Speech decoder and method for decoding speech

A technology of vocoder and speech processing, which is applied in the field of decoding digitally encoded speech, and can solve problems such as large memory, increased time, and great inflexibility

Inactive Publication Date: 2005-03-16
NOKIA TECH OY
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Problems solved by technology

The development of second-generation digital cellular networks and their enhanced terminals has led to a situation where complete one-to-one compatibility with respect to sampling rates cannot be guaranteed, that is, speech coders in transmitting terminals can use An input sample rate different from the output sample rate of the speech decoder in the terminal
[0009] The use of look-up tables in the search for appropriate wideband filter characteristics can help avoid disasters of the kind shown in Figure 2, but at the same time introduce considerable inflexibility
Either only a limited number of possible broadband filters can be implemented, or very large memories have to be allocated just for this purpose
Increasing the number of stored wideband filters from which to choose also increases the time that must be allotted for searching and establishing the correct configuration among them, which is undesirable in real-time operations such as voice telephony

Method used

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  • Speech decoder and method for decoding speech
  • Speech decoder and method for decoding speech
  • Speech decoder and method for decoding speech

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Embodiment Construction

[0048] Figures 1 and 2 have been described in the description of the prior art, so the following description of the invention and its advantageous embodiments will focus on Figures 3a to 6 superior. The same reference numerals are used for similar parts in the drawings.

[0049] Figure 3a Used to illustrate the decimation of the parameters of the narrowband LP filter in the decimation block 310 using the narrowband input signal. The narrowband LP filter parameters are taken to an extrapolation block 301 where extrapolation is used to generate the corresponding wideband LP filter parameters. These parameters are taken into the vocoder 105 . A vocoder uses some kind of broadband signal as its input. Vocoder 105 generates wideband LP filters from these parameters and uses them to transform the wideband input signal into a wideband output signal. Decimation block 310 also provides an output, which is a narrowband output.

[0050] Figure 3b show how to Figure 3a The princ...

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Abstract

A speech decoder comprises a decoder (103) for converting a linear prediction encoded speech signal into a first sample stream having a first sampling rate and representing a first frequency band. Additionally it comprises a vocoder (105) for converting an input signal into a second sample stream having a second sampling rate and representing a second frequency band, and combination means (107) for combining the first and second sample streams in processed form. It comprises also means (301) for generating a second linear prediction filter, to be used by the vocoder (105) on the second frequency band, on the basis of a first linear prediction filter used by the decoder (103) on the first frequency band. Extrapolation through an infinite impulse response filter is the preferable method of generating the second linear prediction filter.

Description

technical field [0001] The present invention generally relates to techniques for decoding digitally encoded speech. In particular, the present invention relates to techniques for generating wideband decoded output signals from narrowband encoded input signals. Background technique [0002] Digital telephone systems have traditionally relied on standardized speech encoding and decoding procedures with fixed sampling rates to ensure compatibility between arbitrarily chosen transmitter-receiver pairs. The development of second-generation digital cellular networks and their enhanced terminals has led to a situation where complete one-to-one compatibility with respect to sampling rates cannot be guaranteed, that is, speech coders in transmitting terminals can use An input sampling rate different from the output sampling rate of the speech decoder in the terminal. Due to complexity constraints, a linear prediction or LP (linear prediction) analysis of the original speech signal ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G10L19/04G10L13/00G10L19/02G10L19/16H03M7/36
CPCG10L19/16G10L19/0212G10L19/04G10L19/02
Inventor J·罗托拉-普基拉J·韦尼奥H·米科拉
Owner NOKIA TECH OY
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