The Chief Minister of the state of Tamil Nadu recently launched an artificial intelligence (AI)-enabled panic button and CCTV surveillance project to make travel safer. The initiative will be implemented in phases, aiming to cover 2,500 buses in Chennai city. Under the first phase, 500 buses in the metro city have installed four panic buttons, an AI-enabled mobile network video recorder (MNVR), and three cameras each.
According to a report by the government’s AI portal, the MNVR will be connected to a cloud-based control centre via a 4G GSM SIM card. In case of inconvenience, discomfort, or threat, passengers will be able to press the panic button and record the incident. At the same time, an alarm will go off at the control centre along with a video recording of the incident on the bus. The operator at the control centre will be able to monitor the situation and facilitate, in real-time, the next course of action, the report said.
The control centre has been linked to the distress response centre of the city police and Greater Chennai Corporation. The state government has noted that 31 bus depots and 35 bus terminuses of the Metropolitan Transport Corporation (MTC) have been brought under surveillance. The project will also help detect missing persons and identify criminals and other works of the GCC, transport department, and the police.
Other states across the country have also deployed technology-enabled solutions to better monitor traffic. In April, the Ministry of Electronics and Information developed and launched indigenous onboard driver assistance and warning system (ODAWS), a bus signal priority system, and a Common Smart IoT Connectiv (CoSMiC) software to improve road safety.
ODAWS uses sensors to monitor driver propensity and vehicle surroundings and send out acoustic and visual alerts. The ODAWS algorithm is used to interpret sensor data and offer real-time notifications to the driver. The bus signal priority system is an operational strategy that modifies normal traffic signal operations to better accommodate in-service public buses at signal-controlled intersections.
CoSMiC is middleware software that provides the standard-based deployment of the Internet of things (IoT), which follows the oneM2M-based global standard. It facilitates users and application service providers in vertical domains to use application-agnostic open standards and interfaces for end-to-end communication with well-defined common service functionalities. The CoSMiC common service layer is used to interface with any vendor-specific standards and to increase interoperability with smart city dashboards.
More recently, the Kerala state government announced it would deploy AI-based cameras on traffic-heavy roads in a bid to reduce accidents by half within the next two years. As OpenGov Asia reported, the government expects traffic rules to be more effectively enforced after the software is put in place, as it automates detecting road violations and issuing fines. Once the system captures the breach of the road rules, the footage will be sent to the central government’s server. The vehicle owner will receive an SMS regarding the fine, and, at the same time, the information will directly be sent to court. This will reduce corruption as it limits local authorities from waiving the penalty.
To celebrate the 25th anniversary of the establishment of the Hong Kong Special Administrative Region (HKSAR), the Hong Kong Productivity Council (HKPC) recently kicked off the “vHK Grand Tour” AR Design Competition (the Competition), officially launching a series of activities which aim to encourage Hong Kong secondary academia to combine augmented reality (AR) technology with famous landmarks in Hong Kong, thus creating their ideal Green and Smart City landscape and enhancing their sense of belonging to the city.
Students and the general public were also introduced, via a seminar, to the Government’s “Smart City Blueprint for Hong Kong 2.0” (Blueprint 2.0), the latest development in immersive technologies and their applications in STEM education, thereby enabling the new generation to master new digital technologies and promote Hong Kong as a green and smart city.
Funded by the General Support Programme of the Innovation and Technology Fund under the Innovation and Technology Commission, the Competition is also supported by the Office of the Government Chief Information Officer, Education Bureau, and several innovation and technology (I&T) enterprises and education organisations and the Hong Kong Federation of Education Workers.
The Chairman of HKPC stated that as the super-connector among the government, the I&T sector and the education sector, HKPC has been committed to promoting I&T education and talent training, and advocates equipping young people with ‘FutureSkills’ to expand the local I&T talent pool.
Coinciding with the 25th anniversary of the establishment of the HKSAR, HKPC hopes the competition will enable students to experience the application of AR technology and increase their interest in immersive technologies; and concurrently alight young peoples’ vision of Hong Kong becoming a smart city and enhance their awareness of green living and sustainable development, thereby strengthening their sense of belonging to Hong Kong.
In the future, HKPC will continue to leverage its advantages in the field of I&T, and combine its rich experience in talent training to lay a solid foundation for nurturing talents for the I&T development of Hong Kong.
In her opening address, the Commissioner for Innovation and Technology noted that with the development of technology, the application of innovation and technology is emphasised, especially on the benefits brought about by I&T in our daily life, and through which we have a fresh understanding and feeling towards Hong Kong’s history, culture, art and other aspects.
The Commissioner also pointed out that in promoting I&T, the Government has unprecedentedly invested more than $150 billion in the past 5 years. Currently, the I&T industry in Hong Kong is flourishing. She encouraged fellow students to explore the world of science and technology and acquire the skills they will need for careers in the I&T industry.
The Competition will be held in different stages across a period of about 9 months, covering first-round assessment, training workshops, final round assessment, an award ceremony and an exhibition. Participants will be required to design and produce the AR works based on the theme of the 25th anniversary of the establishment of the HKSAR and the vision and goals of Blueprint 2.0 to showcase a brand new image of a green and smart Hong Kong to the public.
In addition, as the COVID-19 epidemic has brought unprecedented challenges to the city, participants are required to integrate anti-epidemic elements into their works to demonstrate the impacts and benefits of innovative technologies on public hygiene and daily life.
Ultimately, the AR works of the top 25 finalist teams will be available for public viewing online and offline, while people from all over the world will be able to participate in the “vHK Grand Tour” without being restricted by time, space and region.
An international team of researchers has developed a scanning tool to make websites less vulnerable to hacking and cyberattacks. The black box security assessment prototype, tested by engineers in Australia, Pakistan and the UAE, is more effective than existing web scanners which collectively fail to detect the top 10 weaknesses in web applications.
UniSA mechanical and systems engineer Dr Yousef Amer is one of the co-authors of a new international paper that describes the development of the tool in the wake of escalating global cyberattacks.
Cybercrime cost the world US$ 6 trillion in 2021, reflecting a 300% hike in online criminal activity in the past two years. Remote working, cloud-based platforms, malware and phishing scams have led to skyrocketing data breaches, while the rollout of 5G and Internet of Things (IoT) devices has made us more connected – and vulnerable – than ever.
Dr Yousef Amer and colleagues from Pakistan, the UAE and Western Sydney University highlight numerous security weaknesses in website applications and how these are costing organisations dearly. Due to the widespread adoption of eCommerce, iBanking and eGovernment sites, web applications have become a prime target of cybercriminals who want to steal individual and company information and disrupt business activities.
Despite a projected US$ 170 billion global outlay on internet security in 2022 against a backdrop of escalating and more severe cyberattacks, existing web scanners are falling way short when it comes to assessing vulnerabilities, according to Dr Amer.
The team identified that most of the publicly available scanners have weaknesses and are not doing the job they should. Nearly 72% of organisations have suffered at least one serious security breach on their website, with vulnerabilities tripling since 2017. A world leader in web application security estimates that 86% of scanned web pages have on average 56% vulnerabilities. Among these, at least one is classified as critical. The researchers compared 11 publicly available web application scanners against the top 10 vulnerabilities.
The team found that no single scanner is capable of countering all these vulnerabilities, but the prototype tool caters to all these challenges and is a one-stop guide to ensure 100 per cent website security. There is an urgent need to audit websites and ensure they are secure if these breaches are to be curbed and companies and governments can save millions of dollars. The researchers are now seeking to commercialise their prototype.
The global cyber security market was valued at US$ 139.77 billion in 2021. The market is expected to grow to US$ 376.32 billion by 2029, exhibiting a CAGR of 13.4% during the forecast period. The COVID-19 pandemic has been unprecedented and overwhelming, with security solutions undergoing higher-than-anticipated demand across the world compared to pre-pandemic levels.
The key drivers of the cyber security market are the emerging online e-commerce platforms and the advent of core technologies such as the internet of things (IoT), artificial intelligence (AI), cloud security, and others. Key market players focus on developing internet security solutions based on artificial intelligence (AI) platforms.
The growing demand for solutions is anticipated to gain traction with cumulative investments from Germany, France, India, Spain, South Korea, Italy, Canada, and Qatar, among others. The growing adoption of enterprise security solutions from manufacturing, banking, financial services, insurance (BFSI) and healthcare is expected to drive market growth in the future.
To conduct a proof-of-concept on the use of space-based Very High Frequency (VHF) voice for communication between pilots and air traffic controllers for air traffic management, the Civil Aviation Authority of Singapore (CAAS) and the Economic Development Board’s Office for Space Technology and Industry (OSTIn) have signed a Memorandum of Understanding (MOU) with partner companies.
The novel technology’s viability and advantages over ground-based VHF voice communications will be shown in the proof of concept, and the data will be gathered for international review, standards creation, and acceptance.
As global and regional air traffic continues to grow, CAAS is committed to leveraging new technologies to enhance air traffic management to improve efficiency and reduce carbon emissions, and to being a pathfinder and convenor of the public-private partnership needed to drive development and global adoption of such technologies.
– Han Kok Juan, Director-General, Civil Aviation Authority of Singapore
The Director-General added that the space-based VHF communications technology has the potential to revolutionise aviation, improving safety, effectiveness, and sustainability while expanding capacity to handle the growing demand for air travel. If this proof of concept is effective, it will be a big step toward acceptance and adoption around the world.
Pilots and air traffic controllers currently communicate with one another via VHF voice communications. For instance, pilots can ask for clearance to ascend or descend, and air traffic controllers can adjust a flight path in reaction to weather or turbulence.
The communication must be trustworthy, direct, and immediate to ensure safe and effective air traffic management, particularly in congested airspaces and during abnormal and emergency situations.
Moreover, due to the ground-based nature of present VHF stations, there is little to no coverage for VHF voice communications in maritime, hilly, or remote places that are outside the range of ground-based stations, which poses operational challenges. Air traffic control will be safer and more effective because of the expanded coverage provided by space-based VHF voice communications.
Before they may be used for safe operations, space-based VHF voice communications must first undergo technical feasibility studies, evaluation, and standardisation by the International Telecommunications Union (ITU) and the International Civil Aviation Organisation (ICAO).
The CAAS-OSTIn and partner companies’ proof of concept is the first technical research where a specially manufactured satellite will be launched into orbit to contain VHF communications gear for such a trial, even though there have been earlier technical studies in this area.
The trial’s goal is to show that space-based communications are compatible with aircraft technology and already-existing ground radio stations, with equivalent speech quality, latency, and other standards to ground-based voice communications.
The trial will specifically show that space-based voice communications are feasible for the equatorial region, where the scintillation effect that degrades the quality of VHF audio communications is known to be particularly severe. Beginning in 2023, the proof of concept will take a year to complete. After that, CAAS will present the findings and data to the ICAO and ITU for review and discussion.
Between CAAS-OSTIn and partner companies, the program delivers strong complementary skills. The testbed for the trial will be provided by CAAS, a prominent provider of air navigation services that is at the forefront of technological development and adoption.
The development and application of space capabilities to aviation as well as the creation of a space eco-system will be examined by OSTIn, Singapore’s national space office, to support the endeavour. Moreover, joint ventures will put the satellite into orbit and supply the hardware and communications infrastructure.
The Centre for Civil Society and Governance of The University of Hong Kong and a global tech giant recently jointly announced a request for proposals (RFP) for the company’s AR/VR Policy Research in the Asia Pacific region. This research initiative invites the region’s academic community to develop solutions-focused research to support the responsible development of augmented reality (AR) and virtual reality (VR) technologies.
This includes identifying positive approaches to address policy issues and challenges, as well as opportunities in the metaverse and augmented and virtual reality, ultimately giving people the power to build community and bring the world closer together.
With the metaverse becoming the next chapter of the internet, Meta’s vision is to have a billion people accessing the metaverse as part of their daily lives within ten years. That relies on people being in control of their experiences and feeling safe and secure. This RFP reaffirms the tech giant’s commitment to ensuring the responsible development and use of AR/VR technologies and building strong collaborations with policymakers, experts and industry partners to bring the metaverse to life.
The Director of the Centre for Civil Society and Governance stated that the RFP forms part of the Tech for Good Initiative that aims to bring scholars and practitioners together to catch up with the latest development of technologies and explore how the interplay between emerging technologies and public policy works. The Centre is committed to the attainment of a sustainable society and advanced technologies will help address some of the most critical sustainability challenges we are facing today.
The Centre for Civil Society and Governance of The University of Hong Kong and the company are inviting faculty to respond to this call for research proposals on the following topics:
- Economic opportunity: people can be given more choice, how competition can be encouraged, how a thriving digital economy can be maintained
- Privacy: how the amount of data used can be minimised, how to build technology to enable privacy-protective data uses, and give people transparency and control over their data
- Safety and integrity: how people can be kept safe online and be given tools to take action or get help if they see something they’re not comfortable with
- Equity and inclusion: ensuring these technologies are designed inclusively and in a way that’s accessible
- New Use Cases: what are new applications of immersive technology that create substantial value for people and communities
The research initiative targets to award a total of 6 awards, each in the US$100,000 range funded by the firm’s XR Programs and Research Fund, a two-year US$50 million investment in programmes and independent external research to help in the effort of building the metaverse responsibly. The submission deadline is 25 July 2022, and the results will be announced on 5 September 2022.
The global augmented reality and virtual reality market, in the current year (2022), is expected to have a market size of US$37.0 billion and grow up to US$114.5 billion by 2027 within a 5-year forecast period at a market growth rate of 25.3%.
The driving factors behind this growth include increased healthcare applications of augmented reality, increased applications of augmented reality and virtual reality in retail and e-commerce, strong government funding for the facilitation of growth of the AR and VR market, partnerships between augmented reality device manufacturers and various service industries, the rise in the usage and demand for virtual reality in e-learning, medical training, increased demand of virtual reality in manufacturing divisions.
The Government of Queensland has launched the third of its state-wide regional science and innovation hubs in Cairns, boosting research opportunities in Far North Queensland. Under the Partner Up Queensland Regional Science and Innovation Network, the hubs aim to provide people living in regional Queensland with more opportunities to engage with science and innovation in a meaningful way.
The Member for Cairns stated that the hub in Cairns will enable Far North individuals and community groups to participate in a range of STEM-based (Science, Technology, Engineering and Mathematics) and innovation-related activities and events. He noted that the events will be developed by the hub and by local science and innovation champions within the community and will include mentoring, networking and collaboration opportunities; the engagement of youth in the design, implementation, product pitching and entrepreneurship; and engagement with researchers, technologies experts, business and First Nations mentors.
The network will provide opportunities for skills development and establish local networks that will drive growth and development in the science sector and innovation economy throughout regional Queensland. This will result in enhancing how businesses, research organisations and industries can meet the changing scientific and innovation needs of the community.
The region’s Science Minister stated that Cairns joined Gladstone and Toowoomba as locations, with each regional hub being provided with funding of up to $70,000 over 12 months to employ a regional coordinator to support events, activities and projects that encourage Queenslanders’ participation and awareness of science and innovation within their region.
She noted that science and innovation are helping to drive the Queensland Government’s COVID-19 economic recovery plan – whether that’s through renewable energy, advanced manufacturing or our education and research sector. Recent research commissioned by the Office of the Queensland Chief Scientist showed that 83% of Queenslanders believe science is critical for the Queensland economy, she said.
Survey results from the 3M State of Science Index show that 9 in 10 Australians back more investment in science. The findings indicated that during the pandemic, almost two in three Australians thought that scientists and medical professionals are inspiring a new generation to pursue a science-based career.
This is the reason the hubs are being delivered, together with major investments like the additional $35.5 million to ramp up the development and manufacture of locally-based vaccines that build on last’s announcement of $20 million as part of our flagship Queensland Jobs fund.
The Partner Up Queensland Regional Science and Innovation Network is a joint initiative of the Department of Environment and Science and the Department of Tourism, Innovation and Sport. The region’s Innovation Minister said the hubs would help to supercharge regional Queensland science and innovation.
For local entrepreneurs and business leaders, the hubs aim to deliver support and partnerships to identify and develop real-world opportunities. Be it robots, hydrogen or medical technology, the government understands that science and innovation will be critical to building regional Queensland’s industries and jobs of the future.
The Far North Queensland Hub will be led by James Cook University and will be supported by Cairns Regional Council, Gulf Savannah NRM, Y(E)P Entrepreneurship Facilitators Cairns, Regional Development Australia and Cairns Chamber of Commerce.
James Cook University Acting Deputy Vice-Chancellor welcomed the initiative and said that the hub will strengthen linkages between the region’s very active science and innovation community, the Office of the Chief Scientist and the Office of the Chief Entrepreneur.
Having the Hub here in Cairns will boost connectivity between important state government programs and those working on research and innovation in our region, and will support projects that encourage community awareness of science and innovation.
The establishment of the China-Singapore (Chongqing) Multi-Modal Distribution and Connectivity Centre or DC Centre aims to improve both countries’ transportation and logistics ecosystems, as well as strengthen supply chain resilience and accelerate trade digitalisation.
The partnership, according to Josephine Teo, Minister of Communications, and Information, is an important step in the continued development of Singapore’s and Chongqing’s roles as mutual hubs of Southeast Asia and Western China, respectively.
As a key project of the China-Singapore (Chongqing) Demonstration Initiative on Strategic Connectivity (CCI) and logistics priority area, the DC Centre will be a physical location for multimodal operations in Chongqing and help build the CCI-New International Land-Sea Trade Corridor.
With this new facility in place, there will be greater opportunities for collaboration between Singapore, Chongqing, and other international partners in some areas.
– Josephine Teo, Minister of Communications and Information
Minister Teo emphasised first the improving logistics and transportation systems on both sides. To better integrate Chongqing’s key road, rail, and river logistics nodes and give logistics participants a smooth experience, the DC Centre will complement current and planned facilities including the Guoyuan Port and Yuzui Terminal South Yard.
In 2017, Minister Teo recalls the inauguration of the two joint venture companies of Singapore and China -the Sino-Singapore (Chongqing) Connectivity Solutions Company Limited or S1 and Sino-Singapore (Chongqing) DC Multimodal Logistics Company Limited or S2. Now, a training and placement programme will be formed between S1 and the Chongqing Finance and Economics College, with specialised training taking place within the DC Centre itself, to expand the talent pool of Chongqing’s logistics business.
Second, the Minister highlighted the improved supply chain resilience. In an era of global supply chain disruption, the CCI-New International Land-Sea Trade Corridor can determine its value by linking land and sea routes to provide the flow of essential goods, specifically perishable and time-sensitive supplies. To that end, she encourages all interested parties to join the Corridor by utilising key nodes such as the DC Centre and improving connectivity and trade flows between regions.
Minister Teo also stressed the hastening of trade digitalisation. In response to the growing importance of the digital economy, Singapore and Chongqing are encouraging the exchange of digital data and documents to improve supply chain visibility and facilitate seamless cross-border cargo movement. She welcomes more companies to join them in these endeavours, including those from adjacent sectors such as trade financing.
OpenGov Asia earlier reported that 17 Memorandums of Understanding (MoUs) were signed among Singapore and Chongqing businesses in 2020 on the side-lines of the Smart China Expo (SCE) Online, as enterprises continue to explore opportunities despite pandemic restrictions. The MoUs included collaborations in the built environment and manufacturing, as well as logistics and tourism for markets in Chongqing, Western China, and Singapore.
On the other hand, at the annual Smart China Expo in Chongqing in 2019, Singapore and Chinese companies signed 13 agreements for collaborative efforts to use digital technologies in education, manufacturing, and telecommunications.
In the same year, the Infocomm Media Development Authority (IMDA), Enterprise Singapore, and the Chongqing Application Development Administration Bureau launched the Joint Innovation Development Fund (JIDF), an RMB$ 40 million initiative to promote the joint development of innovative products and solutions, which may include research and development and pilots to promote innovative technologies such as robotics, IoT, augmented reality, virtual reality, and artificial intelligence. The fund’s goal is to catalyse projects that have the potential to generate significant economic benefits for the companies and countries involved.
The Centre for Development of Telematics (C-DOT) is committed to building robust partnerships within the 5G ecosystem with a range of stakeholders including local industry and start-ups. C-DOT has continued to emphasise the evolution of a coordinated collaborative framework that supports multiple providers and promotes healthy competition amongst key 5G players in an output-driven and target-oriented environment.
Broadband, especially mobile broadband, has become an integral part of life. Its adoption was accelerated through the rapid expansion of 4G services across the country since 2015. Currently, 800 million subscribers have broadband access, compared to 100 million subscribers in 2014. According to a press release, through policy initiatives, the government has been able to give citizens access to mobile banking, online education, and telemedicine, among others.
Dr Rajkumar Upadhyay, Executive Director, C-DOT highlighted the vision of PM GatiShakti as it harnesses the country’s technological potential. This is done by creating an environment for the creation of path-breaking initiatives by local R&D, industry and start-ups. He underscored the importance of achieving synergy among various participants of the technology ecosystem to spur novel innovation and competitive spirit leading to the development of holistic indigenous solutions expeditiously.
He expressed confidence in emerging partnerships between R&D and industry in enabling the proliferation of indigenous 5G across the country and emphasised that effective collaborations would bring Indian products and solutions to the international market.
C-DOT is the premier Research and Development (R&D) centre of the Department of Telecommunications, Ministry of Communications, Government of India. C-DOT has overseen the design and development of a host of telecom software applications such as optical, switching and routing, wireless and security. Further to developing an indigenous 4G solution, C-DOT now focuses its attention on 5G.
This month, C-DOT signed an agreement for collaboration in the area of Open RAN-based Radio Network for 5G solution. The collaboration will leverage the complementary strengths of Telecom R&D and private industry to speed the indigenous design, development and deployment of end-to-end 5G solutions that would be mutually beneficial to all stakeholders. Further, the partnership will go a long way to strengthen indigenous Intellectual Property as well as facilitate wider adoption and monetisation of national 5G products and solutions.
Earlier, Union Railways, Communications, Electronics and Information Technology Minister Ashwini Vaishnaw said that at the current pace, he was confident that the deployment of 5G will begin in at least 20-25 cities and towns by the end of 2022. He revealed that India currently has the lowest price for data across the globe and that the price “is at least 10 times cheaper than what other countries are offering”.
In related developments, OpenGov Asia reported on the upcoming 5G spectrum auctions in July 2022. Digital connectivity has been an important part of the government’s policy initiatives through programmes like Digital India, Startup India and Make in India.
A total of 72097.85 MHz of spectrum with a validity period of 20 years will be put to auction by the end of July this year. The auction will be held for spectrum in various low (600 MHz, 700 MHz, 800 MHz, 900 MHz, 1800 MHz, 2100 MHz, 2300 MHz), mid (3300 MHz), and high (26 GHz) frequency bands.
The government announced that, in a first, there will be no mandatory requirement to make upfront payments by bidders. Payments for the spectrum can be made in 20 equal annual instalments to be paid in advance at the beginning of each year. This is expected to significantly ease cash flow requirements and lower the cost of doing business in this sector.
To meet the backhaul demand, the government has decided to provisionally allot two carriers of 250 MHz each in E-band to telecom service providers. The government also decided to double the number of traditional Microwave backhaul carriers in the existing frequency bands of 13, 15, 18, and 21 GHz bands.