This document summarizes a technical seminar presentation on the design and implementation of a rescue system for women's safety. The system includes a wearable unit with a camera, RF module and switch circuit. A handheld unit includes an RF module, controller and GPS receiver. The system allows for image streaming from the wearable camera unit to a web page. It also provides location tracking of the wearable unit using GPS. The hardware includes an Arduino, GPS module, GSM module and webcam. The software is programmed using Arduino for location tracking and Rasberry Pi for image streaming. Testing showed the location tracking and image streaming components worked as intended. The system aims to provide safety monitoring and alert services for women.

1. K.S. INSTITUTE OF
TECHNOLOGY
TECHNICAL SEMINAR ON
Design and Implementation of a
Rescue System for Safety of
Women
coordinators
Mrs Supriya.V, Asst.Prof
Mrs Yeshwini.V, Asst.Prof
Presented by
Kumari Amrutha. B
1KS13TE023
Department of Telecommunication
Engineering

2. CONTENTS
Introduction
Literature survey
System overview
Image streaming
Location tracking
Hardware design
Software design
Results
Conclusion
References

7. Personal
alarm

11. Hand held unit
Wearable unit

15. RF
module
Switch Shock
circuit
Camer
a
modul
e
Audio
module
WEARABLE UNIT

16. Transmitter
module
Controlle
r
unit
RF module
Gps
receiver
unit
Hand held unit

17. Image streaming
Web cameras are usually made up of CCD or
CMOS sensors.

18. How does an image sensor chip
work

19. How does the image sensor convert
a picture in to digital form
Capture
Convert to
pixels
Assign
binary
values

21. Arduino GSM
GPS Mobil
e
Trigger from
wearable
section
Location tracker
Block diagram of location tracker

22. Location tracking
using GPS

23. Satellites surrounding the earth

24. GSM
model
Transmission of message through GSM modem

26. Hard ware design
Microcontroller : Ardino UNO R3 board

29. Other hardware components
GPS module: GPS PA6E-CAM GNSS
MODULE
GSM SIM 900A: SIMCOM900A GSM
MODULE
Logitech webcam: logitech C170

30. Raspberry Pi 2 Model B
.

31. Software design
Arduino programming: Used for
location tracking .
Rasberry pi programming: Used
for image streaming.

33. RESULTS
GPS module testing

34. Table 8.1 Analysis table of TTF and TTFF

35. Results of location tracking system

36. Results of image streaming

37. HOW IT
WORKS
FINALLY

38. Police control
room
family
video
Arrested
Emergency
Button
GPS
GIRL in
DANGE
R

39. CONCLUSION
In this paper, we have proposed the designing
and implementation of a safety system for women
in the form of partial wearable. Going serially as
per the objectives mentioned, a location tracking
subsystem was successfully implemented and the
corresponding results were logged. The successful
streaming of images of a live event on a web page
was done within an intranet. The further
implementation of the system will be performed
in accordance with the goals mentioned in the
future scope.

40. [1] http://ncrb.gov.in/MAPS-2014/ALL-MAPS- 2014 . Viewed on 15/08/2015
[2] Toney, G.; Jabeen, F.; Puneeth, S., “Design and Implementation of Safety
Armband for Women and Children using ARM7”, International Conference on
Power and Advanced Control Engineering (ICPACE), 2015, pp. 300-303
[3] Punetha, D.; Mehta, V. “Protection of the child/ elderly/ disabled/ pet by smart
and intelligent GSM and GPS based automatic tracking and alert system” ,Advances
in Computing, Communications and Informatics (ICACCI, 2014 International
Conference on Year: 2014 pg2349 – 2354
[4] Dafallah, H.A.A, “Design and implementation of an accurate real time GPS
tracking system.”, e-Technologies and Networks for Development (ICeND), 2014
Third International Conference on Year: 2014 pg 183 – 188
[5] M.F. Saaid, M.A. Kamaludin, M.S.A. Megat Ali, “Vehicle Location Find Using
Global Position System and Global System for Mobile” , 2014 IEEE 5th Control
and System Graduate Research Colloquium, Aug. 11 - 12, pp. 279-285.
REFERENCES

41. [6] www.raspberrypi.org/tutorials viewed on 11/11/2015
[7] www.logitech.com/product/webcam-c170 viewed on 20/11/2015
[8] www.gtop-tech.com/PA6ECAM datasheet viewed on 17/09/2015
[9] Bharath Patil, Radhika Patil, Dr. Andre Pittet, “Energy saving techniques for gps based tracking
applications”, Integrated Communications, Navigation and Surveilance Conference (ICNS), 2011, pp. J8-17.
[10] Lih Chieh Png, Liangquan Chen, Song Liu, and Wei Kuan Peh, “An Arduino-based Indoor Positioning
System (IPS) using Visible Light Communication and Ultrasound”, 2014 ICCETaiwan, pp. 217-218
[11] Cabal-Aragon, J.; Pomarico-Franquiz, J.; Shmaliy, Y.S.; VeraAlmanza, O “Embedded microcontroller
using GPS asecurresource for disabled people” Instrumentation and Measurement Technology Conference
(I2MTC) Proceedings, 2014 IEEE International,pp: 226-229
[12] Zhang Songwei; Cui Xiao, “Design and implementation of network camera based on TMS320DM365” ,
Artificial Intelligence, Management Science and Electronic Commerce (AIMSEC), 2011 pp 3864 – 3867.
[13] Youjing Cui; Shuzhi Sam Ge, "Autonomous vehicle positioning with GPS in urban canyon
environments," IEEE Transactions on Robotics and Automation, vo1.l9, no.l, pp.15-25, Feb 2003