Optimizing Test and Inspection Operations in Complex Engineering Products

Improving the efficiency of life cycle management of capital construction projects using information modeling technologies is one of the important tasks of the construction industry. The paper presents an analysis of accumulated domestic practices, including the legal and regulatory framework, assessing the effectiveness of managing the implementation of investment construction projects and of complex and serial capital construction projects, as well as the life cycle management of especially dangerous technically complex and unique capital construction projects using information modeling technologies, especially capital construction projects, as well as their supporting and using systems, primarily in the nuclear and transport sectors. A review of modern approaches to assessing the effectiveness of life cycle management systems of complex engineering systems in relation to capital construction projects is carried out. The presented material will make it possible to formulate the basic principles and prospects of applying approaches to assessing the effectiveness of the life cycle management system of a capital construction project using information modeling technologies.

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Engineering-Geological Studies Of The Territory, Soils Of Foundation And Foundations Of The Architectural Monument Of The "Melnikov’s House" In Moscow

Promyshlennoe i Grazhdanskoe Stroitel stvo ◽

10.33622/0869-7019.2019.05.41-51 ◽

2019 ◽

pp. 41-51

Keyword(s):

Working Condition ◽

Overlying Water ◽

North East ◽

The North ◽

Geological Processes ◽

Architectural Monument ◽

Geological Conditions ◽

Zone Of Influence ◽

Complex Engineering ◽

Building Engineering

On the basis of engineering and design surveys of the building, engineering-geological and geophysical studies of the soils of the territory conducted by the article authors, as well as with due regard for the results of studies conducted on this territory by other authors, the features of the foundations, soils of their foundation and engineering-geological conditions of the territory of the Melnikov House are established. It is shown that the Melnikov house is located under complex engineering-geological conditions on the territory of high geological risk, in the zone of influence of tectonic disturbance. To the North of the area there is a zone of intersection of the observed disturbance with a larger disturbance that can have an impact on geological processes. To the North-East of the site of the Melnikov House, a sharp immersion of the roof of carbon deposits was revealed. It promotes groundwater seepage into limestone of the carbonate strata from overlying water-bearing sands and activation of processes of suffusion removal and sinkhole phenomena of the soil. The surveyed area is assessed as potentially karst-hazardous and adjacent to it from the North-East territory as karst-dangerous. In this regard any construction on the adjacent territory can provoke activation of sinkhole phenomena on the surface. The foundations of the building are basically in working condition. Existing defects can be eliminated during repair. The foundation soils mainly have sufficient bearing capacity. Areas of the base with bulk soil can be reinforced. However, when developing a project for the reconstruction of the building and its territory, it should be taken into account that the design of the Melnikov House does not provide for its operation on the loads at the formation of sinkholes.

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STATE PREDICTION AND CONDITION-BASED MAINTENANCE OF COMPLEX ENGINEERING SYSTEMS UNDER HEAVY-DUTY SERVICE

Reliability and Quality of Complex Systems ◽

10.21685/2307-4205-2020-3-1 ◽

2020 ◽

Author(s):

O. V. Abramov ◽

Keyword(s):

Condition Based Maintenance ◽

Engineering Systems ◽

Heavy Duty ◽

State Prediction ◽

Complex Engineering ◽

Complex Engineering Systems

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A Review of Methods to Study Resilience of Complex Engineering and Engineered Systems

IEEE Access ◽

10.1109/access.2020.2992239 ◽

2020 ◽

Vol 8 ◽

pp. 87775-87799 ◽

Cited By ~ 1

Author(s):

S. Neda Naghshbandi ◽

Liz Varga ◽

Alan Purvis ◽

Richard Mcwilliam ◽

Edmondo Minisci ◽

...

Keyword(s):

Complex Engineering ◽

Engineered Systems

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Methodology for Increasing the Efficiency of Dynamic Process Calculations in Elastic Elements of Complex Engineering Constructions

Electronics ◽

10.3390/electronics10010040 ◽

2020 ◽

Vol 10 (1) ◽

pp. 40

Author(s):

Andriy Andrukhiv ◽

Maria Sokil ◽

Solomiia Fedushko ◽

Yuriy Syerov ◽

Yaryna Kalambet ◽

...

Keyword(s):

Dynamic Process ◽

Granular Media ◽

Homogeneous Medium ◽

Dynamic Processes ◽

Analytical Relationship ◽

Operational Parameters ◽

Protective Capacity ◽

Vibration Displacement ◽

Complex Engineering ◽

Elastic Elements

This study deals with a methodology for increasing the efficiency of dynamic process calculations in elastic elements of complex engineering constructions. We studied the complex dynamic processes in a simple engineering construction, a mechanical system of an elastic body–continuous flow of homogeneous medium. The developed methodology is based on the use of a priori information on some of the vibrations forms, the construction of a “simplified” mathematical model of system dynamics, and the obtaining of an analytical relationship that describe the overall range of factors on the elastic vibrations of system. The methodology is used for cases of complex vibrations of elastic bodies, and the obtained results can serve as a basis for choosing the main technological and operational parameters of elastic elements of mechanisms and machines that perform complex vibrations. The results obtained in this work are the basis for calculating the blast effect on the elements of protective structures in order to increase their protective capacity by improving the method of their attachment or by using additional reinforcement, buff load effects on the elements of drilling strings and dynamic processes that occur during surface strengthening by work hardening in order to avoid resonance phenomena, and technological processes of vibration displacement or vibration separation of granular media.

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A Unique Transdisciplinary Engineering-Based Integrated Approach for the Design of Temporary Refugee Housing Using Kano, HOQ/QFD, TRIZ, AD, ISM and DSM Tools

Designs ◽

10.3390/designs5020031 ◽

2021 ◽

Vol 5 (2) ◽

pp. 31

Author(s):

Daniel Moran ◽

Atila Ertas ◽

Utku Gulbulak

Keyword(s):

Rural Areas ◽

Social Issues ◽

Integrated Approach ◽

Interpretive Structural Modeling ◽

Design Problems ◽

Design Structure ◽

Function Design ◽

Complex Engineering ◽

Design Conflicts

The continued displacement of refugees from their homes and homelands (now greater than 50 million people worldwide) places increased focus and attention on evolving the designs of temporary housing that is available to be provided to the refugee population, especially in rural areas where housing does not already exist and must be constructed in very little time. Complex engineering problems involving social issues, such as this case study, benefit from the use of Integrated Transdisciplinary (TD) Tools (ITDT) to effectively and efficiently address the design questions related to them. The integrated use of TD Tools such as Kano Analysis, KJ Diagrams, Critical to Quality (CTQ), House of Quality (HOQ)/Quality Function Design (QFD), Theory of Inventive Problem Solving (TRIZ), Axiomatic Design (AD), Interpretive Structural Modeling (ISM), and Design Structure Matrix (DSM) through an end-to-end unique design process leads to innovation and elimination of design conflicts for especially complicated design problems. The objective of this study is to examine the design of temporary refugee housing using integrated TD tools mentioned above. This research concludes that the use of the ITDT approach provides an innovative, decoupled design.

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CONCEPTUAL DESIGN FOR ASSEMBLY IN AEROSPACE INDUSTRY: SENSITIVITY ANALYSIS OF MATHEMATICAL FRAMEWORK AND DESIGN PARAMETERS

Proceedings of the Design Society ◽

10.1017/pds.2021.73 ◽

2021 ◽

Vol 1 ◽

pp. 731-740

Author(s):

Giovanni Formentini ◽

Claudio Favi ◽

Claude Cuiller ◽

Pierre-Eric Dereux ◽

Francois Bouissiere ◽

...

Keyword(s):

Sensitivity Analysis ◽

Conceptual Design ◽

Design Parameters ◽

Design For Assembly ◽

Mathematical Framework ◽

Commercial Aircraft ◽

System Architectures ◽

Complex Engineering ◽

Aircraft System ◽

Definition Of

AbstractOne of the most challenging activity in the engineering design process is the definition of a framework (model and parameters) for the characterization of specific processes such as installation and assembly. Aircraft system architectures are complex structures used to understand relation among elements (modules) inside an aircraft and its evaluation is one of the first activity since the conceptual design. The assessment of aircraft architectures, from the assembly perspective, requires parameter identification as well as the definition of the overall analysis framework (i.e., mathematical models, equations).The paper aims at the analysis of a mathematical framework (structure, equations and parameters) developed to assess the fit for assembly performances of aircraft system architectures by the mean of sensitivity analysis (One-Factor-At-Time method). The sensitivity analysis was performed on a complex engineering framework, i.e. the Conceptual Design for Assembly (CDfA) methodology, which is characterized by level, domains and attributes (parameters). A commercial aircraft cabin system was used as a case study to understand the use of different mathematical operators as well as the way to cluster attributes.

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Risk-averse optimization for resilience enhancement of complex engineering systems under uncertainties

Reliability Engineering & System Safety ◽

10.1016/j.ress.2021.107836 ◽

2021 ◽

pp. 107836

Author(s):

Jiaxin Wu ◽

Pingfeng Wang

Keyword(s):

Risk Averse ◽

Engineering Systems ◽

Complex Engineering ◽

Complex Engineering Systems

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A Novel Paradigm for Engineering Education: Virtual Internships With Individualized Mentoring and Assessment of Engineering Thinking

Journal of Biomechanical Engineering ◽

10.1115/1.4029235 ◽

2015 ◽

Vol 137 (2) ◽

Cited By ~ 12

Author(s):

Naomi C. Chesler ◽

A. R. Ruis ◽

Wesley Collier ◽

Zachari Swiecki ◽

Golnaz Arastoopour ◽

...

Keyword(s):

Engineering Education ◽

First Year ◽

Collaborative Environment ◽

Large Numbers ◽

Engineering Problems ◽

Complex Engineering ◽

Potential Impact

Engineering virtual internships are a novel paradigm for providing authentic engineering experiences in the first-year curriculum. They are both individualized and accommodate large numbers of students. As we describe in this report, this approach can (a) enable students to solve complex engineering problems in a mentored, collaborative environment; (b) allow educators to assess engineering thinking; and (c) provide an introductory experience that students enjoy and find valuable. Furthermore, engineering virtual internships have been shown to increase students'—and especially women's—interest in and motivation to pursue engineering degrees. When implemented in first-year engineering curricula more broadly, the potential impact of engineering virtual internships on the size and diversity of the engineering workforce could be dramatic.

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