Vision
Australian industries are responsibly developing and using robotics and automation technologies to strengthen competitiveness, boost productivity and support local communities.
Goals and objectives
National capability
Goal: Australia has a strong, collaborative robotics and automation ecosystem that is recognised for its strengths, has a thriving domestic market and exports globally.
- Boost research and development, commercialisation and scaling up of Australian solutions targeting areas of Australian strength.
- Use government’s purchasing power to grow domestic demand for robotics and automation.
- Raise the profile of Australia’s robotics and automation capabilities and supply chains locally and globally.
- Leverage Australia’s international partnerships and networks, as well as state and territory governments, to create new opportunities.
Increasing adoption
Goal: Australian industries are supported to integrate robotics and automation technologies into their operations in ways that benefit Australian workers and communities.
- Raise awareness of robotics and automation technologies and their benefits for critical industries, like advanced manufacturing, agriculture and mining, to support Australia’s future competitiveness.
- Support and incentivise Australian businesses to adopt local robotics and automation solutions.
- Improve digital and telecommunications infrastructure underpinning robotics and automation.
Trust, inclusion and responsible development and use
Goal: Robotics and automation technologies designed and adopted in Australia are safe to use alongside Australian workers, and are secure and inclusive by design.
- Ensure regulatory and legal frameworks enabling and applying to automation technologies are fit for purpose.
- Better understand and address the social impacts of robotics and automation in critical industries.
- Promote Australia’s engagement in relevant bodies for setting international standards.
- Improve safety and cyber security of robotics and automation technologies.
Skills and diversity
Goal: Australians from all backgrounds contribute to and benefit from the development and adoption of robotics and automation.
- Strengthen pathways into robotics-related careers.
- Identify ways to better promote diversity and inclusion in robotics industries.
- Monitor and plan for workforce changes and skills development alongside greater adoption of robotics and automation technologies.
- Attract skilled migrants to increase our economic prosperity and security.
- Raise awareness of the skills needed to support a technologically advanced economy.
Definitions and types of robots
The National Robotics Strategy uses the following definitions. For detailed technical definitions, refer to the International Organization for Standardization (2021).
- Robots are machines with a degree of autonomy that can move in their physical environment or manipulate objects. All robots have 4 essential characteristics: sensing, movement, energy and autonomy.
- Robotics is the science and practice of designing, manufacturing and using robots.
- Autonomy is the ability to perform intended tasks based on current state and sensing, without human intervention.
- Automation is the performance of actions based on a set of predefined criteria, without human intervention. Automation will be considered in the strategy where it is enabled by robots.
- The field of robotics encompasses many enabling technologies that are used in robots, such as computer and machine vision, sensors and sensing systems, artificial intelligence (AI) and machine learning.
- The term robotics and automation technologies is used to refer collectively to all technologies listed above.
Robots are traditionally divided into industrial and service robot types.
- Industrial robots are automatically controlled, reprogrammable and multipurpose manipulators that can move in 3 or more axes. They can be fixed in place or mobile and are used in industrial automation applications.
- Service robots are robots that perform useful tasks for humans or equipment, excluding industrial automation applications.
The strategy refers to specific types of robots, including: