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DTSTAMP:20250401T084053Z
UID:602D4D2C-7A34-454F-95DD-077EC96DF249
DTSTART;TZID=Europe/Stockholm:20250326T140000
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DESCRIPTION:6G wireless systems are expected to offer ubiquitous connectivi
 ty in presently under-served areas\, potentially provided by satellite- an
 d space-based internet-of-things applications. In the search for enabling 
 technologies to achieve these expectations\, molecular communication is an
  important alternative to conventional electromagnetic-based wireless comm
 unication. In this talk\, we give a brief introduction to molecular commun
 ication\, and discuss how it may be used to communicate in "wave-denied" e
 nvironments\, where connectivity is desired\, but wireless cannot be used.
  We also show that molecular communication can achieve surprisingly high i
 nformation rates\, theoretically unlimited and practically in the gigabit-
 per-second range\, making it a compelling technology for 6G. We finish wit
 h a discussion of the current state of the field and propose some experime
 ntal next steps.\n\nCo-sponsored by: Chalmers University of Technology\n\n
 Speaker(s): Dr. Andrew Eckford\, \n\nRoom: E2 room 2503 Fredrik Lamm\, Bld
 g: EDIT building floor 3\, Chalmers\, Hörsalsvägen 11\, Gothenburg\, Vas
 tra Gotalands lan\, Sweden
LOCATION:Room: E2 room 2503 Fredrik Lamm\, Bldg: EDIT building floor 3\, Ch
 almers\, Hörsalsvägen 11\, Gothenburg\, Vastra Gotalands lan\, Sweden
ORGANIZER:furdek@chalmers.se
SEQUENCE:13
SUMMARY:IEEE ComSoc Distinguished Lecturer Tour: Dr. Andrew Eckford\, High-
 speed molecular communication: A solution for 6G?
URL;VALUE=URI:https://events.vtools.ieee.org/m/477741
X-ALT-DESC:Description: <br /><p><span style="caret-color: rgb(0\, 0\, 0)\;
 ">6G wireless systems are expected to offer ubiquitous connectivity in pre
 sently under-served areas\, potentially provided by satellite- and space-b
 ased internet-of-things applications. In the search for enabling technolog
 ies to achieve these expectations\, molecular communication is an importan
 t alternative to conventional electromagnetic-based wireless communication
 . In this talk\, we give a brief introduction to molecular communication\,
  and discuss how it may be used to communicate in "wave-denied" environmen
 ts\, where connectivity is desired\, but wireless cannot be used. We also 
 show that molecular communication can achieve surprisingly high informatio
 n rates\, theoretically unlimited and practically in the gigabit-per-secon
 d range\, making it a compelling technology for 6G. We finish with a discu
 ssion of the current state of the field and propose some experimental next
  steps.</span></p>
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