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Scientists Working on Merging AI With Human Brain Cells
Summary
A team of researchers have received a $600,000 grant from the Australian Office of National Intelligence to study ways of merging human brain cells with artificial intelligence. They have already successfully demonstrated how a cluster of roughly 800,000 brain cells in a Petri dish is capable of playing a game of "Pong." The team hopes that the technology will eventually surpass the performance of existing, purely silicon-based hardware and have implications across multiple fields such as robotics, advanced automation, brain-machine interfaces, and drug discovery. To investigate this process of "continual lifelong learning," the team will be using the grant to develop better AI machines that replicate the learning capacity of these biological neural networks.
Q&As
What is the purpose of the project being funded by Australia's Office of National Intelligence?
The purpose of the project being funded by Australia's Office of National Intelligence is to study ways of merging human brain cells with artificial intelligence.
What is the DishBrain system and how is it being used?
The DishBrain system is a lab dish used to grow brain cells in order to investigate the process of "continual lifelong learning."
What are the potential implications of the research?
The potential implications of the research include planning, robotics, advanced automation, brain-machine interfaces, and drug discovery.
What are the researchers hoping to achieve with the grant?
The researchers are hoping to develop better AI machines that replicate the learning capacity of biological neural networks with the grant.
How could this project revolutionize machine learning technology?
This project could revolutionize machine learning technology by allowing a machine intelligence to learn throughout its lifetime like human brain cells, allowing it to learn new skills without losing old ones, as well as applying existing knowledge to new tasks.
AI Comments
👍 This exciting new research has the potential to revolutionize the way AI is used in many industries. It is encouraging that the Australian government has invested in this project, as it could bring many strategic advantages.
👎 It remains to be seen if this ambitious project will actually be successful, and it could take a long time to complete. Additionally, the implications of merging human brain cells with AI are concerning, as it could lead to unforeseen consequences.
AI Discussion
Me: It's about a team of researchers who received a $600,000 grant from Australia's Office of National Intelligence to study ways to merge human brain cells with artificial intelligence. They have already successfully demonstrated how a cluster of 800,000 brain cells in a Petri dish can play a game of "Pong." The team is hoping that this technology can be used to create self-driving cars, autonomous drones, or delivery robots.
Friend: Wow, that's really interesting. What implications does this research have?
Me: Well, if successful, this research could have far-reaching implications across multiple fields, such as robotics, advanced automation, brain-machine interfaces, and drug discovery. The team also believes that this technology could allow a machine intelligence to learn throughout its lifetime, like human brain cells, giving it the capacity to learn new skills while still retaining old ones. This could make AI much more powerful and useful than the purely silicon-based hardware that currently exists.
Action items
- Research the implications of merging AI with human brain cells and the potential applications for this technology.
- Follow the progress of the research team at Monarch University and Cortical Labs to stay up to date on their findings.
- Consider the ethical implications of merging AI with human brain cells and the potential implications for society.
Technical terms
- AI (Artificial Intelligence)
- AI is a type of computer technology that is designed to simulate human intelligence and behavior.
- Silicon-based hardware
- Silicon-based hardware is a type of computer hardware that is made from silicon, a type of semiconductor material.
- In Silico
- In silico is a term used to describe the use of computer simulations and models to study biological processes.
- DishBrain system
- The DishBrain system is a lab dish used to grow brain cells in order to investigate the process of continual lifelong learning.