- Scientists in Spain have used artificial intelligence to identify common patterns in road traffic accidents.
- They used machine learning and artificial neural networks to analyze hours of video footage and thousands of images of life in Madrid and Barcelona.
- The results suggest most accidents occur on city streets cluttered with features that distract drivers.
- AI can be used to process large volumes of information and map risk factors, making it easier for city planners to manage them.
- The absence of agreed international governance for AI raises privacy, bias and ethical concerns.
Artificial intelligence (AI) is being used in research that it’s hoped will help reduce road traffic accidents (RTAs), which claim about 1.35 million lives every year.
Scientists in Spain have applied the technology to identify common patterns in RTAs. These could help guide urban planners in work to reduce collisions and make the world’s streets safer.
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With densely populated urban areas forecast to continue to attract people seeking work and better living conditions long into the future, that’s going to be an important consideration. The World Health Organization (WHO) says more than half of all deaths on the road are among “vulnerable” road users — pedestrians, cyclists and motorcyclists.
Our first step to put #pedestrians and #pedestrianSafety at the center of complex urban systems research: “Explainable, automated urban interventions to improve pedestrian and vehicle safety” is finally out @Transport_ELS, as a result of our @general_trafico project. pic.twitter.com/rrVH4uxHAN
— CoSIN3 (@CoSIN3_UOC) February 16, 2021
Using AI to promote safer streets
Researchers at Universitat Oberta de Catalunya (UOC), the world’s first online university, deployed AI to analyze hours of video footage and thousands of photographs of life in Spain’s two largest cities.
Although pandemic lockdowns were in force last year, the capital, Madrid, suffered more than 12,000 traffic accidents, which caused 31 fatalities. Barcelona’s 5,700 traffic collisions resulted in 14 deaths.
The researchers combined two aspects of AI — machine learning and artificial neural networks — to find common patterns in urban areas that suffer from high accident numbers. Machine learning adapts when it recognizes patterns in data, while artificial neural networks mimic the way the brain makes sense of multiple layers of information.
The need for human expertise
The UOC research found that specific physical features troubled drivers and that the more cluttered the environment, the harder it was for them to concentrate. Street furniture such as benches and public art, vibrant advertising close to roads and parked cars were unwelcome distractions, motorists said.
“What seems clear is that the number of distinct elements in a scene correlates with the number of accidents that have taken place there,” Javier Borge, one of the study’s lead researchers, said of the findings.
The study, which supports the United Nations’ Sustainable Development Goal 11, to make cities inclusive, safe, resilient and sustainable, was supported by Spain’s National Traffic Authority (DGT) and the city councils of Madrid and Barcelona.
While AI provides crucial insights, the researchers believe city streets can only be made safer if the analyses are combined with the expertise of architects, engineers, transport authorities and city planners.
“Artificial intelligence strikes us as a very powerful tool for finding out where problems might occur, but it’s not going to solve them on its own,” Borge said.
AI solving real-world problems
The UOC research is just one of many examples of how machine learning and AI are helping decision makers tackle complex real-world problems.
In cancer care, the technology has been used to accurately screen, identify and forecast the development of the disease. Scientists use AI algorithms to crunch large amounts of data to reveal trends and share information about the potential impacts of climate change.
And attempts to prevent world hunger have been energized by AI’s ability to bring together sources of data that help communities make informed predictions about disasters, such as crop failures or drought.
Governance and ethical issues
Despite AI’s undoubted problem-solving potential, there is concern that a lack of coordinated international governance over its application could lead to abuse of the technology. Unethical use of personal data, cybersecurity attacks and identity theft are among the most pressing worries.
The World Economic Forum’s Global Technology Governance Report 2021 cautions that governments and corporations need to work together to address these issues. It points to areas of good practice, such as the New Zealand government’s incorporation of privacy, human rights and ethics into AI algorithm design.
The topic will discussed last April’s virtual World Economic Forum Global Technology Governance Summit, which hopes to encourage a cooperative public-private approach to the opportunities and challenges of AI.
This article is republished from WeForum.
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