An Improved Multi-band Loudness Compensation Method Based on Nonlinear Frequency Compression for Digital Hearing Aids

doi:10.13209/j.0479-8023.2017.087

Acta Scientiarum Naturalium Universitatis Pekinensis ›› 2018, Vol. 54 ›› Issue (1): 25-34.DOI: 10.13209/j.0479-8023.2017.087

Previous Articles Next Articles

An Improved Multi-band Loudness Compensation Method Based on Nonlinear Frequency Compression for Digital Hearing Aids

GUO Zhaoyang^1,2, WANG Bo¹, WANG Xin’an^1,2,†, ZHANG Guoxin³

1. Key Laboratory of Microsystem, Peking University Shenzhen Graduate School, Shenzhen 518055
2. School of Electronic Engineering and Computer Science, Peking University, Beijing 100871
3. Shenzhen Micro & Nano Research Institute of IC and System Applications, Shenzhen 518055

Received:2016-09-19 Revised:2016-12-29 Online:2018-01-20 Published:2018-01-20
Contact: WANG Xin’an, E-mail: anxinwang(at)pku.edu.cn

一种改进的适用于数字助听器的基于非线性频率压缩的多通道响度补偿方法

郭朝阳^1,2, 汪波¹, 王新安^1,2,†, 张国新³

1. 北京大学深圳研究生院集成微系统重点实验室, 深圳 518055
2. 北京大学信息科学技术学院, 北京 100871
3. 深圳市微纳集成电路与系统应用研究院, 深圳 518055

通讯作者: 王新安, E-mail: anxinwang(at)pku.edu.cn
基金资助:
深圳市技术创新项目(JSGG20130412145326444, JCYJ20150331102721193)资助

Abstract

Abstract:

A comprehensive method applying a nonlinear frequency compression (FC) as complementary to multiband loudness compensation is proposed, which is able to improve loudness compensation and simultaneously increase high-frequency speech intelligibility for digital hearing aids. First, to avoid the spectral distortions in the sounds, speech intelligibility-based frequency spectrum splitting is introduced. Then a nonlinear FC (NLFC) is also proposed to compress the high-frequency sounds to the lower bands where the audibility is available. Moreover, the introduced NLFC adjusts compression ratio (CR) based on the speech intelligibility percentage in different frequency ranges. Finally, an adaptive wide dynamic range compression (AWDRC) with a time-varying CR is applied to achieve adaptive loudness compensation, and prevent the stationary CR of the typical wide dynamic range compression (WDRC) from generating a negative impact on the speech. The experimental test results show that the mean speech identification is improved at least 20% points in comparison with the typical WDRC or the conventional FC.

Key words: digital hearing aid, loudness compensation, AWDRC, frequency compression

摘要：

为了改进数字助听器中的响度补偿, 并提高高频部分的语音可懂度, 提出一种基于非线性频率压缩的多通道响度补偿的综合方法。首先, 为了避免语音的频率畸变, 基于语音可懂度进行频谱的多通道划分。然后, 采用一种非线性的频率压缩方法, 将高频部分的声音压缩至患者能听到的低频部分。所提出的非线性频率压缩方法是基于不同频段对语音理解度的贡献占比来改变频率压缩比。最后, 为了实现自适应的响度补偿同时防止传统宽动态范围压缩的固定压缩比降低语音质量, 采用一种随时间可变压缩比的自适应宽动态范围压缩方法。实验结果表明, 相对于传统的宽动态范围压缩和频率压缩方法, 该方法可以改善20%的语音鉴别准确率。

关键词: 数字助听器, 响度补偿, 自适应宽动态范围压缩(AWDRC), 频率压缩

CLC Number:

TN492

GUO Zhaoyang, WANG Bo, WANG Xin’an, ZHANG Guoxin. An Improved Multi-band Loudness Compensation Method Based on Nonlinear Frequency Compression for Digital Hearing Aids[J]. Acta Scientiarum Naturalium Universitatis Pekinensis, 2018, 54(1): 25-34.

郭朝阳, 汪波, 王新安, 张国新. 一种改进的适用于数字助听器的基于非线性频率压缩的多通道响度补偿方法[J]. 北京大学学报（自然科学版）, 2018, 54(1): 25-34.

[1]	ZHANG Qihui, CAO Jian, CAO Xixin, YU Dunshan, ZHANG Xing. Design and Implementation of an Asynchronous Low Power RSA Circuit Structure [J]. Acta Scientiarum Naturalium Universitatis Pekinensis, 2018, 54(6): 1351-1354.
[2]	WANG Xin’an, YONG Shanshan, XU Boxing, LIANG Yiwen, BAI Zhiqiang, AN Huiyao, ZHANG Xing, HUANG Jipan, XIE Zheng, LIN Ke, HE Chunjiu, LI Qiuping. Research and Implementation of Multi-component Seismic Monitoring System AETA [J]. Acta Scientiarum Naturalium Universitatis Pekinensis, 2018, 54(3): 487-494.
[3]	QIAN Zebin, YAN Wei. Low Resource Consumption Design of Digital Decimation Filter [J]. Acta Scientiarum Naturalium Universitatis Pekinensis, 2018, 54(2): 315-319.
[4]	LIU Chao, YAN Wei. High-Speed Hardware Design of Kalman Filter Based on FPU with Formula Derivation Method [J]. Acta Scientiarum Naturalium Universitatis Pekinensis, 2016, 52(5): 803-808.
[5]	WANG Tian,CUI Xiaoxin,LIAO Kai,LIAO Nan,HUANG Ying,ZHANG Xiao,YU Dunshan. Montgomery Multiplier Based on Secondary Booth Encoding in RSA Encryption [J]. Acta Scientiarum Naturalium Universitatis Pekinensis, 2014, 50(4): 642-646.
[6]	LI Rui,CUI Xiaoxin,WEI Wei,WU Di,LIAO Kai,LIAO Nan,MA Kaisheng,YU Dunshan. A Design of DES Encryption Chip with Resistance to Differential Power Analysis [J]. Acta Scientiarum Naturalium Universitatis Pekinensis, 2014, 50(4): 675-680.
[7]	WANG Qian,ZHANG Yacong,LU Wengao,SHEN Guangchong,CHEN Zhongjian,JIA Ruoxi. A Low-Noise CMOS Charge Readout ASIC for X-Ray Detectors [J]. Acta Scientiarum Naturalium Universitatis Pekinensis, 2014, 50(4): 715-718.
[8]	FAN Miaomiao,ZHANG Yacong,LU Wengao,SHEN Guangchong,CHEN Zhongjian,MENG Xiangyun,LIU Sanlin. A Hybrid Incremental and Cyclic ADC for IRFPA Readout Circuit [J]. Acta Scientiarum Naturalium Universitatis Pekinensis, 2014, 50(4): 719-723.
[9]	FANG Ran,LU Wengao,TAO Tingting,SHEN Guangchong,HU Junrong,CHEN Zhongjian,ZHANG Yacong,YU Dunshan. A High-Resolution Analog Interface for Capacitive MEMS Gyroscope with Integrated SAR-ADC [J]. Acta Scientiarum Naturalium Universitatis Pekinensis, 2014, 50(4): 734-740.
[10]	YONG Shanshan,WANG Xin’an,ZHANG Fangni,SHI Xiaolong,LIU Bin,GUO Zhaoyang,Lü Wei,CAO Ying,SU Jiting. Design and Implementation of Baseband Transmitter for UHF RFID Reader [J]. Acta Scientiarum Naturalium Universitatis Pekinensis, 2014, 50(4): 753-760.
[11]	YONG Shanshan,WANG Xin’an,CAO Ying,ZHANG Fangni,SHI Xiaolong,XIE Zheng. Reconfigurable Operators Array: Architecture and Modeling [J]. Acta Scientiarum Naturalium Universitatis Pekinensis, 2014, 50(4): 761-767.
[12]	LI Hongyi,WANG Yuan,JIA Song,ZHANG Xing. Improved 2nd-Order Multi-bit Noise-Coupled Sigma-Delta Modulator for GSM Standard [J]. Acta Scientiarum Naturalium Universitatis Pekinensis, 2012, 48(2): 200-208.
[13]	LI Yuwen,ZHANG Xing,JIANG Anping. Design of AES Coprocessor Used on the Node of Wireless Sensor Network [J]. Acta Scientiarum Naturalium Universitatis Pekinensis, 2009, 45(3): 426-430.
[14]	ZHANG Yacong,CHEN Zhongjian,LU Wengao,JI Lijiu,ZHAO Baoying. A Front-End ASIC for Semiconductor Radiation Detectors with Pile-up Rejection Capability [J]. Acta Scientiarum Naturalium Universitatis Pekinensis, 2009, 45(1): 54-58.
[15]	WANG Jian,JIANG Anping,SHENG Shimin. A Dual Finite Fields Algorithm for Elliptic Curve Cryptosystem and FPGA Implementation [J]. Acta Scientiarum Naturalium Universitatis Pekinensis, 2008, 44(6): 871-876.

An Improved Multi-band Loudness Compensation Method Based on Nonlinear Frequency Compression for Digital Hearing Aids

一种改进的适用于数字助听器的基于非线性频率压缩的多通道响度补偿方法

RichHTML

PDF

Knowledge

Abstract

Cite this article

share this article

References

Related Articles 15

Recommended Articles

Metrics