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Spot's Autonomous Adventure

2022-08-24
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The last time I asked my dog to head across town to get me a coffee she stared blankly at me, eventually deciding that whatever I said was of no interest to her. As expected, it was up to me to put my shoes on and go get the coffee myself.

Sorry, you wanted me to get what now?

Dave Niewinski, one of our favorite robotics engineers, once again set out to engineer a solution to this problem. His development platform was the Boston Dynamics Spot quadruped robot. Spot is a highly capable mobile robot, with the ability to traverse challenging terrain while carrying small payloads. With a few essential components mounted to its back, including the 3DMGQ7-GNSS/INS and NVIDIA’s Jetson Orin, Spot was ready to head across town to pick up a snack and coffee.

Spot is designed for hands-off applications like exploration and inspection, so why does it need a precise navigation solution like the 3DMGQ7-GNSS/INS? Consider this: typical GPS systems, without the benefit of RTK corrections, will get you a position accuracy of around +/- 1 meter. This might sound good enough, but when you’re trying to precisely navigate across town without walking into traffic, all of a sudden +/- 1 meter becomes far too large of an uncertainty zone to make sure you’ll get where you need to go safely. With the 3DMGQ7 and 3DMRTK navigation system, it’s possible to achieve position accuracies as low as +/- 1 centimeter!

3DMGQ7-GNSS/INS installed on Spot

Picture yourself dropping a small earring in your living room and trying to find it. Pretty tough. Now drop it in a space the size of a quarter. Much easier. Now translate this to an application like autonomous mobile robot navigation. 1 centimeter accuracy can mean the difference between getting where you need to go or falling off a sidewalk into traffic.

But what happens if Spot, or your own mobile robot, walks into a tunnel or inside a building? As Dave points out in his latest video, the precision IMU inside the 3DMGQ7 ensures uninterrupted navigation capabilities even during GPS outages.

As mobile robotics get more advanced and autonomous navigation applications become more common, the need for precision navigation solutions grows. Whether it’s guiding your robot dog across town for a coffee and fritter, or delivering packages without ever needing human input, the 3DMGQ7-GNSS/INS is the right tool for challenges that require the highest level of performance. Learn more about the 3DMGQ7 and all of our MicroStrain inertial sensors by reaching out to our talented sales and support teams. You can also view and purchase select MicroStrain sensors on Mouser.


参考译文
现货的自治冒险
上次我让我的狗穿过城镇去给我拿咖啡,它茫然地盯着我,最后决定不管我说什么它都不感兴趣。不出所料,该我自己穿鞋去喝咖啡了。Dave Niewinski,我们最喜欢的机器人工程师之一,再次着手设计解决这个问题的方案。他的开发平台是Boston Dynamics Spot四足机器人。Spot是一个能力很强的移动机器人,能够在携带小型有效载荷的同时穿越具有挑战性的地形。Spot背上安装了一些基本组件,包括3DMGQ7-GNSS/INS和英伟达的杰森·奥林(Jetson Orin),准备穿过城镇去买零食和咖啡。Spot是为探索和检查等不干涉的应用而设计的,那么为什么它需要像3DMGQ7-GNSS/INS这样的精确导航解决方案呢?考虑到这一点:典型的GPS系统,在没有RTK修正的情况下,可以获得+/1米左右的位置精度。这听起来可能够好了,但当你试图精确地导航穿过城镇而不走进车流时,突然之间+/1米变成了一个太大的不确定区域,无法确保你能安全到达需要去的地方。通过3DMGQ7和3DMRTK导航系统,可以实现低至+/1厘米的位置精度!想象一下,你把一个小耳环掉在客厅里,想找它。很艰难的。现在把它放在硬币大小的地方。容易得多。现在把这个转化成一个应用程序,比如自主移动机器人导航。1厘米的精度意味着你可以到达你需要去的地方或从人行道上掉到车流中。但是,如果你自己的移动机器人Spot走进隧道或建筑物内部,会发生什么呢?正如Dave在他的最新视频中指出的那样,3DMGQ7内部的精密IMU确保了即使在GPS中断期间也能不间断地导航。随着移动机器人越来越先进,自主导航应用越来越普遍,对精确导航解决方案的需求也越来越大。无论是引导你的机器狗穿过城镇去喝咖啡和油炸食品,还是不需要人类输入就能递送包裹,3DMGQ7-GNSS/INS都是应对需要最高水平性能的挑战的合适工具。通过我们才华横溢的销售和支持团队了解更多关于3DMGQ7和我们所有的微应变惯性传感器。您也可以在Mouser上查看和购买MicroStrain传感器。
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