Vladimir Semenov
Background
Higher education, Doctor of Technical Sciences, Professor.
In
In 1998 - 2003 . He was the head of the development of the STARK-ES software package for strength analysis of building and machine-building structures using the finite element method.
From 1992 to the present, he has been the head of the development of the computational part of the software package for finite element calculations of building structures for strength, stability, vibrations of MicroFe and the STATICS software package for calculations and construction of reinforced concrete, steel elements of building structures, foundations and retaining walls.
Topics of presentations
- The effect of accounting for parametric fluctuations during seismic impacts
- Features of calculating the fire resistance of building structures
- Features of determining the pulsation component of the wind load, taking into account Amendment No. 5 of SP 20.13330.2016 "SNiP 2.01.07-85* Loads and impacts" using examples of some building structures
- On estimated estimates of earthquake resistance of buildings and structures
- Examples of using Ritz functions for calculations of seismic impacts using the linear spectral method and progressive collapse using the dynamic method
- The peculiarities of taking into account the physically nonlinear operation of structures when calculating buildings and structures for seismic effects
- Features of determining the pulsation component of the wind load using examples of some building structures
2022: What's new? Multi-matrix dynamics, estimated lengths - Calculation of linear and nonlinear systems for the pulsation component of the wind load using the linear spectral method
- "Normative" bearing capacity surfaces of reinforced concrete and steel elements in calculations for progressive collapse and requirements of SP 385.1325800.2018.
- Examination of design schemes of load-bearing structures: typical errors when working within the framework of BIM technologies.
- Structural modeling and calculations for seismic impacts in the integrated ing+ system (calculation for multilevel impacts, verification calculations, calculations for progressive collapse)
- The use of digital object models in the framework of BIM systems for the automated construction of computational models and schemes
- Modern standards for the design of critical structures and their requirements for computational models (digital models of objects)
- Determination of the maximum loads of building structures using the "standard" bearing capacity surfaces of reinforced concrete and steel elements
- Examination of design schemes of load-bearing structures: typical errors.
- Implementation of the advanced training program for calculation engineers at the Moscow Power Engineering Institute and regional sites (practical experience of Techsoft LLC)
- Computer modeling of refinement of finite element models of buildings and structures based on the results of measurements of their dynamic characteristics: implementation in a MicroFE PC
- Computer modeling of computational schemes of buildings and structures based on BIM technologies: implementation in MicroFe PC
- Issues of calculation of steel-reinforced concrete floors in the framework of the development of the SRT ARSS "Steel-reinforced concrete structures"
- Application of Micro FE software products for structural modeling and computational design of high-rise and unique objects
- Computer simulation of dynamic characteristics management of high–rise buildings is the basis of active earthquake extinguishing systems