AMAZING ROBOT ANIMALS THAT YOU SHOULD SEE

TechZone

19 Oct 202212:02

Summary

TLDRThe video showcases a range of innovative robotic animals and machines inspired by nature, including a hexapod spider robot, self-learning MIT robot cheetah, robotic goats and rats for agricultural and rescue applications, and even a 50-foot Titanoboa snake robot. Other highlights include a DIY robotic wasp kit, a gecko-inspired climbing robot, and a robot fish designed for underwater exploration. These robotics projects highlight both high-tech engineering and creative DIY solutions, pushing the boundaries of robotics in various fields like science, agriculture, and rescue operations.

Takeaways

😀 A hexapod robot, weighing 10.4 pounds, was created by its designer, with many elements and algorithms designed by the creator. Detailed photos of the project are shared online, making it feasible to recreate at home.
😀 Harvard engineers have created a robot using plastic straws, designed to mimic the movement of spider-like creatures. The robot is powered by Arduino microcontrollers and operates with a new movement algorithm.
😀 MIT's robot cheetah can run at 25.1 mph, and although it’s slower than a real cheetah, it is self-learning and easy to repair, with an assembly process resembling Lego sets for easier experimentation.
😀 A robotic goat developed by Kawasaki Corporation helps farmers by carrying loads of up to 220 pounds. It can move in two modes: on wheels on smooth roads and on legs on rough terrain, with the option for autonomous movement.
😀 Chinese engineers have developed robotic rats that can navigate through rubble, inspect hard-to-reach areas, and perform tasks like climbing obstacles. They are exploring commercial applications like pipeline inspections.
😀 A 50-foot-long robotic Titanoboa, inspired by an extinct giant snake, was built in Canada and is controlled by Arduino Mega microcontrollers. It can move at speeds of up to 2.5 mph, although its battery life is limited to about 30 minutes.
😀 Harvard engineers have designed a snake robot with artificial skin that mimics real snake scales. The design allows the robot to move efficiently, inspired by the Japanese art of kirigami, and could be used for rescue operations.
😀 A DIY robotic wasp kit, comprising 1,000 pieces, provides an engaging assembly experience. It comes with light and sound effects and has a difficulty rating of 3 out of 5, offering a sense of accomplishment after completion.
😀 A robotic fish inspired by the Pacific bluefin tuna can swim at a depth of 40 feet for up to 40 minutes, providing an experimental platform for robotic submarines used for environmental monitoring and mapping.
😀 The Stanford Gecko robot, inspired by the lizard’s unique feet, can climb vertical surfaces like wood, metal, and glass. This robot uses less energy than traditional suction cups and could aid in building, rescue, and research operations.

Q & A

What is the significance of the hexapod robot created by its author?
-The hexapod robot, weighing 10.4 pounds, was designed with unique algorithms for movement, many of which were created by the author himself. The project is accessible to DIY enthusiasts, as the author has shared detailed photos on zentersrobots.com, making it feasible for others to replicate the robot at home.
What innovative feature does the spider-themed robot from Harvard use?
-The spider-themed robot uses flexible, modified plastic straws to create its legs. Air is supplied to the straws, which straighten out and move the robot. The project also involved creating a new algorithm to simulate the movement of a spider's eight-legged gait.
How fast can MIT's robotic cheetah run, and what is its main advantage?
-MIT's robotic cheetah can run at a speed of 25.1 miles per hour. Its main advantage is its ability to self-learn, which allows for easier repairs and experimentation, thanks to its modular design resembling a Lego set.
What are the key functions of the robotic goat developed by Kawasaki Corporation?
-The robotic goat can carry up to 220 pounds and operates in two modes: using wheels on smooth roads and legs on bumpy terrain. It can also move autonomously and is controlled manually when necessary. It was designed to assist farmers.
What capabilities do the robotic rats created by Chinese engineers possess?
-The robotic rats are capable of moving through difficult environments, carrying small cargo, and even performing tasks like inspecting pipelines. They can crawl, bend their bodies, and climb obstacles, making them ideal for search-and-rescue operations.
What is the Titanoboa robot, and what was its purpose?
-The Titanoboa robot is a 50-foot long replica of an extinct snake, developed by Canadian engineers. It is powered by eight Arduino Mega microcontrollers and can move at speeds up to 2.5 miles per hour. The robot was designed for display in museums or exhibitions.
How does the snake robot from Harvard University move and what inspired its design?
-The snake robot at Harvard moves by inflating artificial skin with scales that cling to the surface. The design was inspired by the Japanese art of kirigami and mimics the movement of real snakes. It may be used for rescue operations in the future.
What makes the robotic fish modeled after the Pacific bluefin tuna unique?
-The robotic fish is designed for underwater exploration, capable of swimming at depths of 40 feet for 40 minutes. It is used for mapping, searching for contaminants, and other underwater tasks. The robot faces challenges with battery life, which engineers are working to improve.
What is the significance of the gecko-inspired robot developed at Stanford?
-The gecko-inspired robot uses bristles on its feet, similar to those on real geckos, to climb vertical surfaces. The bristles provide secure grip with minimal energy use, making it more efficient than suction cups. This robot could be used for construction, rescue, and research.
What are the potential uses of the robot penguin developed in Germany?
-The robot penguin can swim autonomously in groups or alone, using an electric motor and batteries to operate for up to seven hours. It is designed to mimic penguin movement, using flexible torso technology inspired by fish fins. The robot could be used for environmental and research purposes.