Skip to main content

Roman Shults

Followers

13

Following

14

Public Views

Interests

Uploads

Papers by Roman Shults

Multi-temporal Remote Sensing Data Analysis for Devastating Flood Study in Northern Libya

Simulation of Inertial Navigation System Errors at Aerial Photography from Uav

The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, May 31, 2017

The problem of accuracy determination of the UAV position using INS at aerial photography can be ... more The problem of accuracy determination of the UAV position using INS at aerial photography can be resolved in two different ways: modelling of measurement errors or in-field calibration for INS. The paper presents the results of INS errors research by mathematical modelling. In paper were considered the following steps: developing of INS computer model; carrying out INS simulation; using reference data without errors, estimation of errors and their influence on maps creation accuracy by UAV data. It must be remembered that the values of orientation angles and the coordinates of the projection centre may change abruptly due to the influence of the atmosphere (different air density, wind, etc.). Therefore, the mathematical model of the INS was constructed taking into account the use of different models of wind gusts. For simulation were used typical characteristics of micro electromechanical (MEMS) INS and parameters of standard atmosphere. According to the simulation established domination of INS systematic errors that accumulate during the execution of photographing and require compensation mechanism, especially for orientation angles. MEMS INS have a high level of noise at the system input. Thanks to the developed model, we are able to investigate separately the impact of noise in the absence of systematic errors. According to the research was found that on the interval of observations in 5 seconds the impact of random and systematic component is almost the same. The developed model of INS errors studies was implemented in Matlab software environment and without problems can be improved and enhanced with new blocks.

The Features of Sports Complex 'Sunkar' Monitoring by Terrestrial Laser Scanning

The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, Jun 13, 2023

The paper is aimed at the study of monitoring workflow in adverse observation conditions for spor... more The paper is aimed at the study of monitoring workflow in adverse observation conditions for sports structures. The application of terrestrial laser scanning for monitoring various objects is well-studied. However, the deployment of TLS for large sports structures is challenging. Such structures have huge sizes, complex geometry and need the control of particular elements. The monitoring gets complicated in the case when the structure is placed on a very steep slope, e.g., ski jumps or bobsleigh tracks. The subject of the presented study is the complex of ski jumps 'Sunkar' emplaced in Almaty, Republic of Kazakhstan. The monitoring network for the complex was created using a robotic total station. Due to the extreme sizes of the object (height 70 m, width 8 m, length over 100 m), TLS was accomplished from all points of the network to ensure the necessary density of point clouds and reliable georeferencing. The main observation parameters were the displacements of the ski jumps regarding the longitudinal axis. To retrieve the axis coordinates, the point cloud was sliced along the ski jump surface. The geometry of the longitudinal axis was simulated using spline functions. As an output, the suggested monitoring workflow is provided that ensures the quality of the necessary results.

Geospatial Monitoring of Engineering Structures as a Part of Bim

The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, Feb 3, 2022

Among the various civil engineering tasks, geospatial monitoring of engineering structures takes ... more Among the various civil engineering tasks, geospatial monitoring of engineering structures takes an essential place. In the digital era, the concept of geospatial monitoring needs a total re-definition. The widespread dissemination of BIM creates new opportunities and challenges simultaneously for the monitoring problem. The presented paper aims to develop the new concept of geospatial monitoring tailored to BIM features and possibilities. The interrelationship of BIM, building life cycle, and geospatial monitoring of engineering structures has been demonstrated. The critical element of geospatial monitoring is its workflow. Up today, BIM is considered separately from monitoring workflow. However, the main stages of geospatial monitoring cannot get by without BIM. That is why the new monitoring workflow with BIM support has been suggested. The workflow takes into account three main stages: design, data collection, and analysis. For each of these stages, the role and application of BIM have been examined. The question of geospatial monitoring design has been addressed, and the new approach to monitoring design with BIM involvement has been suggested. It was pointed out the meaning of BIM for the data collection stage and especially for analysis. The refined concept of geospatial monitoring has been considered as a case study of high-rise building monitoring.

Low-cost Photogrammetry for Culture Heritage

Proccedings of 10th International Conference "Environmental Engineering", Aug 10, 2017

Culture heritage will always remain one of the priorities of any state. Taking a cultural or hist... more Culture heritage will always remain one of the priorities of any state. Taking a cultural or historical object under protection is impossible without inventory. The best technology, which allows getting high-quality inventory, is close-range photogrammetry. Unfortunately, the full capabilities of this technology is fully owned by professionals only. The situation changed significantly with the advent of mobile devices that are equipped with digital cameras and low-cost software that does not require any special knowledge in the theory and practice of photogrammetry. These developments have been called lowcost photogrammetry technologies. In the present study, we examined the use of smartphones and nano UAV and PhotoScan software for solve the problem fortifications II World War inventory near the city of Kiev. For qualitative data, the calibration of digital cameras in smartphones and ultra-light UAV was performed on calibration bench. One of the features of this project was the integration of the terrestrial photos and photos captured by nano UAVs. As a result of work performed were obtained 3D models of fortifications. Results showed high efficiency of the low-cost photogrammetry technologies. At the end of work some practical guidelines were provided, how to get high-quality data using low-cost photogrammetry technologies.

Research of statistical distributing of remaining rejections at different approaches to digital simulation of relief

ScienceRise, Jan 25, 2016

Об'єктом досліджень є рельєф земної поверхні, а предметом досліджень-методи та параметри цифровог... more Об'єктом досліджень є рельєф земної поверхні, а предметом досліджень-методи та параметри цифрового моделювання. Метою роботи є дослідження різних методів математичного моделювання ЦМР за залишковими відхиленнями на контрольних точках. За аналізом залишкових відхилень пропонується встановлювати ступінь адекватності побудованої моделі реальним даним Ключові слова: статистичний аналіз, дисперсія ассимметрії, ексцес, крігінг, радіальна базисна функція, рельєф The object of research is the earth relief, as the subject of researchmethods and parameters of digital simulation. The aim is to study various methods of mathematical simulation for the DEM residual deviations on control points. It is proposed to establish the adequacy of the constructed model with real data for the analysis of residual deviations

Geodetic Substantiation of the Saryarka Copper Ore Region

Izvestiâ Nacionalʹnoj akademii nauk Respubliki Kazahstan. Seriâ geologii i tehničeskih nauk, Dec 15, 2020

NAS RK is pleased to announce that News of NAS RK. Series of geology and technical sciences scien... more NAS RK is pleased to announce that News of NAS RK. Series of geology and technical sciences scientific journal has been accepted for indexing in the Emerging Sources Citation Index, a new edition of Web of Science. Content in this index is under consideration by Clarivate Analytics to be accepted in the Science Citation Index Expanded, the Social Sciences Citation Index, and the Arts & Humanities Citation Index. The quality and depth of content Web of Science offers to researchers, authors, publishers, and institutions sets it apart from other research databases. The inclusion of News of NAS RK. Series of geology and technical sciences in the Emerging Sources Citation Index demonstrates our dedication to providing the most relevant and influential content of geology and engineering sciences to our community. Қазақстан Республикасы Ұлттық ғылым академиясы "ҚР ҰҒА Хабарлары. Геология жəне техникалық ғылымдар сериясы" ғылыми журналының Web of Science-тің жаңаланған нұсқасы Emerging Sources Citation Index-те индекстелуге қабылданғанын хабарлайды. Бұл индекстелу барысында Clarivate Analytics компаниясы журналды одан əрі the Science Citation Index Expanded, the Social Sciences Citation Index жəне the Arts & Humanities Citation Index-ке қабылдау мəселесін қарастыруда. Webof Science зерттеушілер, авторлар, баспашылар мен мекемелерге контент тереңдігі мен сапасын ұсынады. ҚР ҰҒА Хабарлары. Геология жəне техникалық ғылымдар сериясы Emerging Sources Citation Index-ке енуі біздің қоғамдастық үшін ең өзекті жəне беделді геология жəне техникалық ғылымдар бойынша контентке адалдығымызды білдіреді. НАН РК сообщает, что научный журнал «Известия НАН РК. Серия геологии и технических наук» был принят для индексирования в Emerging Sources Citation Index, обновленной версии Web of Science. Содержание в этом индексировании находится в стадии рассмотрения компанией Clarivate Analytics для дальнейшего принятия журнала в the Science Citation Index Expanded, the Social Sciences Citation Index и the Arts & Humanities Citation Index. Web of Science предлагает качество и глубину контента для исследователей, авторов, издателей и учреждений. Включение Известия НАН РК. Серия геологии и технических наук в Emerging Sources Citation Index демонстрирует нашу приверженность к наиболее актуальному и влиятельному контенту по геологии и техническим наукам для нашего сообщества.

New Opportunities of Low-Cost Photogrammetry for Culture Heritage Preservation

The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, May 16, 2017

In the paper, the questions of using the technologies of low-cost photogrammetry in combination w... more In the paper, the questions of using the technologies of low-cost photogrammetry in combination with the additional capabilities of modern smartphones are considered. The research was carried out on the example of documenting the historical construction of the II World War-the Kiev Fortified Region. Brief historical information about the object of research is given. The possibilities of using modern smartphones as measuring instruments are considered. To get high-quality results, the camera of the smartphone was calibrated. The calibration results were used in the future to perform 3D modeling of defense facilities. Photographing of three defense structures in a different state: destroyed, partially destroyed and operating was carried out. Based on the results of photography using code targets, 3D object models were constructed. To verify the accuracy of the 3D modelling, control measurements of the lines between the code targets at the objects were performed. The obtained results are satisfying, and the technology considered in the paper can be recommended for use in performing archaeological and historical studies.

Development and Implementation of Innovative Educational Modules on Architectural Photogrammetry for Bachelor’s Degree Curricula in Architecture

The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, Dec 5, 2019

Modern specialists in the field of architecture work exclusively in three-dimensional space. At t... more Modern specialists in the field of architecture work exclusively in three-dimensional space. At the same time, their training completely ignores the state-of-the-art technologies associated with obtaining three-dimensional models of engineering structures. In such circumstances, the connections between the three key participants in the design and construction of engineering structures, namely architects, builders, and surveyors are broken. The main technology that allows obtaining three-dimensional models is photogrammetry. The purpose of the presented article is to determine the subject matter of close-range photogrammetry in solving architectural design problems. Based on certain architectural tasks, educational modules for the discipline of architectural photogrammetry of the bachelor educational level were developed. The peculiarity of the proposed program is that it is designed in such a way that it allows using the whole complex of the modern achievements in the field of automated image processing and the specifics of setting and solving architectural problems. At the same time, this program covers such modern technologies and concepts as UAV photogrammetry, digital photogrammetry, photogrammetric scanning, BIM, GIS, etc. Such an approach allows students without problems to learn several special knowledge, which is owned by surveyors and photogrammetrists. The approximate content of the course of architectural photogrammetry for bachelor students is presented.

Structural analysis of monitoring results of long-span roof structures

The concept of analysis of geodetic monitoring results solely from a geometric point of view is r... more The concept of analysis of geodetic monitoring results solely from a geometric point of view is recognized as an obsolete approach. A complex analysis of geodetic measurements (geometric approach) and the structure stress-strain analysis (mechanical approach) allows obtaining the whole picture of any engineering structure displacements. The detailed scheme of the structural analysis of geospatial monitoring results of the long-span roof structures has been given in the presented paper. The results of the geospatial monitoring of the large warehouse have been chosen as a study subject. The structure's roof consists of planar trusses, the main objects of external loads combined with dead loads. According to the complex analysis procedure, the trusses were analyzed using the method of joints with the determination of partial member forces. At the next step, these forces were leveraged in the following order member force-member deformation-node displacement. To obtain the actual displacements of the truss nodes, one has to account for the vertical displacements of the leaning points where the truss touched the column. That step is also being accomplished using the method of joints. Having the actual node displacements, one may compare them with geodetic monitoring results. The comparison results generally allow us to reveal the places with unacceptable displacements and estimate whether they are determined with the necessary accuracy. In this particular case, the final node's displacements were yielded as an output of combined analysis, both geometric and mechanical. That, in turn, lets to acquire the deformation process's genuine parameters. The study results have shown the high efficiency of the presented research methodology.

The Models of Structural Mechanics for Geodetic Accuracy Assignment: A Case Study of the Finite Element Method

Springer proceedings in earth and environmental sciences, Oct 20, 2020

It is well-known that two of the third parts of geodetic works comprise staking-out works and geo... more It is well-known that two of the third parts of geodetic works comprise staking-out works and geodetic monitoring. Both of these tasks of applied geodesy as a scientific discipline face with the question of the measurement accuracy assignment. There are many ways how to assign an appropriate accuracy of measurements. However, all of them lack a rigorous approach. There is only one right way that consists of using the structural mechanics’ models for the calculation of probable construction displacements to assign the appropriate accuracy as a part of total construction’s displacements. The measurements’ accuracy is being treated as a function of those displacements. Geodesists have to have special skills in the structures’ design and simulation to find such displacements, which, in turn, is a complicated task. The solution is in using the finite element method (FEM) that allows modeling large structures with straightforward computations. The paper considers the general idea of the FEM and its models with the application to the geodetic accuracy assignment. Based on these models, the general approach for the accuracy assignment was developed and implemented. As a hands-on example, the different structures were analyzed, and its finite element models were constructed. For the case of staking-out works, the problem of high-rise building erection was considered. The FEM simulation allowed us to determine the influence of the structure displacements on the accuracy of staking-out works. The geodetic monitoring problem was studied on the example of underground structures. For this structure, the FEM simulation was carried out. By the simulation results, an appropriate accuracy of monitoring was assigned.

Role and importance of geodynamics in geodetic surveys in production areas

Habaršy - A̋l-Farabi atyndag̣y K̦azak̦ memlekettik ụlttyk̦ universiteti, 2020

In science geodynamics has been actively developing as a new direction recently, especially in th... more In science geodynamics has been actively developing as a new direction recently, especially in the last decade. For the first time this term was described in A. Liyav's monograph 90 years ago. A. Liyav himself formed this term as a relationship of the Earth and space factors, as well as a legal regmatic formation of cracks-light grid on the entire surface of the bottom and the entire planet surface. In the last 20 years, the meaning of geodynamics is often used in a slightly modified version, so geodynamics has become understood as the whole complex of development processes inside the Earth. In the foreign literature, geodynamics is understood to be a branch of geology engaged in the study of forces and processes that occur only in the interior of the Earth and cause the formation of disorderly structures and deformations in its shells. Subsequently, E. Og considered geodynamics as a section of tectonics, studying the forces affecting the planet and phenomena occurring on its surface. In other foreign sources, modern geodynamics is the science of Earth's movements in real time, which can be measured, identified and explained in the language of fundamental sciences. The purpose and task of this work is to make a general overview of the results of geodesic research in geodynamics, considering geodynamics as a new direction of science.

Preliminary Determination of Spatial Geodetic Monitoring Accuracy for Free Station Method

Geodetski List, Dec 31, 2016

In this paper, one of the modern spatial geodetic monitoring method was described: a free station... more In this paper, one of the modern spatial geodetic monitoring method was described: a free station method. This method is effectively used during monitoring of displacements for buildings and constructions under dynamic load. Theoretical prove for rigorous preliminary computing of displacements determination accuracy using free station method was done. The analysis of errors, which influence on the accuracy of spatial monitoring, was presented. It was found out that errors of initial survey network, errors of free station coordinates and errors of spatial monitoring targets coordinates were influencing on the accuracy of measured displacements using the free station method. Using the covariance transformation rules, rigorous formulas for preliminary calculation of displacement determination accuracy were obtained. Experimental calculations were carried out using these rigorous formulas, deploying practical results of spatial geodetic monitoring of transport structure situated in the zone of metro line underground construction. Executed calculations proved that chosen method of spatial deformation monitoring and equipment accuracy conformed the design requirements.

The research of inertial navigation system systematic errors at aerial photography from unmanned aerial vehicles

ScienceRise, 2015

Виконано аналіз сучасного стану аерофотознімання з використанням безпілотних літальних апаратів. ... more Виконано аналіз сучасного стану аерофотознімання з використанням безпілотних літальних апаратів. Встановлено доцільність використання мініатюрних інерціальних навігаційних систем. Побудовано комп'ютерну модель мініатюрної електромеханічної інерціальної навігаційної системи. За допомогою розробленої моделі виконано дослідження впливу систематичних похибок акселерометрів та гіроскопів на точність визначення місцеположення інерціальною навігаційною системою при аерофотозніманні з безпілотних літальних апаратів Ключові слова: безпілотний літальний апарат, аерофотознімання, інерціальна навігаційна система, систематичний зсув акселерометра, систематичний зсув гіроскопа, точність місцеположення The analysis of the status of aerial photography using unmanned aerial vehicles was performed. The feasibility of the use of miniature inertial navigation systems is proved. The computer model of a miniature electromechanical inertial navigation system was built. With the help of the developed model study of systematic errors of accelerometers and gyroscopes for position accuracy inertial navigation system at aerial photography using unmanned aerial vehicles was carried out

Bim and Uav Photogrammetry for Spatial Structures Sustainability Inventory

The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, Jun 13, 2023

The paper describes the basic concept of the integration between UAV surveying results and BIM. A... more The paper describes the basic concept of the integration between UAV surveying results and BIM. As a case study, it was considered the large spatial shell that served as a hangar for the Antonov An-225 Mriya, the largest in the world strategic cargo aircraft with a maximum takeoff weight of 640 tons. Due to an explosion inside, the hangar and aircraft were significantly damaged. The key point of the study is the damage estimation by analysis and modeling of this unique engineering structure. The study has included several steps: hangar structure documentation (before damage), UAV surveying of the hangar (for ongoing condition estimation), terrestrial measurements for the control, and integration of 3D models inside BIM for structural analysis. Deploying the UAV allowed us to generate detailed 3D models of the hangar by means of photogrammetry and computer vision methods. The inclusion of the field geodetic measurements into the processing made it possible to increase significantly positioning accuracy of the results to the subcentimeter level and served as a ground truth for the models obtained based on UAV sensors data. The results proved the feasibility of BIM and UAV photogrammetry for the hangar stability model development and practical verification based on geospatial and structural engineering data.

Визначення кренів інженерних споруд методом наземного лазерного сканування

Analysis of Overpass Displacements Due to Subway Construction Land Subsidence Using Machine Learning

Urban Science

Modern cities are full of complex and substantial engineering structures that differ by their geo... more Modern cities are full of complex and substantial engineering structures that differ by their geometry, sizes, operating conditions, and technologies used in their construction. During the engineering structures’ life cycle, they experience the effects of construction, environmental, and functional loads. Among those structures are bridges and road overpasses. The primary reason for these structures’ displacements is land subsidence. The paper addresses a particular case of geospatial monitoring of a road overpass that is affected by external loads invoked by the construction of a new subway line. The study examines the methods of machine learning data analysis and prediction for geospatial monitoring data. The monitoring data were gathered in automatic mode using a robotic total station with a frequency of 30 min, and were averaged daily. Regression analysis and neural network regression with machine learning have been tested on geospatial monitoring data. Apart from the determined...

Different Approaches to Coordinate Transformation Parameters Determination of Nonhomogeneous Coordinate Systems

During reconstruction and restoration of city geodetic networks, there is quite a common problem ... more During reconstruction and restoration of city geodetic networks, there is quite a common problem that is related to the nonhomogeneity of existing geodetic networks. In any city, local authorities operate with their coordinate systems. Such conditions lead to inconsistency between data of different services. There is only one way how to overcome the problem that lies in the creation and deployment of the new common coordinate system for the whole city. But such an approach has a lack connected with the necessity of transformation parameters acquisition for the latest and old coordinate systems. Insofar as old coordinate systems had been created with different accuracy, using various equipment, and measuring technologies, it is not possible to consider them as homogeneous. It means that we cannot use a classical conformal Helmert transformation to link different coordinate systems. In the presented paper were studied the different approaches for transformation parameters acquisition. A case study of the Almaty city coordinate system was researched and compared the following methods: Helmert transformation, bilinear transformation, the second and third-order regression transformation, and the fourth-order conformal polynomial transformation. It was found out that neither of the considered methods maintains the necessary transformation accuracy (>5 cm). That is why the creation of the transformation field using the finite element method (FEM) was suggested. The whole city was divided into triangles using Delaunay triangulation. For each triangle, the transformation parameters were found using affine transformation with the necessary accuracy.

GNSS-Assisted Low-Cost Vision-Based Observation System for Deformation Monitoring

Applied sciences, Feb 22, 2023

This article is an open access article distributed under the terms and conditions of the Creative... more

Geospatial Monitoring and Structural Mechanics Models: a Case Study of Sports Structures

The task of geospatial monitoring is one of the most common in the practice of geodetic works. In... more The task of geospatial monitoring is one of the most common in the practice of geodetic works. In the twentieth century, the basic principles for carrying out geospatial monitoring, accuracy calculation, observation intervals assignment, and data simulation were developed. However, since that time, both the building and geodetic technologies have been changed considerably. Among modern engineering structures, the building technology of which has undergone significant changes are sport structures. The use of the state-of-the-art sport structures is associated with the presence of specific loads, name a few: the impact of a vast number of spectators (e.g., stadiums, cycle tracks, etc.) or loads directly from the competitions equipment (e.g., bobsleigh tracks, race tracks, etc.). The primary goal of the presented paper is to develop a general approach to the preliminary accuracy calculation of the geospatial monitoring of the sports structures using the methods of structural mechanics. As an example, a football stadium was considered. Based on the simulation, the improved technology of geospatial monitoring for the sports structure was suggested. The in-depth analysis of the creation of geodetic networks for geospatial monitoring was accomplished. At the final step, the results of geospatial monitoring for the football stadium were analyzed, and hands-on recommendations were made.