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Technical category
技術研發單位
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    • Startup Acceleration and International Promotions for the Medical Device Industry

      FutureTech Startup Acceleration and International Promotions for the Medical Device Industry

      "Biomdcare’s Osteoporosis AI Screening Assistant is the first ever AI model to use hip X-ray image as the source to perform fast screening on Osteoporosis and has achieved 90% of accuracy. This Osteoporosis AI Screening Assistant can be equipped on mobile X-ray buses to help expand the screening area to communities and rural areas.;Mobiosense is leveraging the semiconductor expertise in Taiwan to develop a semiconductor biomolecule sensor that can directly detect biomolecules (proteins, DNA, etc) without any fluorescent or electrochemical reagents, enabling portable yet high sensitivity biotesting at the point of care without bulky, hard to use instruments;The Smart Hearing Solution combines innovative product design (IP) and artificial intelligence systems (AI) to enhance the quality of the user's hearing. It solves the problem that traditional hearing aids are completely unclear when talking to many people. The core technology of the product includes ""voice beamforming system design"", ""computer vision analysis technology"", ""AI deepening neural network"" to solve the problem of multi-human ""language noise"" noise reduction for international manufacturers (cocktail party effect)."
    • Air quality index (AQI) gas sensor service platform

      FutureTech Air quality index (AQI) gas sensor service platform

      The optical detection device is fabricated based on the nitrogen dioxide absorbs the wavelength of light from 400nm to 550nm. The detection range, resolution and sensitivity are related to design of light path. The light signals can be received by the photodetector convert to concentrations of nitrogen dioxide which transfer to computer or mobile immediately.;The all-solid sulfur dioxide gas sensor developed by SSID team. The key technology is the special functionality of solid electrolyte and electrode materials, and then the layer material sequentially patterned design and planning. It can be used in high temperature and highly corrosive exhaust gas environment to achieve real-time monitoring of pollution emissions.;The 6'~8'MEMS technology service platform of TSRI was used to develop
    • Advancement Project for Smart Machinery and Aerospace Industries in Central and Southern Taiwan

      FutureTech Advancement Project for Smart Machinery and Aerospace Industries in Central and Southern Taiwan

      The developed technology is a cross-platform interface demonstrates its capabilities via the machining center VP2012. The interface is able to synchronize operating systems for diversified controllers. It integrates multiple functions, such as intelligent thermal balance, intelligent vibration analysis, and artificial neural network learning responsive technique. The developed technology advances software, hardware and firmware of a MIT machining center, setting up a representative example of smart machine for local manufactures, even the whole industry.
    • Green Energy Technology Joint Research and Development Program

      FutureTech Green Energy Technology Joint Research and Development Program

      1. Toward All Slot-Die Fabricated High Efficiency Large Area Perovskite Solar Cell Using Rapid Near Infrared Heating in Ambient Air 2. Fault Current Indicator 3. Plasma Sprayed Metal-supported Solid Oxide Fuel Cell 4. Sulfide-based Solid-state Lithium-ion Battery with High Capacity and Safety
    • Population Health Research

      Excellence Research Center FutureTech Population Health Research

      1.Real-time monitoring of air quality in indoor and outdoor environments: Sensors based on laser light scattering and electrochemistry are used for monitoring PM2.5 and other air pollutants in indoor and outdoor environments. The collected data from the sensors are transferred to the data center at NTU PHRC by 4G LTE. The residents can obtain the real-time air quality information through the website. 2. Precision Prevention Application: an APP of CVD Risk Prediction: We developed an application for predicting CVD risk based on a Bayesian predicting model with personalized factors. With the precision risk of CVD, the health care workers can provide personalized suggestion for patients.
    • The gender discrimination of income distributions

      Excellence Research Center FutureTech The gender discrimination of income distributions

      We develop a test for discrimination and apply it to analyze the change in income distributions between female and male. We then classify our data into married and single groups to trace the sources of income differences between female and male from 2005 to 2015.
    • A smart monitoring system for shrimp growth

      Excellence Research Center FutureTech A smart monitoring system for shrimp growth

      This technology uses a customized high-resolution saltwater proof video camera that operates underwater for months on end without maintenance. The captured images are pre-processed to adjust the brightness and maximize the sharpness, after which the images are input into a region-based convolutional neural networks (R-CNN) for training and identification. This technology is currently able to reliable identify shrimp in these images and to distinguish between the shrimp’s head and tail in order to conclude whether the image shows a complete shrimp.
    • Thermoplastic Casting Tape

      Excellence Research Center FutureTech Thermoplastic Casting Tape

      The invention relates to a thermoplastic thin 2D mesh fabric composite structure, which particularly can be used as a medical protector or in connection with sporting activities with impact resistance, light weight and high air permeability, and has a reshapeable orthopedic support, or fixed support bandages for limbs and / or joints. The thermoplastic thin 2D mesh fabric composite structure mainly includes a breathable mesh fabric and a high molecular polymer coated on the breathable mesh fabric that can be reshaped and reused when exposed to heat.
    • P-SERS: Rapid and Sensitive On-site Detection Platform

      Excellence Research Center FutureTech P-SERS: Rapid and Sensitive On-site Detection Platform

      Surface-enhanced Raman spectroscopy (SERS) is a useful analytical technique for detecting extremely small amounts of molecules. Herein, we designed a paper-based quasi-three-dimensional SERS substrate (P-SERS) that can provide potential to improve Raman analyses for food safety, pesticide poisoning, precision medicine, drug abuse and DNA/RNA testing. The sensitive, low-cost, flexible and disposable SERS substrate could be easily fabricated by physical deposition of gold nanoparticles array onto a filter paper. In this case, we are able to create non-continuous Au islands on the fiber surfaces, where the gaps between AuNPs can dramatically generate the high electric field to enhance Raman signal of target molecules.
    • Application of Internet of Things(IoT)  in Flood Monitoring

      FutureTech Application of Internet of Things(IoT) in Flood Monitoring

      Combining automatic real-time flood sensing technology from Civil IoT with real-time precipitation data from CWB to reduce the incidence of false alert. By merging technology with Google Street View, terrain data and real-time observation image from MOI, users can easily get information about flooded area through Disaster Response Decision Support System (DRDSS)
    • Rollable and soft photonic meta-device

      Excellence Research Center FutureTech Rollable and soft photonic meta-device

      With the development of photonics, there has been a push towards optoelectronic devices that are flexible, rollable, wearable, user-friendly, and robust to improve human-machine interfaces. To be integrated onto human body, these devices must be biocompatible and be able to withstand mechanical deformation and different bending curvatures. Figure 1 shows the rollable and soft photonic meta-device.
    • Highly Efficient Fabrication and Applications of Bioinspired Flexible Photonic Crystals by Trapping of Structural Coloration

      National Synchrotron Radiation Research Center FutureTech Highly Efficient Fabrication and Applications of Bioinspired Flexible Photonic Crystals by Trapping of Structural Coloration

      Rapid fabrication of network-structured amphiphilic block copolymer photonic crystal films could be accomplished by the facile spin-casting process. By immersing into alcohols, the swollen network could give rise to the visible structural coloration. Unlike the disappearance of the visible reflection in the lamellar film, the network structure could trap the visible structural coloration by vitrification of the network after drying, namely, trapping of structural coloration (TOSC). With further control of diffusive distance and diffusivity, full-visible-wavelength structural colorations are obtained. This TOSC is reversible and responsive with heat. By TOSC, we firstly fabricate the flexible copolymer photonic crystal featuring tunable and reversible structural colorations in solid state.
    • Fast Cancer Screening and Prognosis Assessment and Prediction of Treatment Response in Chronic Kidney Disease by Using Synchrotron Infrared Microscopy

      National Synchrotron Radiation Research Center FutureTech Fast Cancer Screening and Prognosis Assessment and Prediction of Treatment Response in Chronic Kidney Disease by Using Synchrotron Infrared Microscopy

      1. Infrared wax physisorption kinetics (iR-WPK) provides a glyco-histopathological imaging analysis for examining tissue sections, which utilizes n-alkanes with carbon number (CN) from 20 to 34 and beeswax as glycan adsorbents for targeting similar longitudinal length of glycans of glycoconjugates anchoring in the cell surface. 2. It is an in-situ non-destructive method of examining tissue sections for cancer screening and prognosis prediction for chronic kidney disease by profiling aberrant glycans covalently-attached to both glycoconjugates anchored in tissue sections. 3. It can screen ten cancers including colon cancer, breast cancer, ovary cancer, cervical cancer, oral cavity cancer, gastric cancer, skin cancer, prostate cancer, intestinal neuroendocrine tumor and brain cancer.
    • The Future Light Source - Ultrafast Molecular Imaging: Free Electron Laser

      National Synchrotron Radiation Research Center FutureTech The Future Light Source - Ultrafast Molecular Imaging: Free Electron Laser

      In NSRRC, we set up a superradiant free electron laser in terahertz frequency range by employing an in-house developed laser-driven photocathode radio frequency electron gun system and a technology called radio frequency electron bunch compression. It is currently the terahertz radiation source with the highest peak power in Taiwan. In addition, we also designed an extreme ultraviolet free electron laser test facility that is based on similar technology. These light sources can be applied significantly to research fields such as semiconductors, quantum materials, and biomedicine.
    • Blowing type of Ketone gas sensor applied in healthy care

      National Applied Research Laboratories FutureTech Blowing type of Ketone gas sensor applied in healthy care

      This technology is used micro-electro-mechanical systems combined nanomaterials and micro-heater systems, because the interdisciplinary integrated manufacturing technologies are used to make miniaturized sensor elements, which are equipped with bluetooth functions of algorithms and detection devices to monitor the ketones gas concentration during patient breathing applied in healthy care.
    • The technology of urban traffic control optimization platform

      National Applied Research Laboratories FutureTech The technology of urban traffic control optimization platform

      The urban traffic control optimization platform technology is developed by combining vehicle tracking and identification technology with traffic control factor simulation technology, the system is equipped with vehicle counting and vehicle type classification, regional intersection traffic simulation, light optimization and other functions. Through the combination of traffic information and deep learning analysis to help optimize traffic signals at each intersection, it promotes smoother driving for the public.
    • Zero Contact Detection-Facial Stroke, Heart Rate and Breath Detection Technology

      Precision Health Ecosystem FutureTech Zero Contact Detection-Facial Stroke, Heart Rate and Breath Detection Technology

      We use features such as asymmetric expression and crooked eyes to assess the risk of facial stroke. Observing the micro vibration of the head caused by the contraction of the heart, and develop a zero-contact facial heart rate and respiration rate detection technology in conjunction with the camera. The technology can accurately measure heart rate and respiration rate in real time, thereby reducing the risk of infection. This technology has obtained two ROC patents (M590433, I689285), two US patents (HEART RATE DETECTION METHOD AND DEVICE THEREOF,MOUTH AND NOSE OCCLUDED DETECTING METHOD AND SYSTEM THEREOF). The possibility of detecting strokes through AI machine learning methods is not only accurate, but also find out signs of stroke early to grasp the best time to seek medical treatment.
    • Mass production technology of fluorinated graphene and its multi-functional applications on surface coating

      Smart machinerynovel materials FutureTech Mass production technology of fluorinated graphene and its multi-functional applications on surface coating

      In this invention, the fluorinated graphene(FG) is obtained by the fluorination of electrochemically exfoliated graphene (ECG), which is found to be a one-step approach for the scalable preparation of FG. The precursor with fluorine atoms is mixed with the ECG followed by applying lower energy to produce the fluorinated graphene. This process demonstrates an eco-friend and safe as well as scalable features. We have demonstrated their multi-functional applications on surface coatings, including the outperformance anticorrosion passivation, hydrophobic surface with ultra-strong adhesion, and high safety energy storage device. This technology provided a new strategy for next-generation functional and atomic layered coatings.
    • Composite High-Entropy Oxide of Piezocatalyst in Organic Dye Degradation

      Smart machinerynovel materials FutureTech Composite High-Entropy Oxide of Piezocatalyst in Organic Dye Degradation

      A composite multi-cation high-entropy catalyst, which integrates the concept of high-entropy compounds into traditional metal oxide catalysts, such as spinel, perovskite, and fluorite structure. By the combination of photoelectric, piezoelectric, and ferroelectric materials with the characteristic high-entropy oxides. The high-entropy composite piezoelectric catalysts could become a promising technology for clean energy applications, such as organic dye degradation and hydrogen generation.
    • Rapid Detection of AIOT Platform for Food SafetyEpidemic Prevention

      Precision Health Ecosystem FutureTech Rapid Detection of AIOT Platform for Food SafetyEpidemic Prevention

      The innovative technology which is based on the unique biomimetic material, including immunomagnetic nanoparticles, aqueous extraction solvent,a portable IoT detection device promotes the detection speed, accuracy,precision of the target molecule. Featuring with the excellent ability of non-specific binding, this technology decreased the probability of false-negative/false-positive succe
    • Development of cutting knowledge base to enhance machine tool performance

      Smart machinerynovel materials FutureTech Development of cutting knowledge base to enhance machine tool performance

      "Tool replacementtool life diagnosis" in smart manufacturing is a key link between the quality of workpiecethe efficiency of the manufacturing process, so it is an indicator of the operating efficiency of machine tools. This technology combines on-site monitoring data, laboratory analysisdeep learning to provide best tool selectionprocessing parameter combinations for
    • Intelligent In Situ Monitoring of Membrane Fouling

      AI & IOT Application FutureTech Intelligent In Situ Monitoring of Membrane Fouling

      This technology uses in-situ optical photointerrupt sensorin-situ acoustic ultrasonic transducer to measure the growth of fouling layer thickness during membrane water treatment. Being the world’s first to combine real-time filter speed attenuation dataphysical mode of clogging, the clogging of film can be instantly analyzed in a smart way which in turn effectively extends its lifetime. T
    • Germplasm Bank of Medicinal Coral Producing New Targeted Anti-cancer Agenttheir Aquaculture Technology Platform

      Precision Health Ecosystem FutureTech Germplasm Bank of Medicinal Coral Producing New Targeted Anti-cancer Agenttheir Aquaculture Technology Platform

      The present invention discloses the germplasm bank of medicinal coral producing new targeted anti-cancer agent and their aquaculture technology platform. The medicinal corals are collected in Kenting, located at the southern tip of Taiwan. In response to the unmet medical needs of new anti-cancer drugs, our research results will provide more diverse types of new drug targets and lead compounds in the "new drug development-new drug discovery and exploration period".
    • Continuous Monitoring of the CloudRain from Geostationary Satellite

      AI & IOT Application FutureTech Continuous Monitoring of the CloudRain from Geostationary Satellite

      This technology is developed and controlled by the National Central University, Central Weather Bureau and Academic Sinica. The processing system is housed at NCU and technical support is served in Taiwan to the global. The data is acquired and preprocessed by CWB, and followed by the invention of the cloud properties retrieval algorithm package by NCU. The final retrieval algorithm package is evaluated and enhanced by the local observation from Academic Sinica. Therefore, the processing system can be assured for its performance and reliability. This state-of-the-art technology has been recognized and approved by AGU JGR-Atmospheres, the leading journal in Q1 level of the related research community by the anonymous peer reviewing in June 2020.
    • Towards Automatic Hyperspectral Imaging via the Combination of Sample Navigation MappingLaser Scanning Spectral Microscopy

      Electronic & Optoelectronics FutureTech Towards Automatic Hyperspectral Imaging via the Combination of Sample Navigation MappingLaser Scanning Spectral Microscopy

      Photonic_Workshop@CCMS.NTU has successfully developed a motorized micro-mapping system to explore and navigate samples. This system is able to acquire high resolution images to produce a sample map automatically. This map is also synchronized with the coordinates of motorized stages. This achievement allows users to explore and position their hotspots from the map, and precisely deploy the hotspot to the central field of view by motorized stages. In addition, this mapping system can combine with a laser scanning confocal spectral microscope (LSCSM) to acquire sample spectral mapping. Our result has shown the capability to improve the efficiency of hotspot positioning and data acquisition process.
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