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To change the current situation that shoes have complex compositions, is difficult to recycle, and is treated as garbage. The domestic high-quality polyester is used to develop 100% polyester shoes and suitable for processing uppers, soles and glue. When 100% polyester shoes are discarded, they can be put into themo-melt granulation equipment to reprocess polyester pallets and new products, which fit to the trend of environmental protection and sustainability. Technical Features︰ (1)100% Shoes made of polyester material (2) Non-disassembling and classification after recycling (3)It can be themo-melted and remanufactured to create new views
Innovation Pilot | Life ApplicationThis technology can combine additive design of dissimilar metals through friction stir welding, and form various 3D structural dissimilar aluminum alloy parts through additive manufacturing method of solid state process. This technology can maintain the characteristics of the raw materials and complement the characteristics of dissimilar metals.
Innovation Pilot | Materials & Chemical Engineering & NanotechThe Taiwan Textile Research Institute has successfully developed the innovative material " 80°F Thermostatic Microcapsules Ultra-fine Fiber Leather " by combining water-based microcapsules technology" and solvent-free ultrafine fiber nonwoven technology". This leather has a temperature holding adjustment function, which can maintain the temperature at 80℉ (27 ℃), solving discomfort caused by prolonged wearing of headphones or sitting on leather seats that may cause temperature rise. It is also lightness and breathability, bringing an important breakthrough to the leather industry.
Innovation Pilot | Life ApplicationITRI has developed a novel coordinated supramolecular composite carrier technology for efficient drug delivery to the posterior eyeball in eye drop products. Using this technology, ITRI has successfully developed the world's most convenient eye drop treatment for wet AMD, replacing the need for ocular injections. The product addresses needle phobia and reduces risks of bleeding and infection associated with injections, offering a non-invasive and self-administrable solution. Features & Specifications: .Substaintial enhancement of drug solubility and ocular tissue penetration .Non-invasive drug delivery technology for posterior ocular drug delivery .Substitution of eye Injections with the eye drop products
Innovation Pilot | Biotechnology & Medical careAccuPick can learn and classify objects using only a small number of image samples. It can recognize highly complex images and objects that are difficult to identify with traditional vision, such as metal sheets, rubber, textiles with complex textures, and even transparent and overlapping materials. Accurate identification.
Innovation Pilot | Electronics & Optoelectronics/Information & CommunicationsThe traditional prognosis and recovery from stroke rely mostly on the judgment of professional personnel without objective and real-time monitoring technology. With the rapid growth of the digital healthcare market, the industry urgently needs to develop remote or home-based rehabilitation technology. This technology is based on conductive fibers, developing flexible conductive wires and electromyographic electrodes that comply with the medical electrical requirements such as ANSI/AAMI EC53 and ANSI/AAMI EC12. At the same time, a 2-in-1 accurate motion detection garment is developed, which underwent biocompatibility testing and can be washed 100 times repeatedly. Unlike traditional motion detection devices, this garment can simultaneously provide feedback on the user's muscle and joint activity information and enhance training enjoyment through AR. In the future, in addition to home rehabilitation, it can also be extended to accurate sports, games, and professional training applications.
Innovation Pilot | Biotechnology & Medical careActive safety control technology of electronically controlled braking systems, including anti-lock braking (ABS), electronic brake force distribution (EBD), hill hold assist (HHA), and other intelligent brake assist functions. It can be applied to various types of vehicles and provides braking performance on par with international manufacturers.
Innovation Pilot | Machinery & System(1)It can maintain thermal compensation accuracy of the machine tool over a long period of time. (2)It ensures stability in the machine tool's machining accuracy and quality. (3)It can reduce the labor cost associated with controlling machine tool thermal errors.
Innovation Pilot | Machinery & SystemThe "AI Aquarium" is the world's first artificial intelligence-guided system designed to assist visitors in instantly identifying various marine creatures. By utilizing intuitive virtual-real fusion, the system can accurately recognize aquatic species and display relevant information on a transparent screen This information seamlessly aligns with the visitor's line of sight, resulting in a more engaging and educational encounter with the creatures, and boasting an impressive accuracy rate of up to 98%. Moreover, the AI Aquarium incorporates gesture recognition, facilitating contactless human-computer interaction and effectively solves the shortage of tour guides.
Innovation Pilot | Electronics & OptoelectronicsIntegrating the "identification and verification" technology of "intelligence, automation, and intelligent driving", and establish AI image recognition and biometric detection through heterogeneous perception fusion technology, which can detect children left behind in cars in low light and shading, reducing children Left inside the car resulting in death. And establish a driver interaction monitoring mechanism, corresponding to the self-driving Level3 integrated wire control chassis to develop a minimum risk intelligent decision-making mechanism.
Innovation Pilot | Information & Communications/Machinery & SystemIn order to solve the problem of independent production of the key material aluminum-scandium alloy sputtering target, this technology provides Taiwan target factories with the development of aluminum-scandium sputtering target manufacturing method through metal scandium synthesis, purification, alloy sputtering target manufacturing method. Grasp the source of key target raw materials and establish the core technology of aluminum-scandium alloy target forming.
Innovation Pilot | Information & CommunicationsITRI's AMR intelligent logistician, the Cubot ONE, utilizes self-driving sensor technology to navigate outdoor pavements, slopes, and rough roads, thereby overcoming the traditional challenge of transitioning between indoor and outdoor map coordinates. It also breaks the limitation imposed on existing AMR robots, which are confined to indoor operations. Furthermore, the Cubot ONE can deliver packages across different floors using a lift.
Innovation Pilot | Life ApplicationWith the continuous advancement of sensing and control technology and sports science, the electric-assisted bicycle industry has more room for imagination in terms of high value, personalization, and health benefits. high value, personalization, and health benefits. By integrating electric-assisted bicycle riding sensing and communication technology with an interactive virtual cycling system, E-bikes can be transformed from outdoor rides to indoor fitness applications. This technology collects riding data and analyzes sports fitness data to provide personalized exercise recommendations and guidelines tailored to individual training needs. This technology converts electric-assisted bicycles into indoor training equipment, integrates the sensing elements of e-bikes for exercise state sensing, and applies them to indoor training. In addition, this technology estimates the user's ability through riding data, and at the same time obtains the guidance parameters of the virtual coach, and provides guidance information during the training process, thereby improving the effect of personalized and precise sports.
Innovation Pilot | Machinery & System/Green Energy & Environment/Life Application1. Industry needs: A. For electronic textiles B. High appearance stability and can be washed by laundry C. The existing relevant commercially available products are controlled by foreign companies, with high prices and long delivery times. 2. Characteristics of technology A. It has the characteristics of energy saving, carbon reduction, and water waste reduction B. Pass six tests including twisting, stretching, bending, extrusion, peeling, and laundry (AATCC 135) C. Reduce waste of water resources: This technology will reduce 200L – 800L wastewater and has rapid processing characteristics 3. Future effects: A. Improve the existing circuit board with the highly polluting process, reduce environmental pollution and waste of resources B. Roll-to-roll process can be used, suitable for mass production C. It can be applied to various industries such as power electronics, solar energy, Mini LED, RFID radio frequency, semiconductor packaging, panels, and medical treatment.
Innovation Pilot | Materials & Chemical Engineering & NanotechAn oral bioavailable PROTAC drug targeting both AR and AR-V7 for the treatment of castration-resistant prostate cancer (CRPC) was developed by Industrial Technology Research Institute. This innovative drug effectively degrades AR and AR-V7 proteins within prostate cancer cells, resulting in the inhibition of castration-resistant tumor growth. The preclinical toxicology study has demonstrated the drug's favorable safety profile, highlighting its potential as a novel protein degradation drug. ITRI's oral bioavailable AR/AR-V7 PROTAC drug represents a significant advancement in the field of prostate cancer treatment and offers a promising therapeutic option for patients with CRPC. Features & Specifications: ・Targeted protein degradation capability ・Superior effectiveness compared to approved drugs ・Low adverse effects and high safety
Innovation Pilot | Biotechnology & Medical careThe Food Industry Research and Development Institute (FIRDI) developed the high-temperature pneumatic puffing technology as part of technological innovations with the support of the Ministry of Economic Affairs, Department of Industrial Technology through Technology Development Programs. The drying process is accomplished by instantly heating granular food products at high temperatures for just a few minutes, allowing them to flow and expand swiftly within the chamber using the high-temperature pneumatic puffing equipment that was created by the institute. This technology's puffing equipment has been granted six new patents in the Republic of China (Taiwan) (M579459, M572127, M548447) and China (ZL201920131476.7, ZL201822084353.0, ZL201720890068.0). It has also been transferred to domestic manufacturers for commercial production, providing food producers with equipment for producing various types of products. FIRDI has used this technique to develop an instant rice product that can be ready to eat by microwaving for 3 to 5 minutes. This technology can heat the rice grains at a high-temperature short time (HTST) causing the rice grains to slightly expand in volume and develop a porous structure, achieving rapid rehydration of the ingredients and a consistent texture. This technology was awarded the Mr. J. T. Tsen's Memorial Patent Invention Award by the Taiwan Association for Food Science and Technology in 2018 and received the Gold Medal in the Taiwan Innotech Expo Invention (TIE) in 2022. Currently, this technology has been licensed and transferred to four domestic food manufacturers and two machinery manufacturers, two production-scale equipment, and three types of instant rice products have been launched. Through technological advancement and machinery development, convenient and fast-to-consume cuisine may become a part of daily eating habits and this technology can be combined with "self-heating foods" and " cooking vending machines".
Innovation Pilot | Biotechnology & Medical careThe vibration and long attenuation time problems caused by the back and forth high-speed motion of the delta robot can be reduced by using the technology including the advanced lightweight carbon fiber composite material(T1000) and nano-damping diaphragm materials developed by the Industrial Technology Research Institute. The grab interval was decreased from 2 sec/round to 1 sec/round, which can be considered as the production line efficiency was increased by 50%. At the same time the energy consumption of the motor drive is reduced to save energy. 1. The energy consumption of improving the mechanical performance to T-1000 grade is relatively low. 2. The conflicting constraints of high damping and stiffness were solved. 3. The damping properties of the developed carbon fiber robot arm can be significantly improved.
Innovation Pilot | Materials & Chemical Engineering & NanotechDeveloped ship heading and inertial motion AIS prediction algorithm, combined with AI image recognition technology and integrated IoT information on board. Completed images fusion and visualization. The system is equipped with an AI 4K PTZ camera with maritime environment verification, which can identify and track ships at sea, up to 6 kilometers away, and achieve the functions of lookout assistance and abnormal situation alarm.
Innovation Pilot | Information & CommunicationsComing soon!