporates various alerting mechanisms to ensure effective communication with the user. When obstacles are detected, an audible alert is generated through a buzzer, enabling individuals to perceive potential hazards through sound. Additionally, a red LED provides a visual indicator, offering an alternative means of obstacle detection. To cater to the needs of individuals who are deaf or hard of hearing, a vibrator motor is included, providing tactile feedback to enhance their awareness of obstacles.

2. Working: 

Step1: Hardware Setup:
Connect the IR sensors, ultrasonic sensor, buzzer, red LED, and vibrator motor to the Arduino board according to their respective pin configurations. Ensure all components are properly powered and connected. Power on the Arduino board, initializing the system.


Step2: Sensor Data Calibration: 
Continuously read data from the IR sensors and ultrasonic sensor. Obtain distance measurements from the ultrasonic sensor to detect objects in the user's path.

Step3: Obstacle Detection
Analyze the sensor data to determine if any obstacles are present. Compare the measured distances with predefined thresholds to identify objects within close proximity.

Step4: Alert Mechanism: 
If an obstacle is detected, activate the alerting mechanisms to notify the user. Trigger the buzzer to emit audible alerts, providing a clear indication of potential obstacles. Illuminate the red LED as a visual indicator, enhancing obstacle detection for users with residual vision. Activate the vibrator motor to provide tactile feedback, alerting individuals who are deaf or hard of hearing.

Step5: User Interaction: 
Incorporate user interaction components, such as buttons or switches, to provide customization options

3. Things that you will get with models: 

1. Detailed Model
2. Well soldered circuits
3. detailed Report Book
4. PPT
5. Similar as above

4. Project price:

You can buy this project at price 1900 Rs.

You can also customize your project according to your requirement as below:

The price of this projects depend on the component used in the model, for example in the above model the component used is:

1. Arduino UNO
2. Battery for power supply
3. Ultrasonic Sensor
4. Buzzer
5. Resistor
6. LED
7. 2 x Sensor
8.Vibration motor
9. Connecting wire
10. Other small components


There are some other optional component available that you can remove or add it to the model according to your need, so the price of the project will decrease or increase according to price of component according to price of component and coding.


In summery, you can tell us what functionalities and components that you want to add or remove from the model, so the price will change accordingly. If you have any question related to this project then contact me:  click here

Basically you will get all this things that required to present this project in front of your external, teacher, for practical use at your home or to show off in front of  your friends 😉😉,so if you want to buy this project then fill this google form:  https://docs.google.com/forms/d/e/1FAIpQLSfDQvyFqN1iDLOFhGNB0KK_nEW1rZujUEdmvNNQNazXK4tAZA/viewform?usp=sf_link


Note: The image shown is a conceptual representation and may not accurately reflect the final design or features of the actual model. The actual model will be developed based on extensive research, engineering, and design processes to ensure optimal performance and user experience.

Feel free to contact me I am always here for you

About Us: click here
Contact Detail:  click here
For delivery detail: click here 
Telegram: https://t.me/arduinoproject1

Comments

Post a Comment

Popular posts from this blog

Project No. 29: Creating Car Accident Alert System

Image
1. Introduction:   In today’s fast-paced world, ensuring road safety is of paramount importance. To address this concern, we present a project that utilizes Arduino, GSM (Global System for Mobile Communications) module, and GPS (Global Positioning System) module to develop a Vehicle Accidents System capable of detecting sudden accidents and promptly notifying authorized individuals for immediate assistance.   Our project focuses on leveraging gyroscope and accelerometer sensors in conjunction with Arduino microcontrollers to detect abrupt changes in vehicle motion. These sensors provide precise measurements of angular velocity and linear acceleration, enabling us to identify collision events and classify them as potential accidents.   The integration of Arduino, GSM module, and GPS module empowers the system to respond swiftly and efficiently in emergency situations. When an accident is detected, the system triggers a series of actions to notify preconfigured authorized contacts vi
Read more

Project No. 09: Creating a Door Lock Security System With Call Notification

Image
  1. Introduction:  The Door Security System is an innovative project designed to enhance the security of a door by incorporating advanced technology. The system utilizes an ultrasonic sensor mounted on the door and an obstacle positioned on the adjacent wall to detect any unauthorized movement of the door from its fixed position. When such movement is detected, the system triggers an alarm to alert the surroundings and simultaneously sends a message to a pre-configured authorized person via a GSM module. This project aims to provide an effective and reliable solution for door security, ensuring prompt notifications and swift response to potential breaches. The primary components of the system include the ultrasonic sensor, microcontroller (such as Arduino), obstacle, GSM module, and an alarm mechanism. The ultrasonic sensor continuously emits ultrasonic waves towards the obstacle and measures the time it takes for the waves to bounce back. By analyzing these measurements, the system c
Read more

Project No. 21: Creating a Smart Plant Watering System

Image
1. Introduction:  Welcome to the world of smart gardening with our innovative project, the Smart Plant Watering System! This project aims to revolutionize the way we care for our plants by automating the process of watering based on their specific moisture needs. With the help of a moisture sensor, water pump, and control system, this system ensures that your plants receive the optimal amount of water for healthy growth. Traditional plant care often relies on manual observation and estimation of moisture levels, leading to overwatering or underwatering. Our Smart Plant Watering System eliminates the guesswork and provides a reliable and efficient solution to maintain proper soil moisture levels. The heart of our system lies in the moisture sensor, which is strategically placed in the soil near the plant’s roots. This sensor continuously measures the moisture content by analyzing the electrical conductivity or resistance changes in the soil. When the moisture level falls below a pre
Read more