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METHOD AND APPARATUS FOR HIGHER ORDER AMBISONICS ENCODING AND DECODING USING SINGULAR VALUE DECOMPOSITION

机译：基于奇异值分解的高阶生物编码和解码的方法和装置

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摘要

The encoding and decoding of HOA signals using Singular Value Decomposition includes forming (11) based on sound source direction values and an Ambisonics order corresponding ket vectors (|(Ω5))) of spherical harmonics and an encoder mode matrix (Ξ_0χs). From the audio input signal (|χ(Ω_s))) a singular threshold value (σ_ε) determined. On the encoder mode matrix a Singular Value Decomposition (13) is carried out in order to get related singular values which are compared with the threshold value, leading to a final encoder mode matrix rank (^rfin_e). Based on direction values (Ω_ι) of loudspeakers and a decoder Ambisonics order (N_ι), corresponding ket vectors (IY(Ω_ι) custom-character

) and a decoder mode matrix (Ψ_0χL) are formed (18). On the decoder mode matrix a Singular Value Decomposition (19) is carried out, providing a final decoder mode matrix rank (^rfin_d). From the final encoder and decoder mode matrix ranks a final mode matrix rank is determined, and from this final mode matrix rank and the encoder side Singular Value Decomposition an adjoint pseudo inverse (Ξ⁺)^† of the encoder mode matrix (Ξ_0χs) and an Ambisonics ket vector (Ia′_s custom-character

) are calculated. The number of components of the Ambisonics ket vector is reduced (16) according to the final mode matrix rank so as to provide an adapted Ambisonics ket vector (|a′_ι custom-character

). From the adapted Ambisonics ket vector, the output values of the decoder side Singular Value Decomposition and the final mode matrix rank an adjoint decoder mode matrix (Ψ)^†is calculated (15), resulting in a ket vector (|y(Ω_ι) custom-character

) of output signals for all loudspeakers.

机译：使用奇异值分解对HOA信号进行编码和解码包括基于声源方向值和球形谐波的Ambisonics阶ket矢量（|（Ω5））和编码器模式形成（ 11 ）矩阵（Ξ_{0χs）。根据音频输入信号（|χ（Ω_{s ）），确定单个阈值（σ_{ε）。在编码器模式矩阵上执行奇异值分解（ 13 ），以便获得与阈值进行比较的相关奇异值，从而得出最终的编码器模式矩阵等级（^{r fin _{e ）。基于扬声器的方向值（Ω_{ι）和解码器Ambisonics阶数（N _{ι），相应的ket矢量（IY（Ω_{ι））和解码器模式矩阵（Ψ_{0×L ）形成（ 18 ）。在解码器模式矩阵上执行奇异值分解（ 19 ），提供最终的解码器模式矩阵等级（^{r fin _{d ）。根据最终的编码器和解码器模式矩阵等级，确定最终模式矩阵等级，并根据该最终模式矩阵等级和编码器侧奇异值分解，确定一个伪伪逆（Ξ^{+ ）^{† 编码器模式矩阵（χ_{0χs）和Ambisonics ket向量（Ia'_{s ）。根据最终模式矩阵等级减少Ambisonics ket矢量的分量数（ 16 ），以便提供一个经过调整的Ambisonics ket矢量（| a'_{i <图片alt =“ custom-character” file =“ US20170006401A1-20170105-P00001.GIF” he =“ 3.22mm” imgContent =“ character” imgFormat =“ GIF” wi =“ 1.10mm” />）。根据适应的Ambisonics ket向量，解码器侧奇异值分解的输出值和最终模式矩阵对伴随的解码器模式矩阵（Ψ）^{†进行计算（ 15 ），生成ket向量（| y（Ω_ι））。}}}}}}}}}}}}}}}}} 展开▼

著录项

公开/公告号US2017006401A1

专利类型

公开/公告日2017-01-05

原文格式PDF

申请/专利权人 DOLBY INTERNATIONAL AB;
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申请/专利号US201415039887

发明设计人 HOLGER KROPP;STEFAN ABELING;
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申请日2014-11-18

分类号H04S3/02;H04S7;

国家 US

入库时间 2022-08-21 13:44:50

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