TED2016
Raffaello D'Andrea: Meet the dazzling flying machines of the future
拉斐尔·德安德里亚: 未来飞行器的耀眼之光
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当你听到“无人机”这个词,你可能想到的是一个很有用或者很可怕的东西。但是它们可以有美学上的价值吗?自动化系统专家拉斐尔·德安德里亚开发了许多飞行器,他最新的项目是延伸自动化飞行器的边界——从一个可以盘旋也可以从干扰中恢复的飞行翼,到一个八个螺旋桨的全向飞行器,再到一群协作的微型四轴飞行器。当它们像萤火虫一样在TED舞台上飞舞,准备好为这个梦幻的、盘旋的飞行器列阵目眩神迷吧。
Raffaello D'Andrea - Autonomous systems pioneer
Raffaello D'Andrea explores the possibilities of autonomous technology by collaborating with artists, engineers and entrepreneurs. Full bio
Raffaello D'Andrea explores the possibilities of autonomous technology by collaborating with artists, engineers and entrepreneurs. Full bio
Double-click the English transcript below to play the video.
00:12
What started as a platform for hobbyists
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我们从一个爱好者的平台开始,
逐渐发展成数十亿美元的产业。
00:14
is poised to become
a multibillion-dollar industry.
a multibillion-dollar industry.
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侦查、环境监控、摄影、电影,
还有新闻业:
还有新闻业:
00:17
Inspection, environmental monitoring,
photography and film and journalism:
photography and film and journalism:
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这些是无人机商业化的一些潜在应用,
00:21
these are some of the potential
applications for commercial drones,
applications for commercial drones,
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它们的推动力来自
世界各地的研究机构
世界各地的研究机构
00:25
and their enablers
are the capabilities being developed
are the capabilities being developed
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正在开发的各种功能。
00:27
at research facilities around the world.
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举个例子,
在航空包裹递送
在航空包裹递送
00:29
For example, before aerial
package delivery
package delivery
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进入我们的社会认知之前,
00:32
entered our social consciousness,
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一个自动化的飞行器小队
就曾在法国的FRAC中心,
就曾在法国的FRAC中心,
00:34
an autonomous fleet of flying machines
built a six-meter-tall tower
built a six-meter-tall tower
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在现场观众面前,
00:38
composed of 1,500 bricks
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用1500块砖块建了6米高的塔,
00:40
in front of a live audience
at the FRAC Centre in France,
at the FRAC Centre in France,
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几年前它们开始带着绳索飞行。
00:43
and several years ago,
they started to fly with ropes.
they started to fly with ropes.
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用绳子系住这些飞行器,
00:45
By tethering flying machines,
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可以让它们在极窄的空间里
实现极快的速度和加速。
实现极快的速度和加速。
00:47
they can achieve high speeds
and accelerations in very tight spaces.
and accelerations in very tight spaces.
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它们还可以自动地建构
可伸长的结构。
可伸长的结构。
00:51
They can also autonomously build
tensile structures.
tensile structures.
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它们学会到如何装载,
00:54
Skills learned include how to carry loads,
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如何应对障碍物,
00:56
how to cope with disturbances,
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以及概括地说,如何与
这个物理世界相互作用等等的技巧。
这个物理世界相互作用等等的技巧。
00:58
and in general, how to interact
with the physical world.
with the physical world.
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今天我想展示几个
我们正在进行的新项目。
我们正在进行的新项目。
01:01
Today we want to show you some
new projects that we've been working on.
new projects that we've been working on.
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它们的目标是尽所能地扩展
01:04
Their aim is to push the boundary
of what can be achieved
of what can be achieved
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自动化飞行领域的应用范围。
01:07
with autonomous flight.
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现在,
对于一个拥有自动化功能的系统,
对于一个拥有自动化功能的系统,
01:09
Now, for a system to function
autonomously,
autonomously,
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它必须全面地了解
它的移动物体在空间中的位置。
它的移动物体在空间中的位置。
01:11
it must collectively know the location
of its mobile objects in space.
of its mobile objects in space.
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回到我们在苏黎世联邦理工学院
(ETH Zurich)的实验室,
(ETH Zurich)的实验室,
01:16
Back at our lab at ETH Zurich,
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01:17
we often use external cameras
to locate objects,
to locate objects,
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我们经常用外部的摄像头去定位目标,
它可以让我们将精力专注于
01:20
which then allows us to focus our efforts
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高动态任务的快速开发上。
01:22
on the rapid development
of highly dynamic tasks.
of highly dynamic tasks.
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但对于你们今天要看到的演示来说,
01:25
For the demos you will see today, however,
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我们打算采用由“真实工作室”开发的
新的定位技术,
新的定位技术,
01:27
we will use new localization technology
developed by Verity Studios,
developed by Verity Studios,
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它是我们实验室的一个分支机构。
01:30
a spin-off from our lab.
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它们外面没有摄像头,
01:32
There are no external cameras.
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每个飞行器用机载传感器来确定
它在空间当中的位置,
它在空间当中的位置,
01:34
Each flying machine uses onboard sensors
to determine its location in space
to determine its location in space
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并通过机载计算来决定它
需要进行的行动。
需要进行的行动。
01:39
and onboard computation
to determine what its actions should be.
to determine what its actions should be.
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01:43
The only external commands
are high-level ones
are high-level ones
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唯一的外部命令都是高级命令,
比如“起飞”或者“着陆”。
01:45
such as "take off" and "land."
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02:10
This is a so-called tail-sitter.
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这就是所谓的立式垂直起落机。
它就好像是一个
什么都想实现的飞机器。
什么都想实现的飞机器。
02:12
It's an aircraft that tries
to have its cake and eat it.
to have its cake and eat it.
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和其他固定机翼的飞行器一样,
它向前飞行的效率更高,
它向前飞行的效率更高,
02:15
Like other fixed-wing aircraft,
it is efficient in forward flight,
it is efficient in forward flight,
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要比直升飞机和其变种强得多,
02:19
much more so than helicopters
and variations thereof.
and variations thereof.
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但又不像其他固定机翼的飞行器,
02:22
Unlike most other
fixed-wing aircraft, however,
fixed-wing aircraft, however,
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它能够悬停,
02:24
it is capable of hovering,
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这让它在起飞、着陆和常见的动作上
02:26
which has huge advantages
for takeoff, landing
for takeoff, landing
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拥有巨大的优势。
02:29
and general versatility.
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02:31
There is no free lunch, unfortunately.
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可惜世界上没有免费的午餐。
一个限制因素就是
02:33
One of the limitations with tail-sitters
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它们容易受到干扰,比如风吹。
02:35
is that they're susceptible
to disturbances such as wind gusts.
to disturbances such as wind gusts.
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我们正在开发新的控制架构和算法
02:38
We're developing new control
architectures and algorithms
architectures and algorithms
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来打破这个限制。
02:41
that address this limitation.
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02:50
The idea is for the aircraft to recover
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我们的想法是让飞行器无论如何
都能恢复初始状态,
02:52
no matter what state it finds itself in,
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03:03
and through practice,
improve its performance over time.
improve its performance over time.
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并且通过练习,还能逐渐提升性能。
03:15
(Applause)
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(鼓掌)
03:22
OK.
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好的。
03:33
When doing research,
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在做研究的时候,
我们会问自己一些基本的抽象问题,
03:34
we often ask ourselves
fundamental abstract questions
fundamental abstract questions
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试图了解问题的关键。
03:37
that try to get at the heart of a matter.
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03:41
For example, one such question would be,
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举个例子,一个问题可能是,
受控飞行
所需的最小组件数量是多少?
所需的最小组件数量是多少?
03:43
what is the minimum number of moving parts
needed for controlled flight?
needed for controlled flight?
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现在也有一些现实的原因
03:47
Now, there are practical reasons
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让你想知道这类问题的答案。
03:49
why you may want to know
the answer to such a question.
the answer to such a question.
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举个例子,直升机,
03:51
Helicopters, for example,
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人们根深蒂固地认为
它有数千个零部件组成,
它有数千个零部件组成,
03:53
are affectionately known
as machines with a thousand moving parts
as machines with a thousand moving parts
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这些部件都“处心积虑地”
想要对你的身体造成伤害。
想要对你的身体造成伤害。
03:56
all conspiring to do you bodily harm.
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04:00
It turns out that decades ago,
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事实证明数十年以前,
有经验的飞行员就已经可以
操控遥控飞机了,
操控遥控飞机了,
04:02
skilled pilots were able to fly
remote-controlled aircraft
remote-controlled aircraft
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这些飞机只有两个活动部件:
04:05
that had only two moving parts:
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螺旋桨和尾翼。
04:07
a propeller and a tail rudder.
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04:10
We recently discovered
that it could be done with just one.
that it could be done with just one.
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我们最近发现活动部件
只要一个就够了。
只要一个就够了。
04:13
This is the monospinner,
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这就是单螺旋机,
世界上机械结构最简单的
可控飞行器,
可控飞行器,
04:14
the world's mechanically simplest
controllable flying machine,
controllable flying machine,
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几个月前才被发明出来。
04:18
invented just a few months ago.
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它只有一个活动部件,即螺旋桨。
04:19
It has only one moving part, a propeller.
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它没有襟翼、铰链和副翼,
04:23
It has no flaps, no hinges, no ailerons,
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没有其他的制动器和控制面板,
04:26
no other actuators,
no other control surfaces,
no other control surfaces,
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只有一个简单的螺旋桨。
04:29
just a simple propeller.
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04:31
Even though it's mechanically simple,
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即使机械结构很简单,
它里面的微电脑却在不断
04:33
there's a lot going on
in its little electronic brain
in its little electronic brain
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让它能稳定飞行,
并到达任何想去的地方。
并到达任何想去的地方。
04:35
to allow it to fly in a stable fashion
and to move anywhere it wants in space.
and to move anywhere it wants in space.
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即便如此 ,它还没有
04:40
Even so, it doesn't yet have
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立式起落机的复杂算法,
04:41
the sophisticated algorithms
of the tail-sitter,
of the tail-sitter,
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也就是说要让它飞的话,
04:44
which means that in order
to get it to fly,
to get it to fly,
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我要用正确的方式把它扔出去。
04:46
I have to throw it just right.
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04:48
And because the probability
of me throwing it just right is very low,
of me throwing it just right is very low,
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考虑到我正确扔出的概率非常低,
毕竟大家都在看我,
04:52
given everybody watching me,
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所以我们就展示一下
04:54
what we're going to do instead
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我们昨天晚上拍摄的视频吧。
04:56
is show you a video
that we shot last night.
that we shot last night.
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(笑)
04:58
(Laughter)
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05:10
(Applause)
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(鼓掌)
05:23
If the monospinner
is an exercise in frugality,
is an exercise in frugality,
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如果说单螺旋机只是在做简单的运动,
那么这个机器,
带有八个螺旋桨的全向直升机,
带有八个螺旋桨的全向直升机,
05:26
this machine here, the omnicopter,
with its eight propellers,
with its eight propellers,
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肯定是在做超量的运动了。
05:30
is an exercise in excess.
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05:32
What can you do with all this surplus?
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你可以用这些额外的功能做什么呢?
要注意它是高度对称的。
05:35
The thing to notice
is that it is highly symmetric.
is that it is highly symmetric.
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05:37
As a result, it is ambivalent
to orientation.
to orientation.
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因此,它完全不具有方向性。
这给了它一个不同寻常的能力。
05:40
This gives it an extraordinary capability.
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它可以在空中随意移动
05:43
It can move anywhere it wants in space
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而不用考虑它面对的方向,
05:45
irrespective of where it is facing
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甚至不用考虑如何旋转。
05:48
and even of how it is rotating.
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05:51
It has its own complexities,
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它有它的复杂性,
主要问题都和它的8个螺旋桨
05:52
mainly having to do
with the interacting flows
with the interacting flows
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所产生的交互气流有关。
05:55
from its eight propellers.
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05:56
Some of this can be modeled,
while the rest can be learned on the fly.
while the rest can be learned on the fly.
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有些问题可以通过建模解决,
而剩下的可以在飞行中学习。
而剩下的可以在飞行中学习。
我们来看一下。
06:00
Let's take a look.
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06:44
(Applause)
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(鼓掌)
06:52
If flying machines are going
to enter part of our daily lives,
to enter part of our daily lives,
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如果飞行器要进入到我们的
日常生活当中,
日常生活当中,
它们就需要变得非常安全可靠。
06:55
they will need to become
extremely safe and reliable.
extremely safe and reliable.
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06:58
This machine over here
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我手中的这个机器实际上
是两个独立的双螺旋桨飞行器。
07:00
is actually two separate
two-propeller flying machines.
two-propeller flying machines.
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这一个想要顺时针旋转。
07:03
This one wants to spin clockwise.
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另一个想要逆时针旋转。
07:05
This other one wants
to spin counterclockwise.
to spin counterclockwise.
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当你把它们放在一起,
07:07
When you put them together,
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它们运行起来
就像一架高性能的四轴无人机。
就像一架高性能的四轴无人机。
07:08
they behave like one
high-performance quadrocopter.
high-performance quadrocopter.
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07:23
If anything goes wrong, however --
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可是如果发生了意外,
电机故障,螺旋桨故障,
电子组件,甚至电池组故障,
电子组件,甚至电池组故障,
07:25
a motor fails, a propeller fails,
electronics, even a battery pack --
electronics, even a battery pack --
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这个机器依然能飞,
尽管性能会有所下降。
尽管性能会有所下降。
07:29
the machine can still fly,
albeit in a degraded fashion.
albeit in a degraded fashion.
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现在我们将展示一下
其中一半被禁用的情况。
其中一半被禁用的情况。
07:33
We're going to demonstrate this to you now
by disabling one of its halves.
by disabling one of its halves.
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07:56
(Applause)
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(鼓掌)
08:03
This last demonstration
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最后这个演示
是关于协作机群的探索。
08:04
is an exploration of synthetic swarms.
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08:07
The large number of autonomous,
coordinated entities
coordinated entities
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大量自动化的协作实体机
为美学表达提供了一个全新的
器械平台。
器械平台。
08:10
offers a new palette
for aesthetic expression.
for aesthetic expression.
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我们已经将微四轴飞行器
运用到商业中,
运用到商业中,
08:13
We've taken commercially available
micro quadcopters,
micro quadcopters,
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顺便说下,每个都比
一片面包还要轻,
一片面包还要轻,
08:16
each weighing less
than a slice of bread, by the way,
than a slice of bread, by the way,
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并且装备上了我们的定位技术
08:18
and outfitted them
with our localization technology
with our localization technology
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和自定义算法。
08:21
and custom algorithms.
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因为每个单元都知道
自己在空间中所处的位置
自己在空间中所处的位置
08:22
Because each unit
knows where it is in space
knows where it is in space
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并能自我控制,
08:25
and is self-controlled,
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所以无论多少个(同时运作)都可以。
08:26
there is really no limit to their number.
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08:55
(Applause)
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(鼓掌)
09:19
(Applause)
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(鼓掌)
10:18
(Applause)
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(鼓掌)
10:35
Hopefully, these demonstrations
will motivate you to dream up
will motivate you to dream up
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希望这些展示能够启发你们想象出
飞行器更多革命性的功能。
10:39
new revolutionary roles
for flying machines.
for flying machines.
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10:42
That ultrasafe one over there for example
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我们以那个极其安全的飞行器为例,
它渴望成为百老汇的一个飞行灯罩。
10:44
has aspirations to become
a flying lampshade on Broadway.
a flying lampshade on Broadway.
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(笑)
10:47
(Laughter)
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实际上我们很难预测
10:49
The reality is that it is
difficult to predict
difficult to predict
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这些新兴技术带给我们的影响。
10:52
the impact of nascent technology.
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10:54
And for folks like us, the real reward
is the journey and the act of creation.
is the journey and the act of creation.
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对于我们这样的人来说,
真正的回报在于创造性的旅程和行动。
真正的回报在于创造性的旅程和行动。
它不断提醒我们,
10:59
It's a continual reminder
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我们生活的这个宇宙是多么精彩和神奇,
11:00
of how wonderful and magical
the universe we live in is,
the universe we live in is,
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11:03
that it allows creative, clever creatures
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允许这些富有创造力的、聪明的生物
用这样壮观的方式塑造它。
11:06
to sculpt it in such spectacular ways.
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11:09
The fact that this technology
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事实上,这个技术
巨大的商业和经济潜能不过是一种
11:11
has such huge commercial
and economic potential
and economic potential
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锦上添花而已。
11:15
is just icing on the cake.
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谢谢。
11:16
Thank you.
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(鼓掌)
11:17
(Applause)
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ABOUT THE SPEAKER
Raffaello D'Andrea - Autonomous systems pioneerRaffaello D'Andrea explores the possibilities of autonomous technology by collaborating with artists, engineers and entrepreneurs.
Why you should listen
Raffaello D'Andrea combines academics, business, and the arts to explore the capabilities of autonomous systems. As part of his research as professor of dynamic systems and control at the Swiss Federal Institute of Technology (ETH Zürich), he and his collaborators enchant viewers with works like the self-destructing, self-assembling Robotic Chair, or the Balancing Cube that can perch itself on its corners.
D’Andrea and his team created the Flying Machine Arena to test the gravity-defying abilities of their athletic flying robots. Building on research in the Flying Machine Arena, ETH Zürich partnered with its spin-off company Verity Studios and with Cirque du Soleil to create “Sparked,” a short film showcasing the unexpected airborne dexterity of quadcopters. D’Andrea is the co-founder of Kiva Systems, a robotics company that develops intelligent automated warehouse systems and that was acquired by Amazon in 2012.
Raffaello D'Andrea | Speaker | TED.com