Directly wireless communication of human minds via non-invasive brain-computer-metasurface platform

Qian Ma; Wei Gao; Qiang Xiao; Lingsong Ding; Tianyi Gao; Yajun Zhou; Xinxin Gao; Tao Yan; Che Liu; Ze Gu; Xianghong Kong; Qammer H. Abbasi; Lianlin Li; Cheng Wei Qiu; Yuanqing Li; Tie Jun Cui

doi:10.1186/s43593-022-00019-x

Directly wireless communication of human minds via non-invasive brain-computer-metasurface platform

Qian Ma
, Wei Gao
, Qiang Xiao
, Lingsong Ding
, Tianyi Gao
, Yajun Zhou
, Xinxin Gao
, Tao Yan
, Che Liu
, Ze Gu
, Xianghong Kong
, Qammer H. Abbasi
, Lianlin Li
, Cheng Wei Qiu
, Yuanqing Li
, Tie Jun Cui

Southeast University, Nanjing
Guangdong Artificial Intelligence and Digital Economy Laboratory - Guangzhou
South China University of Technology
National University of Singapore
University of Glasgow
State Key Laboratory of Advanced Optical Communication Systems and Networks

Research output: Contribution to journal › Article › peer-review

134 Scopus citations

Abstract

Brain-computer interfaces (BCIs), invasive or non-invasive, have projected unparalleled vision and promise for assisting patients in need to better their interaction with the surroundings. Inspired by the BCI-based rehabilitation technologies for nerve-system impairments and amputation, we propose an electromagnetic brain-computer-metasurface (EBCM) paradigm, regulated by human’s cognition by brain signals directly and non-invasively. We experimentally show that our EBCM platform can translate human’s mind from evoked potentials of P300-based electroencephalography to digital coding information in the electromagnetic domain non-invasively, which can be further processed and transported by an information metasurface in automated and wireless fashions. Directly wireless communications of the human minds are performed between two EBCM operators with accurate text transmissions. Moreover, several other proof-of-concept mind-control schemes are presented using the same EBCM platform, exhibiting flexibly-customized capabilities of information processing and synthesis like visual-beam scanning, wave modulations, and pattern encoding.

Original language	English
Article number	11
Journal	eLight
Volume	2
Issue number	1
DOIs	https://doi.org/10.1186/s43593-022-00019-x
State	Published - Dec 2022
Externally published	Yes

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10.1186/s43593-022-00019-x

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title = "Directly wireless communication of human minds via non-invasive brain-computer-metasurface platform",

abstract = "Brain-computer interfaces (BCIs), invasive or non-invasive, have projected unparalleled vision and promise for assisting patients in need to better their interaction with the surroundings. Inspired by the BCI-based rehabilitation technologies for nerve-system impairments and amputation, we propose an electromagnetic brain-computer-metasurface (EBCM) paradigm, regulated by human{\textquoteright}s cognition by brain signals directly and non-invasively. We experimentally show that our EBCM platform can translate human{\textquoteright}s mind from evoked potentials of P300-based electroencephalography to digital coding information in the electromagnetic domain non-invasively, which can be further processed and transported by an information metasurface in automated and wireless fashions. Directly wireless communications of the human minds are performed between two EBCM operators with accurate text transmissions. Moreover, several other proof-of-concept mind-control schemes are presented using the same EBCM platform, exhibiting flexibly-customized capabilities of information processing and synthesis like visual-beam scanning, wave modulations, and pattern encoding.",

author = "Qian Ma and Wei Gao and Qiang Xiao and Lingsong Ding and Tianyi Gao and Yajun Zhou and Xinxin Gao and Tao Yan and Che Liu and Ze Gu and Xianghong Kong and Abbasi, \{Qammer H.\} and Lianlin Li and Qiu, \{Cheng Wei\} and Yuanqing Li and Cui, \{Tie Jun\}",

note = "Publisher Copyright: {\textcopyright} 2022, The Author(s).",

year = "2022",

month = dec,

doi = "10.1186/s43593-022-00019-x",

language = "English",

volume = "2",

journal = "eLight",

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TY - JOUR

T1 - Directly wireless communication of human minds via non-invasive brain-computer-metasurface platform

AU - Ma, Qian

AU - Gao, Wei

AU - Xiao, Qiang

AU - Ding, Lingsong

AU - Gao, Tianyi

AU - Zhou, Yajun

AU - Gao, Xinxin

AU - Yan, Tao

AU - Liu, Che

AU - Gu, Ze

AU - Kong, Xianghong

AU - Abbasi, Qammer H.

AU - Li, Lianlin

AU - Qiu, Cheng Wei

AU - Li, Yuanqing

AU - Cui, Tie Jun

PY - 2022/12

Y1 - 2022/12

N2 - Brain-computer interfaces (BCIs), invasive or non-invasive, have projected unparalleled vision and promise for assisting patients in need to better their interaction with the surroundings. Inspired by the BCI-based rehabilitation technologies for nerve-system impairments and amputation, we propose an electromagnetic brain-computer-metasurface (EBCM) paradigm, regulated by human’s cognition by brain signals directly and non-invasively. We experimentally show that our EBCM platform can translate human’s mind from evoked potentials of P300-based electroencephalography to digital coding information in the electromagnetic domain non-invasively, which can be further processed and transported by an information metasurface in automated and wireless fashions. Directly wireless communications of the human minds are performed between two EBCM operators with accurate text transmissions. Moreover, several other proof-of-concept mind-control schemes are presented using the same EBCM platform, exhibiting flexibly-customized capabilities of information processing and synthesis like visual-beam scanning, wave modulations, and pattern encoding.

AB - Brain-computer interfaces (BCIs), invasive or non-invasive, have projected unparalleled vision and promise for assisting patients in need to better their interaction with the surroundings. Inspired by the BCI-based rehabilitation technologies for nerve-system impairments and amputation, we propose an electromagnetic brain-computer-metasurface (EBCM) paradigm, regulated by human’s cognition by brain signals directly and non-invasively. We experimentally show that our EBCM platform can translate human’s mind from evoked potentials of P300-based electroencephalography to digital coding information in the electromagnetic domain non-invasively, which can be further processed and transported by an information metasurface in automated and wireless fashions. Directly wireless communications of the human minds are performed between two EBCM operators with accurate text transmissions. Moreover, several other proof-of-concept mind-control schemes are presented using the same EBCM platform, exhibiting flexibly-customized capabilities of information processing and synthesis like visual-beam scanning, wave modulations, and pattern encoding.

UR - https://www.scopus.com/pages/publications/85159214050

U2 - 10.1186/s43593-022-00019-x

DO - 10.1186/s43593-022-00019-x

M3 - Article

AN - SCOPUS:85159214050

SN - 2097-1710

VL - 2

JO - eLight

JF - eLight

IS - 1

M1 - 11

ER -

Directly wireless communication of human minds via non-invasive brain-computer-metasurface platform

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