With the physique of an ordinary person, running at a world champion’s speed!Leg length: 0.4+0.4=0.8m, body weight: approx. 62kg!H1: “Give me one more chance...
And that means we have robots that can exercise unprecedented body control in dynamic situations. If you don’t understand the general applications of this, really don’t know what else to say to you.
The problem is that these are under ideal conditions. And I don’t see an application for a running robot that can operate on under ideal conditions. Show me this thing doing the same thing under adverse conditions, and actually having an application (delivery?) and I’ll ne impressed.
I acknowledge that this is a technical feat, and not an easy one. But show me why it matters. Why this is better than a wheeled robot moving at the same speeds.
Running merely illustrates that the system can react with very little latency, it’s obvious that this will be applicable in any applications where the robot needs to quickly adapt to the environment, such as say factory work.
And that means we have robots that can exercise unprecedented body control in dynamic situations. If you don’t understand the general applications of this, really don’t know what else to say to you.
The problem is that these are under ideal conditions. And I don’t see an application for a running robot that can operate on under ideal conditions. Show me this thing doing the same thing under adverse conditions, and actually having an application (delivery?) and I’ll ne impressed.
I acknowledge that this is a technical feat, and not an easy one. But show me why it matters. Why this is better than a wheeled robot moving at the same speeds.
Running merely illustrates that the system can react with very little latency, it’s obvious that this will be applicable in any applications where the robot needs to quickly adapt to the environment, such as say factory work.
I disagree, but I’m just a mechanical engineer.
And what specifically is it that you disagree with, but I’m just a software engineer.