Artist in residence: lighting up brains in response to TED talks
Artist in residence: lighting up brains in response to TED talks
Artist in residence: lighting up brains in response to TED talks
Artist in residence: lighting up brains in response to TED talks
Artist in residence: lighting up brains in response to TED talks
TEDx
TEDx
TEDx
TEDx
Experiential
Experiential
Experiential
Experiential
Content
Content
Content
Content
Brand expression
Brand expression
Brand expression
Brand expression
Project overview
Project overview
Project overview
Project overview
Project overview
TEDxSydney is the leading platform for the propagation of Australian ideas, creativity and innovation. In 2017 we were invited to be the Artist in Residence.
TEDx is an international community that organizes TED-style events anywhere and everywhere – celebrating locally-driven ideas and elevating them to a global stage. The TEDxSydney event is a unique and vital day of talks, films, music and debate, and is one of the largest TEDx events in the world.
TEDxSydney is the leading platform for the propagation of Australian ideas, creativity and innovation. In 2017 we were invited to be the Artist in Residence.
TEDx is an international community that organizes TED-style events anywhere and everywhere – celebrating locally-driven ideas and elevating them to a global stage. The TEDxSydney event is a unique and vital day of talks, films, music and debate, and is one of the largest TEDx events in the world.
TEDxSydney is the leading platform for the propagation of Australian ideas, creativity and innovation. In 2017 we were invited to be the Artist in Residence.
TEDx is an international community that organizes TED-style events anywhere and everywhere – celebrating locally-driven ideas and elevating them to a global stage. The TEDxSydney event is a unique and vital day of talks, films, music and debate, and is one of the largest TEDx events in the world.
TEDxSydney is the leading platform for the propagation of Australian ideas, creativity and innovation. In 2017 we were invited to be the Artist in Residence.
TEDx is an international community that organizes TED-style events anywhere and everywhere – celebrating locally-driven ideas and elevating them to a global stage. The TEDxSydney event is a unique and vital day of talks, films, music and debate, and is one of the largest TEDx events in the world.
TEDxSydney is the leading platform for the propagation of Australian ideas, creativity and innovation. In 2017 we were invited to be the Artist in Residence.
TEDx is an international community that organizes TED-style events anywhere and everywhere – celebrating locally-driven ideas and elevating them to a global stage. The TEDxSydney event is a unique and vital day of talks, films, music and debate, and is one of the largest TEDx events in the world.
Our idea
Our idea
Our idea
Our idea
Our idea
TEDx is about ideas worth spreading. For the 2017 event we were asked to explore the theme “Unconventional” so we created an installation driven by the brainwaves of attendees to show ideas as they spread from speaker to recipient.
The ‘Theory of Mind’ installation uses real volunteers from TEDxSydney 2017 to demonstrate how stories and ideas put your whole brain to work. It combines brain sensors with machine learning and computational fMRI (functional magnetic resonance imaging) modelling, to visualise the regions of the brain that activate and encode information when engaging with a TED Talk – literally lighting up the mind as each idea takes hold.
‘Theory of Mind’ was designed and built in collaboration with Mammal and debuted at the 2017 TEDxSydney flagship event hosted at the new ICC Sydney. The event welcomed a record number of attendees for the organisation.
TEDx is about ideas worth spreading. For the 2017 event we were asked to explore the theme “Unconventional” so we created an installation driven by the brainwaves of attendees to show ideas as they spread from speaker to recipient.
The ‘Theory of Mind’ installation uses real volunteers from TEDxSydney 2017 to demonstrate how stories and ideas put your whole brain to work. It combines brain sensors with machine learning and computational fMRI (functional magnetic resonance imaging) modelling, to visualise the regions of the brain that activate and encode information when engaging with a TED Talk – literally lighting up the mind as each idea takes hold.
‘Theory of Mind’ was designed and built in collaboration with Mammal and debuted at the 2017 TEDxSydney flagship event hosted at the new ICC Sydney. The event welcomed a record number of attendees for the organisation.
TEDx is about ideas worth spreading. For the 2017 event we were asked to explore the theme “Unconventional” so we created an installation driven by the brainwaves of attendees to show ideas as they spread from speaker to recipient.
The ‘Theory of Mind’ installation uses real volunteers from TEDxSydney 2017 to demonstrate how stories and ideas put your whole brain to work. It combines brain sensors with machine learning and computational fMRI (functional magnetic resonance imaging) modelling, to visualise the regions of the brain that activate and encode information when engaging with a TED Talk – literally lighting up the mind as each idea takes hold.
‘Theory of Mind’ was designed and built in collaboration with Mammal and debuted at the 2017 TEDxSydney flagship event hosted at the new ICC Sydney. The event welcomed a record number of attendees for the organisation.
TEDx is about ideas worth spreading. For the 2017 event we were asked to explore the theme “Unconventional” so we created an installation driven by the brainwaves of attendees to show ideas as they spread from speaker to recipient.
The ‘Theory of Mind’ installation uses real volunteers from TEDxSydney 2017 to demonstrate how stories and ideas put your whole brain to work. It combines brain sensors with machine learning and computational fMRI (functional magnetic resonance imaging) modelling, to visualise the regions of the brain that activate and encode information when engaging with a TED Talk – literally lighting up the mind as each idea takes hold.
‘Theory of Mind’ was designed and built in collaboration with Mammal and debuted at the 2017 TEDxSydney flagship event hosted at the new ICC Sydney. The event welcomed a record number of attendees for the organisation.
TEDx is about ideas worth spreading. For the 2017 event we were asked to explore the theme “Unconventional” so we created an installation driven by the brainwaves of attendees to show ideas as they spread from speaker to recipient.
The ‘Theory of Mind’ installation uses real volunteers from TEDxSydney 2017 to demonstrate how stories and ideas put your whole brain to work. It combines brain sensors with machine learning and computational fMRI (functional magnetic resonance imaging) modelling, to visualise the regions of the brain that activate and encode information when engaging with a TED Talk – literally lighting up the mind as each idea takes hold.
‘Theory of Mind’ was designed and built in collaboration with Mammal and debuted at the 2017 TEDxSydney flagship event hosted at the new ICC Sydney. The event welcomed a record number of attendees for the organisation.
How it worked
How it worked
How it worked
How it worked
How it worked
Researchers have long known that the “classical” language regions – like Broca’s area and Wernicke’s area – are involved in how the brain interprets language. What science has revealed in the last few years is that narratives activate many other parts of our brains as well.
In fact, the brain does not make much of a distinction between hearing about an experience and encountering it in real life. So when we’re told a story, we relate it to our existing experiences.
For example:
When you hear a metaphor involving texture, the sensory cortex responsible for touch becomes active
Words describing motion activate our motor cortex, which coordinates the body’s movements
Descriptions of food stimulate our gustatory cortex, the same part of the brain triggered by taste
This is why we feel what others feel, cringe when others cringe and live another’s pain, joy, heartache, fear, love, etc.
Researchers have long known that the “classical” language regions – like Broca’s area and Wernicke’s area – are involved in how the brain interprets language. What science has revealed in the last few years is that narratives activate many other parts of our brains as well.
In fact, the brain does not make much of a distinction between hearing about an experience and encountering it in real life. So when we’re told a story, we relate it to our existing experiences.
For example:
When you hear a metaphor involving texture, the sensory cortex responsible for touch becomes active
Words describing motion activate our motor cortex, which coordinates the body’s movements
Descriptions of food stimulate our gustatory cortex, the same part of the brain triggered by taste
This is why we feel what others feel, cringe when others cringe and live another’s pain, joy, heartache, fear, love, etc.
Researchers have long known that the “classical” language regions – like Broca’s area and Wernicke’s area – are involved in how the brain interprets language. What science has revealed in the last few years is that narratives activate many other parts of our brains as well.
In fact, the brain does not make much of a distinction between hearing about an experience and encountering it in real life. So when we’re told a story, we relate it to our existing experiences.
For example:
When you hear a metaphor involving texture, the sensory cortex responsible for touch becomes active
Words describing motion activate our motor cortex, which coordinates the body’s movements
Descriptions of food stimulate our gustatory cortex, the same part of the brain triggered by taste
This is why we feel what others feel, cringe when others cringe and live another’s pain, joy, heartache, fear, love, etc.
Researchers have long known that the “classical” language regions – like Broca’s area and Wernicke’s area – are involved in how the brain interprets language. What science has revealed in the last few years is that narratives activate many other parts of our brains as well.
In fact, the brain does not make much of a distinction between hearing about an experience and encountering it in real life. So when we’re told a story, we relate it to our existing experiences.
For example:
When you hear a metaphor involving texture, the sensory cortex responsible for touch becomes active
Words describing motion activate our motor cortex, which coordinates the body’s movements
Descriptions of food stimulate our gustatory cortex, the same part of the brain triggered by taste
This is why we feel what others feel, cringe when others cringe and live another’s pain, joy, heartache, fear, love, etc.
Researchers have long known that the “classical” language regions – like Broca’s area and Wernicke’s area – are involved in how the brain interprets language. What science has revealed in the last few years is that narratives activate many other parts of our brains as well.
In fact, the brain does not make much of a distinction between hearing about an experience and encountering it in real life. So when we’re told a story, we relate it to our existing experiences.
For example:
When you hear a metaphor involving texture, the sensory cortex responsible for touch becomes active
Words describing motion activate our motor cortex, which coordinates the body’s movements
Descriptions of food stimulate our gustatory cortex, the same part of the brain triggered by taste
This is why we feel what others feel, cringe when others cringe and live another’s pain, joy, heartache, fear, love, etc.
Thank you
Thank you
Thank you
Thank you
Thank you
Mammal and Theo+Theo would especially like to thank their many partners and collaborators for their help and support.
Mammal and Theo+Theo would especially like to thank their many partners and collaborators for their help and support.
Mammal and Theo+Theo would especially like to thank their many partners and collaborators for their help and support.
Mammal and Theo+Theo would especially like to thank their many partners and collaborators for their help and support.
Mammal and Theo+Theo would especially like to thank their many partners and collaborators for their help and support.
Acknowledgements
Acknowledgements
Acknowledgements
Acknowledgements
Acknowledgements
Dr Louise Cole
Sydney Medical School
University of Sydney
Dr Louise Cole
Sydney Medical School
University of Sydney
Dr Louise Cole
Sydney Medical School
University of Sydney
Associate Professor David McKenzie
Prince of Wales Hospital
Associate Professor David McKenzie
Prince of Wales Hospital
Associate Professor David McKenzie
Prince of Wales Hospital
Associate Professor Ernest Somerville
Prince of Wales Hospital
Associate Professor Ernest Somerville
Prince of Wales Hospital
Associate Professor Ernest Somerville
Prince of Wales Hospital
Roxanne Fielding
Prince of Wales Hospital
Roxanne Fielding
Prince of Wales Hospital
Roxanne Fielding
Prince of Wales Hospital
Cameron Charles
Compumedics Ltd
Cameron Charles
Compumedics Ltd
Cameron Charles
Compumedics Ltd
Phil McNaughton
Greg Murphy Scenery
Phil McNaughton
Greg Murphy Scenery
Phil McNaughton
Greg Murphy Scenery
Adam Dionisio
Redscope Films
Adam Dionisio
Redscope Films
Adam Dionisio
Redscope Films
Benjamin Baggay
Redscope Films
Benjamin Baggay
Redscope Films
Benjamin Baggay
Redscope Films
Joseph Concepcion
Redscope Films
Joseph Concepcion
Redscope Films
Joseph Concepcion
Redscope Films
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