曾经在和一位自称是牛津大学读书的学生辩论时，他说非植入式的脑控技术和理论相悖如何如何，我说那么有没有科学家在进行非植入式的脑控技术的试验呢，他说有。我就说，如果真的和理论相悖，那么可以去劝说这些科学家不用做无用功了，因为你都下了肯定的结论-非植入式脑控技术和理论相悖，那还费啥劲呢。结果他说，也许有其他方法可以绕开障碍。

我就笑了，实际上，虽然有不少受害者认为是植入式装备，但我认为从现在受害者分布的区域之广度和数量之多来说，我个人认为不可能是非植入式的装置。我认为，实际上，非植入式的脑控技术已经存在了，只是不为科学界所知道，所以现在的科学家研究的是已经有人研究出来的技术。

下面的文章是2002年已有的技术，本文仅供参考不做结论。还是那句话，我认为这只是已经落后的技术，但也能说明了，不用植入装置，一样可以远距离探测脑电波。但是还是想嘲笑一下百度脑电波吧那个精神病锅盖教主，这是人家2002年已有的已知的技术，您怎么08年最新的技术还没这个已知的02年的技术先进呢，到现在为止您还天天叫嚣着您那3cm来糊弄谁呀？？

注：本文引用自sussex大学，2002年10月24日的文章

New non-invasive sensor can detect brainwaves remotely
非植入感应器可以远距离探测脑电波

24 October 2002
2002年10月24日

Scientists have developed a remarkable sensor that can record brainwaves without the need for electrodes to be inserted into the brain or even for them to be placed on the scalp.
科学家们已经开发了特殊的感应器, 可以不需要通过电极植入大脑或者电极紧贴头皮来记录脑电波.

Conventional electroencephalograms (EEGs) monitor electrical activity in the brain with electrodes placed either on the scalp (involving hair removal and skin abrasion) or inserted directly into the brain with needles. Now a non-invasive form of EEG has been devised by Professor Terry Clark and his colleagues in the Centre for Physical Electronics at the University of Sussex.
通常的脑波仪(EEGs)监视脑电波活动,是通过电极紧贴头皮(会剃光头发或者磨损皮肤)或者直接用针植入头部. 现在一种非植入脑波仪(EEGs)已经被英国SUSSEX大学的物理电子中心的TERRY CLARK教授研制出来了.

Instead of measuring charge flow through an electrode (with attendant distortions, in the case of scalp electrodes) the new system measures electric fields remotely, an advance made possible by new developments in sensor technology. Professor Clark says: "It's a new age as far as sensing the electrical dynamics of the body is concerned."
新系统远距离检测脑电波, 在感应器技术领域带来进一步的新的发展, 取代了通过电极检测脑电波(在电极紧贴头皮的情况下, 会发生扭曲). CLARK教授说:"这是关注检测身体电波的新时代."

The Sussex researchers believe their new sensor will instigate major advances in the collection and display of electrical information from the brain, especially in the study of drowsiness and the human-machine interface.
SUSSEX大学的研究者相信,他们的感应器将在接收和显示大脑的电波信息方面,倡导一个主要的发展方向. 尤其是在发展人-机界面方面.

"The possibilities for the future are boundless," says Professor Clark. "The advantages offered by these sensors compared with the currently used contact electrodes may act to stimulate new developments in multichannel EEG monitoring and in real-time electrical imaging of the brain."
"未来的可行性是巨大的," CLARK教授说. "这种感应器的优点, 与目前正在使用的电极接触相比, 可以促进多种脑波仪(EEGs)检测的新发展,以及即时大脑显像.

"By picking up brain signals non-invasively, we could find ourselves controlling machinery with our thoughts alone: a marriage of mind and machine."
通过非植入方式检测脑信号,我们可以发展我们仅仅使用思想控制机器: 一次大脑和机器的密切结合.

The same group of scientists has already made remote-sensing ECG units as well, which can detect heartbeats with no connections at all.
这个科学家小组已经制作了远距离检测脑波仪, 也可以不需要任何的连线检测心跳.

Notes for editors

The research is published in Applied Physics Letters of 21 October: C. J. Harland, T. D. Clark and R. J. Prance, 'Remote detection of human electroencephalograms using ultrahigh input impedance electric potential sensors'. See http://ojps.aip.org/dbt/dbt.jsp?KEY=APPLAB&Volume=81&Issue=17 .

For an image of Dr Harland's brain taken using the new sensor, see http://www.aip.org/mgr/png/2002/166.htm .

For information about the Centre for Physical Electronics at the University of Sussex, see http://www.sussex.ac.uk/Units/pei .

To contact Professor Terry Clark, tel. 01273 678087, email t.d.clark@sussex.ac.uk

Press Office contacts:
Alison Field or Peter Simmons
tel. 01273 678888
fax 01273 877456
email A.Field@sussex.ac.uk  or P.J.Simmons@sussex.ac.uk

引用网址：http://www.sussex.ac.uk/press_office/media/media260.shtml

相关链接：

植入芯片，也许需要，也许不需要

精神控制信息中心资源-Mind Control Information Center

关于对百度脑电波吧以锅盖为首的“人”对zf的栽赃，和对受害者的恶意诽谤的举报

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