Monday, February 27, 2023

Let's get wasted and apply some deep thinking to rubbish

Photo Credit: John Cameron

Artificial intelligence has made a giant leap into our rubbish bins thanks to new technology being deployed at the University of South Australia.

Using algorithms to analyze data from smart bin sensors, UniSA PhD student Sabbir Ahmed is designing a deep learning model to predict where waste is accumulating in cities and how often public bins should be cleared.

“Sensors in the public smart bins can give us a lot of information about how busy specific locations are, what type of rubbish is being disposed of and even how much methane gas is being produced from food waste in bins,” Ahmed says.

“All that data can be fed into a neural network model to predict where bins in parks, shopping centers and other public places are likely to fill up quickly and, conversely, which locations are rarely visited.

“This can help councils to optimize their waste management services, schedule bin clearances and even relocate rarely used bins to where they are needed most.”

Ahmed is collaborating with Wyndham Council in Victoria on a pilot project, using their smart bin data to develop an AI model which could be used by local councils across the country to make waste services more efficient.

Details of the research are published in the International Journal of Environmental Research and Public Health.

Co-author of the paper, UniSA lecturer Dr Sameera Mubarak, says waste management is a growing concern around the world.

“Many urban areas are struggling to cope with an increase in garbage due to rapid population growth and waste services are becoming increasingly difficult for local governments to manage,” Dr Mubarak says.

In developing an AI model, the researchers have analyzed sensor data from public bin sites, routing paths and pick-up locations. The sensors capture different types of waste: solid, organic, industry or chemical waste, medical waste, and recycling waste.

“Human planning takes time but using artificial intelligence we can predict patterns of waste generation in public sites.

“This includes forecasting which days are busier in certain locations, flagging upcoming events that will result in a spike in garbage, and then scheduling waste collection around these predictions.

“Improper waste collection can cause serious health and environmental hazards for cities, particularly when bins overflow. This research ticks many boxes, including addressing challenges around sustainability, environmental and health issues, and efficient resourcing.”

The researchers plan to investigate the impact of socioeconomic factors and public utility investment on waste generation in future work.

Published in journalInternational Journal of Environmental Research and Public Health

Source/CreditUniversity of South Australia

Reference Number: en022723_01

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