Hong Kong SuperApp Sparks Smart City Innovation
Like Digg Del Tumblr VKontakte Buffer Love This Odnoklassniki Meneame Blogger Amazon Yahoo Mail Gmail AOL Newsvine HackerNews Evernote MySpace Mail.ru Viadeo Line Comments Yummly SMS Viber Telegram Subscribe Skype Facebook Messenger Kakao LiveJournal Yammer Edgar Fintel Mix Instapaper Copy Link The inaugural SuperApp developed by the MetaBIM Research Laboratory at the University of Hong Kong is poised to revolutionise smart city technology. The application seeks to foster intelligent and sustainable urban development by optimising data processing and leveraging ISO knowledge to generate insights. At its core, the AutoCDE system within the SuperApp is an inclusive smart assets solution, showcasing advanced Building Information Modeling (BIM) capabilities. This innovation holds great promise for sectors such as transportation, property management, public utilities, and community activities, with a specific focus on achieving carbon neutrality. The SuperApp is designed for global applicability, with development and implementation planned across 160 countries. Recent significant developments include the successful conclusion of a series A funding round, securing HK$25 million with a valuation reaching HK$424 million. Additionally, a Memorandum of Understanding has been signed with the Hong Kong Green Building System and an investment firm in November. This MoU sets the stage for a joint venture aimed at propelling innovation in smart technology and carbon management, particularly targeting emerging markets such as the United Arab Emirates, Saudi Arabia, and Indonesia. The primary goal of this collaboration is to promote the adoption of carbon management standards and sustainable practices in the specified regions, capitalising on the vast opportunities presented by the global smart cities industry. The joint venture is dedicated to advancing global infrastructure through the implementation of intelligent technology solutions aligned with Environmental, Social, and Governance (ESG) principles and Carbon Neutrality goals. The commitment of the joint venture involves deploying smart digitalisation and ESG solutions, accompanied by essential technological expertise, to enhance existing systems. The collaboration leverages the respective strengths of the partners, with the University of Hong Kong contributing academic insights and research, while the Hong Kong Green Building System and an ESG-focused investment firm offer expertise in green building technologies and global investment guidance. The collaborative effort is underpinned by a shared commitment to advancing global infrastructure through the integration of intelligent technology solutions, aligning with ESG principles and Carbon Neutrality objectives. This transformative initiative underscores the intersection of academic innovation, research, and technological application in shaping more efficient and environmentally friendly urban landscapes. The development of the SuperApp and its joint venture aligns seamlessly with the Hong Kong Special Administrative Region (HKSAR) government’s strategic goals. The SuperApp, incubated by the MetaBIM Research Laboratory at the University of Hong Kong, stands as a significant contribution to HKSAR’s vision of a smart and sustainable city. With a focus on carbon neutrality, the SuperApp streamlines data processing and integrates advanced technologies, particularly in Building Information Modeling (BIM), to benefit sectors like transportation, property management, and public utilities. The recent series A funding success and collaboration with the Hong Kong Green Building System and the investment firm further emphasise the initiative’s global reach, targeting markets in the United Arab Emirates, Saudi Arabia, and Indonesia. The joint venture’s commitment to Environmental, Social, and Governance (ESG) principles aligns with the HKSAR government’s push for responsible business practices. This collaboration not only addresses the global smart cities landscape but also strengthens Hong Kong’s international influence in innovation and technology. The partnership showcases the synergy between academic expertise and industry, supporting the government’s strategy to leverage research for practical applications. Overall, the SuperApp initiative and its collaborative efforts contribute significantly to advancing Hong Kong’s position as a leader in innovative and sustainable urban development on both local and global scales. Like Digg Del Tumblr VKontakte Buffer Love This Odnoklassniki Meneame Blogger Amazon Yahoo Mail Gmail AOL Newsvine HackerNews Evernote MySpace Mail.ru Viadeo Line Comments Yummly SMS Viber Telegram Subscribe Skype Facebook Messenger Kakao LiveJournal Yammer Edgar Fintel Mix Instapaper Copy Link The government has released a resolution outlining its action plan to implement the directives of the Politburo’s Resolution 36, which focuses on the development and application of biotechnology. The resolution aims to support the nation’s sustainable growth. Accordingly, a series of tasks have been set out for ministers, heads of government agencies, and chairpersons of People’s Committees in centrally run localities. These include fostering a shared understanding of the subject among public officials, personnel, workers, and the public, where the prioritisation of biotech development and application is deemed a crucial mission and solution within the socio-economic development plans of the relevant ministries, sectors, and localities. Related laws, mechanisms, and policies should be formulated and finalised to establish a conducive environment for businesses, organisations, and individuals to engage in biotech research, fostering breakthroughs and appropriate applications. The action programme calls for the development of a skilled workforce, increased investments in infrastructure, and the facilitation of firms’ access to new technologies and intellectual property patents. It also covers initiatives related to branding, product commercialisation, and international cooperation, among various other tasks. Additionally, the programme considers it necessary to develop and integrate biotechnology into everyday life, positioning it as a key economic-technical sector that contributes to national defence and development. Under Resolution 36, Vietnam aims to secure a position among the top ten Asian countries in biotechnology production and services by 2030. The country’s tropical climate and its shift away from agriculture in its economic landscape highlight the crucial role played by biotechnology in ongoing industrialisation and modernisation initiatives. Biotechnology contributes to ensuring food security, supporting economic restructuring, and fostering sustainable development. As reported by OpenGov Asia, by 2045, Vietnam wants to have a well-established biotechnology sector and position itself as a leading hub for biotechnology startups and innovation in Asia. This sector is projected to contribute between 10% to 15% to the gross domestic product (GDP) by that time. In the realm of environmental protection, biotechnology has introduced several solutions, including ways to break down inorganic and organic pollutants, waste treatment, the processing of industrial waste, and the application of microorganisms to tackle oil spills and incidents of oil contamination. Vietnam has the opportunity to focus on advancing various facets of the biotechnology sector. This includes agricultural applications such as crop and animal breeding, the manufacturing of veterinary drugs, the development of vaccines, and the formulation of bio-fertilizers. The biotechnology industry is poised to emerge as an important economic and technological sector, with a projected increase in the number of companies by 50% in terms of investment scale and growth rate, while half of the imported biotechnology products are anticipated to be replaced. This sector is expected to contribute 7% of the GDP. The country has been working to transform its agricultural landscape with emerging technologies, especially in rural regions. Recently, the Bac Giang province announced a plan to reshape the future of agriculture. The ambitious plan revolves around creating an intricate data ecosystem that includes information on land, crops, livestock, and fisheries. At the core of this initiative is the digitisation of data related to concentrated agricultural production areas. This digital footprint, combined with an electronic diary system, is set to transform product traceability. It will facilitate the efficient tracking of origin and the issuance of crucial codes for planting areas, packaging facilities, and farm identification. Like Digg Del Tumblr VKontakte Buffer Love This Odnoklassniki Meneame Blogger Amazon Yahoo Mail Gmail AOL Newsvine HackerNews Evernote MySpace Mail.ru Viadeo Line Comments Yummly SMS Viber Telegram Subscribe Skype Facebook Messenger Kakao LiveJournal Yammer Edgar Fintel Mix Instapaper Copy Link The Monetary Authority of Singapore (MAS) is leading the charge towards a more sustainable future with the launch of Gprnt (pronounced “Greenprint”), an innovative digital platform born out of Project Greenprint. This platform, set to progressively roll out from Q1 2024, is poised to transform the landscape of environmental, social, and governance (ESG) data collection and access for both large enterprises and small and medium-sized enterprises (SMEs). Gprnt, currently undergoing live testing with selected banks and SMEs, is designed to streamline ESG reporting processes, offering an inclusive and interoperable data layer for businesses and financial institutions alike. The platform’s capabilities are expected to automate ESG reporting, providing end-users such as financial institutions, regulators, and corporations with timely insights to inform their sustainability-related decision-making. At its core, Gprnt serves as an encompassing solution, simplifying ESG reporting by converting economic data into sustainability-related information. It achieves this through integrations with various digital systems used by businesses in their daily operations, including utility consumption, bookkeeping, payroll solutions, building and waste management, payments gateways, and AIoT (Artificial Intelligence of Things) sensor networks. To facilitate seamless data collection for businesses in Singapore, Gprnt incorporates Myinfo business, enabling the retrieval of relevant data from trusted government sources via Singpass. This collaborative approach ensures a comprehensive and accurate representation of sustainability metrics. The platform’s data computation process involves translating and computing source data into ESG-related outputs, allowing businesses to report with precision. In cases where source data is unavailable, Gprnt leverages AI tools, including intelligent document processing (IDP) and a GPT-4-powered chatbot, to extract key data from user-uploaded documents. This user-friendly approach aims to assist businesses in crafting sustainability disclosures and providing actionable insights. Gprnt not only addresses the reporting needs of SMEs, which form the backbone of the global economy but also caters to the more sophisticated data needs of larger multinational entities and regional economies. The platform’s expansion includes the creation of a new entity, Greenprint Technologies Pte Ltd, with strategic partners in both private and public organisations. This collaborative effort signifies a commitment to enhancing cross-border capabilities and supporting the complex data requirements of multinational corporations. The platform’s flexibility allows businesses to share their ESG information with various stakeholders, including financial institutions for green and sustainability-linked loans, industry partners for accessing green business opportunities, government or regulatory bodies for climate reporting requirements, and international platforms like the Net Zero Data Public Utility. Positioned strategically for future growth, Gprnt is poised to undergo a comprehensive evolution and expansion, enhancing its capabilities to meet the nuanced and intricate demands of larger corporations, financial institutions, and national authorities. This forward-looking approach involves not only addressing current needs but also anticipating the evolving complexities of these entities. Gprnt’s commitment to continuous improvement ensures that it remains at the forefront of technological advancements, adapting to the dynamic landscape of ESG reporting and sustainability initiatives in the corporate and financial sectors. As it expands, Gprnt aims to serve as a reliable and sophisticated tool, facilitating streamlined processes and fostering a more sustainable and transparent environment for its diverse user base. The envisioned growth involves establishing collaborative partnerships with organisations, leading to the development of specialised modules. These modules will be tailored for sectoral data collection and outcomes tracking, championing a comprehensive and holistic approach to sustainability, particularly in pivotal sectors such as energy, industrial, and real estate. This proactive approach ensures that Gprnt remains at the forefront of facilitating sustainable practices across diverse industries, contributing to a more environmentally conscious and responsible global landscape. Like Digg Del Tumblr VKontakte Buffer Love This Odnoklassniki Meneame Blogger Amazon Yahoo Mail Gmail AOL Newsvine HackerNews Evernote MySpace Mail.ru Viadeo Line Comments Yummly SMS Viber Telegram Subscribe Skype Facebook Messenger Kakao LiveJournal Yammer Edgar Fintel Mix Instapaper Copy Link To strengthen India’s micro, small, and medium enterprise (MSME) sector, the Technology Development Board (TDB) and the Small Industries Development Bank of India (SIDBI) have signed a Memorandum of Understanding (MoU). The agreement aims to streamline the process of accessing credit for businesses involved in the development and commercial application of either indigenous or imported technology, a press release stated. Through the MoU, TDB and SIDBI have established a credit alliance, wherein both entities shall refer additional funding needs of companies they have previously funded to each other. Through dedicated key contacts, these organisations will enhance coordination, facilitating a smooth exchange of referrals. Moreover, in accordance with their respective policy guidelines, TDB and SIDBI will extend financial assistance to other eligible MSMEs. This partnership goes beyond providing financial assistance, as the involved parties are also planning joint outreach and marketing initiatives to promote the initiative and expand its reach to a broader audience. The scope of these activities will be mutually agreed upon during the implementation of the terms outlined in the MoU. The collaboration between TDB and SIDBI underscores a mutual dedication to aiding MSMEs in their efforts to advance and implement state-of-the-art technology for the overall betterment of society, the release noted. Anticipated outcomes of this partnership include increased innovation, the generation of employment opportunities, and economic advancement within the MSME sector. Rajesh Kumar Pathak, Secretary of TDB said, “This collaboration with SIDBI marks a significant milestone in our mission to promote technology development. By combining our strengths, we aim to create a conducive environment for MSMEs engaged in innovative endeavours, fostering entrepreneurship and economic growth.” The government has been actively engaged in bolstering support for MSMEs within the technology sector. It has implemented numerous initiatives, schemes, and policies aimed at boosting funding, improving R&D capabilities, and elevating overall competitiveness. In August, the National Deep Tech Startup Policy (NDTSP) Consortium put forth the Draft National Deep Tech Startup Policy for public consultation. It aims to address the challenges encountered by deep tech startups, as reported by OpenGov Asia. The policy builds current initiatives to tackle issues such as disjointed funding, mismatches in gestation periods with market expectations, and delays in payments leading to working capital challenges. It intends to establish a system for monitoring government grant payments and channel Corporate Social Responsibility (CSR) funds toward research institutions focused on science. It plans to provide larger fund quanta per startup, allowing them to develop their technologies and reach product maturity within a reasonable timeframe. The policy recommends increasing R&D spending to improve basic research, broaden the science foundation for deep tech startups, and develop a proficient scientific workforce. It targets enhancing technology commercialisation by fostering partnerships between academic institutions, research labs, and industry. It suggests setting up an Open Science and Data Sharing platform to encourage collaboration and deep tech innovations. Furthermore, the policy emphasises the need for regular multi-stakeholder consultations with regulators, deep tech startups, and industry representatives. It proposes creating regulatory sandboxes and providing subsidies and exemptions in certification and accreditation costs. To sustain deep tech start-ups, the policy suggests establishing a centralised core mission office. It will simplify approval procedures, enable IP protection, create awareness in Tier II and III cities, and design a monitoring mechanism based on mapping key performance indicators. Like Digg Del Tumblr VKontakte Buffer Love This Odnoklassniki Meneame Blogger Amazon Yahoo Mail Gmail AOL Newsvine HackerNews Evernote MySpace Mail.ru Viadeo Line Comments Yummly SMS Viber Telegram Subscribe Skype Facebook Messenger Kakao LiveJournal Yammer Edgar Fintel Mix Instapaper Copy Link A groundbreaking Python learning chatbot developed by a team of enterprising female students from the Asia Pacific University of Technology & Innovation (APU) has clinched a Silver Medal in the Information and Communication Technologies (ICT) and Multimedia category at the esteemed International Borneo Innovation, Exhibition & Competition (IBIEC) 2023. The competition, themed ‘Fostering Innovative Concepts for Enhanced Sustainable Entrepreneurship,’ was hosted virtually at Kolej Komuniti Miri, Sarawak, from the 14th to the 16th of August 2023. Pietonne, comprised of Lai Tsi Syuen Susanne, Tan Jia Ling, and Teoh Huey Ying, spearheaded the creation of ‘Learning Python Programming Language with Mr. Pytor Bot’ to facilitate the teaching of Python programming to university students. Their brainchild, Mr. Pytor Bot, is a testament to technological innovation. It serves as a centralised educational tool, offering a cohesive learning experience through its conversational interface – an innovative departure from the scattered online resources currently available. This AI-driven chatbot serves as an ideal companion for those delving into the realm of Python programming. Its capabilities include personalised guidance and support across various proficiency levels, from foundational concepts to more advanced topics. Beyond mere guidance, Mr. Pytor Bot navigates users through Natural Language Processing (NLP) nuances and assists in transforming inquiries into actionable lines of code, augmenting the learning process significantly. Susanne, the team leader, expressed the challenges encountered during the competition. They faced technological constraints necessitating the migration of software to code, culminating in creation of their chatbot. She emphasised the invaluable lessons in teamwork, adaptability, and unwavering belief in their project that were integral to their success. Jia Ling echoed gratitude for the competition experience, acknowledging the fun and wealth of knowledge gained during the development phase of Mr. Pytor Bot. Meanwhile, Huey Ying highlighted the project’s significance as an exceptional learning opportunity. The team attributes their success to the guidance and support of their mentors, Assoc. Prof. Ts. Dr. Vinothini Kasinathan, and Ms. Asiah Abdollah. Pietonne’s Mr. Pytor Bot project earned high acclaim from the IBIEC 2023 judging panel for its transformative potential in reshaping Python programming education. With its ability to offer personalised coaching and support, this innovation stands as a valuable asset for Python learners at all levels. This pioneering project is poised to revolutionise the educational landscape, promising a substantial impact on Python programming instruction. As Pietonne looks ahead, their innovative strides suggest the likelihood of even greater accomplishments in the future. OpenGov Asia has highlighted the global trend toward prioritising Python in technological advancements. One such instance is observed at the Indian Institute of Technology Kanpur (IIT-Kanpur), where they’ve introduced a professional certificate course focusing on artificial intelligence (AI) and machine learning (ML). This comprehensive curriculum encompasses various domains, including applied data science using Python, fundamental ML courses, an extensive study of deep learning employing Keras and TensorFlow, as well as an introduction to essential concepts such as GenAI, prompt engineering, and ChatGPT. Meanwhile, in Hong Kong, the HKPC Academy has joined forces with a specialist in STEM and Coding Education to unveil the “HKPC Academy x STEM Instructor Training Certificate Programme Cohort V.” This innovative programme caters to a diverse array of topics, featuring fundamental modules like Micro:bit Basics, Cospaces VR, Python Codebooks, and Microsoft Azure AI-900, providing participants with a well-rounded understanding of cutting-edge technologies. Like Digg Del Tumblr VKontakte Buffer Love This Odnoklassniki Meneame Blogger Amazon Yahoo Mail Gmail AOL Newsvine HackerNews Evernote MySpace Mail.ru Viadeo Line Comments Yummly SMS Viber Telegram Subscribe Skype Facebook Messenger Kakao LiveJournal Yammer Edgar Fintel Mix Instapaper Copy Link The design of wireless communication devices involves essential aspects, including the implementation of Software Defined Radio (SDR). This advanced technology is widely integrated into development activities and applications in telecommunications, including but not limited to mobile devices, satellites, and various other telecommunication solutions. The concept of SDR allows for high flexibility in handling multiple communication standards without having to replace physical hardware, providing an innovative and efficient approach to addressing the complexity of modern telecommunications technology demands. Budiman Putra Asma’ur Rohman explained that SDR functions to maximise programmable hardware to build a software-based radio. SDR technology plays a crucial role in creating adaptive radios and integrating various essential radio functions, including modulation, signal processing, and link-layer protocols, directly through software. He highlighted the flexibility of SDR, providing a wide range of services, supporting multiple standards, being reconfigurable, and reprogrammable as needed. This flexibility SDR from conventional approaches, allowing dynamic changes to hardware functionality without physically replacing the hardware. Thus, SDR brings significant innovation in addressing the complexity and diversity of the radio technology domain. Budiman also emphasised that SDR opens the door to developing more adaptive and efficient radio technology. With its ability to be changed and reprogrammed, SDR enables optimal use in various communication scenarios, from simple modulation to implementing advanced link-layer protocols. This innovation provides solutions to current technical challenges and opens opportunities for further exploration and discoveries in software-based telecommunications. As a Young Expert Researcher at the Telecommunications Research Centre, he explained that Software-defined radio (SDR) is a radio communication system where components typically using hardware, such as mixers, filters, amplifiers, modulators/demodulators, and detectors, are replaced with software implementations. He elaborated that based on its analogue-digital interface position, SDR architecture can be divided into 3 types, namely (1) Baseband-Sampling SDR, (2) IF-Sampling SDR, and (3) Direct-RF (Almost Digital) SDR. Furthermore, Budiman explained that Baseband-Sampling SDR has an analogue-digital interface at the baseband processing speed with all modulation and demodulation done in the analogue domain. While IF-Sampling SDR uses superheterodyne processing with modulation between baseband and IF in the digital part, the transition between IF and RF uses analogue circuitry. Direct-RF SDR has an architecture with the highest sampling rate to date as an implication and advancement of DAC/ADC technology. In this SDR architecture, almost all processes operate digitally, for example, using RFSoC (Radio Frequency System on Chip) technology. “SDR that is commonly available in the market today is IF-Sampling SDR. Whereas the latest SDR technology is Direct-RF (Almost Digital) SDR with processing that is almost entirely processed digitally with the highest sampling rate compared to other architectures,” asserted Budiman. SDR is a reconfigurable radio communication system with software that assists research and development. “Researchers and developers in the field of telecommunications in their research and development activities may need to change the configuration and parameters of the telecommunication system they are developing, which, if using conventional radio systems, requires considerable time and cost,” he said. Through the Telecommunications Research Centre, the National Research and Innovation Agency researches SDR for various activities, including cognitive radio, cognitive radar, radar-UAV, and developing a testbed tool for testing sensing and telecommunication systems. Nasrullah Armi, Head of the Telecommunications Research Centre, conveyed that telecommunication systems are now towards software-based systems. He envisioned that there will be more research focused on the use of SDR for various telecommunication fields. “Many current telecommunications researchers are utilising SDR, such as radar, cognitive radio, etc., as SDR is more flexible and functional. In performing different functions, there is no need to make hardware changes. Only with programming on the software side,” expressed Nasrullah. Like Digg Del Tumblr VKontakte Buffer Love This Odnoklassniki Meneame Blogger Amazon Yahoo Mail Gmail AOL Newsvine HackerNews Evernote MySpace Mail.ru Viadeo Line Comments Yummly SMS Viber Telegram Subscribe Skype Facebook Messenger Kakao LiveJournal Yammer Edgar Fintel Mix Instapaper Copy Link The Consulate General of Vietnam in Frankfurt, Germany and the Vietnam – Germany Innovation Network (VGInetwork) are exploring the potential for collaboration between the two countries in artificial intelligence (AI) innovation, and the development of smart cities. Given Germany’s proficiency in digital technology and Vietnam’s substantial information technology workforce, AI stands out as a highly promising collaboration focus, holding the potential for practical benefits for both countries. A jointly organised symposium was organised to disseminate information on emerging technologies, contributing to the advancement of priority economic and technical sectors in Vietnam, particularly AI and smart city development. Consul General Le Quang Long commended the growth of VGInetwork and its extension to experts in southwestern Germany and the organisation’s efforts to enhance innovation cooperation between the two sides. It was proposed that a Techfest or IT Day of Vietnam should be held in Germany next year to foster connections between the startup and innovation ecosystems of the two countries. Dr Nguyen Xuan Thinh, head of the spatial information management and modelling research group at the Technical University of Dortmund emphasised the noteworthy initiatives of the network and underscored the potential for collaboration between the countries in the development of smart cities and smart buildings. The government is actively promoting international collaboration to seek support and exchange knowledge for the development of smart cities in Vietnam. It aims to advance urban governance by implementing digitised features in areas like transportation and energy. In June, Vietnam and the Republic of Korea (RoK) held an event to foster engagement in the smart city and blockchain industry. It offered a platform for representatives from both sides to discuss the development of a business network between the two countries. Kwon Young Gull, Chairman of the National Architectural Policy Committee under the Office of the President of the RoK, noted that building a smart city goes beyond infrastructure development; it involves bolstering creative businesses with advanced science and technology. Encouraging collaboration between businesses and individuals in both the public and private sectors is crucial to achieving synchronisation and effectively promoting technological advancements. He proposed that Vietnam should formulate a “Design Vietnam” strategy to systematically implement solutions for planning, appearance design, and urban quality, mirroring the approach taken by the Republic of Korea in transforming Seoul into a smart city. According to him, major cities such as Hanoi, Da Nang, and Ho Chi Minh City need to join urban alliances in the region so that they can share and learn experience in designing and implementing smart urban models. More recently, Ho Chi Minh City and the Wellington City Council in New Zealand held a meeting to discuss collaboration and mutual assistance in the development of smart urban areas. Vice Chairman of the Ho Chi Minh Municipal People’s Council, Nguyen Van Dung, noted that the Vietnamese southern hub is carrying out the National Assembly’s Resolution No 98. It pilots special mechanisms and policies for the city’s development, focussing on investment attraction, boosting the startup ecosystem, and innovation. A representative from the Wellington City Council expressed hope that both sides would share information to enhance services for residents and businesses. Additionally, the representative affirmed Wellington’s readiness to share its experiences with Ho Chi Minh City in the development of smart urban areas. Like Digg Del Tumblr VKontakte Buffer Love This Odnoklassniki Meneame Blogger Amazon Yahoo Mail Gmail AOL Newsvine HackerNews Evernote MySpace Mail.ru Viadeo Line Comments Yummly SMS Viber Telegram Subscribe Skype Facebook Messenger Kakao LiveJournal Yammer Edgar Fintel Mix Instapaper Copy Link The Bright Future Engineering Talent Hub (the Hub) at the City University of Hong Kong held the STEM Challenge and Summer Research Internship Presentation, drawing the participation of approximately 100 secondary students and representatives from educational institutions. Founded at the College of Engineering, the Hub has been instrumental in organising diverse STEM activities, encompassing a Summer Research Internship, a STEM Carnival, Student Project Exhibition, and the STEM Challenge. These initiatives collectively aim to nurture young talent for the ever-evolving engineering industry and propagate STEM education. Over the past two years, the Hub has successfully engaged more than 1,600 secondary students in these activities. Various distinguished personalities were in attendance. A donation of over HK$8 million was also received from the Bright Future Charitable Foundation to further propel the Hub’s development. This will facilitate the establishment of two scholarship schemes for CityU engineering students. The donation signifies the Foundation’s recognition of CityU’s longstanding commitment to nurturing young engineering talent. The STEM Challenge emerged as a project-based competition supervised by CityU academic staff and facilitated by student mentors. This year, 35 teams from various secondary schools participated, collaborating with CityU students to delve into specific engineering topics, conduct experiments, and undertake field studies. The final presentation saw nine teams competing, and three distinguished teams from Harrow International School Hong Kong, Kwok Tak Seng Catholic Secondary School, and Tuen Mun Government Secondary School received accolades for their innovative work and accomplishments. Parallelly, the Summer Research Internship program, designed to provide secondary students with a one-month engineering-related research attachment at CityU during the summer, celebrated outstanding interns from Belilios Public School, Hong Kong Baptist University Affiliated School Wong Kam Fai Secondary and Primary School, and Pui Kiu College. The program, guided by PhD students and faculty members, aims to enhance students’ interest in engineering, with participants required to submit a comprehensive report upon completion of their internship. The STEM Challenge and Summer Research Internship Presentation not only showcased the achievements of secondary students but also underscored the commitment of the Bright Future Engineering Talent Hub and the enduring support from the Bright Future Charitable Foundation in nurturing future leaders of the engineering industry. The event marked a significant milestone in advancing STEM education and fostering a culture of innovation and excellence in engineering at City University of Hong Kong. These initiatives closely align with the strategic goals set by the Hong Kong Special Administrative Region (HKSAR) Government, particularly in the realms of STEM education, innovation, and technology development. The STEM Challenge and Summer Research Internship initiatives actively contribute to STEM education by engaging secondary students in hands-on projects and research internships. These efforts resonate with the HKSAR Government’s vision of cultivating a robust foundation in science, technology, engineering, and mathematics (STEM) disciplines. The Hub’s emphasis on innovation, as seen in the STEM Challenge, aligns seamlessly with the government’s goal of positioning Hong Kong as a hub for technological innovation. The event’s notable presence of industry leaders underscores the importance of collaboration between academia and industry, a key focus of the HKSAR Government. The donation from the Bright Future Charitable Foundation not only supports the development of the Hub but also establishes scholarship schemes for CityU engineering students, directly contributing to the government’s strategic efforts to invest in education and talent development in critical areas like engineering and technology. Moreover, by providing opportunities for secondary students to engage in engineering-related research attachments, the Hub addresses the HKSAR Government’s imperative to cultivate a skilled workforce to meet the growing demand in technology and engineering sectors. The event, featuring prominent figures from the engineering industry, serves to inspire and motivate young students to pursue STEM disciplines, aligning with the government’s goal of encouraging youth participation in these fields.