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​​Google Australia and Griffith unite to monitor whale sounds and marine habitats ​ 

​​​A unique new partnership that ​​​combines​​​ marine research with ​​Google AI technology​ will ​enhance ​​​researchers’​​ understanding of humpback whale behaviours​​,​​​ migration patterns​​​ and ​​marine habitats​​​.​​ ​​

Dr Olaf Meynecke and Dr Lauren Harrell.

​​​​ ​is supporting ​whale researchers from Griffith University’s and ​​​ to more precisely​​​, efficiently​​​ and comprehensively monitor whale migrations ​​​and ​​their ecosystems ​​​along Australia’s East Coast ​​​with​​​ the deployment of hydrophones – and with automatic audio detection, powered by Google AI.​​​ ​​​​​​ ​​​

​​​​Monitoring the sounds and songs of humpback whales is a helpful indicator of ecosystem health. It can help scientists understand ​​migration activity, patterns, mating calls and competitive behaviours.​​​​ ​​

Traditional whale research methods typically involved painstaking and laborious processes such as logging sightings of whales, and manually ​​reviewing audio​​ data.

The hydrophones are deployed at 500km intervals along the Australian East Coast.

Additionally, whale sighting data can only be gathered during daylight, so scientists were not previously able to collect detailed, comprehensive data over continuous stretches of time. ​​​

​​​​The ​​hydrophones​​ and Google AI technology removes research barriers and limitations, enabling automatic and continuous audio data collection and analysis. ​​

Hydrophones are microphones used underwater for recording or listening to underwater sounds, and their use in this particular project will support whale sightings from boats and land. ​​​

​​​​”Hydrophones allow us to tune into marine soundscapes 24/7,” Dr Meynecke said.

“The Whales and Climate Program currently holds the largest whale sighting database in Australia but this is sighting data captured during the daytime, which means there is no data spanning 24-hour periods. ​​ ​​​

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“The hydrophone array will help us to capture continuous data over the course of a 24-hour period and do this for the entire whale season every year. We will be collecting many terabytes of acoustic data that then will be analysed with Google’s AI technology to detect whale location and activity. We can then match that data with existing visual sightings, ​​providing a much more holistic picture of whale movements and behaviours.”​​​​​​​

Dr Olaf Meynecke, Griffith University

The Google/Griffith team will work with citizen science groups to deploy more hydrophones.

​​​​Three hydrophones have already been deployed off the Gold Coast, Sydney and Merimbula, with at least another three set to be deployed.

The hydrophones will be spaced at approximately 500km intervals, ensuring wide coverage of annual migrations that typically span the Australian east coast.​​ ​​​

​​​​The project is enabled by the ​Digital Futures Initiative​, Google Australia’s $1 billion investment in Australian research, partnerships and infrastructure.

This ​​commitment supports a range of​​ ​​AI-focused projects across healthcare, sustainability, energy and more, including​​ a search engine for bird and wildlife sounds. ​​​​​​​​​​​​​​​

​​​​”We’re delighted to partner with Griffith University to give researchers new AI tools so they can gain a richer and more ​​comprehensive​​ understanding of humpback whales, underwater ecosystems and the impact of climate change,​​​​” said Dr Harrell, data scientist at Google Research. ​​​​​​​

​​​​”​​​​Google’s AI technology detects whale sounds, ​​marks the location​​ in time and ​​classifies​​ the species​​. The model does ​​this​​ automatically, ​​relieving​​​​ researchers from time consuming and manual work so they can spend more time uncovering insights and ​​exploring​​ new, unchartered ​​territories​​ of research. This data can help to ​​inform​​ conservation decisions and will be made publicly available to the global research community.”​​​​​

Dr Lauren Harrell, Google Research

The hydrophones will collect terabytes of marine soundscape data for further analysis.

​​​​The AI model will be open sourced on Kaggle and on GitHub to benefit other whale and marine researchers around the world. ​​

​Curtin University’s Centre for Marine Science and Technology is also working with the team to provide technical support for the acoustic data collection, and a range of local citizen science groups will assist with monitoring each of the hydrophone sites.

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