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Researchers Build a Soft Robot with Neurologic Capabilities
By
Jeannie Kever
Cunjiang Yu, professor of mechanical engineering at the UH Cullen College of Engineering, said the work represents a significant step toward the development of prosthetics that could directly connect with the peripheral nerves in biological tissues, as well as toward advances in soft neurorobots capable of thinking and making judgments.
Cunjiang Yu, professor of mechanical engineering at the UH Cullen College of Engineering, said the work represents a significant step toward the development of prosthetics that could directly connect with the peripheral nerves in biological tissues, as well as toward advances in soft neurorobots capable of thinking and making judgments.
Researchers have devised a soft neurorobot with a neurologically integrated tactile sensory skin, allowing it to sense interactions with the external environment and respond accordingly.
Researchers have devised a soft neurorobot with a neurologically integrated tactile sensory skin, allowing it to sense interactions with the external environment and respond accordingly.

Device is First Step Toward a More Sophisticated Artificial Nervous System

In work that combines a deep understanding of the biology of soft-bodied animals such as earthworms with advances in materials and electronic technologies, researchers from the United States and China have developed a robotic device containing a stretchable transistor that allows neurological function.

Cunjiang Yu, Bill D. Cook Associate Professor of mechanical engineering at the UH Cullen College of Engineering, said the work represents a significant step toward the development of prosthetics that could directly connect with the peripheral nerves in biological tissues, offering neurological function to artificial limbs, as well as toward advances in soft neurorobots capable of thinking and making judgments. Yu is corresponding author for a paper describing the work, published in Science Advances.

He is also a principal investigator with the Texas Center for Superconductivity at the University of Houston.

“When human skin is touched, you feel it,” Yu said to describe the human capabilities the new device can mimic. “The feeling originates in your brain, through neural pathways from your skin to the brain.”

The findings have implications for neuroprosthetics, as well as for neuromorphic computing, an emerging technology with the potential to allow high volume information processing using small amounts of energy through devices that mimic the electric behavior of neural networks.

Inspired by Nature

Inspired by nature, the researchers designed artificial synaptic transistors – that is, transistors that function similarly to neurons – which continue to work even after being stretched as much as 50%. While the resulting neurological function is less sophisticated than that exhibited by those of its living counterparts, they said it marks an important first step toward more powerful engineering systems in the future.

The transistor, described by researchers as having stretching characteristics similar to those in a rubber band, exhibited functions similar to those of biological synapses, including excitatory postsynaptic potential, current, facilitation, and short-term memory and long-term memory.

The soft neurorobot was equipped with a neurologically integrated tactile sensory skin, allowing it to sense the interaction with the external environment and respond accordingly. “The neurorobot senses physical tapping and locomotes adaptively in a programmed manner through synapse memory encoded signals,” the researchers wrote.

In addition to Yu, the research team included Hyunseok Shim, Kyoseung Sim, Faheem Ershad, Pinyi Yang, Anish Thukral, Zhoulyu Rao, Hae-Jin Kim and Xu Wang, all affiliated with the University of Houston; Yanghui Liu and Yang Chai, both with Hong Kong Polytechnic University; Guoying Gu of Shanghai Jiao Tong University; Li Gao of Nanjing University of Posts and Telecommunications; and Xinran Wang of Nanjing University.

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