Many leaders in the technology industry have said that 2024 will be the first year of robotics, in addition to artificial intelligence models.
Today, the Stanford Chinese team's robot Mobile Aloha is popular all over the Internet, which can achieve more than 50 kinds of tasks, including opening kitchen cabinets, washing pots, frying shrimp, cooking, folding clothes, etc.
One. What are the characteristics of the stir-fry robot Mobile Aloha?
As an expert in cooking, Mobile Aloha can independently complete the complex process of making complex dishes such as shrimp with eggs, roasted chicken with scallops, and lettuce with oyster sauce, and the finished product is mouth-watering.
Mobile Aloha can not only be operated autonomously, but can also be controlled remotely throughout the body.
The Mobile Aloha system simulates complex real-world tasks using supervised behavioral cloning and co-training methods.
Two. Stir-fry robot Mobile AlohaWho invented it?
Developed by a three-person team at Stanford University in the United States, and its software and hardware are open-source, Mobile Aloha is equipped with two wrist cameras and a top camera, and is equipped with an on-board power supply and computing system.
Three. How much is the stir-fry robot mobile aloha**
The Mobile Aloha complete system is more economical, with a total price of less than $32,000 and includes robot hardware, power and computing equipment, cameras, sensors, assembly and maintenance costs, and an open-source software component.
Four. What is the significance and development prospect of robot technology?
Mobile Aloha's R&D breakthrough is expected to accelerate the commercialization of robots. With the expansion of emerging application scenarios, the demand for robots is becoming increasingly strong, and 2024 may be the first year of robots.
The development prospects of robotics are very promising. With rising labor costs and increased production efficiency, more and more industries and businesses are looking for automation solutions. Robotics can improve productivity and quality by performing repetitive, dangerous, or highly precise tasks on the production line.
With the rapid development of the service industry, such as healthcare, retail, food and beverage, and logistics, the demand for robots is also increasing. Robots can play a role in human interaction, customer service, distribution, and logistics, providing more efficient and personalized service. Globally, population ageing is an important social trend. Robotics can respond to the growing demand for medical and nursing care, reduce the burden on healthcare workers, and provide solutions to monitor and care for the elderly.
Robotics has a wide range of applications in the field of innovation and R&D. Robots can perform complex experimental operations, data analysis, and simulations to accelerate scientific research and engineering innovation.
The development of robotics is increasingly focusing on human-robot collaboration. Robots can work with human workers to complete tasks together. This human-robot collaboration model will increase productivity, create a safer working environment, and provide more opportunities for human development.
Despite the promise of robotics, there are still some challenges, such as technological maturity, cost-effectiveness, legal and ethical issues, and social acceptance. However, these challenges are expected to be overcome gradually as technology advances.