	US 12,250,100 B2
	Selecting a modulation scheme responsive to fault types in 5G/6G
David E. Newman, Poway, NJ (US); and R. Kemp Massengill, Palos Verdes, CA (US)
Filed by David E. Newman, Poway, NJ (US); and R. Kemp Massengill, Palos Verdes, CA (US)
Filed on Jun. 5, 2024, as Appl. No. 18/735,063.
Application 18/735,063 is a continuation of application No. 18/376,214, filed on Oct. 3, 2023, granted, now 12,034,571.
Application 18/376,214 is a continuation of application No. 18/212,905, filed on Jun. 22, 2023, granted, now 11,811,565.
Application 18/212,905 is a continuation of application No. 17/994,876, filed on Nov. 28, 2022, granted, now 11,736,320.
Claims priority of provisional application 63/426,853, filed on Nov. 21, 2022.
Claims priority of provisional application 63/418,784, filed on Oct. 24, 2022.
Claims priority of provisional application 63/409,888, filed on Sep. 26, 2022.
Claims priority of provisional application 63/321,879, filed on Mar. 21, 2022.
Claims priority of provisional application 63/309,748, filed on Feb. 14, 2022.
Prior Publication US 2024/0333558 A1, Oct. 3, 2024
This patent is subject to a terminal disclaimer.
Int. Cl. H04L 25/03 (2006.01)

CPC H04L 25/03006 (2013.01) [H04L 2025/0342 (2013.01)]

18 Claims

1. A method for a wireless receiver to mitigate message faults, the method comprising:

a) receiving a message comprising message elements modulated according to a first modulation scheme, each message element comprising a sinusoidal signal comprising a received amplitude and a received phase;

b) for each message element, separating the sinusoidal signal into an I-branch comprising an I-branch amplitude, and an orthogonal Q-branch comprising a Q-branch amplitude;

c) for each message element, calculating a sum-signal amplitude comprising a combination of the I-branch amplitude and the Q-branch amplitude, and calculating a sum-signal phase comprising a different combination of the I-branch amplitude and the Q-branch amplitude; and

d) demodulating the message by comparing the sum-signal amplitude to integer Namp predetermined amplitude levels, and comparing the sum-signal phase to integer Nphase predetermined phase levels.