Bionic Robotic Fish: Swimming through the Underwater World
China Deploys Bionic Robotic Fish for Surveillance in Yangtze River Conservation Efforts
Check out this incredible snapshot of a bionic robotic fish! 📸: Changjiang Daily
But what makes these aquatic marvels tick? Let's dive into some recent examples to get a better understanding:
On the Hunt: Bionic Robotic Fish in Action
- George Zhang's Soft Bionic Fish boasts two pan-tilt cameras and operates like a small Remotely Operated Vehicle (ROV), weighing around 25 kg with a descent depth of 200 meters [1].
- Liao et al.'s Miniature Underwater Vehicle employs an integrated vibration and jet propulsion mechanism, and is compact, measuring 100 mm long and 30 mm in diameter [3].
- Cost-Effective Bionic Robot Fish stands out for its budget-friendly price tag and impressive performance. With a super thrust of 3.5 kgf, max power of 190W, and operating at depths up to 100 meters, it's crafted from aluminum alloy and uses a brushless motor for power [4].
Biomimicry, Propulsion, and Material Magic
- Biomimicry: Inspired by Mother Nature herself, these techno-fish carefully mimic the graceful movements and aerodynamic forms of their biological counterparts, allowing them to navigate the aquatic realm with finesse.
- Propulsion Mechanisms: Vibration, jet propulsion, or other ingenious designs evolved from nature—these are all on the menu as these underwater wonders glide around their watery domain.
- Advanced Materials: You'll find strong, long-lasting materials like aluminum alloy used in the construction of these robust robotic fish.
Want to see these sleek underwater warriors in action? Head on over to Instagram to check out George Zhang's soft bionic fish post, which displays images and videos of the product [1]. Meanwhile, the cost-effective bionic robot fish can be found flaunting its design on Instagram as well [4]. Happy swimming, sea exploration fans! 🌊🎉
Artificial intelligence plays a crucial role in the navigation and control of these bionic robotic fish, as they are programmed to mimic the movements and forms of their biological counterparts. Technology advancements, such as the use of materials like aluminum alloy, have made it possible to create these cost-effective and durable underwater vehicles.
