The National Policy on Science, Technology and Innovation (DSTIN) 2021-2030 will intensify local technology development and application efforts to transform the country from being technology users to technology developers.
The Minister of Science, Technology and Innovation stated that by setting a target of becoming a high-technology country, the efforts would be able to reduce dependence on foreign technology and labour. The experimental development research efforts would be empowered by setting aside 50 per cent from the allocation for research and development (R&D).
The government through this ministry has formulated the new policy which will also address the issue of innovation inefficiency, where the concept of Science, Technology, Innovation and Economy (STIE) is introduced.
An integrated approach combining the two major sectors of the country, namely ‘STI’ and ‘Economy’ as one sector to ensure that all programmes are implemented to complement each other and have a high impact, thus making STI as an enabler in addressing national issues and challenges.
The new policy outlined six cores, along with 20 strategies and 46 initiatives, covering all sectors and living spaces of people from all walks of life.
The Minister said the six cores emphasised responsive STI governance, empowerment of research, development, commercialisation and innovation (R&D&C&I) as well as the use of local technology by the industry, STI talent development, embracing and application of STIE as well as bringing STI to the global stage.
The government is aware that STI-based economic growth efforts require the cooperation of various parties, therefore this policy emphasises strategic collaboration between government, industry, academia and society, particularly in the development of local technologies through R&D&C&I.
This is to ensure that STI benefits all parties inclusively without marginalising any quarter; STI talent which is the backbone of national development is also the main focus of the new DSTIN.
Therefore, Science, Technology, Engineering and Mathematics (STEM) based education, as well as Technical Education and Vocational Training (TVET), will be fortified to ensure that the talents can meet the needs of the industry in a rapidly changing global economy and technology.
The efforts to make Malaysia a high-technology country with a GERD (Gross Domestic Expenditure on Research and Development) of 3.5 per cent by 2030, 10 STIE leap programmes have been formulated.
Among them are the creation of Technology Commercialisation Accelerator (TCA), Malaysia Science Endowment (MSE), National Technology Innovation Sandbox (NTIS) and the establishment of the National Vaccine Centre, which will drive local technology development and commercialisation of R&D products.
The 10-10 MySTIE Framework was specifically designed by the Malaysian Academy of Sciences to support the implementation of DSTIN 2021-2030 and address long-debated issues pertaining to R&D results that do not meet the needs of the industry and the low level of commercialisation and technology transfer.
30 priority areas had been identified which were divided into three, namely 12 priority areas that are economic boosters, seven priority areas that focus on societal wellbeing and 11 priority areas that impact both aspects.
The use of the 10-10 MySTIE framework will help strengthen TCA’s role in commercialisation efforts when the set of priority areas can meet the needs of the industry, thus ensuring the progress of science and technology in line with the country’s economic growth.