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Innovations

Discover the ultimate innovations of the future developed by Thai researchers! Meet the latest technology from KMITL that will transform our way of life and industry.

Project Urban House

คณะสถาปัตยกรรม ศิลปะและการออกแบบ

Project Urban House

The Project Urban House is an initiative focused on developing and designing urban housing solutions that address the growing demand for city living. The project emphasizes efficient space utilization, sustainability, and designs that cater to modern urban lifestyles. Key considerations include the use of eco-friendly materials, the integration of green spaces, and the implementation of smart home technologies to enhance residents' quality of life.

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burden - Take me to dream

คณะสถาปัตยกรรม ศิลปะและการออกแบบ

burden - Take me to dream

On the path of life since we were born, we have encountered many things in life, differences and various characteristics. However, each factor of each person's life has different responsibilities, dreams, and life context differences. Everyone still has to struggle against obstacles and many burdens in life, shouldering the responsibilities of themselves and their families in order to survive. Living in different ways, with many burdens and dreams, but in real life, how many people can shoulder these burdens to reach their dreams?

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OverSteer!

คณะวิทยาศาสตร์

OverSteer!

With the arrival of multimedia innovations such as games, access to media has changed, creating novelty in media consumption. Oversteer is a project that takes advantage of gaming media to allow users to experience driving similar to driving on a racetrack.

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DISPOSABLE AND LOW-COST GOLDLEAF ELECTRODE-DECORATED AuPt-Ru/RGO NANOCOMPOSITE FOR ULTRASENSITIVE ELECTROCHEMICAL APTASENSOR QUANTIFICATION OF  AFLATOXIN B1 IN AGRICULTURAL PRODUCTS

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DISPOSABLE AND LOW-COST GOLDLEAF ELECTRODE-DECORATED AuPt-Ru/RGO NANOCOMPOSITE FOR ULTRASENSITIVE ELECTROCHEMICAL APTASENSOR QUANTIFICATION OF AFLATOXIN B1 IN AGRICULTURAL PRODUCTS

With the urgent need for rapid screening of Aflatoxin B1 (AFB1) due to its association with increased liver cirrhosis and hepatocellular carcinoma cases from contaminated agricultural foods, we propose a novel electrochemical aptasensor. This aptasensor is based on trimetallic nanoparticles AuPt-Ru supported by reduced graphene oxide (AuPt-Ru/RGO) modified on a low-cost and disposable goldleaf electrode (GLEAuPt-Ru/RGO) for detection of AFB1. The trimetallic nanoparticle AuPt-Ru was synthesized using an ultrasonic-driven chemical reduction method. The synthesized AuPt-Ru exhibited a waxberry-like appearance, with AuPt core-shell structure and ruthenium dispersed over the particles. The average particle size was 57.35 ± 8.24 nm. The AuPt-Ru was integrated into RGO sheets (inner diameter of 0.5 to 1.6 µm) in order to enhance electron transfer efficiency and increase the specific immobilizing surface area of the thiol-5’-terminated modified aptamer (Apt) to target AFB1. With a large electrochemical surface area and low electrochemical impedance, GLEAuPt-Ru/RGO displays ultra-high sensitivity for AFB1 detection. Differential pulse voltammetry (DPV) measurements revealed a linear range for AFB1 detection range from 0.3 to 30.0 pg mL-1 (R2 = 0.9972), with a limit of detection (LOD, S/N = 3) and a limit of quantification (LOQ, S/N = 10) of 0.009 pg mL-1 and 0.031 pg mL-1, respectively. The developed aptasensor also demonstrated excellent accuracy in real agricultural products, including dried red chili, garlic, peanut, pepper, and Thai jasmine rice, achieving recovery rates between 94.6 and 107.9%. The fabricated aptamer-based GLEAuPt-Ru/RGO performance is comparable to that of a modified commercial electrode, which has great potential application prospects for detecting AFB1 in agricultural products.

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Process development of healthy snack products from germinated brown rice flour and banana flour using the extrusion process

คณะอุตสาหกรรมอาหาร

Process development of healthy snack products from germinated brown rice flour and banana flour using the extrusion process

This study aimed to develop a formula and production process for snacks made from germinated brown rice flour and banana flour using the extrusion process. The results indicated that both germinated brown rice flour and banana flour could be effectively used as the main raw materials for snack production via extrusion. The proportion of flour in the formula and production conditions, such as moisture content of the raw materials, barrel temperature, and screw speed, significantly influenced the nutritional value, bioactive compound levels, and antioxidant activity of the final products.

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BottleBank - Automatic Waste Collection Bin for Plastic and Cans

คณะวิทยาศาสตร์

BottleBank - Automatic Waste Collection Bin for Plastic and Cans

This project presents the development of an automatic recycling machine for plastic bottles and cans, utilizing Machine Learning for packaging classification through image processing, integrated with smart sensor systems for quality inspection and operation control. The system connects to a Web Application for real-time monitoring and control. Once the packaging type is verified, the system automatically calculates the refund value and processes payment through e-wallet or issues cash vouchers. The system can be installed in public spaces to promote waste segregation at source, reduce contamination, and increase recycling efficiency. It also provides financial incentives to encourage public participation in waste management. This project demonstrates the potential of combining Machine Learning and smart sensor systems in developing accurate, convenient, and sustainable waste management solutions.

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DEVELOPMENT OF CURCUMIN DOUBLE-WALLED BEADS COLORIMETRIC SENSOR FOR DETERMINATION OF PYRIDOXINE (VITAMIN B6) IN DIETARY SUPPLEMENT WITH DETECTION BY IMAGE PROCESSING

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DEVELOPMENT OF CURCUMIN DOUBLE-WALLED BEADS COLORIMETRIC SENSOR FOR DETERMINATION OF PYRIDOXINE (VITAMIN B6) IN DIETARY SUPPLEMENT WITH DETECTION BY IMAGE PROCESSING

A smartphone-based colorimetric sensor for quantitative detection of pyridoxine (Vitamin B6, VB-6) in functional drink samples has been realized by developing double layer hydrogel. Electrostatic interaction initiates the cross-linking and produces double layer hydrogel.

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The Development of Hand Gesture Recognition for Controlling Electronic Devices

คณะวิทยาศาสตร์

The Development of Hand Gesture Recognition for Controlling Electronic Devices

This research will begin with a review of literature and related studies to examine existing technologies and methods for hand gesture recognition and their applications in controlling electronic devices such as drones, robots, and gaming systems. Subsequently, a hand gesture recognition system will be designed and developed using machine learning and computer vision techniques, with a focus on creating an algorithm that operates quickly and accurately, making it suitable for real-time control. The developed system will be tested and refined using various simulated scenarios to evaluate its efficiency and accuracy in diverse environments. Additionally, a user-friendly interface will be developed to ensure accessibility for all user groups. The research will also incorporate qualitative studies to gather feedback from both novice users and experts, which will contribute to further system improvements, ensuring it effectively meets user needs. Ultimately, the findings of this research will lead to the development of a functional prototype for gesture-based control, which can be applied in industries and entertainment. This will contribute to advancements in innovation and new technologies in the future.

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Coral In focus

คณะวิทยาศาสตร์

Coral In focus

Currently, climate change and human activities are causing rapid deterioration of coral reefs worldwide. Monitoring coral health is essential for marine ecosystem conservation. This project focuses on developing an Artificial Intelligence (AI) model to classify coral health into four categories: Healthy, Bleached, Pale, and Dead using Deep Learning techniques. With pre-trained convolutional neural network (CNN) for image classification. To improve accuracy and mitigate overfitting, 5-fold Cross-Validation is employed during training, and the best-performing model is saved. The results of this project can be applied to monitor coral reef conditions and assist marine scientists in analyzing coral health more efficiently and accurately. This contributes to better conservation planning for marine ecosystems in the future.

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