Honda launched the most humanoid robot ever

Japan Honda Electronics Group on April 16 has launched a new generation robot, which has been built like the most human ever, at Manhattan, New York, USA.

This is the new ASIMO robot with breakthrough technological innovations.

At the launch, ASIMO bowed, greeted everyone with a clear English voice: "Hello New York! Thank you for being here today!"

Picture 1 of Honda launched the most humanoid robot ever
ASIMO robots perform the ability to play soccer in a press conference in New York, USA on April 16.(Source: AFP / VNA)

With the small form of a boy about 130cm tall, weighing 50kg, in white clothes like an astronaut, Asimo can run at 9 km / h, up and down stairs.

ASIMO can also open cork and pour wine to invite guests, can even make a gesture to shake people in a very polite manner.

The launch of ASIMO robot is an innovative step in research and design that ultimately aims to create robots with the most human movements.

ASIMO is rated as more flexible and balanced as well as able to express emotions through language.

Picture 2 of Honda launched the most humanoid robot ever
ASIMO robot demonstrates the ability to pour liquids at a press conference in New York, USA on April 16.(Source: AFP / VNA)

At the launching ceremony, Satoshi Shigemi, Honda's chief engineer, expressed his belief that the birth of a new generation robot will support people more and will reach the goal of meeting all human needs is in the field of science.

To do this, Shigemi emphasized that Honda needs to understand what people want from ASIMO and what people want ASIMO to do.

Picture 3 of Honda launched the most humanoid robot ever
ASIMO robot demonstrates the ability to climb stairs in a press conference in New York, USA on April 16.(Source: AFP / VNA)

The first generation of ASIMO "came out" in 2000, after 14 years of studying human movement and movement.

Researchers believe that in the near future ASIMO will support elderly people in eating, turning off and turning on lights when their mobility is impaired.