Good point. I should have mentioned channel coding. That being said, I do not think the coding will change much from current cellular systems; the encoding and decoding will just need to run at much higher bit rates. From a power consumption standpoint, high throughput channel decoding is probably not the largest concern. For example, extrapolating from this paper shows that you can achieve 1 Tbps LDPC codes with excellent performance with < 3W. Quite nice work! ieeexplore.ieee.org/stamp/stamp.jsp?arnumber=8345844
Awesome explanation
Very nice!! It's better if you include Channel coding also for THz Communication
Good point. I should have mentioned channel coding. That being said, I do not think the coding will change much from current cellular systems; the encoding and decoding will just need to run at much higher bit rates. From a power consumption standpoint, high throughput channel decoding is probably not the largest concern. For example, extrapolating from this paper shows that you can achieve 1 Tbps LDPC codes with excellent performance with < 3W. Quite nice work!
ieeexplore.ieee.org/stamp/stamp.jsp?arnumber=8345844
Could you provide link to the slides? Also on the slide "Rayleigh distance" for plane wave should be D> D_R and for spherical D
Good
Professor are you working on sub_Thz frequencies?
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Very helpful 👍👍