mycelium has electrical signals that can control biohybrid robots and make them moveFungal mycelia enable biohybrid robots to sense and react to environments autonomously, paving the way for advanced agricultural applications.
Robot placed under the control of a fungal overlordFungi can enhance robot adaptability and environmental interaction, offering a promising alternative to traditional biological components for biohybrid systems.
mycelium has electrical signals that can control biohybrid robots and make them moveFungal mycelia enable biohybrid robots to sense and react to environments autonomously, paving the way for advanced agricultural applications.
Robot placed under the control of a fungal overlordFungi can enhance robot adaptability and environmental interaction, offering a promising alternative to traditional biological components for biohybrid systems.
Robots face the futureEngineered skin tissue can be bound to humanoid robots for improved mobility, self-healing, sensing capabilities, and appearance.