CO Detection in High-Mileage Vehicle Cabins and Traffic Density Analysis Using Fuzzy Logic
Carbon monoxide (CO) inside vehicle cabins poses a significant health risk to passengers and can even lead to fatalities. This danger primarily arises from inadequate ventilation, which allows exhaust fumes to seep into the cabin and be gradually inhaled. CO is a gas that lacks color, odor, taste, a...
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| Format: | Article |
| Language: | Indonesian |
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Universitas Muhammadiyah Purwokerto
2025-08-01
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| Series: | Jurnal Informatika |
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| Online Access: | http://jurnalnasional.ump.ac.id/index.php/JUITA/article/view/26854 |
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| author | Suzuki Syofian Aji Setiawan Muhamad Fathan Rolan Siregar |
| author_facet | Suzuki Syofian Aji Setiawan Muhamad Fathan Rolan Siregar |
| author_sort | Suzuki Syofian |
| collection | DOAJ |
| description | Carbon monoxide (CO) inside vehicle cabins poses a significant health risk to passengers and can even lead to fatalities. This danger primarily arises from inadequate ventilation, which allows exhaust fumes to seep into the cabin and be gradually inhaled. CO is a gas that lacks color, odor, taste, and does not cause irritation, making it difficult to detect without proper tools. It is commonly encountered in industrial environments and is produced by the incomplete combustion of fuel in motor vehicles, heating systems, devices that burn carbon-based materials, wood stoves, train emissions, gas burning, and even tobacco smoke. However, the primary contributor is the residual combustion from vehicle engines. Given these concerns, this study aims to develop a system to monitor and control carbon monoxide concentrations within vehicle cabins using fuzzy logic. The system achieved an average error rate of 2.9% in reducing CO concentrations, with responsive fan control latency below 5 seconds. A microcontroller will serve as the core component for processing and control. The implementation of this system is expected to enable real-time detection of CO levels in the cabin and alert the driver accordingly. Ultimately, this can help reduce incidents of CO poisoning among vehicle occupants |
| format | Article |
| id | doaj-art-ab73d4bd13de429eb9bc0d179b549b5a |
| institution | Kabale University |
| issn | 2086-9398 2579-8901 |
| language | Indonesian |
| publishDate | 2025-08-01 |
| publisher | Universitas Muhammadiyah Purwokerto |
| record_format | Article |
| series | Jurnal Informatika |
| spelling | doaj-art-ab73d4bd13de429eb9bc0d179b549b5a2025-08-20T03:39:36ZindUniversitas Muhammadiyah PurwokertoJurnal Informatika2086-93982579-89012025-08-0122923410.30595/juita.v13i2.2685421860CO Detection in High-Mileage Vehicle Cabins and Traffic Density Analysis Using Fuzzy LogicSuzuki Syofian0Aji Setiawan1Muhamad Fathan2Rolan Siregar3Universitas Darma PersadaDepartment Information of Technology Darma Persada University, IndonesiaDepartment Information of Technology Darma Persada University, IndonesiaDepartment Mechanical Engineering Darma Persada University, IndonesiaCarbon monoxide (CO) inside vehicle cabins poses a significant health risk to passengers and can even lead to fatalities. This danger primarily arises from inadequate ventilation, which allows exhaust fumes to seep into the cabin and be gradually inhaled. CO is a gas that lacks color, odor, taste, and does not cause irritation, making it difficult to detect without proper tools. It is commonly encountered in industrial environments and is produced by the incomplete combustion of fuel in motor vehicles, heating systems, devices that burn carbon-based materials, wood stoves, train emissions, gas burning, and even tobacco smoke. However, the primary contributor is the residual combustion from vehicle engines. Given these concerns, this study aims to develop a system to monitor and control carbon monoxide concentrations within vehicle cabins using fuzzy logic. The system achieved an average error rate of 2.9% in reducing CO concentrations, with responsive fan control latency below 5 seconds. A microcontroller will serve as the core component for processing and control. The implementation of this system is expected to enable real-time detection of CO levels in the cabin and alert the driver accordingly. Ultimately, this can help reduce incidents of CO poisoning among vehicle occupantshttp://jurnalnasional.ump.ac.id/index.php/JUITA/article/view/26854harmful emissionsfuzzy logicvehicle mileageco gas |
| spellingShingle | Suzuki Syofian Aji Setiawan Muhamad Fathan Rolan Siregar CO Detection in High-Mileage Vehicle Cabins and Traffic Density Analysis Using Fuzzy Logic Jurnal Informatika harmful emissions fuzzy logic vehicle mileage co gas |
| title | CO Detection in High-Mileage Vehicle Cabins and Traffic Density Analysis Using Fuzzy Logic |
| title_full | CO Detection in High-Mileage Vehicle Cabins and Traffic Density Analysis Using Fuzzy Logic |
| title_fullStr | CO Detection in High-Mileage Vehicle Cabins and Traffic Density Analysis Using Fuzzy Logic |
| title_full_unstemmed | CO Detection in High-Mileage Vehicle Cabins and Traffic Density Analysis Using Fuzzy Logic |
| title_short | CO Detection in High-Mileage Vehicle Cabins and Traffic Density Analysis Using Fuzzy Logic |
| title_sort | co detection in high mileage vehicle cabins and traffic density analysis using fuzzy logic |
| topic | harmful emissions fuzzy logic vehicle mileage co gas |
| url | http://jurnalnasional.ump.ac.id/index.php/JUITA/article/view/26854 |
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