The Gist <\/p>\n
In a groundbreaking venture that fuses the realms of artificial intelligence and synthetic biology, a research team led by Monash University and Cortical Labs has developed DishBrain a cluster of live, lab-grown brain cells capable of playing the vintage video game, Pong. The team will continue its efforts and has won a $600,000 grant from Australias Office of National Intelligence and the Department of Defence National Security Science and Technology Centre, and the work could result in a leap toward programmable biological computing platforms that might reshape technology from self-driving cars to advanced automation. <\/p>\n
How does it work? According to Associate Professor Adeel Razi, Turner Institute for Brain and Mental Health at Monash University, DishBrain is a system that uses brain cells, called neurons, grown in the laboratory and planted on a dish with electrodes. The cells respond to electrical signals from the electrodes in the dish. These electrodes both stimulate the cells and record changes in neuronal activity. The stimulation signals and the cellular responses are converted into a visual depiction of the Pong game. <\/p>\n
In essence, DishBrain leverages hundreds of thousands of human and mouse neurons. But training something like brain cells is quite tricky. Utilizing the free energy principle, researchers stimulated these cells to take on unpredictable challenges like bouncing a virtual ball in the game Pong thus learning and adapting to new tasks. The aim of the project is to comprehend the biological mechanisms behind continuous learning and to reduce the \"catastrophic forgetting\" AI faces when shifting from one task to another. <\/p>\n
This continued and improved learning capacity is the hallmark of human intelligence which current AI systems lack. In DishBrain we plan to use various brain cell types that are suited to continued learning, said Razi. <\/p>\n
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The experiment, although ethically sensitive, is not some super intelligence we need to be concerned with. At least not yet. The current Dishbrain system isnt advanced enough to be of concern but Razi warns, These technologies will eventually become sophisticated enough to mimic some human-like traits, so plenty of caution is required. <\/p>\n
In the overall landscape of AI, DishBrain could begin an immense transformation. Razi told CMSWire within three to four years we could begin to see this type of technology used to revolutionize our understanding of the brain's intricate functionalities and the underlying causes of disorders like dementia. This would in turn help improve the efficiency of drug discovery. <\/p>\n
In essence, the project illuminates a path to a new kind of machine intelligence capable of lifelong learning and adaptation a development that Razi believes could eventually surpass the performance of todays silicon-based hardware. The current DishBrain system, which uses both silicon based electrodes and brain cells, is primitive, but in [the] future it has the potential to outperform only silicon-based computers especially for use cases that require flexible behavior, said Razi. <\/p>\n
If successful, the implications across diverse fields from planning and robotics to brain-machine interfaces and drug discovery, could provide Australia with a strategic advantage and redefine our interaction with technology. <\/p>\n
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As we venture further into the future, we can begin to imagine the more radical applications of DishBrain technology. Herein lies the potential for pioneering brain-machine interfaces that enhance our interaction with technology, alongside its use in robotics and automation, translating into capabilities beyond our current comprehension. The progression from video game-playing cells to these real-world applications is a leap, but it's one that this exciting technology could well make. <\/p>\n
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Future AI: DishBrain Is Tech That Could Transform Tomorrow - CMSWire<\/a><\/p>\n","protected":false},"excerpt":{"rendered":" The Gist In a groundbreaking venture that fuses the realms of artificial intelligence and synthetic biology, a research team led by Monash University and Cortical Labs has developed DishBrain a cluster of live, lab-grown brain cells capable of playing the vintage video game, Pong. The team will continue its efforts and has won a $600,000 grant from Australias Office of National Intelligence and the Department of Defence National Security Science and Technology Centre, and the work could result in a leap toward programmable biological computing platforms that might reshape technology from self-driving cars to advanced automation Continue reading