Authors :
M.Devanathan; K.Abinaya; M. Akshaya; J.Amoha; R. Sathya
Volume/Issue :
Volume 9 - 2024, Issue 3 - March
Google Scholar :
https://tinyurl.com/3hs4ab2d
Scribd :
https://tinyurl.com/2d7pvpub
DOI :
https://doi.org/10.38124/ijisrt/IJISRT24MAR1611
Note : A published paper may take 4-5 working days from the publication date to appear in PlumX Metrics, Semantic Scholar, and ResearchGate.
Abstract :
Assistive device tailored for visually
impaired individuals to navigate streets, public spaces,
and seeking aid independently. It outlines the key
components of the system, including a microcontroller
board, various sensors, cellular communication, GPS
modules, IoT technology, and a Bluetooth instruction
provider are showcasing the technological backbone
supporting its functionalities. The system primarily
employs sensors to track the user's path and detect
obstacles, alerting them through sound and wrist
vibrations. Notably, it also notifies nearby individuals
when assistance is required and sends alerts, alongside
the user's location, to registered family members and
caregivers via phone messages. Furthermore, registered
phones can retrieve the system's location and enable
real-time tracking of VIP. The abstract underscores the
system's thorough testing and verification process,
ensuring its functionality effectiveness. Lastly, it
emphasizes the system's superiority over existing
solutions and anticipates its significant positive impact
on enhancing the quality of life for visually impaired
individuals.
Keywords :
IOT, SOS, GSM, GPS, Bluetooth, Embedded C.
Assistive device tailored for visually
impaired individuals to navigate streets, public spaces,
and seeking aid independently. It outlines the key
components of the system, including a microcontroller
board, various sensors, cellular communication, GPS
modules, IoT technology, and a Bluetooth instruction
provider are showcasing the technological backbone
supporting its functionalities. The system primarily
employs sensors to track the user's path and detect
obstacles, alerting them through sound and wrist
vibrations. Notably, it also notifies nearby individuals
when assistance is required and sends alerts, alongside
the user's location, to registered family members and
caregivers via phone messages. Furthermore, registered
phones can retrieve the system's location and enable
real-time tracking of VIP. The abstract underscores the
system's thorough testing and verification process,
ensuring its functionality effectiveness. Lastly, it
emphasizes the system's superiority over existing
solutions and anticipates its significant positive impact
on enhancing the quality of life for visually impaired
individuals.
Keywords :
IOT, SOS, GSM, GPS, Bluetooth, Embedded C.
