Tesla has recently made a major upgrade to its humanoid robot Optimus, and its new hand design has become a highlight. This upgrade not only improves the robot's flexibility and operational accuracy, but also demonstrates Tesla's continued exploration and breakthroughs in the field of robotics technology. The improved Optimus will be more capable of complex tasks in a variety of scenarios such as home, medical and industrial settings, providing new possibilities for future human-machine collaboration. This article will explain in detail the improvements in Optimus’ new hand design and their impact on future applications.
Tesla recently made a major upgrade to its humanoid robot "Optimus" with a new hand design. The new hand has 22 degrees of freedom and adds three degrees of freedom to the forearm, making the robot's hand more flexible and capable of more complex operations.
The newly designed hand features a soft protective layer covering the fingers and palm. This material can not only effectively protect the structure of the robot's hand, but also maintain good tactile sensing capabilities. This means that "Optimus" can better handle a variety of delicate and fragile items, laying a solid foundation for future applications in household, medical and industrial fields.
In this new hand design, all actuators are concentrated in the forearm. The advantage of this design is that it makes the hand lighter and more flexible in operation. Tesla says they aim to complete the integration of tactile sensors and enable fine tendon-based control by the end of the year. In addition, the team also plans to reduce the weight of the forearm to further improve the robot's performance and adaptability.
Tesla emphasized in a statement that all future new "Optimus" robots will be equipped with this optimized hand design. This innovation not only reflects Tesla’s continued exploration and development in the field of robotics, but also provides more possibilities for the application of humanoid robots in multiple industries.
With the continuous advancement of robotics technology, "Optimus" will be able to play a role in more scenarios, whether in household cleaning, medical assistance, or industrial production line tasks, this new hand design will become Important support.
Highlight:
The "Optimus" new hand has 22 degrees of freedom, making the operation more flexible and precise.
The added protective layer on the hand enhances tactile sensing and enables safe handling of delicate items.
All actuators are integrated into the forearm, and it is planned to complete sensor integration and reduce weight by the end of the year.
The upgrade of Optimus's new hand design marks an important leap in humanoid robot technology, paving the way for its application in a wider range of fields. We look forward to more surprises from Optimus in the future.