Resilient Data Encryption Against Quantum Cybersecurity Attacks
resilient-data-encryption-against-quantum-cybersecurity-attacks
TO175341
The Internet has become the de-facto medium for many enterprises to carry out their business functions. By relying on public-key encryption to ensure confidentiality and authenticity of data, employees and customers are able to use a variety of public channels via web browsers, emails and mobile apps to send and receive sensitive information securely. However, this promise of confidentiality and authenticity is being compromised with the advent of quantum computers. With the potential rise of exponentially powerful quantum computing, current data encryption algorithms are not resilient enough for such hidden quantum cyberattacks, specifically harvest-now decrypt-later (HNDL) attacks, resulting in data leaks and undermining privacy.The technology owner has leveraged on their proprietary post-quantum cryptography (PQC) implementation to develop a software module to provide and enhance existing end-to-end data encryption, ensuring resilience to quantum cyberattacks while maintaining confidentiality and authenticity of data. By utilising Key Encapsulation Mechanism (KEM) and JavaScript, it is compliant with evolving cybersecurity standards while being lightweight and dynamic enough to be loaded and executed without installation or configuration. This enables the technology solution to be flexible, scalable and user-friendly.The technology owner is currently working with an organisation to further develop industrial applicable solutions. The technology owner is seeking collaboration partners, such as system integrators, independent software vendors, solution providers and end-users, who require an enhanced and compliant data encryption for the finance, government and healthcare industries.
Infocomm
Digital Screening for Mild Cognitive Impairment and Vascular Cognitive Impairment
digital-screening-for-mild-cognitive-impairment-and-vascular-cognitive-impairment
TO175338
Early detection of Mild Cognitive Impairment (MCI), especially the vascular subtype, is becoming increasingly important as populations age and the burden of dementia rises globally. Approximately 12% to 18% of people age 60 or older are living with MCI, and an estimated 10% to 15% of individuals living with MCI develop dementia each year — many of which could benefit from timely intervention to slow or prevent further cognitive decline.This digital solution offers a non-invasive, self-administered cognitive screening tool that can be completed in just 15 minutes via a mobile device or tablet. It uses a series of interactive, neuroscience-informed digital tasks to assess multiple cognitive functions, including working memory, attention, processing speed, and executive function. These areas are particularly relevant in identifying different subtypes of MCI, such as those related to vascular causes.The system’s proprietary algorithm analyzes the user’s performance and has been clinically validated in Southeast Asia, achieving 89% accuracy with strong specificity and sensitivity. Its objective, performance-based design makes it suitable for deployment across various healthcare settings—from hospitals and clinics to insurers and community screening programs.By offering a quick, engaging, and scalable method for cognitive screening, this solution supports earlier identification of cognitive changes and provides actionable insights that can help guide appropriate follow-up care based on the individual’s cognitive profile.
Healthcare
Reliable and Comfortable Stretchable Printed Circuit for Electronic Applications
reliable-and-comfortable-stretchable-printed-circuit-for-electronic-applications
TO175351
With the integration of monitoring electronics into our everyday lifestyle, such as wearables, the utilisation of flexible electronics becomes more apparent as users demand them to not impede into their daily activities while being operational due to their ability to be deployed in areas with mechanical motion. Conventional flexible printed circuits (FPC), due to use of non-stretchable substrates, struggle under various constant deformation, resulting in poor adhesion, poor electrical contact and even pressure points which potentially limits normal operation. With discomfort and limitation on their motions, users are also less inclined to adopt these wearable solutions.The technology owner has leveraged on their expertise in stretchable substrates and conductive ink to develop a stretchable printed circuit (SPC), which have the ability to maintain contact and performance comparable to a rigid printed circuit under repeated deformation, such as stretching and twisting. The developed SPC enables existing electrical and semiconductor components to be mounted, eliminating any need for proprietary electrical components, while fully operational under external environmental conditions. The technology excels in larger surface application with semi-disposability in mind while having good adhesion and comfortable on skin.The technology owner is currently seeking industrial collaborators looking to explore use-cases, such as medical equipment development and diagnostic devices, whereby electrical performance can be maintained while providing mechanical flexibility.
Electronics, Healthcare
AI-Driven Contract Lifecycle & Document Management Platform
ai-driven-contract-lifecycle-document-management-platform
TO175497
Managing contracts and legal documents efficiently remains a core challenge for enterprises across functions including legal, procurement, sales, HR, finance, and compliance. Manual processes, fragmented tools, and siloed teams often lead to delays, compliance gaps, and unnecessary operational costs.This technology is a comprehensive AI-powered contract lifecycle management (CLM) and document management platform that automates and centralises all stages of contract handling — from creation, collaboration and negotiation to approvals, execution, storage, tracking, analytics, and renewals. By combining workflow automation, secure repositories, analytics and collaboration features in a single user-centric platform, organisations can achieve higher productivity, stronger governance, and reduced legal and operational risk.With multi-jurisdictional support, multi-language interfaces, and a suite of secure cloud-based tools, this platform delivers enterprise-grade contract management that is scalable across teams and regions while ensuring compliance with regulatory requirements.
Infocomm, Environment & Clean Tech
The Missing Layer in Digital Transformation: Connecting Assets, Data and People
the-missing-layer-in-digital-transformation-connecting-assets-data-and-people
TO754326
The technology provides a secure digital backbone that integrates data from multiple healthcare systems, devices and operational platforms without requiring organisations to replace existing infrastructure. By connecting and structuring data across assets, workflows and compliance processes, it addresses the common challenge of fragmented information and limited visibility in complex healthcare environments. The solution enables organisations to gain clearer oversight of equipment performance, regulatory status and operational activities while supporting analytics and future digital innovation. Organisations that would benefit most include large hospital networks, public healthcare clusters, medical device manufacturers, laboratory and diagnostic providers, as well as research institutes and digital health innovation hubs seeking scalable infrastructure for integration, traceability and secure data governance.
Healthcare
Audio Biomarker and Digital Twin Technology for Early Alzheimer’s Detection and Prediction
audio-biomarker-and-digital-twin-technology-for-early-detection-and-progression-prediction-of-alzhei
TO231964
This AI-driven platform revolutionises early Alzheimer's detection by analysing audio for undetectable cognitive biomarkers, bridging a critical diagnostic gap. Its "Digital Twin" feature predicts disease progression and medication impacts, enabling personalised treatment plans. Ideal for healthcare providers and research institutions, it enhances diagnostic accuracy and reduces dementia care costs.
Healthcare
Revolutionary AI Low-Code Data Processing & Automation Platform for Digital Transformation
revolutionary-ai-low-code-data-processing-automation-platform-for-digital-transformation
TO175389
Enterprises today face mounting challenges from legacy systems, fragmented data silos, and complex integration issues that slow down digital and AI initiatives. This AI-powered automation platform transforms integration from a technical bottleneck into a strategic accelerator, enabling organizations to unlock trapped data assets worth billions.By automating up to 70% of manual coding, the platform accelerates processing speeds by up to 10x while reducing operational costs. Its visual drag-and-drop interface democratizes data access, addressing the $5.5 trillion global skills gap by removing the need for specialized coding expertise. Enterprises can cut data preparation efforts from 80% to 20% of project cycles, connecting legacy mainframes seamlessly with modern cloud applications.The urgency is clear: the data integration market is projected to reach $47.6 billion by 2034, yet 95% of IT leaders cite integration as the main barrier to AI adoption. Meanwhile, silos cost enterprises hundreds of thousands annually, and up to 80% of data projects fail due to poor preparation.This platform empowers organizations to process millions of records in minutes across hybrid, cloud, and on-premises environments. Early adopters already report 171–295% ROI within three years, six-month payback periods, and over $2.4 million in productivity gains. With 70% of new applications expected to leverage low-code/no-code by 2026, this solution positions enterprises to lead the next wave of intelligent automation.
Infocomm, Logistics
Energy-Saving Additive for Water-Based Heat Transfer Systems
energy-saving-additive-for-water-based-heat-transfer-systems
TO923553
Thermal systems that rely on water as a heat transfer medium e.g., HVAC systems, boilers, heat pumps, and district heating networks often experience inefficient heat transfer due to the physical properties of water and surface irregularities inside pipelines and heat exchangers. These factors reduce effective contact between the circulating fluid and heat transfer surfaces, resulting in energy losses, slower heat exchange, and increased operational energy consumption.This technology is an energy-saving additive designed for closed-loop water circulation systems to improve heat transfer efficiency. When added to the circulating medium, the additive modifies the surface tension of water, enabling the fluid to better wet internal surfaces and fill microscopic irregularities in pipelines and heat exchange components. This improves the effective contact area between the fluid and heat transfer surfaces, enhancing thermal conduction efficiency. By improving heat transfer performance, the solution enables thermal systems to achieve faster temperature response, improved heat retention, and reduced energy consumption, without requiring major modifications to existing infrastructure. The additive can be integrated into operational systems with minimal disruption and is compatible with common water treatment, cleaning, and descaling agents used in thermal systems.The technology provider is seeking collaborators in Singapore for pilot deployment and commercial adoption, particularly among large chain hotels, high-load data centres, and industrial facilities requiring strict environmental control (e.g., constant temperature, humidity, and cleanliness manufacturing environments).
Immersive Extended Reality Simulation Ecosystem for Healthcare Education and Clinical Competency Training
immersive-extended-reality-simulation-ecosystem-for-healthcare-education-and-clinical-competency-training-2
TO175506
This technology is an integrated Extended Reality (XR) simulation ecosystem delivered through lightweight, wireless head-mounted display devices. Wearing these headsets, learners are visually and spatially immersed in computer-generated 3D clinical environments—hospital wards, emergency rooms, paediatric units, outpatient clinics—that respond to their gaze, movement, and hand gestures in real time. Within these environments, learners interact with artificial intelligence-driven virtual patients that converse naturally, exhibit realistic body language, and present evolving physiological conditions based on the learner’s clinical decisions. Handheld controllers and haptic devices provide tactile feedback, enabling learners to physically practise procedures such as chest compressions and pulse detection with sensory realism.
Healthcare
IP over Modbus/RS485: Smart Building Automation Without Rewiring
ip-over-modbusrs485-smart-building-automation-without-rewiring
TO175367
In today’s Building Automation (BA) industry, the growing demand for smarter, more connected buildings is accelerating the shift from traditional Modbus/RS485-based devices to Ethernet-enabled BA devices. RS485 is a long-established serial communication standard valued for its reliability over long distances and in electrically noisy environments—making it a staple in industrial and building automation systems.However, upgrading to Ethernet typically requires costly and labor-intensive rewiring to replace existing Modbus/RS485 cabling with Ethernet cables.This technology offers a cost-effective alternative by enabling IP-based data communication over the existing Modbus/RS485 infrastructure already deployed in facilities. It supports communication speeds ranging from several Mbps to tens of Mbps and transmission distances of several kilometres, making it especially suitable for large-scale building environments. The technology provider is seeking to collaborate with commercial building owners, industrial facilities and manufacturing plants, building automation companies, system integrators, and facility management firms that are looking to enhance operational efficiency and upgrade infrastructure with minimal retrofitting.
Infocomm, Green Building
Data-Driven Innovation: Automated Data Management Solution Powered by AI
data-driven-innovation-automated-data-management-solution-powered-by-ai
TO175161
Businesses generate and store large amounts of data daily, typically from multiple systems and sources. These data are only accessible within respective systems with most stored and not fully utilised to improve business productivity.The technology is developed to introduce an AI-based solution to help enterprises digitalise, automate their workflow and utilise their available digital data. This empowers businesses to gain actionable data insights in minutes, allowing your organization to make informed, data-driven decisions. This AI technology solution enables companies to harness the benefits of AI without the need for costly and specialised developers or data scientist.The company is looking for collaborative partners across various industries looking to explore AI solutions for digital data consolidation, workflow automation and full utilisation of internal digital datasets for business optimisation.
Infocomm
Smart Polymers for Stress Absorption and Surface Modification
smart-polymers-for-stress-absorption-and-surface-modification
TO175446
The technology owner is seeking partners to co-develop new applications using two smart polymers based on advanced polyolefin materials with the following properties:Stress absorption – a α-olefin copolymer designed to provide exceptional damping, stress relaxation, and texture control. With shape-memory and viscoelastic properties, it enables tailored molding solutions and enhanced vibration control across industrial and consumer applications.Surface modification – a block polymer additive that imparts water- and oil-repellent properties to polyolefin surfaces. With its silicone-like performance, this additive can be applied to coatings, films, paints, and textiles, making it a practical and sustainable solution to meet increasingly stringent environmental regulations and to reduce reliance on PFAS and conventional silicone-based materials.Both smart polymers are designed for seamless integration into existing extrusion and molding processes. Their versatility supports broad innovation potential in industries such as sports, healthcare, mobility, construction, and textiles, enabling partners to create differentiated, high-performance products.
Materials, Chemicals
AI-Driven End-to-End Logistics and Warehouse Automation Solution
ai-driven-end-to-end-logistics-and-warehouse-automation-solution
TO175175
In a more globalized and interconnected world, logistical management becomes more complex with more demand for real-time tracking of products within the supply chain. With global events potentially disrupting any section of the supply chain, companies within are now required to efficiently provide visibility of the orders while building up resiliency to ensure smooth operation of their services.The technology solution addresses the complexities of modern supply chains by providing a unified solution that integrates multiple products & tools for efficiently managing the logistics and warehouse. The platform uses AI and IoT to deliver real-time visibility, predictive analytics, and automated workflows. This innovation aims to improve efficiency, reduce costs, and enhance sustainability for enterprises within the logistics and warehouse sectors.The technology owner is looking for collaboration partners, who wish to leverage on their data and AI solutions to automate logistical workflow operations and enable data-driven decisions for supply chain optimisation.
Logistics
Advanced Flexible Sensor for Accurate, Drift-Free Motion Tracking
advanced-flexible-sensor-for-accurate-drift-free-motion-tracking
TO175375
This flexible sensor technology enables precise detection of angular displacement and bending within a lightweight, thin, and conformable form factor.Available in both one-axis and two-axis versions to suit different motion sensing needs, the sensors operate on differential capacitive measurement, delivering zero-drift performance for high stability and long-term reliability.Engineered using advanced material technologies, this sensor platform features a thin, low-profile construction with skin- and fabric-compatible adhesion, making it ideal for seamless integration into wearables, human-machine interfaces, and motion tracking systems. Its high durability supports repeated bending cycles, while customizable geometries allow tailored solutions for diverse application needs, enabling real-time motion insights.This technology is well-suited for collaboration with a wide range of partners, including medical and rehabilitation centers, sports and fitness companies, robotics and exoskeleton developers, AR/VR interface designers, infrastructure solution providers, and research institutions. The preferred mode of engagement is R&D collaboration, aimed at co-developing and adapting the sensor platform to meet specific industry or application needs.
Electronics, Infocomm, Healthcare
Spatial Sensing and Modelling Technology
spatial-sensing-and-modelling-technology
TO175404
Social issues such as labor shortages are becoming more apparent, making it urgent to utilize digital technology to transform workflows and work styles. In particular, there has been increasing demand for spatial digitalization to manage buildings and streamline renovation processes across various fields.When digitalizing buildings, offices, factories, and other spaces, it is necessary to measure dimensions and create floor plans, which often involves manual work. However, measuring all dimensions and generating floor plans or 3D models manually takes a significant amount of time. Moreover, overlooked measurements often require additional site visits, further delaying the process.Recently, spatial digitalization using sensors such as cameras has been introduced to address these challenges. By sensing spaces and generating point clouds, which are then converted into 3D models, efficiency can be improved. However, existing methods still present issues. Creating point clouds with desktop devices is costly and time-consuming. When using general mobile devices, the accuracy is low and results depend heavily on the operator. Furthermore, transforming point clouds into 3D models often requires extensive manual work and considerable time.This method addresses these challenges. Using low-cost mobile devices, anyone can quickly and accurately acquire point clouds, which can then be automatically transformed into 3D models within just a few hours.
Infocomm, Environment & Clean Tech
High-Speed Combinatorial Optimisation Platform with Quantum-Like Performance
high-speed-combinatorial-optimisation-platform-with-quantum-like-performance
TO175374
Conventional computing environments often struggle with solving complex, computationally intensive problems, particularly in the realm of combinatorial optimisation. Quantum computing was developed to address these challenges by enabling the simultaneous exploration of multiple solution paths. However, full-scale quantum computing remains prohibitively expensive and technically challenging to implement.This technology presents a quantum-inspired alternative that leverages high-speed computing based on FPGA (Field-Programmable Gate Array) architecture. It enables parallel exploration of multiple potential solutions—without relying on the principles of quantum mechanics. By integrating an FPGA board preloaded with a custom optimisation algorithm (implemented in firmware and/or software) into a standard desktop PC, users can efficiently tackle complex optimisation problems using conventional IT infrastructure.Combinatorial optimisation involves identifying the optimal combination of variables that maximises or minimises a particular objective function under a set of constraints. This platform enables practical and scalable solutions across a wide range of applications, offering quantum-like performance without the operational burdens of quantum computing.The technology provider’s ideal collaboration partners include systems integrators to co-develop solutions and Institutes of Higher Learning (IHLs) to advance research in key application areas such as logistics and shipping, transportation operations, smart city initiatives, and industrial automation and operations research.
Infocomm
AI-Powered Solution for Supplier Discovery & Audit Agent
ai-powered-solution-for-supplier-discovery-audit-agent
TO175153
In recent years, current geopolitical tensions and global events have disrupted global supply chains. Companies are now re-evaluating their sourcing strategies, like “China+1” in ASEAN counties, to diversify and strengthen resilience in their supply chain.The company has launched an Artificial Intelligence (AI) based proprietary solution, comprising of an extensive supplier sourcing platform and a one-stop knowledge instructor for all supplier-related queries. The solution's strength lies in offering audited suppliers, backed by human verification, and contextualised insights for any supplier-specific query, ensuring a more comprehensive and reliable sourcing process. Through these, it enhances the resilience and operational flexibility of any core sourcing operations within enterprises.This technology has been involved in several validation proof of concept (POC) projects across various global markets. The company is seeking collaboration partners, such as industrial players, who wishes to explore this supply chain solution for any industrial-specific sourcing hurdle within their respective market.
Logistics
Thin-Film Solar Glass for Building-Integrated Photovoltaics
thin-film-solar-glass-for-building-integrated-photovoltaics
TO175452
Conventional photovoltaic (PV) panels face key limitations in efficiency, design flexibility, and sustainability. Though widely adopted, crystalline silicon modules are heavy, visually intrusive, and perform poorly under shading or high-temperature conditions. Their installation is typically restricted to rooftops, limiting energy yield in space-constrained urban environments. Moreover, silicon-based PV manufacturing involves energy-intensive processes and carbon emissions that run counter to the goals of green construction.This thin-film cadmium telluride (CdTe) solar glass technology overcomes the limitations of conventional photovoltaics by integrating photovoltaic elements into glass for building-integrated photovoltaics (BIPV) applications. It effectively addresses high energy consumption and carbon emissions in modern buildings while maintaining architectural aesthetics. Achieving a conversion efficiency of 22.1% under laboratory conditions, the CdTe solar glass delivers outstanding low-light and temperature performance, ensuring reliable energy generation across diverse environments. The design is highly customizable for seamless integration with glass, stone, or aluminum façades—supporting applications such as curtain walls, sunshades, skylights, and other façade elements. By generating clean energy without compromising transparency or design versatility, the technology offers a practical pathway toward energy-efficient, low-carbon urban development, helping stakeholders meet green building and ESG objectives.The technology owner is seeking collaboration with Singapore-based building material manufacturers, glass processors and architectural firms to jointly advance the integration of sustainable energy technologies into urban infrastructure, supporting Singapore’s transition toward low-carbon, energy-efficient buildings.
Materials, Energy, Chemicals, Sustainability
Affordable Green Bio-Methanol from Biogas/Biomass
affordable-green-bio-methanol-from-biogasbiomass-1
TO175361
With the maritime industry responsible for 2–3% of global CO₂ emissions, the need for practical, safe, and affordable low-carbon fuel solutions has become increasingly urgent. While alternatives like hydrogen and ammonia show potential, they face major barriers in safety, cost, and infrastructure—particularly for long-haul shipping routes. Bio-methanol is considered a strong alternative fuel for the maritime sector, offering a practical, scalable, and safer pathway for transitioning to low-carbon marine fuels.The technology on offer features a proprietary catalyst that simplifies the bio-methanol production process, enabling up to 50% reduction in capital and operating expenses compared to conventional methods. This approach allows renewable methanol to be produced at costs approaching that of fossil-based methanol or diesel, especially when normalized by energy density and inclusive of carbon pricing. The process also supports circular economy goals by valorising waste into energy, further enhancing its environmental and societal impact.By enabling affordable, scalable production of renewable methanol, this technology fills a critical gap in the clean energy supply chain, facilitating a just and profitable transition to greener shipping. It also directly addresses the maritime industry’s growing demand for sustainable fuels that align with international climate targets, such as the International Maritime Organization’s (IMO) net-zero emissions goal.The technology owner is seeking for co-development and test-bedding opportunities with end-users in the maritime sector i.e., shipping companies, fuel distributors, port operators, and clean energy developers and waste biomass producers i.e., palm oil, bagasse, animal manures, municipal sewage waste.
Energy, Chemicals, Sustainability
Concrete Armour for Coastal Protection Structures
concrete-armour-for-coastal-protection-structures
TO175464
Coastal regions are increasingly vulnerable to shoreline erosion and infrastructure damage caused by rising sea levels, stronger waves, and frequent storm surges. Conventional concrete breakwater designs often struggle under such harsh marine conditions due to inadequate interlocking, limited adaptability to diverse coastal profiles, and high maintenance demands.This technology introduces geopolymer-based, geometrically optimized concrete armour units designed to enhance the stability, durability, and sustainability of coastal protection structures. By using fly ash–based geopolymer concrete, the technology not only reduces carbon emissions but also delivers superior interlocking performance and long-term resilience against dynamic wave forces, making it a sustainable solution for modern coastal defense.The technology owner is seeking R&D collaborations with coastal engineering firms, infrastructure developers, and government agencies to co-develop, testbed, and commercialise this geopolymer-based armour unit technology, accelerating its deployment in sustainable coastal protection projects
Sustainability, Materials, Environment & Clean Tech
Real-Time Monitoring Fall Protection System for Work-At-Height Safety
real-time-monitoring-fall-protection-system-for-work-at-height-safety
TO175437
In Singapore, where workplace safety is of paramount concern, the Ministry of Manpower (MOM) have always been actively monitoring with compliance and enforcement to meet their objective of less than one workplace fatality per 100,000 workers by 2028. Unfortunately, workplace deaths have been steadily increasing, with falling from height being the highest cause of incident within the construction industry in 2024 with inadequate Workplace Safety and Health (WSH) management, non-compliance and unsafe behaviour being common root causes. With potential loss of man-day and even life, companies are actively looking for solutions which ensure workers working-at-height are safe and compliant.The technology owner has developed an innovative safety solution designed to enhance safety for workers operating at heights. It provides relevant stakeholders with real-time information about the usage of safety harnesses, as well as the precise or general positioning of the worker before, during and after work-at-height (WAH) activities. This capability enables effective monitoring of compliance of workers in high-risk areas and facilitates the implementation of follow-up training and safety improvements.The technology solution has been successfully tested and deployed in various construction sites in Hong Kong. The owner is currently looking for industrial players, such as contractors, and facility management teams, who will find this solution valuable for reinforcing compliance and reducing WAH risk across various operations.
Electronics, Infocomm
Plug & Play AI Module for Manufacturing Efficiency
plug-play-ai-module-for-manufacturing-efficiency
TO175357
Traditionally, Design for Manufacturing (DFM) feedback is provided late in the product development cycle, often resulting in costly redesigns, production delays, and missed opportunities for optimization. This invention introduces an AI-powered companion that delivers real-time DFM feedback early in the design and demand fulfillment process. By automatically analyzing CAD models and design parameters, it identifies features that may pose manufacturing challenges and offers actionable suggestions to improve feasibility and reduce costs. The AI companion empowers users to make informed design decisions without waiting for manual reviews or relying solely on in-house manufacturing experts.In additional, traditional quoting methods are labor intensive and inaccurate, requiring engineers to analyze technical drawings, assess material and process requirements, and estimate costs based on historical data or supplier inputs. This delays customer responses and increases operational overhead. The proposed technology leverages AI to automatically interpret design files (e.g., CAD or technical drawings), extract key manufacturing features, and generate instant, data driven price estimates. The technology owner is seeking collaborators in tailoring this AI module to specific industries, applications, and business processes. Target users include precision engineering firms, job shops and manufacturers. The solution can enable businesses to respond faster to customer inquiries, reduce quoting costs, reduce design for manufacturing leadtime and win more business.
Infocomm, Manufacturing
Multi-Functional Autonomous Facility Management Robot
multi-functional-autonomous-facility-management-robot
TO175342
The adoption of multi-functional autonomous robots is steadily increasing to support and enhance operational efficiency in the facilities management sector. This technology presents a robot integrated with advanced sensor systems, artificial intelligence (AI), and autonomous mobility to perform multiple tasks. As a digital concierge, the robot provides enhanced visitor experience with seamless 2-way communication and an integrated touchscreen to connect with site duty personnel. The same screen can double up as an announcement board for advertisements and alerts, thereby extending a virtual front-desk capability effectively. In the security domain, this robot conducts autonomous patrols with real-time video surveillance and A.I.-based anomaly detection. The security head is embedded with a "brain” to perform on-edge computing to detect security-related used cases, significantly improving safety and accuracy in complex indoor environments. For cleaning, the robot can detect over 30 types of waste with 99% accuracy. Its self-adaptive cleaning system adjusts to floor type and debris volume, while a verification mechanism ensures more effective spot-cleaning compared to conventional single-pass robots. These Multi-Functional Autonomous Facility Management Robot can yield significant operational savings, increase patrol frequency and shorten response time to incidents. This technology offers a software that features plug-and-play solutions that be customised to specific SOPs and needs. The technology owner is looking for collaborators, such as building owners and integrated facility management companies, with use cases to test-bed AI models. Examples include but not limited to identification of suspicious baggage, illegal parking or stray supermarket trolleys.
Green Building, Infocomm
On-site Molecular Diagnostic Platform for Livestock Disease Detection
on-site-molecular-diagnostic-platform-for-livestock-disease-detection
TO175484
This on-site molecular diagnostic platform enables rapid detection of pathogens in livestock, empowering farmers to identify infections early, before visible symptoms appear. Designed for field conditions, the kits are robust, cost-effective, and user-friendly. By enabling proactive disease surveillance at the farm level, the technology supports timely intervention, reduces antibiotic dependence, and enhances profitability through improved livestock health and reduced mortality losses. This technology combines a DNA extraction method that helps to preserve sample DNA and inactivate pathogens, together with lyophilised reaction beads. The system produces qualitative and semi-quantitative results and is compatible with downstream analyses such as qPCR and sequencing. The technology provider is seeking partnerships across the aquaculture and livestock value chain including research institutions, industry players, and government agencies to scale on-site disease detection and promote sustainable, biosecure food production globally.
Life Sciences