This work is licensed under the Creative Commons Attribution 4.0 International License.
Atsız, O. (2021). Virtual reality technology and physical distancing: A review on limiting human interaction in tourism. Journal of multidisciplinary academic tourism, 6(1), 27-35.Search in Google Scholar
Guo, Q., & Ma, G. (2022). Exploration of human-computer interaction system for product design in virtual reality environment based on computer-aided technology. Computer-Aided Design & Applications, 19(S5), 87-98.Search in Google Scholar
Stavroulia, K. E., Christofi, M., Zarraonandia, T., Michael-Grigoriou, D., & Lanitis, A. (2019). Virtual reality environments (VREs) for training and learning. Learning in a Digital World: Perspective on Interactive Technologies for Formal and Informal Education, 195-211.Search in Google Scholar
Carreira, P., Castelo, T., Gomes, C. C., Ferreira, A., Ribeiro, C., & Costa, A. A. (2018). Virtual reality as integration environments for facilities management: Application and users perception. Engineering, Construction and Architectural Management, 25(1), 90-112.Search in Google Scholar
Katona, J. (2021). A review of human–computer interaction and virtual reality research fields in cognitive InfoCommunications. Applied Sciences, 11(6), 2646.Search in Google Scholar
Jiang, S., Wang, L., & Dong, Y. (2021). Application of Virtual Reality Human‐Computer Interaction Technology Based on the Sensor in English Teaching. Journal of Sensors, 2021(1), 2505119.Search in Google Scholar
Wang, Y., & Luo, Y. (2023). Research on Computer Aided Interaction Design based on Virtual reality Technology. Procedia Computer Science, 228, 619-628.Search in Google Scholar
Yang, L. I., Huang, J., Feng, T. I. A. N., Hong-An, W. A. N. G., & Guo-Zhong, D. A. I. (2019). Gesture interaction in virtual reality. Virtual Reality & Intelligent Hardware, 1(1), 84-112.Search in Google Scholar
Wu, D., Yang, Z., Zhang, P., Wang, R., Yang, B., & Ma, X. (2023). Virtual-reality interpromotion technology for metaverse: A survey. IEEE Internet of Things Journal, 10(18), 15788-15809.Search in Google Scholar
Isaak, J., & Hanna, M. J. (2018). User data privacy: Facebook, Cambridge Analytica, and privacy protection. Computer, 51(8), 56-59.Search in Google Scholar
Chao, C. M. (2019). Factors determining the behavioral intention to use mobile learning: An application and extension of the UTAUT model. Frontiers in psychology, 10, 1652.Search in Google Scholar
Sarker, I. H. (2021). Data science and analytics: an overview from data-driven smart computing, decision-making and applications perspective. SN Computer Science, 2(5), 377.Search in Google Scholar
Tao, F., Sui, F., Liu, A., Qi, Q., Zhang, M., Song, B., ... & Nee, A. Y. (2019). Digital twin-driven product design framework. International Journal of Production Research, 57(12), 3935-3953.Search in Google Scholar
Khan, S., Gunpinar, E., & Sener, B. (2019). GenYacht: An interactive generative design system for computer-aided yacht hull design. Ocean Engineering, 191, 106462.Search in Google Scholar
Ye, L., & Zhang, J. (2021, September). Research on Interactive Design of Virtual Reality Products Based on Artificial Intelligence. In 2021 4th International Conference on Information Systems and Computer Aided Education (pp. 2416-2420).Search in Google Scholar
Millais, P., Jones, S. L., & Kelly, R. (2018, April). Exploring data in virtual reality: Comparisons with 2d data visualizations. In Extended abstracts of the 2018 CHI conference on human factors in computing systems (pp. 1-6).Search in Google Scholar
Simpson, M., Zhao, J., & Klippel, A. (2017, October). Take a walk: Evaluating movement types for data visualization in immersive virtual reality. In Proceedings of Workshop on Immersive Analytics (IA) (pp. 1-6). Piscataway, NJ: IEEE.Search in Google Scholar
Huang, H., & Lee, C. F. (2022). Factors affecting usability of 3D model learning in a virtual reality environment. Interactive Learning Environments, 30(5), 848-861.Search in Google Scholar
Ranjan, R., & Kumar, S. S. (2022). User behaviour analysis using data analytics and machine learning to predict malicious user versus legitimate user. High-Confidence Computing, 2(1), 100034.Search in Google Scholar
Nguyen, P. H., Henkin, R., Chen, S., Andrienko, N., Andrienko, G., Thonnard, O., & Turkay, C. (2019). Vasabi: Hierarchical user profiles for interactive visual user behaviour analytics. IEEE transactions on visualization and computer graphics, 26(1), 77-86.Search in Google Scholar
Dash, S., Luhach, A. K., Chilamkurti, N., Baek, S., & Nam, Y. (2019). A Neuro-fuzzy approach for user behaviour classification and prediction. Journal of Cloud Computing, 8(1), 1-15.Search in Google Scholar
Maurya, S., Mougenot, C., & Takeda, Y. (2021). Impact of mixed reality implementation on early-stage interactive product design process. Journal of Engineering Design, 32(1), 1-27.Search in Google Scholar
Rizzuti, S., & De Napoli, L. (2018). An interactive robust design approach in product development. International Journal on Interactive Design and Manufacturing (IJIDeM), 12, 677-688.Search in Google Scholar
Eytam, E., Lowengart, O., & Tractinsky, N. (2021). Effects of visual simplicity in product design and individual differences in preference of interactive products. Review of Managerial Science, 15(5), 1347-1389.Search in Google Scholar
Yan Xiaocong,Liu Feng & Mojtahe Kaza. (2022). Application of Virtual Reality Technology in Visual Optimization of Product Appearance Design. Security and Communication Networks.Search in Google Scholar
Andrew Yarovoi & Yong Kwon Cho. (2024). Review of simultaneous localization and mapping (SLAM) for construction robotics applications. Automation in Construction105344-.Search in Google Scholar
Tai shan Lou,Nanhua Chen & Liangyu Zhao. (2024). Adaptive Fast Desensitized Kalman Filter. Circuits, Systems, and Signal Processing(prepublish),1-23.Search in Google Scholar
Yamashita Naoto. (2022). Principal component analysis constrained by layered simple structures. Advances in Data Analysis and Classification(2),347-367.Search in Google Scholar
Francois Belletti,Minmin Chen & Ed H. Chi. (2019). Quantifying Long Range Dependence in Language and User Behavior to improve RNNs. CoRR.Search in Google Scholar
S. Parshutin,A. Kirshners,Y. Kornijenko,V. Zabiniako,M. Gasparovica-Asite & A. Rozkalns. (2021). Classification with LSTM Networks in User Behaviour Analytics with Unbalanced Environment. Automatic Control and Computer Sciences(1),85-91.Search in Google Scholar
