TY  - BOOK
AU  - Armintia, Arnold A., author
AU  - Salme. Marc Christian G., author
AU  - Paulino, Jurick P., adviser
AU  - Dharma, John Michael A., critic
TI  - Hydrological Monitoring and Alarm System (HMOA)
AV  - UM TC 163 A76 2018
PY  - 2018///
CY  - Rosario, Cavite
PB  - Cavite State University-CCAT Campus
KW  - Hydrological monitoring
KW  - design and construction
KW  - Ultrasonic
KW  - Water level status
KW  - Sensor
KW  - Alarm
N1  - Project Design (BSEE)--Cavite State University-CCAT Campus, 2018; Includes bibliographical references and appendices
N2  - ARMINTIA, ARNOLD A., SALME, MARC CRISTIAN G. Hydrological Monitoring and Alarm System (HMOA). Design Project. Department of Engineering. Cavite State University - Cavite College of Arts and Trade Campus, Rosario, Cavite. March 2018. Adviser: Mr. Jurick P. Paulino. Technical Critic: Mr. John Michael A. Dharma

The study generally aimed to develop an early warning device that uses ultrasonic sensors to monitor the water level, alert the low-lying and flood prone communities of Rosario, Cavite using GSM and a Siren system, and create a response system in times of weather disturbances through siren. Specifically, the study aimed to: (1) design and develop a water level monitoring and alarm system using an ultrasonic form of measurement; (2) test and evaluate the device in terms of water level measurement accuracy, information dissemination and alarm sounding delay; operational consistency, and conduct a cost analysis of the system. The study was conducted from May 2017 to March 2018 at Cavite State University- CCAT Campus, Rosario Cavite. 

The system was 100 percent operational in design functions and features. Therefore implying that the HMOA system could be applied and installed purposively. Statistical Analysis showed that there was no significant difference in the measurement of water level obtained from the HMOA and from actual measurements (standard meter with the p value of 0.068<0.5 at a=0.05). The information dissemination and alarm sounding delay was observed to have a range of 32.12 (±4.44) seconds and 26.53 (±2.70) seconds due to the different factors (code delay, GSM initialization delay, and SIM network provider's signal strength).

ER  -