scholarly journals An integrated approach to calculate life cycle costs of arms and military equipment

2013 ◽  
Vol 61 (4) ◽  
pp. 138-160 ◽  
Author(s):  
Vlada S. Sokolović ◽  
Marko D. Andrejić ◽  
Srđan D. Ljubojević
Keyword(s):  
Life Cycle ◽  
Integrated Approach ◽  
Life Cycle Costs ◽  
Military Equipment

scholarly journals Analysis of the implementation of the budget and defence planning in the Ministry Defence of Ukraine and the Armed Forces of Ukraine in the context of weapons and military equipment

2019 ◽  
Vol 9 (5) ◽  
pp. 174-189
Author(s):  
Pavlo Parkhomenko ◽  
Michael Lavruk ◽  
Ivan Tkach
Keyword(s):  
Life Cycle ◽  
Armed Forces ◽  
Development Planning ◽  
Life Cycle Costs ◽  
Foreign Experience ◽  
Military Equipment ◽  
Domestic Practice ◽  
Technical And Economic Indicators ◽  
Research Recommendations ◽  
Defense Planning

The article discusses the main approaches to the organization of budgetary and defense planning in the Ministry of Defense of Ukraine and the Armed Forces of Ukraine in the context of the development of weapons and military equipment. The study focuses on the feasibility and necessity of bringing budgetary and defense planning to the best world practices applied by the world's leading countries, including on arms development planning, taking into account the life-cycle costs of weapons and military equipment. The generalized and substantiated views in the scientific and practical environment in Ukraine on the ways and problematic issues of introducing foreign experience of planning arms development into domestic practice. According to the results of the research, recommendations were made for the formation of technical and economic indicators of the life cycle of weapons and military equipment, which take place in the scientific and practical environment of customers and contractors of weapons.

An Integrated Approach to Pipeline Buoyancy Control and Implementation

2004 ◽  
Author(s):  
Lance N. Thomas ◽  
James Henderson
Keyword(s):  
Life Cycle ◽  
Integrated Approach ◽  
Lessons Learned ◽  
Life Cycle Costs ◽  
Case Study Approach ◽  
Study Approach ◽  
Construction Strategies ◽  
Buoyancy Control

A case study approach clearly demonstrates how to integrate various investigative methods with design, procurement, contracting and construction strategies to significantly reduce life cycle costs for a recently constructed operating pipeline. Emergent strategies based on lessons learned throughout the process are presented based on an after construction review.

scholarly journals SUSTAINABILITY AND RESILIENCE IN THE REHABILITATION OF ROAD INFRASTRUCTURES AFTER AN EXTREME EVENT: AN INTEGRATED APPROACH

2017 ◽  
Vol 12 (3) ◽  
pp. 154-160 ◽  
Author(s):  
Marinella Giunta
Keyword(s):  
Life Cycle ◽  
Efficient Solution ◽  
Social Issues ◽  
Extreme Event ◽  
Integrated Approach ◽  
The Other ◽  
Future Generations ◽  
Life Cycle Costs ◽  
Road Design ◽  
Maintenance And Rehabilitation

For road infrastructures, the concepts of sustainability and resilience are becoming more and more relevant. The sustainability is closely linked with the concept of development that meets the needs of the present without compromising the ability of future generations to meet their own needs. The resilience is usually connected with the occurrence of extreme events or unusual disturbances (earthquake, landslide, floods) during the life cycle of infrastructures and refers to their ability of recover the previous functionality. Usually, the two concepts that account for two desired qualities of the infrastructures are applied following separate approaches. Better choices in road design, maintenance and rehabilitation should lead to an improvement of both qualities. On the other hand, an in deep analysis of the sustainability and resilience demonstrates a significant number of similar characteristics. In the light of the above premises, in the present paper, the suitability of an integrated approach in the choice of the rehabilitation alternatives after an extreme event is evaluated. A method to assess the sustainability, based on life cycle costs, and to estimate the resilience is setup. It resulted that an integrated perspective can be pursued and both resilience and sustainability allow addressing an appropriate amount of technical, economic and environmental/social issues and can lead to identifying the most efficient solution of rehabilitation.

Life-Cycle Costs of Selected Uniformed Health Professions (Phase II: The Impact of Constraints and Policies on the Optimal-Mix-of-Accession Model)

2003 ◽  
Author(s):  
Shayne Brannman ◽  
Eric W. Christensen ◽  
Ronald H. Nickel ◽  
Cori Rattelman ◽  
Richard D. Miller
Keyword(s):  
Life Cycle ◽  
Phase Ii ◽  
Health Professions ◽  
Life Cycle Costs ◽  
Optimal Mix ◽  
The Impact

scholarly journals Evaluating Life Cycle of Buildings Using an Integrated Approach Based on Quantitative-Qualitative and Simplified Best-Worst Methods (QQM-SBWM)

2021 ◽  
Vol 13 (8) ◽  
pp. 4487
Author(s):  
Maghsoud Amiri ◽  
Mohammad Hashemi-Tabatabaei ◽  
Mohammad Ghahremanloo ◽  
Mehdi Keshavarz-Ghorabaee ◽  
Edmundas Kazimieras Zavadskas ◽  
...  
Keyword(s):  
Life Cycle ◽  
Computer Software ◽  
Integrated Approach ◽  
Comfort Level ◽  
Combination Method ◽  
New Combination ◽  
Numerical Examples ◽  
Environmental Consequences ◽  
Time Required

Evaluating the life cycle of buildings is a valuable tool for assessing sustainability and analyzing environmental consequences throughout the construction operations of buildings. In this study, in order to determine the importance of building life cycle evaluation indicators, a new combination method was used based on a quantitative-qualitative method (QQM) and a simplified best-worst method (SBWM). The SBWM method was used because it simplifies BWM calculations and does not require solving complex mathematical models. Reducing the time required to perform calculations and eliminating the need for complicated computer software are among the advantages of the proposed method. The QQM method has also been used due to its ability to evaluate quantitative and qualitative criteria simultaneously. The feasibility and applicability of the SBWM were examined using three numerical examples and a case study, and the results were evaluated. The results of the case study showed that the criteria of the estimated cost, comfort level, and basic floor area were, in order, the most important criteria among the others. The results of the numerical examples and the case study showed that the proposed method had a lower total deviation (TD) compared to the basic BWM. Sensitivity analysis results also confirmed that the proposed approach has a high degree of robustness for ranking and weighting criteria.

Impacts of Various Maintenance Tasks on Life-cycle Costs of a Power Grid Project

2020 ◽  
Author(s):  
Shuyan Zhang ◽  
Shuyin Duan ◽  
Fushuan Wen ◽  
Farhad Shahnia ◽  
Qingfang Chen ◽  
...  
Keyword(s):  
Life Cycle ◽  
Power Grid ◽  
Life Cycle Costs

scholarly journals Impact of Cycle Time and Payload of an Industrial Robot on Resource Efficiency

Robotics ◽  
2021 ◽  
Vol 10 (1) ◽  
pp. 33
Author(s):  
Florian Stuhlenmiller ◽  
Steffi Weyand ◽  
Jens Jungblut ◽  
Liselotte Schebek ◽  
Debora Clever ◽  
...  
Keyword(s):  
Life Cycle Assessment ◽  
Life Cycle ◽  
Energy Consumption ◽  
Greenhouse Gas Emissions ◽  
Greenhouse Gas ◽  
Resource Efficiency ◽  
Life Cycle Costs ◽  
Gas Emissions ◽  
Cycle Times ◽  
The Individual

Modern industry benefits from the automation capabilities and flexibility of robots. Consequently, the performance depends on the individual task, robot and trajectory, while application periods of several years lead to a significant impact of the use phase on the resource efficiency. In this work, simulation models predicting a robot’s energy consumption are extended by an estimation of the reliability, enabling the consideration of maintenance to enhance the assessment of the application’s life cycle costs. Furthermore, a life cycle assessment yields the greenhouse gas emissions for the individual application. Potential benefits of the combination of motion simulation and cost analysis are highlighted by the application to an exemplary system. For the selected application, the consumed energy has a distinct impact on greenhouse gas emissions, while acquisition costs govern life cycle costs. Low cycle times result in reduced costs per workpiece, however, for short cycle times and higher payloads, the probability of required spare parts distinctly increases for two critical robotic joints. Hence, the analysis of energy consumption and reliability, in combination with maintenance, life cycle costing and life cycle assessment, can provide additional information to improve the resource efficiency.

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