Jun 6, 2011 · The maximum possible rate is below point-to-point capacity, and hence these are non-optimal codes (alternatively referred to as "bad" codes). We ...

We examine non-optimal codes (alternatively referred to as "bad" codes), over the additive Gaussian noise channel. These codes are required to attain a ...

Aug 9, 2012 · non-optimal codes, bad codes, superposition codebooks, I-MMSE, ... the mmse of “bad” LPDC codes at rates above capacity,” 46th Annual.

The maximum possible rate is below point-to-point capacity, and hence these are non-optimal codes (alternatively referred to as "bad" codes). We show that the ...

The maximum possible rate is below point-to-point capacity, and hence, these are nonoptimal codes (alternatively referred to as “bad” codes). We show that the ...

The maximum possible rate is below point-to-point capacity, and hence, these are nonoptimal codes (alternatively referred to as “bad” codes). We show that the ...

The maximum possible rate is below point-to-point capacity, and hence, these are nonoptimal codes (alternatively referred to as “bad” codes). We show that the ...

We compute our bounds for “bad” LDPC codes (requiring SNRs that are far above the Shannon limit, for reliable communications to be possible) and show that such ...

Finally, 'bad' code sequences, that do not obtain the capacity of the scalar Gaussian BC, are examined. These codes are defined by an additional MMSE constraint ...

More recently the effect of “bad” code sequences has been investigated [5], that is, reliable codes of lower rates than the capacity. More specifically, the ...