Conceptos Básicos
LIQUIRIS leverages the physical properties of liquid crystals to optimize beam switching time in RIS, offering a low-cost, low-energy alternative to semiconductor-based solutions for enhanced wireless communication.
Estadísticas
The average power consumption of an individual delay line phase shifter in the proposed LCS-RIS is 150 nW.
For a large RIS with 1,000,000 phase shifters, the power consumption would add up to 150 mW for LIQUIRIS.
A PIN diode-based RIS with 1,000,000 elements would have a power consumption of 165 W, 330 W, or 495 W to bias the PIN diodes in a 1-, 2-, and 3-bit configuration, respectively.
LIQUIRIS achieves a bandwidth of 6.8 GHz, i.e., 10.9%, with a center frequency of approximately 62 GHz.
Experimental results show response time reductions of up to 70.80% compared to legacy methods.
Citas
"LIQUIRIS is the first work analyzing the potential of LC technology for RIS design."
"To our knowledge, LIQUIRIS is the first work proposing this approach for LC response time optimization."
"We show via extensive experimental analysis that LIQUIRIS substantially reduces the response time (up to 70.80%) of liquid crystal surface (LCS)."