defense

1. PROJECT LIGTAS:
Location Identification Vehicle Accident
Alert System using GSM and GPS
Communication Devices with Tilt Sensor,
Accelerometer and Vibration Sensor
PILI NATIONALHIGHSCHOOL
Pawili Pili CamarinesSur
Jessa Mae F. Siares

2. ● Road traffic accidents have been the main cause of death for
children and people between the ages of 5 and 29. The most
frequent causes of traffic accidents include human errors like
speeding, driving while drunk or high on drugs like alcohol, not
using safety devices like seatbelts and child restraints, and
driving while preoccupied.
● In 2021, road accidents involving cars in Metro Manila in the
Philippines accounted for 48 percent of the total road accidents
involving vehicles. Motorcycle collisions came next, making up
about 24 percent of all vehicle accidents in the area (Statista,
2022).
PROBLEM

3. ● For the reason stated, the researcher use the concept of accident
alert system that would undoubtedly function as an aid to
invention, a solution to a problem, and a link to the previously
described case. With that idea the researcher create the “Project
LIGTAS: Location Identification Vehicle Accident Alert System
using GSM and GPS Communication Devices with Tilt Sensor,
Accelerometer and Vibration Sensor” that is very useful for the
accidents that occurred in deserted places, rural areas, and
midnights.

4. STATEMENT OF THE PROBLEM
General
❏ This study aim to answer the questions of how this device
can contribute to our specific problem in Vehicle Accident
and the effects of providing the Location Identification
Vehicle Accident Alert System using GSM and GPS
Communication Devices with Tilt Sensor, Accelerometer
and Vibration Sensor.

5. STATEMENT OF THE PROBLEM
Specific
❏ Design of the Computer Based Monitoring Vehicle and Accident Alert
System using Sensors and Bluetooth Module along:
a) Hardware
b) Software
❏ Effectiveness of the intervention to Computer Base Monitoring Vehicle
and Accident Alert System through the use of Sensor and Bluetooth
Module base computer monitoring devices in terms of functionality,
structure/design, and safety measure of the system device.

6. STATEMENT OF THE PROBLEM
Specific
❏ Determine the significant difference between the stability setup of GSM and
GPS Communication Devices and the Tilt Sensor, Accelerometer and Vibration
Sensor in location identification of the vehicle accident alert system.
❏ Establish the significant relationship between the Accelerometer and
Vibration Sensor in terms of accuracy in location identification of the vehicle
accident alert system.
❏ Determine the significant relationship of Accelerometer, Tilt Sensor, and
Vibration Sensor in terms of efficiency in the road accidents.

7. SIGNIFICANCE OF THE STUDY
This research srudy can contribute to the following:
Philippine National Police(PNP) office and other rescue related agencies
Drivers
Community
Researchers
Pili National High School administration; and
Future researchers

8. Conceptual framework
INPUT
• Programing
• Testing of the device
• Data gathering and analysis
• Construction of devices and circuits
PROCESS
OUTPUT
• Arduino Uno Microcontroller
• Accelerometer
• Tilt Sensor
• Vibration Sensor
• GSM and GPS Module
• Terminal block
•
• Control Relay
• Dc Motor
• Connecting Wires
• Siren
• 16x2 LCD
• Calculations and preliminary
design
•
• The Location Identification Vehicle Accident Alert System using
GSM and GPS Communication Devices with Tilt Sensor,
Accelerometer and Vibration Sensor
• Monitoring system performance and functionality effectiveness

9. METHODOLOGY
• Arduino Uno Microcontroller
• GSM and GPS Module
• Tilt Sensor
• Vibration Sensor
• Accelerometer
Identifying the components and materials used:
• Connecting Wires
• Control Relay
• Terminal Block
• 16 x 2 LCD
• Siren

10. a. Making the device
• First the researchers will make a control system that will control a dummy
car where the device will be installed.
procedure

11. B. Making the CIRCUIT OF THE SYSTEM device
STEP 1: Connecting the GSM and GPS modules to the Arduino board.
procedure
STEP 2. The Connection of Accelerometer to the Arduino Board.

12. B. Making the CIRCUIT OF THE SYSTEM device
STEP 3. The Connection of Tilt Sensor to the Arduino Board.
procedure
STEP 4. The Connection of Vibration Sensor to the Arduino Board.

13. B. Making the CIRCUIT OF THE SYSTEM device
STEP 5. The Connection of Liquid Crystal Display (LCD) to Arduino Board.
procedure

14. C. PROGRAMMING THE CODES IN THE SOFTWARE
procedure

15. D. RESEARCH INSTRUMENT
procedure
• Research instruments that will be used in Statistical
treatment are the T-test, Correlational, and one-way
ANOVA test to obtain, measure, and analyze data from
subjects were used to collect relevant data related to the
research problem, designed for measuring intended
outcomes.

16. Send via
GSM and
GPS
module
FLOWCHART
FLOWCHART ON HOW THE
DEVICE WORK

17. The diagram above shows the entire and whole connections of the device that was
made. This could serve as a clearer view of the process taken in making the study.

18. Thank You for
listening!
Name of the Researcher:
JESSA MAE F. SIARES
PAWILI PILI CAMARINES SUR
PILI NATIONAL HIGH SCHOOL