This work is licensed under the Creative Commons Attribution 4.0 International License.
Pech, M., Vrchota, J., & Bednář, J. (2021). Predictive maintenance and intelligent sensors in smart factory. Sensors, 21(4), 1470.Search in Google Scholar
Hu, L., Miao, Y., Wu, G., Hassan, M. M., & Humar, I. (2019). iRobot-Factory: An intelligent robot factory based on cognitive manufacturing and edge computing. Future Generation Computer Systems, 90, 569-577.Search in Google Scholar
Guo, K., Wan, X., Liu, L., Gao, Z., & Yang, M. (2021). Fault diagnosis of intelligent production line based on digital twin and improved random forest. Applied Sciences, 11(16), 7733.Search in Google Scholar
Castellini, P., Giulietti, N., Falcionelli, N., Dragoni, A. F., & Chiariotti, P. (2021). A neural network based microphone array approach to grid-less noise source localization. Applied Acoustics, 177, 107947.Search in Google Scholar
Grondin, F., & Michaud, F. (2019). Lightweight and optimized sound source localization and tracking methods for open and closed microphone array configurations. Robotics and Autonomous Systems, 113, 63-80.Search in Google Scholar
Yang, J., Banerjee, G., Gupta, V., Lam, M. S., & Landay, J. A. (2020, April). Soundr: Head position and orientation prediction using a microphone array. In Proceedings of the 2020 CHI Conference on Human Factors in Computing Systems (pp. 1-12).Search in Google Scholar
Dey, N., Ashour, A. S., Dey, N., & Ashour, A. S. (2018). Microphone array principles. Direction of arrival estimation and localization of multi-speech sources, 5-22.Search in Google Scholar
Scheibler, R., Azcarreta, J., Beuchat, R., & Ferry, C. (2018, September). Pyramic: Full stack open microphone array architecture and dataset. In 2018 16th International Workshop on Acoustic Signal Enhancement (IWAENC) (pp. 226-230). IEEE.Search in Google Scholar
Su, D., Vidal-Calleja, T., & Miro, J. V. (2017, May). Towards real-time 3D sound sources maping with linear microphone arrays. In 2017 IEEE International Conference on Robotics and Automation (ICRA) (pp. 1662-1668). IEEE.Search in Google Scholar
Padois, T., Sgard, F., Doutres, O., & Berry, A. (2017). Acoustic source localization using a polyhedral microphone array and an improved generalized cross-correlation technique. Journal of Sound and Vibration, 386, 82-99.Search in Google Scholar
Go, Y. J., & Choi, J. S. (2021). An acoustic source localization method using a drone-mounted phased microphone array. Drones, 5(3), 75.Search in Google Scholar
Jia, M., Sun, J., & Bao, C. (2017). Real-time multiple sound source localization and counting using a soundfield microphone. Journal of ambient intelligence and humanized computing, 8, 829-844.Search in Google Scholar
Marques, I., Sousa, J., Sá, B., Costa, D., Sousa, P., Pereira, S., ... & Gomes, T. (2022). Microphone array for speaker localization and identification in shared autonomous vehicles. Electronics, 11(5), 766.Search in Google Scholar
Wang, W., Li, J., He, Y., & Liu, Y. (2020, November). Symphony: localizing multiple acoustic sources with a single microphone array. In Proceedings of the 18th Conference on Embedded Networked Sensor Systems (pp. 82-94).Search in Google Scholar
Yang, J., Zhong, X., Chen, W., & Wang, W. (2020). Multiple acoustic source localization in microphone array networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing, 29, 334-347.Search in Google Scholar
Xing, H., & Yang, X. (2019). Sound source localization fusion algorithm and performance analysis of a three-plane five-element microphone array. Applied Sciences, 9(12), 2417.Search in Google Scholar
Chung, M. A., Chou, H. C., & Lin, C. W. (2022). Sound localization based on acoustic source using multiple microphone array in an indoor environment. Electronics, 11(6), 890.Search in Google Scholar
Liaquat, M. U., Munawar, H. S., Rahman, A., Qadir, Z., Kouzani, A. Z., & Mahmud, M. P. (2021). Sound localization for ad-hoc microphone arrays. Energies, 14(12), 3446.Search in Google Scholar
Li, Y., & Chen, H. (2017). Reverberation robust feature extraction for sound source localization using a small-sized microphone array. IEEE Sensors Journal, 17(19), 6331-6339.Search in Google Scholar
Gabriel, D., Kojima, R., Hoshiba, K., Itoyama, K., Nishida, K., & Nakadai, K. (2019). 2D sound source position estimation using microphone arrays and its application to a VR-based bird song analysis system. Advanced Robotics, 33(7-8), 403-414.Search in Google Scholar
Lee, S. Y., Chang, J., & Lee, S. (2022). Deep learning-enabled high-resolution and fast sound source localization in spherical microphone array system. IEEE Transactions on Instrumentation and Measurement, 71, 1-12.Search in Google Scholar
Shichao Wu,Shouwang Huang,Zicheng Liu,Qianyi Zhang & Jingtai Liu. (2024). AFPILD: Acoustic footstep dataset collected using one microphone array and LiDAR sensor for person identification and localization. Information Fusion102181-.Search in Google Scholar
Zhe Dong & Ming Yu. (2015). Research on TDOA based microphone array acoustic localization.(eds.) Proceedings of 2015 12th IEEE International Conference on Electronic Measurement & Instruments (pp.1110-1114). School of Electrical and Control Engineering, North China University of Technology.Search in Google Scholar
Wu Jiashu,Wang Yang,Fan Xiaopeng,Ye Kejiang & Xu Chengzhong. (2022). Toward fast theta‐join: A prefiltering and amalgamated partitioning approach. Concurrency and Computation: Practice and Experience(17).Search in Google Scholar
Lee Guzmán Erick,Maximenko Egor A.,Ramos Vazquez Gerardo & Sánchez Nungaray Armando. (2024). Horizontal Fourier Transform of the Polyanalytic Fock Kernel. Integral Equations and Operator Theory(3).Search in Google Scholar
HONG YANG & DINGYUAN ZHAO. (2013). Application of Wavelet Transform to Image Compression Based on Mallat Algorithm.(eds.)Proceedings of the 2013 Asia-Pacific Computational Intelligence and Information Technology Conference(pp.193-199). School of Information Science and Technology, Chengdu Universtiy.Search in Google Scholar
