Nearly Instantaneous Companding for Nonuniformly Quantized PCM

Author

Duttweiler, Donald L. ; Messerschmitt, David G.

Author_Institution

Bell Lab., Holmdel, NJ, USA

Volume

24

Issue

8

fYear

1976

fDate

8/1/1976 12:00:00 AM

Firstpage

864

Lastpage

873

Abstract

The technique of nearly instantaneous companding (NIC) that we describe processes $n$ -bit μ-law or A-law encoded pulse-code modulation (PCM) to a reduced bit rate. A block of $N$ samples (typically $N \\cong 10$ ) is searched for the sample having the largest magnitude, and each sample in the block is then reencoded to a nearly uniform quantization having ( $n - 2$ ) bits and an overload point at the top of the chord of the maximum sample. Since an encoding of this chord must be sent to the receiver along with the uniform reencoding, the resulting bit rate is $f_{s}(n -2 + 3/N)$ bits/s where fsis the sampling rate. The algorithm can be viewed as an adaptive PCM algorithm that is compatible with the widely used μ-law and $A$ -law companded PCM. Theoretical and empirical evidence is presented which indicates a performance slightly better than ( $n - 1$ ) bit companded PCM (the bit rate is close to that of ( $n - 2$ ) bit PCM). A feature which distinguishes NIC from most other bit-rate reduction techniques is a performance that is largely insensitive to the statistics of the input signal.

Keywords

Companding; PCM communication; Adaptive equalizers; Adaptive estimation; Bit rate; Data communication; Delta modulation; Encoding; Phase change materials; Pulse modulation; Quantization; Signal processing algorithms;

fLanguage

English

Journal_Title

Communications, IEEE Transactions on

Publisher

ieee

ISSN

0090-6778

Type

jour

DOI

10.1109/TCOM.1976.1093389

Filename

1093389