[1] Kotus, Jozef, "Application of passive acoustic radar to automatic localization, tracking and classification of sound sources", In 2010 2nd International Conference on Information Technology, (2010 ICIT), IEEE, 2010, pp.67-70
[2] Kotus, Józef, "Multiple sound sources localization in free field using acoustic vector sensor", Multimedia tools and applications, 2015, Vol.74, pp.4235-4251.
[3] Lopatka, Kuba, Jozef Kotus, and Andrzej Czyzewski, "Detection, classification and localization of acoustic events in the presence of background noise for acoustic surveillance of hazardous situations", Multimedia Tools and Applications, 2016, Vol.75, pp.10407-10439.
[4] Vashkevich, Maxim, Elias Azarov, Alexander Petrovsky, and Yuliya Rushkevich, "Features extraction for the automatic detection of ALS disease from acoustic speech signals", In 2018 Signal Processing: Algorithms, Architectures, Arrangements, and Applications (SPA), IEEE 2018, pp.321-326.
[5] Moschioni, Giovanni, Bortolino Saggin, and Marco Tarabini, "Sound source identification using coherence-and intensity-based methods", IEEE Transactions on Instrumentation and Measurement, 2007, Vol.56, no.6, pp.2478-2485.
[6] Gunel, Banu, Huseyin Hacihabiboglu, and Ahmet M. Kondoz, "Intensity vector direction exploitation for exhaustive blind source separation of convolutive mixtures", In 2009 IEEE International Conference on Acoustics, Speech and Signal Processing, IEEE, 2009, pp.41-44.
[7] Zhong, Xionghu, Xiaoyi Chen, Wenwu Wang, Atiyeh Alinaghi, and A. Benjamin Premkumar, "Acoustic vector sensor based reverberant speech separation with probabilistic time-frequency masking", In 21st European Signal Processing Conference (EUSIPCO 2013), IEEE, 2013, pp.1-5.
[8] Zou, Yue Xian, Wei Shi, Bo Li, Christian H. Ritz, Muawiyath Shujau, and Jiangtao Xi, "Multisource DOA estimation based on time-frequency sparsity and joint inter-sensor data ratio with single acoustic vector sensor", In 2013 IEEE International Conference on Acoustics, Speech and Signal Processing, IEEE, 2013, pp.4011-4015.
[9] Kotus, Jozef, Andrzej Czyżewski, and Bożena Kostek, "3D acoustic field intensity probe design and measurements", Archives of Acoustics, 2016, Vol.41, no.4, pp.701-711.
[10] Szwoch, Grzegorz, and Józef Kotus, "Detection of the incoming sound direction employing MEMS microphones and the DSP", In Multimedia Communications, Services and Security: 9th International Conference, MCSS 2017, Kraków, Poland, November 16-17, 2017, Proceedings 9, Springer International Publishing, 2017, pp.186-198.
[11] Wajid, Mohd, Arun Kumar, and Rajendar Bahl, "Design and analysis of air acoustic vector-sensor configurations for two-dimensional geometry", The Journal of the Acoustical Society of America, 2016, Vol.139, no.5, pp.2815-2832.
[12] Kotus, Józef, and Grzegorz Szwoch, "Calibration of acoustic vector sensor based on MEMS microphones for DOA estimation", Applied Acoustics, 2018, Vol.141, pp.307-321.
[13] Gade, Svend, Jørgen Hald, Jesper Gomes, Gijs Dirks, and Bernard Ginn, "Recent advances in moving-source beamforming", Sound Vibration, 2015, p.9.
[14] Wind, Jelmer, Emiel Tijs, and Hans-Elias de Bree, "Source localization using acoustic vector sensors: A MUSIC approach", In Novem2009: Noise and Vibration: Emerging Methods, ISVR, 2009, pp.1-10.
[15] Padois, Thomas, "Acoustic source localization based on the generalized cross-correlation and the generalized mean with few microphones", The Journal of the Acoustical Society of America, 2018, EL393-EL398, Vol.143, no.5.
[16] Cao, Jiuwen, Jun Liu, Jianzhong Wang, and Xiaoping Lai, "Acoustic vector sensor: reviews and future perspectives", IET Signal Processing, 2017, Vol.11, no.1, pp.1-9.
[17] Jacobsen, Finn, "Sound intensity and its measurement and applications", Current topics in acoustical research, 2003, Vol.3, 87-91.
[18] De Bree, Hans-Elias, "The Microflown: An acoustic particle velocity sensor", Acoustics Australia, 2003, Vol.31, no.3, pp.91-94.
[19] Jacobsen, Finn, and Hans-Elias de Bree, "A comparison of two different sound intensity measurement principles", The Journal of the Acoustical Society of America, 2005, Vol.118, no.3, pp.1510-1517.
[20] Yin, Junhui, Chao Xiong, and Wenjie Wang, "Acoustic localization for a moving source based on cross array azimuth", Applied Sciences, 2018, Vol.8, no.8, p.1281.
[21] Kotus, Józef, and Grzegorz Szwoch, "Localization of sound sources with dual acoustic vector sensor", In 2019 Signal Processing: Algorithms, Architectures, Arrangements, and Applications (SPA), IEEE, 2019, pp.44-49.