Inno Wing HKAE TechTalks

March 24, 2026 (Tuesday) 4:00-5:00pm
To effectively design adaptive traffic signal control for congested traffic networks, it is essential to account for three fundamental characteristics of traffic flow: (i) its dynamic nature, (ii) spatial patterns, and (iii) stochastic behaviour. In this presentation, we will discuss how these three key attributes are captured and embedded within a rigorous analytical framework, which is then transformed into an intelligent traffic control system through AI-based computational techniques. This system, known as Dynamic Intersection Signal Control Optimization (DISCO), is validated using VISSIM simulations and tested in real-world environments. The applications span diverse scenarios—including roundabouts and adaptive area-wide control—demonstrating DISCO’s versatility and effectiveness in practice.

February 24, 2026 (Tuesday) 4:00-5:00pm
This talk will start by analysing the need for energy storage for decarbonization, and then review the global status of electrochemical energy storage, followed with the discussion of future perspectives for electrochemical energy storage in research and development.

January 20, 2026 (Tuesday) 4:00-5:00pm
Nature is an expert in water and energy management. Over billions of years’ evolution, biological systems have orchestrated a variety of principles to regulate mass and energy transport, especially by harnessing elegant surfaces and interfaces.
This talk will present our recent development on proposing a field-matching principle that provides a new framework for surfaces and interface designs to achieve efficient water-energy nexus. This principle suggests that by tailoring the heterogeneous surfaces to reconstruct the fluid field and the physical gradient field, the two originally mismatched fields can be perfectly matched to maximize the energy output. Such a field-matching principle is also substantiated by introducing the matching coefficient, which serves as an important metric of interface design to mediate the transport and energy processes. The common feature of this principle across diverse fields allows us to establish a unified potential-energy equation, which complements the well-established theoretical framework of energy conversion and helps to guide the development of new materials and systems, even involving acoustic, optical, and magnetic fields.

December 18, 2025 (Thursday) 4:00-5:00pm
Hong Kong is one of the places with the longest life expectancy in the world. Many attributes this to the success of the healthcare system. The public healthcare system offers high quality healthcare services to all residents, ensuring no one is deprived of adequate healthcare due to lack of means.
Hong Kong’s health system, however, faces huge challenges from the aging population and rapidly advancing medical technology. These two biggest challenges have become the major drivers of healthcare costs, leaving questions on sustainability and accessibility. We are seeing Artificial Intelligence (AI) disrupting many aspects of health and healthcare delivery. Will AI help to address these challenges? How can AI help?

November 18, 2025 (Tuesday) 4:00-5:00pm
The integration of Artificial Intelligence (AI) and the Internet of Things (IoT) is transforming the construction industry, driving innovation and efficiency like never before. AI enhances decision-making through predictive analytics, process automation, and real-time insights, while IoT connects devices and systems, enabling seamless communication and data collection. With the introduction of Modular Integrated Construction (MiC) and Multi-trade Integrated Mechanical, Electrical and Plumbing (MiMEP), this synergy further optimizes off-site prefabrication, improving precision, reducing waste, and accelerating project timelines. From smart sensors monitoring site conditions to AI-driven schedules, this convergence paves the way for smart, sustainable, and advanced construction solutions.

October 22, 2025 (Wednesday) 4:00-5:00pm
While climate change is a global crisis, its impacts are profoundly and systematically unequal. This talk will confront the uncomfortable truth that the burden of a warming planet is not shared fairly. We will explore how different communities, nations and even people of different sexes are suffering its most devastating consequences.
We will start with first the frontlines of the crisis, then trace the roots of this disparity, highlighting how vulnerable regions are experiencing climate impacts with a severity that outstrips their capacity to cope.
However, this is not just a story of victimhood; it is a call for redefined responsibility. This talk will argue that climate justice must be at the heart of our response. The fight against climate change is inseparable from the fight for a more equitable world.

June 17, 2025 (Tuesday) 4:00-5:00pm
Environmental Analytical Microbiology integrates advanced sequencing, absolute quantification, and standardization to address microbial pollution and antibiotic resistance. This talk traces microbial ecology’s evolution from microscopy to metagenomics, highlighting innovations like cellular internal standards for cross-study comparisons. Case studies demonstrate applications in wastewater treatment, anaerobic digestion, and microbial risk assessment, emphasizing quantification of pathogens and antibiotic resistance genes (ARGs). The global resistome analysis reveals anthropogenic impacts on ARG distribution, while frameworks prioritize high-risk genes. Future efforts focus on the Environment–Microbiome–Health axis, advocating for microbiome-informed urban design to enhance public health. By merging cutting-edge technologies with interdisciplinary collaboration, this field aims to mitigate environmental risks and promote sustainable co-evolution with microbial ecosystems.

May 20, 2024 (Tuesday) 4:00-5:00pm
Environmental Analytical Microbiology integrates advanced sequencing, absolute quantification, and standardization to address microbial pollution and antibiotic resistance. This talk traces microbial ecology’s evolution from microscopy to metagenomics, highlighting innovations like cellular internal standards for cross-study comparisons. Case studies demonstrate applications in wastewater treatment, anaerobic digestion, and microbial risk assessment, emphasizing quantification of pathogens and antibiotic resistance genes (ARGs). The global resistome analysis reveals anthropogenic impacts on ARG distribution, while frameworks prioritize high-risk genes. Future efforts focus on the Environment–Microbiome–Health axis, advocating for microbiome-informed urban design to enhance public health. By merging cutting-edge technologies with interdisciplinary collaboration, this field aims to mitigate environmental risks and promote sustainable co-evolution with microbial ecosystems.

May 16, 2024 (Friday) 4:00-5:00pm
Transitioning to renewable energy and efficient energy systems is paramount for achieving carbon neutrality, necessitating a multidisciplinary approach. Energy research must encompass a wide array of factors, including temporal aspects, geographical considerations, and data analysis. This discussion delves into the complexities of energy transitions, illustrating their interconnectedness with the global energy landscape. Challenges such as integrating renewable energy sources, managing demand fluctuations, and overcoming research barriers are explored. By forging connections between energy and various sectors, comprehensive and sustainable solutions can be developed. A focus on interdisciplinary research is crucial for advancing future energy endeavors and addressing broader environmental imperatives.

March 18, 2024 (Tuesday) 4:00-5:00pm
Recent advancements in nanotechnology have enabled the creation of diverse nanostructures, which are integral to high-performance biosensors, terahertz (THz) devices, and meta-devices. Nanoimprint technology, when combined with precise dry etching techniques, facilitates the rapid production of three-dimensional (3D) nanodevices with high uniformity and precisely controlled dimensions across large areas.
In this presentation, we will showcase several applications of these technologies:
1. 3D Biomimetic Platforms and Plasmonic Biosensors to control and monitor cells and biomolecules with exceptional sensitivity.
2. High-Frequency Terahertz (THz) Lenses and Antennas utilizing curved or meta surfaces to enhance functionality and performance.
3. Multi-Layered Meta Surfaces with Twist Angles to achieve chiral magic angles for advanced light manipulation.

February 28, 2024 (Tuesday) 4:00-5:00pm
The rapid development of generative AI has ignited a new wave of technological innovations. Breakthroughs like ChatGPT and DeepSeek are opening doors to democratize and accelerate adoption across various industries and countries. This new era presents both challenges and opportunities for institutions of higher education, such as Lingnan University, where research and creativity are integral to daily life. The university acknowledges that knowledge is dynamic and evolving, not static, and disruptive technologies can displace existing professions while creating new ones.
Several open questions to be addressed include:
• Breakthroughs from ChatGPT to DeepSeek
• How will generative AI affect the curriculum?
• What education subjects would be sustained or diminished?
• How can we help students enhance critical thinking skills with generative AI?
• How does the digital revolution affect higher education in terms of skills-based and holistic education?

November 19 2024 (Tuesday) 4:00-5:00pm
Robotics and AI technologies are rapidly advancing in recent years, but intelligence levels of robots are still far below humans’ expectations. One of the major reasons is that a robot is not good at coordinating visual information captured by its vision systems, i.e. eyes, with motions of its arms, hands, and legs or wheels. Accurate, robust and efficient perception and effective use of the visual information is crucial for robots to successfully perform tasks in natural environments. This talk presents technical challenges in vision-driven robotics, our on-going work and latest results in vision-driven robot manipulation and vision-guided robot navigation, and applications of the technologies in manufacturing, logistics and robotic surgery.

October 22 2024 (Tuesday) 4:00-5:00pm
The rapid advancement of mobile communications technology is profoundly reshaping society and paving the way for the future. This talk will first guide the audience through the innovations and adoption progress of 5G technology, highlighting its transformative impacts. The discussion will then shift to ASTRI’s initiatives aiming at addressing critical pain points and customizing applications to enhance user experiences, showcasing how 5G continues to evolve and unlock its full potential. As we transition from 5G to 6G, a new landscape of opportunities and challenges is emerging, driven by academic research and operator requirements. Furthermore, the integration of artificial intelligence in 6G presents exciting possibilities for enhancing everyday life. The presentation will also introduce ASTRI’s research efforts on shaping a connected future, illustrating how these advancements can foster a more integrated and intelligent society.

June 26 2024 (Wednesday) 4:00-5:00pm
Water supply in Hong Kong began more than 170 years ago in 1851. Initially, only fresh water was supplied but serious droughts in the 1950s-60s led to the development of one of the world’s first SWFT – “seawater for toilet flushing” systems, which continues today and covers around 85% of the Hong Kong population. This talk will focus on the metallurgical issues encountered in the supply of both fresh and sea water in Hong Kong. For fresh water, excess lead (Pb) was reported in a newly completed housing estate in 2015 and since then, measures have been taken to tighten the control of materials used in pipes and solder joints. Yet, potable-water grade copper-alloy materials allowable by international standards are still not entirely Pb-free, and this talk will report a scientific study on the metallurgical pathways for Pb-leading from such materials. For seawater supply, using the SWTF system for more than 60 years is met with increasingly frequent pipe bursts due to seawater-induced corrosion of the ferrous pipe materials. This talk will report an on-going study on a type of corrosion inhibitors which, if added to the seawater, can potentially lengthen the lifespan of the pipes. The research reported here is supported by the Research Impact Fund of the Hong Kong Research Grants Council and the Water Supplies Department of the HKSAR Government.

May 21 2024 (Tuesday) 4:00-5:00pm
AI will be tightly integrated with wireless networks in future 6G wireless systems. On one hand, more and more AI applications will be running directly on mobile terminals for inferencing and training because dataset exists locally at mobile or IoT devices but large neural network models will be in the cloud. As such, wireless communication networks will be “in-the-loop” between mobile devices and the neural network models. it is important for future wireless networks to be optimised to support more efficient AI deployment. On the other hand, AI as a powerful tool can have huge potential to solve challenging problems in wireless communications design, resulting in better and more efficient wireless networks. There are lots of potential to deploy domain-specific AI design to implement challenging modules such as the physical layer and system designs in wireless systems. In this talk, we shall explore the integration of AI and future 6G wireless networks.

March 26 2024 (Tuesday) 4:00-5:00pm
Edge computing provides a powerful way to rapidly analyze data and process tasks at the edge of the network, closer to the end-user. Edge AI extends edge computing to enable AI on edge devices to make instantaneous intelligent decisions. In this talk, I will describe the vision of future Edge AI, called Ubiquitous AI, empowered by collaborative edge computing (CEC), which is a new-generation scalable edge computing infrastructure. With the computing power shared by collaborative edge nodes, edge AI models can be trained and seamlessly deployed jointly by the edge nodes that can be geographically distributed across a wide area. I will highlight the architecture and framework of CEC and how it enables ubiquitous AI demanded by advanced smart city applications like autonomous driving, industry 4.0 and metaverse.

February 20 2024 (Tuesday) 4:00-5:00pm
Air pollution continues to cause significant environmental health risks, leading to numerous premature deaths worldwide each year. To protect public health, many governments have implemented regulatory policies on mass concentration of major air pollutants, referencing the guideline values recommended by the World Health Organization (WHO). However, new scientific evidence suggests various components in the air have different health effects. This talk will share research findings on the key toxic components of urban air from both chemical and biological aspects and their associated emission sources responsible for health effects.

November 2 2023 (Thursday) 4-5pm
The Hong Kong Harbour Area Treatment Scheme (HATS) serves a population of over 5 million. It ensures protection of the Tsuen Wan beaches and good water quality in Victoria Harbour. In the Stonecutters Island treatment works, 300 tonnes of 10 percent sodium hypochlorite solution (6 L/s) are dosed into a river of sewage (1.8 million m3/d) every day. In actual operation it is found that most of the chlorine is actually consumed without being used for disinfection. This talk presents an engineering innovation on how to mix the small chlorine dose with the large sewage flow, resulting in up to 30 percent reduction of chlorine demand – with significant savings of chemicals and reduction of carbon footprint of 1170 tonnes/year. The technology is generally applicable to chlorine disinfection of primary effluent in many developing countries.