晶片研究給手機X射線的力量
2012-04-20
德薩斯大學研究人員設計晶片容許流動裝備看穿牆壁
University of Texas researchers design chip allowing mobile devices to see through walls
Madison Ruppert, Contributor
Activist Post
Friday, April 20, 2012
Translation by Autumnson Blog
猶如聽來般令人難以置信,在達拉斯的德薩斯大學研究人員已創建一種成像晶片給流動裝備,那會將一部普通的手機變成可以看穿牆壁、木材、塑料、紙張、皮膚和其它物體的東西。
Using the terahertz (THz) band of the electromagnetic spectrum, the wavelengths of which fall between the microwave and infrared bands, the chip could signify a revolution in the surveillance capabilities of mobile phones along with new chips like Broadcom’s BCM4752 which is capable of providing ultra-precise location data.
採用電磁頻譜的太赫茲(THz)波段,它的波長落在微波和紅外波段之間,晶片可意味一場在移動電話監視能力的革命,隨著新晶片像Broadcom的BCM4752,能夠提供超精確的位置數據。
Combine this with citizen spying applications and the techniques which gently push people to conduct surveillance without them knowing what they’re actually doing, patents from Google which would allow them to collect the data from such chips and the National Security Agency’s (NSA’s) new data center and you have the penultimate surveillance state.
結合這與公民間諜活動的應用程序和的技術,它輕輕推動人們進行監控而不讓他們知道他們實際上正在做什麼,來自谷歌的專利將允許他們從這等晶片及國家安全局(NSA)的新數據監控本中心收集數據,和你有倒數第二的監控國家。
The research team connected two separate advances in science: the mostly untapped terahertz frequency range of the electromagnetic spectrum, and cutting edge microchip technology.
研究小組連接兩種獨立先進的科學:大多數尚未開發的電磁波譜的太赫茲頻率範圍,以及尖端的晶片技術。
For those who are unfamiliar or need a refresher, the electromagnetic spectrum makes up all wavelengths of electromagnetic energy from visible light to radio waves to microwaves to infrared to ultraviolet and everything in between.
對於那些不太熟悉或需要更新的人,電磁頻譜決定所有電磁能量的波長,從可見光至無線電波至微波至紅外線至紫外線及一切在之間的東西。
Most consumer devices have yet to leverage the terahertz band, which means that this could be truly revolutionary technology, although some like myself might think that this revolution is not necessarily all that wonderful.
“We’ve created approaches that open a previously untapped portion of the electromagnetic spectrum for consumer use and life-saving medical applications,” said Dr. Kenneth O, an electrical engineering professor at the University of Texas at Dallas as well as the director of the Texas Analog Center of Excellence.
“The terahertz range is full of unlimited potential that could benefit us all,” he added, although I’m not quite sure how allowing cell phones to see through walls and thus erase what tiny shred of privacy we have left would benefit us all.
This technology would likely not even be as expensive as one might expect. This is because the new approach would allow images to be created with THz-range signals without the need for several lenses or other expensive equipment within the device.
This would not only reduce cost, but also size, making the technology something which we could realistically see in mobile phones in the future.
The University of Texas at Dallas press release notes that the techniques involved in the manufacturing of the microchip involved would also allow it to be applied to consumer devices.
Chips utilizing the Complimentary Metal-Oxide Semiconductor (CMOS) technology, which forms the basis of a great deal of consumer electronics like personal computers, mobile devices, high definition televisions, game consoles, etc. would make this technology even more affordable.
“CMOS is affordable and can be used to make lots of chips,” Dr. O said. “The combination of CMOS and terahertz means you could put this chip and receiver on the back of a cell phone, turning it into a device carried in your pocket that can see through objects.”
Thankfully, Dr. O seems to be, at least to a certain extent, concerned with privacy. This is evidenced by his team focusing on uses in distances of four inches or less, although this does not mean, by any means, that this technology could not be used at a greater distance when it is undoubtedly used by the government and military.
Some of the more innocuous potential applications could range from turning an ordinary phone into a stud finder or document authentication platform or even a counterfeit currency detector.
Manufacturing companies could potentially use it in process control and with more communication channels available in the THz range compared to the range currently used for wireless communications, data could be more rapidly transferred than the currently utilized frequency ranges allow.
There are even potential applications in healthcare fields, according to researchers.
It is possible that this type of imaging technology could be used to detect cancerous tumors, breath analysis for disease diagnosis and even air toxicity monitoring applications.
“There are all kinds of things you could be able to do that we just haven’t yet thought about,” said Dr. O, who also currently holds the Texas Instruments Distinguished Chair.
The research team’s next move will be to create an entire functioning imaging system which is based on the THz frequency range leveraging CMOS chip technology.
This research is being supported by the Center for Circuit and Systems Solutions (C2S2 Center) and carried out at the Texas Analog Center of Excellence (TxACE).
TxACE is funded by the Semiconducter Research Corporation (SRC), Texas Instruments Inc., and the state of Texas through the Texas Emerging Technology Fund, the University of Texas system and the University of Texas at Dallas.
This research was presented at the most recent meeting of the International Solid-State Circuits Conference (ISSCC), according to Homeland Security News Wire.
While there are indeed some very promising, positive applications for this type of technology, there are also some grave concerns in terms of privacy, which is a commodity we are quickly losing in today’s Big Brother society.
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http://www.activistpost.com/2012/04/university-of-texas-researchers-design.html
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