New Zealand’s Broadcasting,
Communications and Digital Media Minister Clare Curran has announced
a comprehensive refresh of the country’s approach to cyber security.
This is being done in view of the increasing number and sophistication
of cyber threats and the opportunities for criminals and other states to gain
advantage and cause harm in New Zealand. New Zealander’s widespread use of
connected devices and the security challenges of emerging technology are
intensifying the problems.
The National Cyber Security Centre estimates that advanced
cyber threats could potentially cause $640m harm annually to New Zealand’s
organisations of national significance.
The Ardern Coalition Government has specifically stated an aim
to close the digital divide by 2020 and it has committed to the objective of
ICT being the second largest contributor to GDP by 2025.
responsive cyber security system would be essential for achieving
these objectives. “We must protect the information and network systems that are
vital to our economic growth, ensure the integrity and security of our
increasingly digitalised government services and make sure Kiwis can interact
online without suffering harm,” Minister Curran said.
Hence, the 2015
Cyber Security Strategy and Action Plan is going to be refreshed in close
collaboration with the private sector and citizens. The refresh will be led by
the National Cyber Policy Office (NCPO)
within the Department of Prime Minister and Cabinet (DPMC) and involve a wide
range of government agencies.
Progress on the 2015 Cyber
Security Strategy and Action Plan
The Department of the Prime Minister and Cabinet notes that
there has been good progress to improve New Zealand’s cyber security under the
Cyber Security Strategy and Action Plan approved by Cabinet in 2015.
This includes establishment of CERT NZ in April 2017, delivery of CORTEX
malware detection and disruption services, cyber security awareness campaigns,
the first Cyber Security Summit in May 2016, Protective Security Requirements
for government agencies, work to improve the cyber security of small
businesses, a focus on building a cyber security workforce, developing NZ
Police skills to respond to cybercrime and international engagement on cyber
On the international front, there has been particularly
close trans-Tasman cyber cooperation, with areas highlighted annually in the
Prime Ministers’ Joint Statements. New Zealand has held two cyber dialogues
with China and one each with India and Singapore. There have also been useful
cyber security discussions with Israel, the Netherlands and Japan. Regional
cyber security is pursued through the ASEAN Regional Forum and the ASEAN
Defence Ministers Meeting (Plus).
Scope of the refresh
The refresh of the Cyber Security Strategy and Action Plan
will require collaboration across a number of Ministerial portfolios. Minister
Curran is proposing to work closely with all of the relevant Ministries to determine
the priorities and initiatives to be incorporated in a refreshed Cyber Security
Strategy and Action Plan.
A successful refresh will also involve hand-in-hand
partnership with the private sector and non-government organisations to seek
their views on “what more the government can do to improve New Zealand’s cyber
The Minister is also proposing a refresh of the Digital
Strategy to consider ways to promote a more joined-up approach to cyber
security by government agencies, in cooperation with the private sector and
The refresh provides an opportunity to look at the cyber
security roles of agencies. The Government will continue assessing whether it has
the optimal arrangements and resources for effectively addressing cyber
security efforts across government. The State Services Commission will be
closely involved if any machinery of government issues arise in this context.
Work is underway to improve the system-wide understanding
and mitigation of cyber security risks to government agencies.
The Minister also plans to explore innovative models to
achieve strong cyber security collaboration between the government and the
private sector and non-government organisations. A structured approach to
ensuring private sector engagement with the government’s work (and vice versa) through
models such as advisory boards or a cyber security council, might be one option.
The refresh will assess whether NZ Police and other agencies
have sufficient resources and appropriately trained staff to protect New
Zealanders from online crimes and deal with the challenges of emerging
technologies. Since cybercrime is a transnational issue, the opportunity
provided by the refresh will also be used to explore whether NZ Police’s
existing international links are sufficient to deliver a comprehensive response
The current Action Plan proposed that New Zealand’s policy
and legislative framework should be tested to see whether it remains fit for
the purpose of dealing with cybercrime in the digital age. This action has yet
to be completed and it will remain part of the agenda.
Work is now underway – led by the National Cyber Policy
Office and Ministry of Justice – to outline what measures might be required to
bring New Zealand’s laws and investigative processes in line with the Council
of Europe Convention on Cybercrime (known as the Budapest Convention). The Cabinet
will consider whether New Zealand should formally express interest in accession
to the Convention, and the steps towards accession.
Cybersecurity industry, research and skills
In this area, the Minister plans to focus on expanding New
Zealand’s cyber security industry, investing in cyber security research and
development, and dealing with the shortage of skilled cyber security workers.
A strong domestic cyber security sector would lift the cyber
security of New Zealand’s businesses and enhance New Zealand’s reputation as a
stable, innovative and safe environment in which to invest, find business
partners, and do research and development.
According to the proposal, the refresh of the Cyber Security
Strategy and Action Plan should also advise on the role that government should
play in addressing the security challenges arising from the Internet of Things
and other emerging technologies such as Artificial Intelligence or Quantum
computing. should include an assessment of the extent to which such
technologies are empowering criminals and malicious actors.
The Refresh process
The NCPO will establish and chair a “Cyber Security Strategy
and Action Plan Refresh Working Group” (the Working Group) including
representatives from the following agencies amongst others: GCSB (Government Communications Security Bureau), CERT NZ, MFAT (Ministry of Foreign Affairs and
Trade), NZ Police, GCDO,
SSC and (State Services Commission).
This Working Group will engage with a broader range of other agencies.
The Working Group will work closely with government
agencies, the Chief Technology Officer, the Human Rights Commissioner, the
Privacy Commissioner, the Inspector-General of Intelligence and Security,
non-government organisations and the private sector. Engagement with the
private sector and other stakeholders can occur through the Connect Smart partnership – a
community of practice to drive improved cyber security in New Zealand – and
more widely as needed.
The NCPO will provide a report to the Minister of Broadcasting,
Communications and Digital Media with recommendations for a revised Cyber
Security Strategy and Action Plan at the beginning of July 2018.
Governance will be provided by a “Cyber Security Strategy
and Action Plan Refresh Governance Group” to ensure the refresh is conducted in
a robust and effective manner, provide executive oversight and accountability;
and advise on strategic direction. The Governance Group will include senior
representatives from DPMC (Department
of the Prime Minister and Cabinet), GCSB, MBIE
(Ministry of Business, Innovation and Employment), MFAT (Ministry of Foreign Affairs and
Trade), NZ Police, GCDO, SSC and other agencies as necessary.
The Minister will report back to the Cabinet External Relations
and Security Committee by 31 July 2018 with a revised Cyber Security Strategy
and Action Plan.
DPMC has released two documents relating to the refresh of New
Zealand’s Cyber Security Strategy and Action Plan. They can be accessed here.
The Science Park at Thailand’s Khon Kaen University held a special event to train people in the industrial sector in “Fundamental Survey with Unmanned Aerial Vehicle Technology”. The “Fundamental Survey with Unmanned Aerial Vehicle Technology” training program was held on 2 and 3 April 2021, including both theoretical and practice sessions.
The opening ceremony was presided over by Assoc. Prof. Charnchai Panthongviriyakul, M.D., President of Khon Kaen University, who conveyed the opening address. Dr Apirachai Wongsriworaphon, Director of Khon Kaen University Science Park made a welcoming speech and reported about the objectives of the event.
Participants included personnel from the industrial sector, both governmental and private. The event was also under preventive measures against Covid-19 at the Main Building of the Northeast Science Park, Khon Kaen.
Assoc. Prof. Dr. Rawee Hanpachoen, a full-time professor of the Faculty of Architecture; an expert and researcher from the Smart City Operational Centre; Khun Pongpat Kangkong, Manager of the Smart City Operational Centre (SCOPC); and Khun Suchat Prommee, a Drone Technology expert, were the trainers of the program.
The Northeast Science Park at Khon Kaen University, as the network node for the operation of the Northeast Science Park, organized this event under the mission to develop technological competency of personnel in the industrial sector (Brain Power Skill Up) and under the Regional Future Manpower and Skills Creation Project, which answer the national innovation development plans.
The event was supported by the Ministry of Higher Education, Science, Research, and Innovation and was aimed at increasing skills for personnel in the industrial sector to accommodate the changes of technologies that will arise in the future.
Drone tech in Thailand
According to an earlier article, the Digital Economy Promotion Agency (Depa) plans to roll out an artificial intelligence (AI) university project and drone academy this year, as part of the agency’s plan to drive digital skills and support the digital economy.
The AI university project is meant to provide AI knowledge to learning programmes and workshops at designated universities, while the drone academy is set to help Thais learn how to use drones for their businesses, particularly in the agricultural sector.
Depa President and Chief Executive said the projects are part of the agency’s strategic cooperation plans aiming at digital economy development, which covers digital transformation, manpower skill enhancement and start-up incubation.
About 200 million baht will be used to develop the AI university project, with half the amount budgeted by Depa and the remainder by private entities through a matching fund. For the drone academy, Depa plans to set aside THB50 million to develop the project and a matching fund will earmark another THB50 million. Universities are being considered for the AI project, with Mahidol, Chulalongkorn and Thammasat the main contenders, he said.
“Drones are a new technology for Thais in terms of business use, especially big drones, which are very useful in several sectors, including agriculture and logistics,” said the Depa President. When the drone business approaches maturity, international tech companies will come and invest in this segment in Thailand, he said.
Vietnam’s National Power Transmission Corporation (EVNNPT) has operationalised its first digital transformer station in Thuy Nguyen district, the northern port city of Hai Phong, earlier this week. The 210kV station was built at a total cost of around VND348 billion (US$15 million) on an area of 40,100 square metres spanning the Dong Son and Kenh Giang communes.
According to EVNNPT Deputy General Director Luu Viet Tien, the station helped cut around 80% of the amount of copper cable, slash copper cable transport and installation costs, and reduce the risks of incidents caused by cable damage. The system will use artificial intelligence (AI) in monitoring and examining and make use of cameras and smart drones to repair lines.
He said the 220KV digital station will a ensure stable power supply for socio-economic development in Thuy Nguyen and regions in the vicinity, reduce power loss, and enhance connectivity, safety, stability, and flexibility in the operation of power systems.
EVNNPT will evaluate the efficiency of the station to select suitable technologies for transformer stations in the future. The Vietnam Electricity Group (EVN) plans to have all equipment on transmission lines and 80% of 110 kV circuit facilities digitalised from now to 2022.
By 2025, EVNNPT will have digitalised 100% of facilities on medium and higher-voltage power lines, according to EVNNPT Chairman Duong Quang Thanh. To that end, the group will continue to integrate other digital technologies like the Internet of Things, big data, and cloud computing.
It will continue research on building information models and digital worker platforms to serve its staff while developing AI applications for image analysis and data governance. EVNNPT said it has completed 61 of the 63 centres for the remote control of transformer stations and converted 670 of the 844 transformer stations into unmanned ones.
Tien said that the digital transformer station is a new technology in both Vietnam and many other countries in the world. He added that before the station was constructed, EVNNPT held several conferences with large equipment suppliers such as Siemens, ABB, and GE.
Recently the Minister of Information and Communications (MIC), Nguyen Manh Hung, claimed that digital transformation and innovation will turn Vietnam into a developed country by 2045. He said that innovation always has to start with awareness and thinking and has to be seen from different perspectives. Old infrastructure, old ways of doing things, old knowledge, old products, old business models are no longer suitable. The country needs new infrastructure, new ways of doing things, new knowledge, new products, new business models.
That is why many people say that digital transformation is more of a policy revolution than a technology revolution. Adopting new business models, new technologies that fundamentally change industries. “If we are open to accepting the new, then the new technology of the world will come, talent from all over the world will come, a new industry will emerge and the cradle of Vietnam will create exportable digital technology products,” he noted.
The New Zealand Growth Capital Partners’ (NZGCP) Elevate New Zealand Venture Fund is committing NZ$14 million (US$10 million) into the Finistere Aotearoa Fund, which will target agri-food technology companies needing Series A and B investment. The fund will match Elevate’s commitment at least dollar-to-dollar with private capital. At first close at least US$28 million will be available to invest into agri-tech investments in New Zealand-connected entities.
According to a news report, the Finistere Aotearoa Fund will focus on commercialising New Zealand’s robust technology and intellectual property pipeline. The Fund is a subsidiary of Silicon Valley venture capital fund managers Finistere Ventures.
The Economic and Regional Development Minister, Stuart Nash, welcomed the new Elevate commitment. “The government’s Agritech Industry Transformation Plan was launched last year. In that, we highlighted that investment was a key constraint for the sector, so we welcome the creation of this specialist fund and look forward to its productive contribution to New Zealand’s transformation.”
The New Zealand government’s investment and commitment to a zero-emissions national agriculture strategy has turned the country into a centre for agricultural excellence, according to Arama Kukutai, co-founder and partner of Finistere Ventures. The New Zealand operation will be managed by long-time investment manager Dean Tilyard and based in Palmerston North. Finistere Ventures has a global agri-tech focus with offices in the United States, Ireland, and Israel.
New Zealand has become a world leader in agricultural research and innovation focused on curtailing the environmental impact of agriculture. “Having a strong local presence in Aotearoa has long been on our agenda. We are excited to partner with NZGCP to support the global commercialisation of New Zealand’s most promising agri-food technology advancements,” Kukutai stated.
NZGCP was established by the New Zealand government. As per its website, NZGCP aims to stimulate a well-functioning capital market for early-stage technology companies. Its investment vehicles are designed to stimulate private investment into this space through fund of funds and co-investment models.
Finistere Ventures is aiming for a final close of NZ$42 million (approximately US$30 million), which if achieved would see Elevate’s contribution rise to NZ$21 million (US$15 million). James Pinner, the investment director of Elevate, said, “Finistere and Dean Tilyard established Sprout, a Callaghan tech incubator based in Palmerston North with a strong agri-tech focus, and the fund has a number of existing New Zealand investments including BioLumic, Invert Robotics, and CropX – all three have also been supported by NZGCP via our Aspire fund.”
The Aspire Fund is one of two NZGCP investment vehicles created to promote private investment. The Aspire Fund does this through partnering with other private investors to make direct investments into early-stage (proof of concept and seed stage) companies. The Elevate Fund does this through using best practice fund of funds management to invest into venture capital firms looking to fund New Zealand companies at the Series A and B stages.
The group is also involved in a range of market development initiatives alongside investors, New Zealand Private Capital, and the Angel Association of New Zealand. It has a market development mandate and seeks to partner and collaborate with a wide range of government bodies and private investors. It intends to help develop the early-stage New Zealand investment market and ultimately help early-stage New Zealand companies grow.
University of Queensland scientists have published the clinical trial data confirming their molecular clamp-stabilised vaccine technology was safe and potentially effective. The vaccine candidate developed by the team last year did not progress through to Phase 2/3 clinical trials, due to cross-reactivity caused by the protein fragment used to stabilise the clamp design.
Initial data from the clinical trial conducted in Brisbane was initially released last December and has now been published following peer review in the prestigious Lancet Infectious Diseases. Project co-leader Associate Professor Keith Chappell said 99% of vaccinated participants in the study produced a neutralising immune response.
“In 75 per cent of vaccine recipients it was above the average in recovered patients, and in 38 per cent it was more than twice the average for recovered patients,” he said. “Adverse events were comparable to those in the saline placebo, with the only exceptions being mild injection site pain and tenderness.”
Project Director Professor Trent Munro said the paper also discussed the cross-reactivity in HIV diagnostics that led to the decision not to proceed into later-stage clinical studies. “The design of the original molecular clamp excluded known antibody binding sites to reduce the potential, but unfortunately the antibodies registered a low response on some highly sensitive HIV tests.”
Project co-leader Professor Paul Young said the 2020 vaccine candidate was not an option for Australia’s current vaccine rollout. “The team understood the decision in December to shift the focus to other candidates that were showing promise. Some of these vaccines are now in the market and need to remain the immediate priority.”
It was noted that the study has strongly validated the Molecular Clamp technology as a promising rapid response strategy for vaccine development. “The team is continuing to work on alternative clamp constructs that could be used to respond to COVID-19 in the future or other viral diseases.”
The data published relates to the clinical trial involving 120 participants aged 18 to 55, 96 of which received the vaccine candidate. Collaborators on the clinical trial included CSL/Seqirus, Australian National University, Doherty Institute, CSIRO, Patheon, Cytiva and Nucleus Network.
In addition, to support from the Coalition for Epidemic Preparedness Innovations (CEPI), the Queensland Government provided $10 million Advance Queensland funding for the vaccine project last year, the Federal Government contributed $5 million and more than $10 million was provided by philanthropic and other donors.
The research is published in Lancet Infectious Diseases.
What is clamp-stabilised vaccine technology?
A molecular clamp is a polypeptide used to maintain the shape of proteins in some experimental vaccines. On a virus, pre-fusion proteins on their surface provide an attractive target for an immune reaction. However, if these proteins are removed or made by recombinant technology, they lose their shape and form what is called a “post-fusion form”.
When part of a virus, these proteins maintain their form by forming a quaternary structure with other viral proteins. The pre-fusion state of the protein is a higher energy metastable state. The extra energy is used to overcome the activation barrier of the fusion to the cell membrane. The virus protein (or part of it) in combination with the clamp polypeptide is called a chimeric polypeptide.
The clamp is made from amino acid residues in a pattern that repeats after every seven residues and must be at least 14 residues in length. The clamp self-assembles into a twin helix with one strand going forward and the other in reverse.
The pairing of the amino acids in the strands is ensured by a pattern of hydrophobic and hydrophilic amino acids. The pattern is arranged so that none of the clamps will bind to the protein from the virus. The clamp self-assembles into a stiff rod. The clamp is linked to the desired part of the virus protein by a linker. The linker may serve other functions, such as allowing the chimeric protein to be purified from a mixture.
Singapore’s Cyber Security Agency (CSA) has issued an alert following the discovery of vulnerabilities in more than 100 million internet-connected devices globally. The CSA’s Singapore Computer Emergency Response Team (SingCert) said that administrators of the affected stacks are advised to apply security patches immediately.
Security patches have already been rolled out to address threats called Name: Wreck. These bugs are a set of Domain Name System (DNS) vulnerabilities that have the potential to cause either Denial of Service (DoS) or Remote Code Execution, allowing attackers to take targeted devices offline or to gain control over them. The widespread use of popular sets of rules called stacks and often external exposure of vulnerable DNS clients lead to a dramatically increased attack surface. Organisations in the healthcare and government sectors are the most affected, said, security researchers. Other sectors implicated include entertainment, retail, manufacturing, financial services, and technology.
A cyber-security firm’s report said that Name: Wreck affect these stacks, which govern how devices can “talk” to each other over a network such as the Internet. However, the firm said that not all devices running the affected stacks are vulnerable, but it conservatively estimated that if 1% of the more than 10 billion deployments are, then at least 100 million devices are at risk.
Potentially affected equipment and devices include consumer electronic products such as wearable fitness products, smartphones, printers and smart clocks, ultrasound machines, defibrillators, patient monitors and critical medical equipment such as magnetic resonance imaging, storage systems, industrial manufacturing robots, and energy and power equipment in industrial control systems.
Also affected are unmanned combat aircraft, commercial aircraft, self-driving cars, space exploration rovers and critical systems for aviation, and high-performance servers and network appliances in millions of IT networks. It is not clear how many devices in Singapore are affected by these bugs.
The cybersecurity firm added that unless urgent action is taken to adequately protect networks and the devices connected to them, it could be just a matter of time until these vulnerabilities are exploited, potentially resulting in major government data hacks, manufacturer disruption or hotel guest safety and security. The firm said that one way a cybercriminal could exploit Name: Wreck is to compromise ultrasound machines that connect to a website to get firmware updates. They could also use the bug to redirect the ultrasound machines to their sites to download fake firmware which is malicious. The infected ultrasound machines could then be instructed by the malware to upload all medical records to the cybercriminal.
Although security patches have been rolled out, the cyber-security firm said patching can be difficult in some cases. For instance, if affected devices are not managed centrally, it means each one must be manually patched. Some devices also cannot be taken offline for this because of their mission-critical nature, such as medical devices and industrial control systems.
If patching is not available, SingCert advised administrators to enforce segmentation controls and proper network hygiene measures such as restricting external communication paths and isolating vulnerable devices. They should monitor patches released, monitor all network traffic for malicious data, and configure devices to rely on internal DNS servers.
Accordingly, the CSA’s core mission is to keep Singapore’s cyberspace safe and secure, to underpin National Security, power a Digital Economy, and protect the country’s Digital Way of Life. To underpin National Security, CSA continuously monitors cyberspace for cyber threats and protects and defends Critical Information Infrastructure (CII) to ensure the continuous delivery of essential services to Singapore residents. The agency analyses the risks that the threats pose and take appropriate mitigation measures to prevent them from affecting users.
Nonetheless, despite its best efforts, cyber-attacks may still succeed. To deal with them, the CSA have incident response teams who stand ready to investigate, contain and remediate serious cyber-attacks on our CIIs. CSA also regularly conducts cybersecurity exercises to ensure that the critical sectors are ready to respond promptly and effectively in the event of an attack.
The use of a simple organic molecule during the fabrication of a two-dimensional (2D) perovskite results in one of the highest recorded efficiencies for perovskite-based devices. Light-emitting diodes (LEDs) employing this 2D perovskite material achieved an external quantum efficiency as high as 20.5%, which rivals the best organic LEDs, according to research co-led by City University of Hong Kong (CityU).
Led by Professor Andrey Rogach, Chair Professor at the Department of Materials Science and Engineering, CityU, and his collaborator Professor Yang Xuyong from Shanghai University, the research team has worked on 2D perovskite materials and succeeded to realise such efficient and bright green LEDs.
Their technology yielded the best-reported performance on both current efficiency and external quantum efficiency. This work has now put the perovskite LEDs close on the heels of current commercial display technologies, such as organic LEDs.
The findings were published in the scientific journal Nature Communications, titled “Smoothing the energy transfer pathway in quasi-2D perovskite films using methane sulfonate leads to highly efficient light-emitting devices”.
The key to the powerful change lies in the addition of around 10% of a simple organic molecule, called methane sulfonate. This molecule reconstructs the structure of the 2D perovskite nanosheets, while simultaneously enhancing exciton energy transfer between sheets of different thicknesses. It is also useful in reducing defects in the 2D perovskite structure, contributing to higher efficiency.
The consequences for producing better LEDs are encouraging. The brightness of 13,400 candela/m2 at a low applied voltage of 5.5 V and external quantum efficiency of 20.5% is recorded. This is close to the maximum that can be achieved by many existing LED technologies and has almost doubled the external quantum efficiency level of 10.5% reported in the previous collaborative study of the same groups two years ago.
“The CityU team has built up its expertise on perovskite materials to a very high level in a relatively short period of time, thanks to funding support from Senior Research Fellowship by the Croucher Foundation,” said Professor Rogach.
“The high brightness, excellent colour purity, and commercial-grade operating efficiency achieved marks 2D perovskites as an extremely attractive material for future commercial LEDs, and potentially also display technology. It’s a tangible outcome from both fundamental and applied research into novel nano-scale materials” he adds.
Other collaborators include researchers from CityU, Shanghai University, Jilin University, University of Science and Technology of China, Nankai University, Wuhan University and the Chinese Academy of Sciences.
Innovation in LED tech
According to an earlier OpenGov Asia article, researchers at the Hong Kong University of Science and Technology (HKUST) have discovered a novel way to enhance the efficiency of the ultraviolet (UVC) light-emitting diode (LED) disinfection technique and developed a closet that could kill 99.99% of the bacteria and viruses on the garment inside within a minute. The closet is now in use at three special schools under Po Leung Kuk.
UVC is widely used for disinfecting purposes in private and public facilities, but the light source of existing UVC disinfection products are mainly mercury lamps, which not only has lower germicidal efficiency but is also bulkier with a much shorter lifespan than the LED light.
Moreover, mercury lamp has a longer disinfection cycle and requires time for warming up while LED emits light instantly. Since last year, over 140 nations, including the US, EU, China, Japan and Australia, have implemented a treaty on gradually phasing out the use of toxic mercury in commercial and industrial processes.
However, despite LED lights’ superiority over its mercury-based counterpart, it is not yet widely adopted in sterilisation products due to its narrow beam angle and low output efficiency with traditional single-layer reflector.
Dozens of students, lecturers, and officers at the Posts and Telecommunications Institute of Technology (PTIT) can now use motorbike parking services, keep track of class schedules, check exam scores, and pay for meals entirely on their smartphones.
PTIT is a key human resource research and development unit of the Ministry of Information and Communications (MIC). With the aim of promoting digital transformation to improve the quality of training and research, the Institute deployed the PTIT S-Link mobile application for students, lecturers, and managers with essential functions.
PTIT S-Link sends students alerts about an upcoming lesson. It notifies the user about learning subjects, venues, and other detailed information about the class. The app was made operational in late 2020 and has over 12,000 downloads.
According to a press release, a digital university is taking shape at PTIT. In September 2020, during a talk with PTIT members, the MIC Minister, Nguyen Manh Hung, noted that PTIT, a “miniature society” with young dynamic people has favourable conditions to build a digital society. To prepare the labour force for digital transformation, an online university is the best way to “train digital citizens”. The Institute plans to unveil D-Lab, an online practice platform, S-Class, a smart class platform, and an intelligence operation centre (IOC), shortly.
The Ministry of Education and Training (MOET) said Vietnam is striving to become a leading country with a fully digitised educational sector. It wants to produce a Vietnamese workforce that has globally recognised digital transformation knowledge and skills.
Though the institute has been using IT in its activities for many years, it still faces difficulties upgrading the application. The biggest problem is the lack of a digital university model and transformation at the Institute. In the first period, PTIT is focused on researching and shaping the architecture of the digital university and completing the digital transformation plan by 2025.
With the spirit of carrying out digital transformation in accordance with the “miniature digital nation”, the institute studied national policies and built its digital transformation plan under the three pillars of the national digital transformation programme: digital administration, service, and society.
“The fourth quarter of 2020 and first quarter of 2021 will be the time for the institute to cooperate with a digital technology firm to build a digital university,” Hung said. The Minister’s proposal spurred on development in the institute, the release noted.
In December 2020, Minister Hung stated that one digital university has likely become eligible for pilot transformation. With instructions from the Minister, the institute has become one of the pioneers in building and applying a digital university model. PTIT is not, however, the only digital school in the country.
The targets set in the Hanoi National University’s development strategy by 2030 are: reforming teaching methods towards modernisation, integrating personalisation into IT platforms, and creating learner-centric infrastructure. It also aims to establish intelligent university management and organisation models, execute comprehensive digital transformation in all activities, and operate the shared digital data knowledge system synchronously. The university will interconnect data for effective administration, management, and the renewal of teaching, learning, and research activities. One of the key tasks in 2021-2025 of the school is perfecting the modern university management and organisation model in association with building smart universities.