The following publications are possibly variants of this publication:
- A new multi-channel loudness compensation method based on high frequency compression and shift for digital hearing aidsXulai Cao, Linghua Zhang, Wanzhen Gao. wcsp 2013: 1-6 [doi]
- A new method of multichannel loudness compensation for hearing aidsQingyun Wang, Li Zhao, Jie Qiao, Cairong Zou. apccas 2008: 493-496 [doi]
- Complexity-effective auditory compensation for digital hearing aidsYu-Ting Kuo, Tay-Jyi Lin, Wei-Han Chang, Yueh-Tai Li, Chih-Wei Liu, Shuenn-Tsong Young. iscas 2008: 1472-1475 [doi]
- A Comprehensive Method to Improve Loudness Compensation and High-Frequency Speech Intelligibility for Digital Hearing AidsZhaoyang Guo, Bo Wang, Xin'an Wang. ieicet, 100-A(7):1552-1556, 2017. [doi]
- Multi-channel adaptive loudness compensation algorithm based on noise tracking in digital hearing aidsRuwei Li, Kaixuan Dai, Zelin Ye, Yongya Zahng. speech, 130:64-76, 2021. [doi]
- Retraction notice to "Multi-channel adaptive loudness compensation algorithm based on noise tracking in digital hearing aids" [Measurement 130C (2021) 2773]Ruwei Li, Kaixuan Dai, Zelin Ye, Yongya Zahng. speech, 134:85, 2021. [doi]