【TED】是一個(gè)會(huì)議的名稱,它是英文technology,entertainment, design三個(gè)單詞的首字母縮寫。它是社會(huì)各界精英交流的盛會(huì),這里有當(dāng)代最杰出的思想家,這里有當(dāng)代最優(yōu)秀的科學(xué)家,這里有迸發(fā)著最閃耀的思想火花,這里孕育著最光輝的夢(mèng)想。



Skylar Tibbits
MIT researcher Skylar Tibbits works on self-assembly the idea that instead of building something . we can create materials that build themselves, much the way a strand of DNA zips itself together. It's a big concept at early stages; Tibbits shows us three in-the-lab projects that hint at what a self-assembling future might look like.

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Hints:
utilize
self-assembly
sequence
DNA
redundancy
reconfigure
So there's something super interesting about natural systems. And if we can translate that into our built environment, then there's some exciting potential for the way that we build things. And I think the key to that is self-assembly. So if we want to utilize self-assembly in our physical environment, I think there's four key factors. The first is that we need to decode all of the complexity of what we want to build .So our buildings and machines. And we need to decode that into simple sequences basically the DNA of how our buildings work. Then we need programmable parts that can take that sequence and use that to fold up, or reconfigure. We need some energy that's going to allow that to activate, allow our parts to be able to fold up from the program. And we need some type of error correction redundancy to guarantee that we have successfully built what we want.
關(guān)于自然系統(tǒng)有件超級(jí)有意思的事情。 如果我們能將其 轉(zhuǎn)換為我們的建筑環(huán)境, 那么我們構(gòu)建事物的方式就會(huì)有很大的潛力。 我認(rèn)為關(guān)鍵是自我組裝。 如果我們想要在自身的身體環(huán)境中利用自我組裝, 我認(rèn)為有四個(gè)關(guān)鍵因素。 第一個(gè)是,我們需要解碼 我們所要建造的東西的所有的復(fù)雜度 .也就是我們的建筑和機(jī)器。 我們需要把它們解碼成簡(jiǎn)單的序列 ,基本上就是我們的建筑運(yùn)作的DNA。 接著我們需要可編程的部分 這部分能接受這一序列 并用于折疊或是重塑。 我們需要一些能量來(lái)進(jìn)行激活, 使我們的這些部分能夠依照程序折疊起來(lái)。 我們需要一些類型的糾錯(cuò)冗余 以保證我們成功建造的就是我們想要的。