GEMASTIK XVII Piranti Cerdas, Sistem Benam dan IoT | Gemastik24-12242113 | AQUADRAC | Proposal

Yufanada Azmi
28 Jun 202402:50

Summary

TLDRThis video discusses the public health concerns surrounding cigarette smoke, highlighting both active and passive smokers as victims. It introduces an innovative system designed to combat air pollution caused by cigarette smoke through a combination of smart technology, including MPU sensors, Arduino microcontrollers, and IoT elements. The system detects smoke, filters harmful gases into breathable oxygen, and provides real-time monitoring through a mobile app. The integration of biological components, like extracts from the Drasaina plant, further enhances the system's ability to purify air. The project aims to promote better health and sustainability, contributing to a healthier, smoke-free environment.

Takeaways

  • 😀 Cigarette smoke is a significant public health concern, affecting both active and passive smokers.
  • 😀 Long-term exposure to cigarette smoke can lead to serious diseases like lung cancer and heart disease.
  • 😀 The goal is to improve public services for a prosperous Indonesian society through sustainable development goals.
  • 😀 The system aims to enhance health and prosperity by providing access to clean water and sanitation.
  • 😀 The project incorporates three key technological elements: smart devices, embedded systems, and IoT (Internet of Things).
  • 😀 The MPU sensor is used to detect smoke, including cigarette smoke, to improve air quality.
  • 😀 An Arduino microcontroller is the heart of the project, managing the operations of the entire system.
  • 😀 The system includes IoT components, such as cables for sound calculation and IoT plates for remote monitoring via mobile apps.
  • 😀 When cigarette smoke or carbon dioxide is detected, the system filters the air, turning harmful gases into safe oxygen.
  • 😀 The system integrates biological components, using extracts from the Drasaina plant to convert carbon dioxide into oxygen.
  • 😀 Real-time monitoring and control of air quality are facilitated through the Aquad Drag mobile app, which provides notifications and alerts.

Q & A

  • What are the primary health risks associated with cigarette smoke mentioned in the script?

    -Cigarette smoke is a serious public health issue, increasing the risk of diseases such as lung cancer and heart disease, not only for active smokers but also for passive smokers.

  • What is the purpose of implementing the Sustainable Development Goals (SDGs) in this context?

    -The purpose of implementing SDGs is to improve public services and contribute to a prosperous Indonesian society, specifically by focusing on good health and prosperity.

  • How does the system described in the script aim to address cigarette smoke pollution?

    -The system uses smart devices, embedded systems, and the Internet of Things (IoT) to detect and filter cigarette smoke, turning it into clean, breathable oxygen.

  • What role does the MPU sensor play in the system?

    -The MPU sensor detects and responds to the presence of smoke, including cigarette smoke, triggering the system's filtration process.

  • What is the function of the Arduino microcontroller in the system?

    -The Arduino microcontroller serves as the brain of the system, coordinating the operations from the block diagram design to the tool circuit scheme.

  • What are some of the IoT components mentioned in the system?

    -The IoT components include cables for calculating sound, IoT plates for monitoring and analyzing mobile-based applications, and tools for remote monitoring and control.

  • How does the system address the presence of carbon dioxide in cigarette smoke?

    -When the system detects carbon dioxide from cigarette smoke using the MQ2 sensor, it activates a filtration process that absorbs the gas and filters it into safe oxygen.

  • What is the role of the HEPA filter in the system?

    -The HEPA filter is part of the filtration system that helps clean the air by converting harmful gases, like carbon dioxide, into oxygen, making it safe to breathe.

  • How does the biological component of the system contribute to air quality improvement?

    -The biological component, derived from the Drasaina plant, aids in converting carbon dioxide into oxygen, enhancing the system's air filtration capabilities.

  • How is the monitoring and control of the air quality system conducted?

    -The system is monitored in real time through the AquaDrag application, which displays smoke detection levels and sends warning notifications for continuous monitoring and control.

Outlines

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Mindmap

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Keywords

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Highlights

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Transcripts

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Related Tags
Cigarette SmokePublic HealthIoT TechnologySustainable SolutionsAir QualityHealth InnovationCarbon DioxideArduino MicrocontrollerEnvironmental MonitoringPassive SmokingClean Air