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Patients who have stroke, brain injuries, cerebral palsy, arthritis or suffer from other neurological disorders often experience motor impairments; patients with delayed or lack of rehabilitation suffer from more severe physical sequelae, such as, spasticity and muscle atrophy, which decreases their level of independence It has been reported by World Health Organisation, that the need for rehabilitation continues to grow worldwide, especially in low- and middle income countries. The demand for rehabilitation services already exceeds availability, leaving a large unmet need. Longer life expectancies and increasing survival rates for those with severe disability, coupled with the rising prevalence of chronic diseases means that globally there will be an increase in the health burden associated with limitations in functioning. For both the patients and therapists, there is a need for efficient models of rehabilitation care are needed. This invention is of a robotic manipulator that can assist or be programmed to move or mobilize patients’ limbs or joints repetitively during rehabilitation or to perform daily tasks, for e.g., of gripping a cup, bowl or utensil, in a safe, reliable and effective manner. The device can be used in a clinical and/or at-home setting. This invention is of a hybrid robotic manipulator that consists of both soft and rigid materials, with a portable base, modular design and sensing elements integrated for more functions. The technology was developed to aid physiotherapists in doing repetitive rehabilitation motions for bed-ridden patients. This innovative solution for patients allows them to regain their upper limb motor functions and improve their quality of life. The technology can be used as an upper limb rehabilitation system that is portable, comfortable, lightweight, and user-friendly. With its versatility and flexibility, this system can be deployed in places where assistance for rehabilitation of the patients is needed, such as hospitals, rehabilitation centres and elder-care centres to do simple repetitive rehabilitation motions for the patients, such as shoulder flexion/extension, shoulder abduction/adduction, elbow flexion/extension, etc.  The global rehabilitation robots market was valued at USD 226.0 million in 2021 and is expected to expand at a compound annual growth rate (CAGR) of 17.3% from 2022 to 2030 (Source: Grand View Research). The growth can be attributed to the rising per capita healthcare spending and rapid adoption of technologically advanced equipment in the healthcare sector. The rising prevalence of stroke and the rapidly growing population of older adults are some of the key driving factors responsible for the growth. Technological advancements are also playing a major role in supporting industry growth. Furthermore, increasing disorders such as cumulative trauma disorder, repetitive strain injury, and occupational overuse syndromes further impact the market positively. A large population with musculoskeletal disorders, spinal cord injury, and others tend to move to hospitals for rehabilitation services, thereby boosting the growth of the segment. In addition, surging awareness regarding technologically advanced systems, along with a rise in the number of FDA approvals on medical exoskeletons, is anticipated to drive the segmental growth. Couple this, with the acute shortage of qualified physiotherapists to address the expected increase in patient demand, indicates a strong market potential for assistive rehabilitation robotic technologies such as this invention. This hybrid robotic arm ensures better safety during human-robotic interactions, and demonstrated higher force, versatility and portability compared to existing robotic arms. The key feature of this invention provides: Better safety: The robotic arm was created with both rigid and soft materials. The core of the hybrid robotic arm was made of aluminium as the supporting structure, and the outer layer was made of fabric air pockets as the protective material. Compared to traditional rigid robotic arms, the hybrid robotic arm ensures better safety during human-robotic interactions, as well as higher portability which increases user convenience. Reconfigurable modular robotic arm: All modules of the hybrid robotic arm are exchangeable, which allows the robotic arm to exhibit different arm length and various configurations such as beam-joint-beam and beam-beam-joint, according to the application requirements. Integrated sensing elements for easier control: Machine Learning based sensing elements are integrated to the system to allow a playback learning capability in which the physiotherapists can teach the system to perform a rehabilitation motion along a desired path of motion, and to provide data for the physiotherapists to track and analyze rehabilitation progress of the patients Physiotheraphy, Soft Robotics, Robotics, stroke rehabilitation, rehabilitation, robots, rehabilitation robots, modular, robotic arm, robotic manipulator Healthcare, Medical Devices

This technology portfolio covers wearable sensing and haptics for Virtual Reality (VR). The wearable sensors can provide gesture-based control in VR without the need for cameras, providing interactive control for VR for lower end headset. The sensor use electronic textiles and a patented sensing scheme that requires no additional electronics except a microcontroller. They present ultralow latency (<1ms), can distinguish between wearer and non-wearer and have exceptional noise rejection. The haptics technology allows for simulation of resistance and micro sensations on the fingers and palm. This is crucial for applications like surgical training, as surgeons routinely rely on their sense of touch in real world scenarios. The jamming technology uses textile-based actuators and pneumatics, making it the lightest wearable technology for haptics. Sensing: Textile-based wearable sensors woven into gloves. Custom microcontroller mounted on the glove. Proprietary signal conditioning and processing algorithm. Haptics: 3D-printec micro haptics actuators, as well as 3D printed+ fabric-based jamming actuators.Pnuematics pressure source, valves and control box. VR-based training is the main target for the haptics. The tech owner has signed LOIs with studios with downstream medical clients. The patented sensing methods allows for ultralow latency (<1ms) sensing with almost no hysteresis, which is unique in case of wearable soft sensors. This makes them ideal for use in applications like gaming and other wearable input devices, where other soft sensor leave a lot to be desired for a good user experience.   Sensing: Gaming and VR interaction- without the need for extra cameras: the wearable sensing provides a cheaper alternative to additional headset cameras. Haptics: Medical training professionals- haptics is crucial for applications like surgical training where dexterity needs to be trained. Current applications of VR can only train procedures. XR based training is becoming popular as it saves up to 80% cost compared to traditional methods and improves retention by up to 4x. The market for XR hardware is already a S$2.6B market and growing rapidly. The market is project to grow 40-50% YOY over the next 5 years. This is greatly being aided by addition of application layers such as OpenXR that allow for cross-compatibility between hardware such as the devices we are building. The sensor can distinguish between wearer and non-wearer, has exceptional noise resistance, and the system has extremely low power consumption owing to the sensing method used. The jamming haptics technology uses fabric-based jamming which is the lightest in-class for wearables. This makes it ideal for applications where dexterity is requited- such as VR surgical training. The micro-haptics uses 3D printed designs that supply higher force output at lower pressures due to their patented multi-layer design. Infocomm, Internet of Things

Systemic drug administration has conventionally been prescribed to alleviate persistent local inflammation which is prevalent in chronic diseases. However, this approach is associated with drug-induced toxicity, particularly when the dosage exceeds what is necessitated from the pathological conditions of the diseased tissues. This technology developed is a novel drug delivery technology that is activated to enable the release of appropriate drug payload according to the patient’s condition on the level of disease severity. The drug delivery system is a modular hybrid hydrogel carrier encapsulating the required anti-inflammatory drug which is triggered to release upon exposure to elevated markers of inflammation such as increased protease activity which is commonly upregulated in inflammatory diseases.   The technology has been validated for its material, safety, and toxicity studies on ex vivo exudates of clinical samples, in vivo wound model, and arthritis diseased mouse model. The primary targeted indication is Rheumatoid arthritis based on its significant disease unmet need and market size. It aims to become a platform technology as an effective therapy against chronic inflammatory diseases such as inflammation bowel diseases, chronic wounds and topical application. The convenience of the technology offers significant societal benefits, particularly for ageing populations where the incidence of pain and inflammation arising from diseases becomes prevalent with age while potentially eliminating adverse side effects from traditional delivery of drug administration.  The technology owner is seeking for collaborations with clinicians, biopharma, biotech companies looking for novel drug delivery systems. The platform technology is based on a hydrogel system with a proprietary modular design for which drug component and inflammation-sensing component can be selected and tailored based on the profile of an inflammatory disease of interest. Key features of this platform drug delivery technology are: Modular in design Immuno-compatible Versatile for both injectable into joints and topical application on wound This drug delivery system is formulated into an injectable pain-relieving gel for arthritic patients. With a single injection into the joints of arthritis patients, the therapeutic drug within the hydrogel formulation will be released at a dosage matching the intensity and frequency of inflammation flares to achieve prolonged control of inflammation and pain. This analgesic product solution can help arthritic patients avoid frequent steroid injections while maintaining pain-free joints with minimal risk of adverse side effects. The stage of the technolgy can be applied with Steroidal and Non-steroidal anti-inflammatory drugs (NSAIDs) currently. This drug delivery platform offers a versatile platform for biomarker dependant drug dose release and delivery at appropriate inflammation site via either an injectable or topical application to effectively manage long-term inflammation seen in chronic conditions. The technology can be applied to create precision therapeutics in injectable or topical formulation to treat chronic inflammation conditions such as arthritis, skin inflammatory diseases, Inflammatory Bowel Diseases (IBD), chronic wounds and Chronic Obstructive Pulmonary Diseases (COPD) which can be potentially expanded to other areas including eye, skin and dental as a pain control for inflammation and the possibility of encapsulating proteins and peptides. The estimated Total Available Market (TAM), which is the global rheumatology therapeutics market, was USD 48.4 billion in 2020 with an expected growth to USD $64.4B by 2028, expanding at a CAGR of 3.1% during this forecast period. The Serviceable Available Market (SAM), estimated base on corticosteroid market for management of arthritic flare as the primary indication, accounts for 25% of joint-pain injection market which will be worth USD $9.2 billion by 2030. The technology is in PCT national regional phase entry for several markets including USA, China, EU, Japan, Korea, and Australia.  Key features of this precision medicine: Effective management of inflammatory condition Minimize adverse side effects Minimize frequency of drug administration Precision Medicine, Drug Delivery, Anti-inflammation, Chronic disease, Hydrogel, Arthritis Healthcare, Medical Devices, Pharmaceuticals & Therapeutics

Singapore has a high consumption of fruits and vegetables, both locally produced and imported, and a significant portion of the total waste generated is derived from fruits and vegetables. These fruits and vegetables contain untapped nutritional and functional properties that can be upcycled into higher value products. This institute of higher learning has developed a technology with the know-how to cultivate microorganisms and a series of zero-waste extraction and purification methods to maximize the value of fruit peels into functional food ingredients.  This technology is designed for three types of industry players: i) fruit vending/processing industry with abundance of good quality fruit by-products; ii) waste management industry with technologies to value add to the by-products; and iii) start-ups with keen interest to upcycle by-products into novel food ingredients. The technology is a sustainable process and here are some key features: Zero waste solution – achieving circular economy Low-carbon economy, reduced waste during manufacturing Easy to assemble using off-the-shelf commercial-ready equipment Low CAPEX, modular installation Simple method – any technician with basic training and carry out the process Scalable – abundance of fruit by-products to achieve economies of scale A reactor for pilot scale testing at a reasonable cost has been fabricated for collaborators to tap on. Food-grade microbial protein: A protein-rich source of food ingredient with functional properties to be applied into beverages, confectionery, plant-based meats Pectin from fruit peels: A finished product upon extraction process, it is rich in soluble dietary fiber that can be used as natural thickener or in jam/sauces and beverages. Cleaning agents: Antimicrobial properties were observed in the fruit peels post extraction Good quality fruit by-products from fruit industry are valuable resources for upcycling. These materials are currently disposed  by incineration. With the high moisture content of fruit peels, incineration is energy-intensive leading to higher CO2 emission. This technology produces valuable food ingredients such as protein and dietary fiber, contributing to both food security and circular economy. microbial protein, dietary fiber, dietary fibre, fuit by-product, fruit peel, zero waste, sustainable food ingredients, fruit waste, food waste, upcycle, food valorisation Waste Management & Recycling, Food & Agriculture Waste Management, Sustainability, Circular Economy, Food Security

Population aging is a global phenomenon as most industrialized countries are experiencing growth in the size and proportion of elderly citizens in their population. The percentage of older adults is estimated to be double by 2050 than that in 2019, which will place new challenges on the social economy and healthcare. The increasing population of elderly people requires great attention to be paid to age-related problems. Especially, the decreased physical capacities cause elderly people to rely on others to perform daily activities such as showering, dressing, and eating. The lack of independence in activities of daily living (ADL) decreases their quality of life and exaggerate financial burden for family healthcare.   According to studies on affected daily activities of older adults, the showering activity needs more frequent assistance than any other ADL. Existing commercial products, such as Tutti Assisted Bath Tub and Sit & Shower, can provide automated bathing assistance for the elderly people. However, the available products are usually time-based passive cleaning that lacks active physical interactions with users, and thus they do not have some basic functionalities during showering such as scrubbing and wiping. Alternatively, robotic arms can provide active support in showering activity. Recent soft robotics technologies ensure safe and comfortable human-robot interactions. With different types of actuation (e.g. pneumatic, cable-driven), soft robotic manipulators can have dexterous motions and adaptable stiffness to achieve desired tasks. The technology consists of a soft robotic arm and machine learning based algorithm. It can assist elderly people during showering activities according to the user’s needs. As an example, the robotic shower can wash body parts that may difficult to reach, like the back or lower part of the legs. In particular, it has unique features that include:  Safe and comfortable human-robot interaction for pouring water and wiping  Air or water actuation  Affordable and cost effective  The applications include but are not limited to:  Assist showering activity for elderly people  Luxury high-tech showers  Re-purposed to assist disabled people or hospitalized patients  Our robot is based on user-centred design. Soft robotics is widely recognized as enabling safe human-robot interactions owing to its inherent compliance, compared to traditional rigid robots. The soft robot is equipped with machine learning based intelligent algorithms to efficiently accomplish desired assistive tasks.  soft robotics, Soft robot, Assistive healthcare, Aged healthcare, aging Personal Care, Wellness & Spa, Healthcare, Medical Devices, Manufacturing, Assembly, Automation & Robotics

Tretinoin is a vitamin A derivative under the family of Retinoids which functions by exfoliating the surface of the skin to allow regeneration of the skin epidermis and acts as an anti-aging treatment through reduction of wrinkles fine lines. Tretinoin is the most used substance for acne and photoaging treatment. While retinol is an Over the Counter (OTC) product, Tretinoin is a prescription strength drug with faster regeneration for the epidermis layer compared to retinols which must be converted twice to its active form retinoic acid. The current Tretinoin, though effective, may produce strong and irritation side effects for individuals who are more sensitive with the possibility of a Tretinoin purge escalating an increased initial outbreak before subsiding and reaching a long-term control of acne outbreaks. In the market, moisturizing cosmetics products are mixed with Tretinoin for the purpose of whitening effect which is not ideal. The technology provider has developed a derivative of Tretinoin, a synthetically modified new compound called Tretinoin Potassium Salt without the side effects of peeling skin and is tested to be more effective and safer than Tretinoin in both efficacy and toxicity. Besides its application in cosmetics, Tretinoin Potassium Salt (potassium all-trans retinoate) has also shown to inhibit apoptosis and metastasis in neuroblastoma, breast cancer and lung tumors. Non-clinical trials tests were conducted and concluded.   The technology company is seeking for partners to conduct clinical trials for FDA OTC Monograph certification and license Tretinoin Potassium Salt as an active ingredient for cosmetic and pharmaceutical purposes. Tretinoin Potassium Salt has a higher absorption rate and skin residual rate than Tretinoin in a comparative animal application test of the same dose, exhibit improved skin inflammatory protein and related gene inhibitory effect with no eye irritation, and a skin irritation index (P.I.I) of less than 3. The non-clinical trials include: In vitro: Acne bacteria application test, cancer cell (breast cancer & neuroblastoma) MTS cell survival assay, Migration, Invasion In vivo: API oral pharmacokinetics (PK) Regulation (In vivo): Skin pharmacokinetics (PK), Skin pharmacodynamics (PD), Local toxicity (TK), Formulation (substance is soluble in water). CMC: GMP standards and test methods for APIs A new substance is needed to prevent misuse of Tretinoin, which is used in combination with cosmetics. Tretinoin Potassium Salt was developed as a solution, and when registered as an OTC Monograph, it can be sold as an OTC drug for melasma treatment and whitening functional cosmetics at retail marts, pharmacies, department stores, and duty-free shops around the world. The technology company holds four synthetic and drug use patents for Tretinoin Potassium Salt. Upon registration with OTC Monograph and International Cosmetic Ingredient Dictionary (ICID), there are plans to license the patent to major production and sales countries for normal use and sales rights. Total Addressable Market (TAM) for the whitening market is $12 billion. This new ingredient has a dual function of anti-acne and melasma which could expand the ballpark Service Available Market (SAM). The core ingredient is about 10% of the sales price of cosmetics and there are plans for earning 5% of sales from granting license rights.  There are a total of six substances (Mulberry Extract, Arbutin, Ethyl Ascorbyl Ether, Oil-soluble licorice Extract, Ascorbyl Glucoside, Magnesium Ascorbyl Phosphate) registered in the OTC Monograph as raw materials for cosmetics and pharmaceuticals for whitening purposes. However, all are Tyrosinase Inhibitors related to melanin pigment. Tyrosinase inhibitors work by blocking the enzyme tyrosinase. Because melanin can absorb, scatter, and reflect light, it protects the skin and maintains body temperature by controlling the number of ultraviolet rays absorbed by the skin. Long-term blockage of melanin production through tyrosinase inhibition has a skin whitening effect, but on the other hand, light can lower immunity and cause side effects on the skin. This technology of ionised Tretinoin Potassium Salt promotes cellular turnover activity that regenerates cells from the dermal layer to the epidermal layer in just 14 days compared to the usual 28 days cycle which increases with age till a 60-day cycle. Validation studies have shown the newly discovered compound to be of high skin absorption, retention improvement, low hydrophobicity, little irritation on direct application and can be administered orally. Acne Treatment, Tretinoin, Tretinoin Potassium Salt, Whitening, Melasma, OTC, Ethical drug Personal Care, Cosmetics & Hair, Healthcare, Pharmaceuticals & Therapeutics

Augmented Reality (AR) Artificial Intelligence (AI) Glasses are transforming the landscape of industrial and field applications. Designed to streamline processes and improve efficiency, these glasses are a ground-breaking solution to the necessity of instant, accurate, and engaging data presentation.  Housed in a pioneering, lightweight design, these AR AI Glasses effectively address the challenges faced with conventional AR devices, including their bulky nature, short-lived battery life, and limited connectivity. By ensuring an incredibly low heat signature, extended battery life, and compatibility with Wi-Fi, 4G, and 5G networks, these glasses have been developed with users' comfort and usability in mind, ensuring efficient performance throughout the day.  These glasses are a valuable asset to a variety of sectors, such as manufacturing, logistics, healthcare, and construction, that value precision, efficiency, and safety. By seamlessly integrating sophisticated technologies like AR and AI into everyday operations, the glasses eliminate the need for extensive staff retraining or major procedural changes. They provide real-time information, enhance remote collaboration, and come with built-in security features like facial recognition, promising to fundamentally change how tasks are executed within these industries.  The AR AI Glasses blend advanced software and state-of-the-art hardware -  Hardware:  Featherweight Design: The glasses weigh at a mere 46g, ensuring all-day comfort.  Robust Build: Designed to endure, these glasses are IP67 rated and explosion-proof, making them ideal for a variety of demanding environments.  Minimal Heat Signature: A top heat signature of ≤40°C prevents discomfort during extended use. Extended Battery Life: The glasses offer 3.5 hours of continuous operation, which can be boosted to 10 hours with an auxiliary power bank.  Software:  Uninterrupted Connectivity: These glasses are designed to support Wi-Fi, 4G, and 5G networks, ensuring seamless connectivity and data transfer.  Secure Communications: These glasses are designed to provide secure communication channels, offering a reliable platform for data exchange.  Tailored Application Development: The technology supports the development of custom applications, allowing solutions to be tailored to unique business needs.  Remote Collaboration: Leveraging a SaaS Platform, these glasses are designed to support remote assistance, monitoring, training, and assessment.  Step-by-step SOP Support: This technology can break down complex procedures into manageable step- by-step instructions using video, image, and text.  Facial/Object Recognition: A key feature that validates objects/identity of individuals.  Optimal technology partners encompass the entire value chain, ranging from AR/VR application developers for software improvements, to hardware manufacturers responsible for producing and upgrading the glasses. Network service providers too can play a crucial role in enhancing connectivity. Industries such as manufacturing, logistics, healthcare, and security, where operational efficiency and precision are paramount, represent key sectors that would benefit from this technology. The AR AI Glasses has a broad array of potential applications across diverse sectors, from manufacturing and logistics to healthcare and construction.  Manufacturing: These glasses can streamline operations through real-time communication and guidance, allowing for remote collaboration and training. The in-built SOP functionality can simplify complex assembly procedures, minimizing errors and bolstering productivity.  Logistics: These glasses can transform inventory management, tracking, and overall operations by providing real-time information access and facilitating remote collaboration. The result is a more efficient and streamlined logistic operation.  Healthcare: The remote collaboration functionality of the glasses can be a boon for telemedicine. It allows for remote consultations, training, and guidance, ensuring that distance is no longer a barrier to quality healthcare.  Construction: These glasses can enhance on-site safety by providing step-by-step SOPs to workers. In addition, real-time patrolling and threat assessment become feasible with these glasses.  The products that can leverage this technology are not confined to the glasses themselves. They extend to software solutions tailor-made for specific industries to maximize the use of AR AI Glasses.   The augmented reality (AR) and artificial intelligence (AI) market, which includes devices such as this AR AI Glasses, is poised for a significant growth.  The industrial sector is undergoing a significant shift towards digitization and automation. This evolution calls for innovative, technology-driven solutions, such as this AR AI Glasses. By enhancing worker safety, boosting efficiency, and refining processes, these glasses offer immense value to industries ranging from manufacturing and logistics to healthcare and security.  With the advent of 5G, rapid and secure data transmission and seamless communication to and from compatible devices, such as these glasses, has become a possibility and this further increases their market adoption. These AR AI Glasses represents a significant improvement over traditional AR technology, featuring an array of cutting-edge specifications tailor-made for industrial and field environments. These glasses depart from the norm, offering a solution that is not only lightweight and comfortable but also resilient and specifically designed for enduring use in demanding work scenarios. These AR AI Glasses offer the following unique benfits - Lightweight and comfortable design for long term usage. Remote collaboration capability. Inbuilt facial recognition feature. Support for customized application development to allow modifications to suit unique operational needs. Compatibility with Wi-Fi, 4G and 5G networks to leverage evolving communication technologies. Secure and seamless data sharing and communication.   AR, VR, AR Glasses Infocomm, Video/Image Processing, Augmented Reality, Virtual Reality & Computer-Simulated Environments, Healthcare, Telehealth, Medical Software & Imaging

Effective tracking and management of Work-In-Progress (WIP) and inventory across a manufacturing facility are key to maintaining productivity and operational efficiency. Despite this, misplaced inventory and inefficient tracking remain common problems within the sector, leading to time wasted on locating items, losses due to unaccounted inventory, and ultimately, a reduction in productivity.  To tackle these challenges, an innovative solution has been developed that integrates advanced technologies, sophisticated hardware, and robust software features to optimize manufacturing operations. This solution provides real-time traceability of WIP and inventory throughout a factory, thereby reducing time wasted in locating items and preventing losses due to unaccounted inventory.  The solution seamlessly integrates with various systems including Manufacturing Execution Systems (MES), Preventive Maintenance (PM) systems, and Enterprise Resource Planning (ERP) systems. This integration capability allows it to trigger alerts, visualize processes, and reduce waste, thereby streamlining operations and minimizing inefficiencies.  The track and trace solution are an amalgamation of sophisticated state of the art hardware and software components – Hardware: Custom made racks and retrofits. LF/HF/UHF RFID for tagging and tracking. Barcode scanners for identification. Pick-to-Light systems for order picking. Weight sensors for inventory measurement. AI driven video analysis for surveillance and tracking. Software: Work in progress (WIP) tracking. Inventory management. Preventive maintenance (PM) material tracking. In line material ordering. Data analytics. The ideal collaboration partners for this solution would be manufacturing firms looking to optimize their operations, manufacturing execution system (MES) providers for system integration, hardware manufacturers for creating customized racks and hardware components, and technology companies focusing on RFID, AI, and data analytics. These partners would collectively contribute to the development, implementation, and continual enhancement of the track and trace solution. The track and trace solution has wide applicability across a multitude of manufacturing industries where tracking and managing of tools, parts, and Work-In-Progress (WIP) items is crucial. Key industries include semiconductor manufacturing, automotive production, aerospace manufacturing, and other large-scale industrial setups. In semiconductor manufacturing, it can be used to monitor the movement of sensitive materials like wafers and reticle masks. For the automotive and aerospace industries, it could be used to track the assembly of complex components, ensuring that all parts are accounted for and in the correct location. The system's flexibility allows it to be applied on both large and small scales, catering to a vast range of operational needs. Its potential applications aren't limited to the tracking of physical items; the data it gathers can also be used for predictive analytics, proactive replenishment of inventory, and enhanced forecasting, among others. Consequently, products that can be marketed based on this technology range from inventory management systems and predictive maintenance solutions to data analytics software. The complexity of manufacturing processes continues to rise, fuelling the need for innovative and advanced tracking and traceability solutions. The increasing emphasis on lean manufacturing, cost-cutting, and waste reduction are some of the driving forces behind this demand. Given these factors, the global market for such solutions is on an upward trajectory. As industries become more technologically reliant and digitized, the emphasis on precise, real-time tracking and traceability will only amplify. The market size, already sizable, is projected to witness substantial growth in the coming decade. This technology is particularly attractive to the market due to its multi-faceted benefits - it does not merely track and trace, but also integrates with existing systems, enhances forecasting, and significantly improves operational efficiency. It's robust set of features and the capability to address multiple pain points make it an appealing choice for businesses across the manufacturing sector. The track and trace solution provides a significant advancement over the current "State-of-the-Art". While traditional systems offer tracking and traceability, they often fall short when it comes to real-time data, seamless integration with existing systems, and the use of advanced technologies. This solution addresses these gaps by providing real-time tracking and traceability across the entire manufacturing process. This significantly reduces waste, enhances productivity, and improves operational efficiency.  In addition to superior tracking, this solution incorporates technologies like RFID and AI-based Video Analytics, providing unprecedented levels of precision and data insights. This also facilitates enhanced forecasting and inventory management capabilities, enabling businesses to better predict and meet their needs. The solution seamlessly integrates with existing Manufacturing Execution Systems (MES), Preventive Maintenance (PM) systems, and Enterprise Resource Planning (ERP) systems. This feature ensures that businesses can implement the solution without significant disruption and harness their current platforms to achieve better efficiency. Equipment, WIP, Material Control Infocomm, Video/Image Analysis & Computer Vision, Manufacturing, Assembly, Automation & Robotics, Robotics & Automation, Logistics, Inventory Management

Along with the global aging population, the number of people with dementia is also increasing. Moreover, digitalization of society is isolating elderly people. Enjoyable learning using digital devices can be the solution. The product is in the form of a table with a touch screen on the surface. The embedded software is connected to the contents server, which provides various programs such as visual perception and cognitive tests, videos, trainings, and analysis results. They prevent brain aging by stimulating both the left and right brains. The product is beneficial to children as well. The rich educational contents are designed to develop the problem solving ability and the metacognitive ability. The training course includes solid figures, basic Korean, mathematics, and adages etc. Analysis results are also provided to compensate for a vulnerable subject. In addition, safety education and news from local education offices are provided in conjunction with the government. It consists of a capacitive touchscreen, Android OS, and a form of a table. Up to four people can use it together. For convenience, it is able to turn the screen upside down. In terms of software, the digital contents are operated on a subscription basis and constantly updated. Since it is designed for both the children and elderly people, it’s suitable for all types of families. Nursing homes and educational institutes are also appropriate. Welfare agencies, nursing homes, educational institutes and households are potential customers. Distributors of electronics and device manufacturers, geriatricians and specialists in education are ideal partners. One of the standout features of our product is its ability to diagnose the learning outcomes and processes of individual learners. By meticulously assessing each learner's progress, we can provide tailored feedback that helps them maximize their potential and achieve their educational goals. This personalized feedback loop ensures that users are not just consuming content but actively engaging with it to enhance their cognitive abilities and creative thinking skills. In contrary to the existing cognitive learning tools (only analog), the product is a combination of digital and analog. Therefore, new contents are consistently provided. Also, it can provide education suitable for both children and the elderly. The problems are designed with a structure, it has high scalability and usability. And the contents are based on Triarchic Theory of Intelligence, Torrance Tests of Creative Thinking, Wechsler Preschool and Primary Scale of Intelligence, Creative Problem Solving, and CNS Vital Signs. Also, it diagnoses the results and processes of learning and provides feedback for each learner. It is subscription-type for B2C business and it can be used as a digital treatment through clinical trials after collecting the user’s data. What sets our product apart is its structured problem-solving approach, which not only ensures a well-defined learning path but also boasts exceptional scalability and user-friendliness. Furthermore, our educational content is underpinned by a rich theoretical foundation, drawing from renowned frameworks such as the Triarchic Theory of Intelligence, Torrance Tests of Creative Thinking, Wechsler Preschool and Primary Scale of Intelligence, Creative Problem Solving, and CNS Vital Signs.     Infocomm, Educational Technology