Page 54 - SAMENA Trends - Gitex Special 2023
P. 54

TECHNOLOGY UPDATES  SAMENA TRENDS


                                             TECHNOLOGY NEWS





        Researchers  Confirm  Possibility  of  Wireless  Communication  40m

        Underground by National Research Council of Science & Technology



        South  Korean researchers  have made
        a   discovery  that  enables  wireless
        communication below the Earth's surface,
        a significant departure from their traditional
        focus  on   terrestrial  communication
        systems.  This  development  opens new
        avenues  for  confirming  the  survival  of
        individuals trapped due to accidents such
        as mine collapses during rescue operations.
        The Electronics and Telecommunications
        Research Institute (ETRI) announced that
        they  have successfully developed  the
        world's first "Subterranean Magnetic Field
        Communication Core Technology." Utilizing
        a transmitting antenna with a diameter of
        1 meter and a receiving antenna of several
        centimeters, the institute managed to send
        and receive voice signal-level capacity up
        to 40 meters below the Earth's surface in
        a mine. Conventional  wisdom held  that
        wireless communication in the  complex
        underground  environments  of  mines
        was  virtually impossible  due  to signal   and receiving  devices  underground  are   meters between various levels.  This
        attenuation. However,  ETRI  overcame   installed, individuals awaiting rescue could   successful  application  of  magnetic
        these obstacles by  developing a  new   communicate  through personal  devices   field  communication  promises  to  bring
        communication system that leverages the   like mobile phones,  connected  to these   substantial changes  to the underground
        unique  boundary conditions  of magnetic   antennas. The successful communication   mining  industry.  Notably, this technology
        fields  within  the  medium.  The  result  is  a   test was  conducted over a  distance of   is  expected  to  offer a  reliable  mode of
        successful  transmission of voice  data-  40  meters  inside a  mine composed of   communication during emergencies such
        level capacity in a mine where stable   limestone bedrock.  The team  explained   as mine collapses, underground fires, and
        communication was previously unfeasible.   that they used a very narrow low-frequency   other disaster  scenarios  that  typically
        The research team  miniaturized the size   band of 20kHz, rather than the MHz or GHz   disrupt  conventional  communication
        of their  transmitting antenna  to 1 meter,   range commonly used in general wireless   systems. ETRI emphasized that magnetic
        contrasting with the tens-of-meters scale   communication. This frequency band was   field  communication  systems  would
        antennas used in  previous international   chosen  to minimize material  loss  in the   maintain  connections between miners
        research. The system also features small   subterranean or underwater environment,   and rescue  teams  during  accidents,
        receiving  sensors  based on magnetic   and to suit the size of the antennas. The   thereby facilitating better-coordinated
        induction, with dimensions in the order of   data  transmission rate  for voice signals   rescue  efforts.  The technology  is  also
        centimeters. According to the researchers,   was maintained at around 4kbps, sufficient   seen  as a  means to reduce  response
        the newly developed  transmitting and   for basic two-way communication. In the   time in emergencies  and to enhance
        receiving  antennas function  akin  to an   labyrinthine  darkness of underground   safety measures.  Additionally, Last  year,
        Access  Point (AP), essentially serving as   mines,  which  bear a  resemblance to the   they successfully  executed  underwater
        a base station linking the surface and the   complexity  of an ant colony, researchers   communications  up to  a  depth of 40
        underground. Therefore, it is expected that   have demonstrated the ability to transmit   meters in freshwater regions such as rivers
        once transmitting devices on the surface   data directly over a  distance of 40   and streams.





                                                                                                 54   GITEX SPECIAL 2023
   49   50   51   52   53   54   55   56   57   58   59