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A.I. Digital Twin
Platform
Redefining future architecture
Leveraging our proprietary intelligent algorithms, we optimize energy consumption in real-time, with proven results demonstrating significant electricity savings.
Committed to building a new smart building ecosystem, our solutions encompass Building Information Modeling (BIM), building automation, environmental data collection, augmented reality, data analysis, AI large language models, and more.
Management Pain Points
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Unable to track real-time environmental data
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Lack of management information
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Difficult to conduct on-site inspections
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Consume large amounts of electrical power
Buildings in
Hong Kong
account for
90%
power consumption
Our system can reduce
30%
power consumption
Intelligent indoor adjustment
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Understand air circulation and with forecast
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Use neural networks for environmental modeling
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Allow equipments to fit the environment.
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Resolve indoor temperature imbalances.​
Remotely equipment monitoring
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Understand building equipment operation
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Remotely monitor for abnormal conditions​
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Easily track maintenance status
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AI algorithms to automatically adjust equipments(saving over 30% in electricity consumption)
Indoor Air Purification System
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Real-time monitoring of air quality
(VOC, CO2, PM2.5) -
Intercepts 99.97% of particles + pollen and dust
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Dehumidification system suppresses mold and bacteria
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Used in conjunction with air quality detectors to automatically turn on and off
HALO WYND
Air Quality Monitor
Equipped with HALO management system for large-scale management
The app can be used to check the detectors installed on siteand read historical data and real-time values.
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Real-time monitoring of multiple health-related values in the air
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Air values: Volatile Organic Compounds (VOC), Carbon Dioxide (CO2), and PM2.5 levels
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Environmental parameters: Temperature, humidity, light intensity, etc
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The outer ring color of the display indicates different levels of air quality
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Supports identification of various air pollution conditions, such as pollen, dust, smoke, or haze, etc.
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Built-in fan enhances airflow for accurate monitoring
AIRPROCE
Medical-grade Air Purifier
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Intercepts 99.97% of particles, efficiently filtering pollen, dust mites, and PM2.5
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Activated carbon filter layer effectively decomposes formaldehyde from new home renovations and pet odors
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Ultra-quiet mode (37dB)
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Can be used with HALO WYND automatic switch AIRPROCE
Duct-type Dehumidifying Air Purification System
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Designed for Hong Kong's humid, hot, and crowded environment, it effectively reduces air humidity and inhibits the growth of mold and bacteria.
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Applicable scenarios: residences, clinics, schools, shopping malls
Dehumidification Principle
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Cold-hot cycle - The compressor drives the refrigerant to circulate between the cooler (cold) and radiator (hot), creating a temperature difference.
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Condensation dehumidification - Moist air passes through the cooler, where moisture condenses into water droplets and is discharged.
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Automatic defrosting - The system automatically detects frost and heats it to melt it, maintaining efficiency.
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Warm Air Drying - Dehumidified air is heated by the condenser and expelled, reducing humidity.
Enterprise network solutions
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Experts-pick right equipment
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Deployment in seven days, available 24/7
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Pay monthly, flexible contract
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In-house developed network monitoring platform
Success Stories
A University Campus in
Hong Kong
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Fully automated AI-driven central cooling system achieves 22% energy savings​
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It is estimated that $8.6 million in electricity costs could be saved annually
A government building in
Hong Kong
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Fully automated AI-driven central cooling system achieves 20% energy savings
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Based on this calculation, HK$380,000 in electricity costs can be saved annually
A commercial building in Guangdong
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AI-driven refrigeration unit achieves 28% energy savings
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Improves uneven room temperature issues and increases comfort time by 122%
The tallest building in Kowloon
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Saving 18% of annual electricity consumption
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Achieving over 10 million kWh of energy savings.
Our Partner
The Hong Kong Polytechnic University (PolyU) is a leading educational institution in technology innovation research and development. PolyU's expertise in Internet of Things (IoT) and Building Management System (BMS) is expected to benefit the public sector by enhancing service delivery and infrastructure management.
With Polytechnic's advanced IoT solutions, public services can realise real-time monitoring and data-driven insights to improve operational efficiency and responsiveness. Their BMS technology centralises control of key building systems, ensuring energy savings and providing comfort in public facilities. Together, these innovations promise to streamline public service processes, reduce costs, and promote sustainable development.