Authors :
ZIAH DELFINO; Winona Melgar; ROGINE SHANE CABALLERO ; JOHN RHICO V. CUBOL; Frede Ann F. Cabusas; Joyce C. Dura
Volume/Issue :
Volume 8 - 2023, Issue 12 - December
Google Scholar :
http://tinyurl.com/bd4z6ex7
Scribd :
http://tinyurl.com/ye29c4sv
DOI :
https://doi.org/10.5281/zenodo.10432661
Abstract :
The study aimed to harness the Vibration-
Energy through piezoelectric transducers, Radiant-
Energy through solar panel, mechanical to electrical
energy through stationary bicycle that device-charging
utilization that linked to capacitive moisture sensor V1.2
as sweat detector that display in monitor through
Liquefied Crystal Display (LCD) which received by the
athletes through the used SIM800C GSM indicating the
equivalent glasses-volume of water drunk by the athletes.
The data were collected, tabulated, and analyzed using
the SPSS (version 14) statistical tools: mean and
percentage.
From the study conducted, it was found that the
capacitive soil moisture sensor V1.2 as sweat detector was
effective under the Arduino Uno Code program that
relates to the LCD (Liquefied Crystal Display) monitor
that displayed during actual EPSB (Electricity-Producing
Stationary Bicycling) sweat detection with SIM800C GSM
sending text to the athletes reflecting the equivalent
glasses-volume of water to be drink by the athletes that
linked to VRM-Energy accumulating Saddle under EPSB
(Electricity-Producing Stationary Bicycling) was effective
in accumulating the following: Vibration-Energy through
piezoelectric transducers, Radiant-Energy-Harnessing
through solar panel, and Mechanical-Energy to Electrical
Energy conversion through Electricity-Producing
Stationary Bicycle in device-charging utilization.
Keywords :
Capacitive Soil Moisture Sensor; Arduino Uno; Liquified Crystal Display (LCD); Electricity-Producing Stationary Bicycling, Piezo Electric Transducer.
The study aimed to harness the Vibration-
Energy through piezoelectric transducers, Radiant-
Energy through solar panel, mechanical to electrical
energy through stationary bicycle that device-charging
utilization that linked to capacitive moisture sensor V1.2
as sweat detector that display in monitor through
Liquefied Crystal Display (LCD) which received by the
athletes through the used SIM800C GSM indicating the
equivalent glasses-volume of water drunk by the athletes.
The data were collected, tabulated, and analyzed using
the SPSS (version 14) statistical tools: mean and
percentage.
From the study conducted, it was found that the
capacitive soil moisture sensor V1.2 as sweat detector was
effective under the Arduino Uno Code program that
relates to the LCD (Liquefied Crystal Display) monitor
that displayed during actual EPSB (Electricity-Producing
Stationary Bicycling) sweat detection with SIM800C GSM
sending text to the athletes reflecting the equivalent
glasses-volume of water to be drink by the athletes that
linked to VRM-Energy accumulating Saddle under EPSB
(Electricity-Producing Stationary Bicycling) was effective
in accumulating the following: Vibration-Energy through
piezoelectric transducers, Radiant-Energy-Harnessing
through solar panel, and Mechanical-Energy to Electrical
Energy conversion through Electricity-Producing
Stationary Bicycle in device-charging utilization.
Keywords :
Capacitive Soil Moisture Sensor; Arduino Uno; Liquified Crystal Display (LCD); Electricity-Producing Stationary Bicycling, Piezo Electric Transducer.