1. Plotnikov, A.N., Ivanov, M.Y.: Monitoring system of high-rise buildings, determined from the nature of the curvature of the elastic line of vertical elements. Constr. Sci. Educ. 9(4). Art. 3 (2019). http://nso-journal.ru. https://doi.org/10.22227/2305-5502.2019.4.3
2. Li, J., Hao, H.: A review of recent research advances on structural health monitoring in Western Australia. Struct. Monit. Maintenance 3(1), 33–49 (2016). https://doi.org/10.12989/smm.2016.3.1.033
3. Quesada-Olmo, N., Jimenez-Martinez, M.J., Farjas-Abadia, M.: Real-time high-rise building monitoring system using global navigation satellite system technology. Measurement 123, 115–124 (2018). https://doi.org/10.1016/j.measurement.2018.03.054
4. Plotnikov, A.N., Ivanov, M.Yu., Porfirieva, E.N.: Informativeness of monitoring systems for high-rise buildings from the principle of minimizing the number of sensors. New in architecture, design of building structures and reconstruction: mat. IV Int. (X All-Russian) Conf. NASKR-2018, pp. 267–277. Chuvash State University, Cheboksary (2018) (rus)
5. Nikolaeva, A.G.: Modeling of design schemes of panel buildings when calculating for progressive collapse. In: Nikolaeva, A.G., Ivanova, N.V., Gorbunova, I.S. (eds.) Modern Problems of Continuum Mechanics—2019: Collection of Articles. Art. Based on the Materials of the Conference from the International. Participation, pp. 128–134. Publishing House “Wednesday”, Cheboksary, (2019) (rus)