The worlds first crowdsourced space traffic monitoring system Moriba Jah

I am an astrodynamicist –

you know, like that guy Rich Purnell
in the movie “The Martian.”

And it’s my job to study and predict
motion of objects in space.

Currently we track about one percent
of hazardous objects on orbit –

hazardous to services like location,

agriculture, banking,

television and communications,

and soon – very soon –

even the internet itself.

Now these services are not protected
from, roughly, half a million objects

the size of a speck of paint

all the way to a school bus in size.

A speck of paint,

traveling at the right speed,

impacting one of these objects,

could render it absolutely useless.

But we can’t track things
as small as a speck of paint.

We can only track things
as small as say, a smartphone.

So of this half million objects
that we should be concerned about,

we can only track
about 26,000 of these objects.

And of these 26,000,
only 2,000 actually work.

Everything else

is garbage.

That’s a lot of garbage.

To make things a little bit worse,

most of what we launch into orbit
never comes back.

We send the satellite in orbit,

it stops working, it runs out of fuel,

and we send something else up …

and then we send up something else …

and then something else.

And every once in a while,

two of these things
will collide with each other

or one of these things will explode,

or even worse,

somebody might just happen to destroy
one of their satellites on orbit,

and this generates many, many more pieces,

most of which also never come back.

Now these things are not
just randomly scattered in orbit.

It turns out that given
the curvature of space-time,

there are ideal locations

where we put some of these satellites –

think of these as space highways.

Very much like highways on earth,

these space highways can only take up
a maximum capacity of traffic

to sustain space-safe operations.

Unlike highways on earth,

there are actually no space traffic rules.

None whatsoever, OK?

Wow.

What could possibly go wrong with that?

(Laughter)

Now, what would be really nice

is if we had something
like a space traffic map,

like a Waze for space that I could look up

and see what the current
traffic conditions are in space,

maybe even predict these.

The problem with that, however,

is that ask five different people,

“What’s going on in orbit?

Where are things going?”

and you’re probably going to get
10 different answers.

Why is that?

It’s because information about things
on orbit is not commonly shared either.

So what if we had a globally accessible,

open and transparent
space traffic information system

that can inform the public
of where everything is located

to try to keep space safe and sustainable?

And what if the system could be used

to form evidence-based
norms of behavior –

these space traffic rules?

So I developed ASTRIAGraph,

the world’s first crowdsourced,
space traffic monitoring system

at the University of Texas at Austin.

ASTRIAGraph combines multiple sources
of information from around the globe –

government, industry and academia –

and represents this in a common framework
that anybody can access today.

Here, you can see 26,000 objects
orbiting the earth,

multiple opinions,

and it gets updated in near real time.

But back to my problem
of space traffic map:

What if you only had information
from the US government?

Well, in that case, that’s what
your space traffic map would look like.

But what do the Russians think?

That looks significantly different.

Who’s right? Who’s wrong?

What should I believe?

What could I trust?

This is part of the issue.

In the absence of this framework
to monitor space-actor behavior,

to monitor activity in space –

where these objects are located –

to reconcile these inconsistencies

and make this knowledge commonplace,

we actually risk losing the ability

to use space for humanity’s benefit.

Thank you very much.

(Applause and cheers)

我是一名天体动力学家——

你知道,就像电影《火星救援》中的那个人 Rich Purnell

我的工作是研究和预测
空间物体的运动。

目前,我们跟踪轨道上大约 1%
的危险物体——

对定位、

农业、银行、

电视和通信等服务有危险

,很快——很快——

甚至是互联网本身。

现在,这些服务并没有受到
保护,大约有 50 万

个从

油漆点到校车大小的物体。

一粒油漆,

以适当的速度行进,

撞击其中一个物体,

可能会使它完全无用。

但是我们无法追踪
像一粒油漆那么小的东西。

我们只能跟踪
像智能手机这样小的东西。

因此,在我们应该关注的这 50 万个物体
中,

我们只能追踪
大约 26,000 个这样的物体。

在这 26,000 人中,
只有 2,000 人实际工作。

其他的

都是垃圾。

那是很多垃圾。

更糟糕

的是,我们发射到轨道上的大部分东西都
永远不会回来。

我们将卫星送入轨道

,它停止工作,燃料耗尽

,我们发送其他东西……

然后我们发送其他东西……

然后其他东西。

每隔一段时间

,这些东西中的两个
会相互碰撞,

或者其中一个会爆炸,

或者更糟糕的是,

有人可能恰好
摧毁了他们在轨道上的一颗卫星

,这会产生很多很多的碎片,

其中大部分也永远不会回来。

现在这些东西不
只是随机散布在轨道上。

事实证明,考虑
到时空的曲率

,我们可以将其中一些卫星放置在理想的位置——

将这些视为太空高速公路。

与地球上的高速公路非常相似,

这些太空高速公路只能
占用最大的交通容量

以维持太空安全运营。

与地球上的高速公路不同,

实际上没有太空交通规则。

什么都没有,好吗?

哇。

这可能会出什么问题?

(笑声)

现在,

如果我们有
类似空间交通地图之

类的东西,那就太好了,比如空间位智,我可以查看太空

中当前的
交通状况,

甚至可以预测这些。

然而,问题

在于问五个不同的人,

“轨道上

发生了什么?事情在哪里?”

你可能会得到
10 个不同的答案。

这是为什么?

这是因为关于轨道上事物的信息
也没有被普遍共享。

那么,如果我们有一个全球可访问、

开放和透明的
空间交通信息系统

,可以告知公众
所有东西的位置

,以确保空间安全和可持续发展呢?

如果该系统可以

用来形成基于证据
的行为规范——

这些太空交通规则,又会怎样?

因此,我在德克萨斯大学奥斯汀分校开发了 ASTRIAGraph,

这是世界上第一个众包
空间交通监控系统

ASTRIAGraph 结合了
来自全球的多种信息来源——

政府、行业和学术界——

并在一个任何人都可以访问的通用框架中表示了这一点

在这里,您可以看到 26,000 个
围绕地球运行的物体、

多种观点,

并且近乎实时地更新。

但回到我
的空间交通图问题:

如果你只有
美国政府的信息怎么办?

那么,在这种情况下,这就是
你的空间交通图的样子。

但是俄罗斯人是怎么想的?

这看起来明显不同。

谁是对的? 谁错了?

我应该相信什么?

我能相信什么?

这是问题的一部分。

如果没有这个框架
来监控太空演员的行为,监控太空中的

活动——

这些物体所在的位置——

来调和这些不一致

并使这些知识变得司空见惯,

我们实际上冒着失去

利用太空造福人类的能力的风险。

非常感谢你。

(掌声和欢呼)