关于
ENTEL
Soundy.ai由ENTEL开发。ENTEL Engineering Research & Consulting Ltd.成立于1990年,总部位于布达佩斯,是ICT、声学设计和产品开发解决方案的综合服务中心。我们的产品销往全球一百多个国家。
技术
Soundy.ai是一款AI辅助的协作式建筑与汽车声学设计工具,包含数值仿真、隔声建模、室内声学、HVAC噪声和隔振等模块。
Soundy背后的技术是多层次的,支持使用建筑声学标准进行实施和合规性检查,涵盖统计方法、数值和有限元方法,以及引入数个数量级计算加速的先进机器学习技术。
学术发表
Soundy中使用的多种算法和方法已在国际学术期刊和会议上公开发表:
- B. Bakos, C. Huszty, G. Firtha, F. Izsák, A. Lukács: HERMES: A Physics-informed Hierarchical Mesh Transformer for Real-time Room Eigenfrequency Prediction. Forum Acusticum 2026. (submitted)
- C. Huszty, G. Firtha, F. Izsák: Practical Features and Performance of the Symplectic Time-Domain and Modal FEM Methods of Soundy for Car Interior Acoustic Predictions. Journal of Physics: Conference Series, 3190(1), 012012, 2026.
- B. Bakos, G. Hidy, B. Csanády, C. Huszty, A. Lukács: Estimating Room Acoustic Descriptors from Bag-of-Vectors Representation with Transformers. Engineering Applications of Artificial Intelligence, 145, 110183, 2025.
- C. Huszty, G. Firtha: New Method to Predict Applicability Limits of the Sabine and Eyring Equations Based on a Large Number of Rooms. Forum Acusticum 2023, Proceedings of the 10th Convention of the European Acoustics Association, pp. 4979–4986, 2023.
- G. Firtha, C. Huszty: Measurement Based Absorption Characteristics Estimation of Extended Reactive Surfaces. Forum Acusticum 2023, Proceedings of the 10th Convention of the European Acoustics Association, pp. 4971–4978, 2023.
- C. Huszty, B. Bakos, B. Csanády, G. Hidy, A. Lukács: Prediction of Room Acoustic Parameters in Rectangular Rooms Using Recurrent Neural Networks. INTER-NOISE 2023, Chiba, Japan, pp. 3058–3069. DOI: 10.3397/IN_2023_0444
- G. Firtha, C. Huszty: A 3D Modeling Method of Layered Acoustic Material Structures with Finite Dimensions. INTER-NOISE 2023, Chiba, Japan, pp. 3133–3144. DOI: 10.3397/IN_2023_0452
- C. Huszty, G. Firtha: Prediction of Surface Admittance Impulse Responses from Frequency-Dependent Sound Absorption Coefficients. INTER-NOISE 2023, Chiba, Japan, pp. 6055–6064.
- C. Huszty, F. Izsák: Symplectic Time-Domain Finite Element Method (STD-FEM) for Room Acoustic Modeling. INTER-NOISE 2023, Chiba, Japan, pp. 3089–3099.
- C. Huszty, G. Firtha, F. Izsák: Symplectic Time-Domain Finite Element Method (STD-FEM) Extended with Wave Propagation in Porous Materials for Automotive Interior Acoustic Modeling. Journal of Physics: Conference Series, 2677(1), 012010, 2023.
资金支持
Soundy的研发工作由Entel和国家研究、开发与创新局(NKFIH)以及DIMOP_PLUSZ-1.1.2/A-24计划的资助共同支持。