Novel Antenna Role in the Integration of ISAC for 6G Wireless Communications:

 This enables manipulation of the frequency, direction, and amplitude of the radiated beam and is anticipated to play a significant role in the union of sensing and communications (ISAC) for 6th-generation (6G) wireless communications.

Once the fabrication is done, the structure and characteristics of conventional antennas cannot be altered. However, the frequency, direction, and amplitude of the electromagnetic waves coming from this new-generation antenna, which is known as a “sideband-free space-time-coding (STC) metasurface antenna,” could be altered via space-time coding (that is, software control), allowing great user flexibility.

The central part of this groundbreaking feature is that the response of the metasurface (artificial, thin-sheet material with sub-wavelength thickness and made up of various sub-wavelength meta-atoms) could be altered by shifting the meta-atoms present on its surface between radiating and non-radiating states. This includes turning on and off switches by regulating the electric current.

1st Editional of International Research Awards on Sensing Technology | 23-24 Jan 2023 | India

Abstract Submission: https://x-i.me/gaycon

Award Nomination: https://x-i.me/gaynom

Member Nomination: https://x-i.me/gaymem

Visit:http://sensors-conferences.sciencefather.com/

For Enquiries: sensors@sciencefather.com