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TRIOE

 * Home
 * About
 * Kits
 * Modules
 * Wiser Map
 * Gallery
 * Team
 * Get Started


TRIOE: TINKERING RESOURCE FOR INTERNET OF EVERYTHING


IT'S AN ONLINE PLATFORM THAT TEACHES INTERNET OF THINGS (IOT) TECHNOLOGY. IT
ENCOURAGES HANDS-ON LEARNING, WHERE USERS ACTIVELY USE TECHNOLOGY TO EXPLORE AND
INNOVATE, ESPECIALLY WITHIN THE INTERNET OF EVERYTHING (IOE) FIELD. ESSENTIALLY,
IT'S A PRACTICAL TOOL FOR UNDERSTANDING AND BUILDING IOE SYSTEMS.




STARTING GUIDE

TRIOE, an open-source customizable circuit board for IoT enthusiasts and
students. It's designed to be flexible and adaptable for a wide range of IoT
applications.

 * 01 Hardware Setup
   
   Step 1: Gather Your Tools TRIOE Kit:
   
   Purchase a TRIOE Kit or TRIOE Slice.
   
   Step 2: USB to Serial Adapter:
   
   Get a USB to Serial Adapter for connecting the TRIOE Slice to your computer.

 * 02 Software Setup
   
   Step 3: Download Arduino IDE:
   
   Go to Arduino IDE and download the latest version.
   
   Step 4:Install ESP8266 Board Support:
   
   Open Arduino IDE. Go to "File" > "Preferences." Add this URL to "Additional
   Boards Manager URLs":
   http://arduino.esp8266.com/stable/package_esp8266com_index.json Go to "Tools"
   > "Board" > "Boards Manager" and install "esp8266" package.

 * 03 Write your first program
   
   Step 5: Connect TRIOE:
   
   Connect the TRIOE to your computer using the USB to Serial Adapter. Choose
   Board and Port: In Arduino IDE, go to "Tools" > "Board" and select your TRIOE
   model. Choose the correct port under "Tools" > "Port."
   
   Step 6: Upload Code: Click the "Upload" button to send the code to the TRIOE.
   
   Step 7: Explore and Have Fun! learn as you go




TRIOE KITS

STEM LEARNING KIT


MU KIT

A comprehensive learning tools & kit designed to enhance STEM students'
understanding of programming through hands-on experiences.

ADVANCE LEARNING KIT


LAMBDA KIT

A comprehensive learning tools & kit designed for advanced knowledge expertise
required for DIY projects where users are working with various frequencies of
technology and exploring diverse wavelengths of innovation.


CPU VS POWER

Modern Line Chart


LEARNING MODULES

STEM LEARNING KIT

A comprehensive learning tool designed to enhance STEM students' understanding
of programming through hands-on experiences.

SMART BUILDING LEARNING KIT

This Smart Home application utilizes the TRIOE board to control various devices
within a home environment. It enables users to remotely monitor and manage
lights, temperature, and security systems using a mobile app

AGRI AQUA LEARNING KIT
(ON GOING)

This application focuses on agriculture and aquaculture monitoring. It uses the
TRIOE board to collect data from various sensors measuring soil moisture, pH
levels, water temperature, and more. The data is then sent to a cloud server for
analysis and visualization.

ROBOTICS LEARNING KIT
(ON GOING)

In this application, the TRIOE board is integrated into a robotic system. It
controls motors, reads input from various sensors, and communicates with a
remote control interface. This enables the robot to perform tasks such as object
detection, navigation, and manipulation.


WISER MAP

Use this map to display sensor details from the TRIOE Board.

View



FREQUENTLY ASKED QUESTIONS

 * How do I program the TRIOE Slice?
   
   You can program the TRIOE Slice using the Arduino IDE, PlatformIO, or other
   compatible development environments. First, install the necessary board
   support in the IDE and then write your code using C++.

 * How do I power the TRIOE Slice?
   
   It can be powered through a USB to Serial Adapter, a dedicated power supply,
   or from the 3.3V pin on some development boards. Ensure that the power source
   provides the required voltage and current.

 * What are GPIO pins, and how do I use them?
   
   General Purpose Input/Output (GPIO) pins can be used to control external
   components like LEDs, sensors, and actuators. You can set them as input or
   output in your code to read or send signals.

 * Can I connect the TRIOE Slice to Wi-Fi?
   
   Yes, the it has built-in Wi-Fi capabilities. You can connect to a Wi-Fi
   network in your code, allowing your device to communicate with other devices
   and the internet.

   


ABOUT US

The TRIOE project is dedicated to provide a highly adaptable, open-source IoT
circuit board designed to cater to the specific needs of developers and makers.
Our primary goals include:

 * Open-Customization and Flexibility:
 * Open-Source Foundation:
 * Diverse Connectivity Options:
 * Accessibility for Developers of All Levels:
 * Comprehensive Sensor Integration:
 * Expanding IoT Development Horizons:
 * Community Building and Collaboration:

TRIOE, an open-source customizable circuit board for IoT enthusiasts and
students. It's designed to be flexible and adaptable for a wide range of IoT
applications. An open source design for experimentation and innovation Equipped
with various sensors and connectivity options including Wi-Fi, and soon
Bluetooth and Ethernet Highly customizable with comprehensive GitHub guide
designed to assist programmers in all skill levels.


Learn More from Github


TEAM

DR. TIRSO A. RONQUILLO

University President

ENGR. ALBERTSON AMANTE

VP for Research, Development and Extension Services

ENGR. JOHN CARLO CATILO

University Research Associate

ENGR. MARC JAMES BELTRAN

University Research Associate

ENGR. JOHN PAUL HEJE

University Research Associate


CONTACT INFORMATION

STEER Hub Building,
Batangas State University, Alangilan,
Batangas City

Phone: (043) 980 0384 local 1114
Email: bucopi@g.batstate-u.edu.ph


© Copyright TRIOE. All Rights Reserved