Brisbane has proven itself to be advanced in technological development. One of the biggest draws for international students interested in studying in Australia is the quality of scientific research. Australia is among the top 10 spenders in the world for research and development. 2% of all scientific papers in the world come from Australia, putting the country at the forefront of new technology and innovations. More and more companies are moving to Brisbane each year because if your company needs IT support in Brisbane or needs access to advance tech systems, you are going to be spoilt for choice. These impressive accomplishments can prove to be beneficial for international students who choose to study in Brisbane.
Australia is known for adopting new technologies at a faster rate than most other countries. It entered the new millennium with one of the highest rates of internet access in the world. Scientists and researchers from Australia have been responsible for many major breakthroughs and technological developments around the world. In fact, Australia boasts sixteen Nobel Prize recipients—not bad for a country with a population of about 24.6 million. The growth of technology in Australia has had several important results. It has increased opportunities for innovation and design, helped various industries make improvements in their already existing establishments, and helped to improve the quality of their goods.
The technology growth has also helped to improve Australia’s economy, as it is now one of the leading countries in the world for importing and exporting goods. Australia has a tradition of world-class research and development, which has benefitted millions around the world, such as the discovery of acquired immunological tolerance in 1960, as well as observations that led to the discovery of the accelerating Universe in 2011. Australia prides itself on its commitment to scientific discovery and its ability to become so technologically advanced. Australia is in the midst of a major economic, social, and political transition, driven by global competition and technological transformation. Over the next 10 years, the pace of technological change will be highly disruptive to the workplace and this report examines the impact it will have on workers and the skills they need to thrive in the Australian economy.
The future of technology
Australia has a long and illustrious computing history. Trevor Pearcey’s Mark 1, also known as CSIRAC, was one of the first computers in the world. They have not stopped there. From the invention of Wi-Fi to quantum computing, they have continued to show their remarkable talent for innovation. When you think of computers today, we may normally think of electronic digital devices. But the word ‘computer’ derives from ‘compute’, a word that entered the English language in the 17th century from the Latin computare – to come together or to settle an account. Before modern electronic machines, computers were people – mostly young women – hired to perform repetitive mathematical tasks by hand or with the aid of a mechanical calculator. When these functions started to be performed automatically by what we know as computer technology, the new field appropriated this term and human ‘computers’ became a thing of the past.
How technologically advanced are they now
Australia is still one of the highest technologically advanced countries in the world. Finland has taken top place as the most advanced. However, after Finland, other countries that featured at the top of the list were the USA, Sweden, Japan, South Korea, Australia, and the UK. The other European Union countries that were included in the top section, named ‘leaders’, were Germany, Ireland, Belgium, Austria, and France. Aside from their renowned computing technology, Australia is also well known for other innovations. Brisbane-based medical researchers Professor Ian Frazer and Dr. Jian Zhou developed the world’s first anti-cancer vaccine.
Known by the commercial name, Gardasil, the vaccine protects women against four strains of a virus called human papillomavirus (HPV), known to cause three-quarters of all cervical cancers. As cervical cancer is the second-leading cause of cancer death in women, vaccination has huge implications for the prevention of cancer. Since 2008, the vaccine has been approved for use in more than 120 countries. Also an Australian creation, the purpose of the black box flight recorder is to record all the conversations of pilots and staff during crashes. These recordings then later can be used to find the reasons for the plane crash. The box is indestructible and helps investigators to get to the source of the problem. The black box flight recorder was invented by Australian scientist Dr. David Warren who lost his father to the plane crash.
At first, the black box installation was made compulsory for Australian planes but now they are part of every plane. This has helped thousands of investigators discover the causes of many planes crashes that have taken place around the world. Furthermore, perhaps one of the most common inventions used is the ultrasound scanner. The ultrasound scanner uses echo technology of ultrasound waves for imaging of soft tissues of patients in real-time. This non-ionizing technique which can be damaging in some cases has allowed doctors to maneuver into patients ’ inside without side effects. This is one of the reasons why ultrasound is frequently used in prenatal care as it easily scans the progress of the fetus without any harmful radiations. It was developed and commercialized by Ausonius Australian Company. The ultrasound scanners have become one of the vital imaging devices in medicine because it is portable, gives access to real-time imaging and is non-invasive.