Relevant bibliographies by topics / Life cycle of weapons and military equipment

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  2. Dissertations / Theses
  3. Books
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Academic literature on the topic 'Life cycle of weapons and military equipment'

Author: Grafiati
Published: 30 May 2022
Last updated: 31 May 2022

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Journal articles on the topic "Life cycle of weapons and military equipment"

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Dubovsky, V. А., N. I. Dubovskaya, and А. S. Nikolaev. "Risk-oriented approach to life cycle contract implementation of weapons and military equipment." Dependability 21, no. 2 (June 2, 2021): 46–52. http://dx.doi.org/10.21683/1729-2646-2021-21-2-46-52.

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Aim. Today, the development and operation of weapons and military equipment is characterized by fast-growing customer requirements, which, in turn, leads to their increased technical complexity and cost. It is obvious that maintaining the required physical and operational characteristics of high-technology weapons and military equipment by the users is not always possible due to a number of reasons, including insufficient capabilities of the service units that do not have the required personnel, assets and competences. In turn, the manufacturers involved in the delivery of the government defence order are also interested in shaping long-term relations with the customer allowing to build a platform for sound progress. One of the possible solutions for such interaction between the customer and the contractor used worldwide and in Russia is public-private partnership in the form of life cycle contracts. Despite the obvious advantages, its introduction into the practice of weapons and military equipment life cycle is hampered by a number of adverse factors (insufficiencies in the regulatory framework and technical standards, poor level of information technology deployment in LC management) that need to be overcome in terms of both scientific and practical considerations. It is perfectly clear that developing a tool that would allow mitigating a full spectrum of problems as part of this study would be an extremely challenging task. Given the above, the paper aims to examine risks as one of the aspects of this complex problem that implies the development of a new approach to the interaction of the parties involved in a life cycle contract for weapons and military equipment, taking into account the current conditions, interests, goals and objectives. It involves comprehensive analysis of uncertainty and the whole spectrum of possible risks associated with the weapons and military equipment life cycle processes. Methods. The managerial decision-making is based on the decision tree method that allows dividing the complex decision-making problem into component tasks and obtaining quantitative risk estimates, thus developing an adequate system of measures for the prevention of event risks and reduction of their negative consequences. Results. Based on the proposed methodological framework, a risk management algorithm has been developed, a matrix has been defined for assessing risks and their impact on the temporal and technical characteristics, as well as the costs of a project. Conclusion. The suggested approach is universally applicable and can be used by both the officials of military authorities in the process of scientific support of LCC implementation, and by the management of defense contractors as they develop their interaction with the military authorities responsible for the creation and operation of weapons and military equipment.
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Parkhomenko, Pavlo, Michael Lavruk, and Ivan Tkach. "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." Journal of Scientific Papers "Social development and Security" 9, no. 5 (November 1, 2019): 174–89. http://dx.doi.org/10.33445/sds.2019.9.5.12.

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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.
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Leontiev, Oleksii, and Maryna Naumenko. "Methodical approach to forecasting costs for updating and using arms and military equipment park." Military Technical Collection, no. 24 (May 20, 2021): 37–45. http://dx.doi.org/10.33577/2312-4458.24.2021.37-45.

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A methodological approach to forecasting the cost costs at the main stages of the life cycle of a sample of weapons and military equipment, as one of the most important carriers of the capabilities of military organizational-staff formations, is proposed, which is carried out when substantiating measures for developing the capabilities of troops in the course of long-term and medium-term defense planning. The methodological approach is based on the use of the concept of a typical distribution of the cost of the life cycle of a sample by stages and stages, which allows in a formalized form to link costs at each stage of the purchase price of a serial product of a sample of weapons and military equipment of a specific type and type, taking into account the choice of a specific way of obtaining weapons and military equipment. It is proposed to forecast the volume of necessary costs at the stage of operation and support, taking into account the uneven distribution of these costs during this stage of the life cycle of a separate product. For this, it is proposed to divide the entire period of the duration of the operation stage into two main parts. The first part corresponds to the operating conditions of the product with a constant failure rate of the equipment after the completion of a short running-in process, and the operating costs per unit of time on it are considered the same throughout its duration. A formalized expression is proposed for obtaining the predicted value of these costs depending on the purchase price of the product. In the second part of the period of operation and support of a product of weapons and military equipment, operating costs per unit of time change over time according to an exponential law, reflecting the fact that operating costs increase with an increase in the failure rate as it approaches the assigned service life, which corresponds to the laws, known from the general theory of reliability of technology. The specifics of forecasting the costs of operation and support of a product obtained by import and which has already been in operation and has a residual service life have been determined.
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Polukhina, S. A. "Current trends in pricing for state defense order products." Entrepreneur’s Guide 14, no. 4 (December 5, 2021): 85–90. http://dx.doi.org/10.24182/2073-9885-2021-14-4-85-90.

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The issues of pricing for products of the state defense order are considered. The classification of methods of procurement of weapons, military and special equipment is given. The main types of contract prices and methods of forming the initial maximum contract price are determined. Particular attention is paid to approaches to pricing for products of the state defense order for the case of a single supplier (contractor, execute). The modern norms of the law are presented, which allow optimizing budget funds by choosing an option that ensures the achievement of technical results and minimizing costs throughout the life cycle of weapons, military and special equipment.
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ZVEREV, D. V., and I. I. SAVELEV. "CURRENT RATIONALE ISSUES LABOR COSTS IN THE COST OF MILITARY PRODUCTS AT DIFFERENT STAGES OF THE LIFE CYCLE." EKONOMIKA I UPRAVLENIE: PROBLEMY, RESHENIYA 3, no. 5 (2021): 52–61. http://dx.doi.org/10.36871/ek.up.p.r.2021.05.03.010.

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Based on the experience of checking the validity of prices for military products supplied within the frame-work of the state defence order, problematic issues of rationing of labor costs have been identified. The im-perfection of the current regulatory framework in the field of substantiating the labor intensity of work is shown. Proposals for the standardization of labor at various stages of the life cycle of weapons, military and special equipment are reasoned.
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Glibenko, Oleg V. "Transaction Costs in Development and Creation of New Weapons and Military Equipment and the Problems of Their Diversification." Economic Strategies 152, no. 6 (December 23, 2021): 126–33. http://dx.doi.org/10.33917/es-6.180.2021.126-133.

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The article examines manufacturing process of a product from the life cycle point of view, identifies the key, according to the author, problematics of each life cycle stage. An alternative view of the product creation process from the stage of conception to the moment of its utilization is formulated.
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Glibenko, Oleg V. "Transaction Costs in Development and Creation of New Weapons and Military Equipment and the Problems of Their Diversification." Economic Strategies 160, no. 1 (February 20, 2022): 98–105. http://dx.doi.org/10.33917/es-1.181.2022.98-105.

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The article dwells on the issues of the production process from the point of view of the life cycle. Factors are proposed, consideration of which will allow to minimize transaction costs of producing new and upgrading existing products. The author articulates the features of domestic production, the progress of which should contribute to the industry development.
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Muksin, Muksin, Udisubakti Ciptomulyono, Sutrisno Sutrisno, and Sunarta Sunarta. "THE OPERATIONAL READINESS FOR ANTI SUBMARINE INDONESIAN NAVAL BY USING ANTI SUBMARINE HELICOPTER." JOURNAL ASRO 12, no. 01 (January 18, 2021): 166. http://dx.doi.org/10.37875/asro.v12i01.394.

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Some of the Indonesian naval effort to see and protect the Indonesian territory is by using Helicopter sea patrol. In the other side, submarines are the most strategic weapons in the world that can provide a deterrence effect which has a very significant impact on the maritime powers of the countries operating them in the era of generation 4.0 war. Operational readiness is very important, there are readiness in building operational readiness for naval defense through budget fulfillment, utilization of existing resources, procurement and naval modernization by paying attention to Life Cycle Cost, and interoperability while still paying attention to paradigm shifts in naval capability. So, the combat readiness is the condition of the Indonesian Navy's defense equipment and its constituent units, resources and personnel, weapon systems and other military technology equipment in a condition that is ready to carry out military operations in an unspecified time, or function consistent with the purpose for which the defense equipment is organized or designed, the management of resources and training personnel in preparation for combat in the face of the threat of modern warfare in a state of constant combat readiness. At this time, training in Anti-Submarine Warfare conducted by Indonesian Navy’s Helicopter is still limited to carrying out flight procedures, communication procedures with the KRI and the command line, because Helicopters have sensors, weapons and command that need to be upgraded and The personnel also have underwater warfare capabilities that need to be upgraded, so there needs to be an increase in the capability of the helicopter and human resources. Technometry will be used to calculate the Heli's current readiness level. Keywords: Submarine, Anti Submarine Helicopter and operational readiness
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Openko, P., V. Polishchuk, M. Mуronіuk, and A. Kozyr. "EXPERIENCE IN THE APPLICATION OF ADAPTIVE STRATEGIES FOR MAINTENANCE AND REPAIR OF MILITARY PRODUCTS IN NATO MEMBER COUNTRIES." Наукові праці Державного науково-дослідного інституту випробувань і сертифікації озброєння та військової техніки, no. 8 (June 29, 2021): 101–11. http://dx.doi.org/10.37701/dndivsovt.8.2021.11.

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Maintenance of armaments and military equipment, implementation of a set of measures to maintain armaments and military equipment in working order are related to the need to solve the problem of ensuring the specified indicators of their efficiency, especially samples with long service life. Given the current state of the domestic armaments and military equipment park, it is important to study the experience of NATO member states in implementing adaptive maintenance and repair strategies, including maintenance and repair strategies. The aim of the article is to analyze the current state of use of adaptive strategies for maintenance and repair of weapons and military equipment in the world's leading countries with further substantiation based on its recommendations for their practical implementation during the organization of their operation in the Air Force of Ukraine. According to the results of research, a positive impact of the application of maintenance and repair strategy, including by solving the problem of minimizing the cost of operation of weapons and military equipment. As a result, substantiated and proposed the necessary conditions for the application of the strategy of their maintenance and repair, which are in service with the Armed Forces of Ukraine in technical condition, the implementation of which as an alternative to the use of service life (resource) of relevant samples control of the limit condition or the need for maintenance and repair of the product, which are accepted as a result of continuous (periodic) control of the parameters that determine the technical condition.
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Zikos, Theodoros, Nikolaos V. Karadimas, Alexandros Tsigkas, and Kyriaki Sidiropoulou. "Weapons’ Life Cycle Cost: Efficient Tool in Decision Making Process." WSEAS TRANSACTIONS ON BUSINESS AND ECONOMICS 19 (April 19, 2022): 1036–45. http://dx.doi.org/10.37394/23207.2022.19.91.

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Optimal cost management in terms of logistics systems and the utilization of the science of "Logistics", as it has been shaped with modern technology, lead the exported cost elements to the most important factor in decision making. One of the tools that contribute to the decision-making process is the cost of life cycle of weapon systems. This tool can be extremely useful as it contains information, such as codified materials, and spare parts according to NATO Codification System, which assists and facilitates the work of the logisticians in supporting army’s weapon systems. Furthermore, the degree of dependence of a material or a spare part (which make up a weapon system) by its OEM (Original Equipment Manufacturer) and the significant role of it, could consist of an extra key in changing all the life cycle support of the weapon system and the decisions related to it.
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Dissertations / Theses on the topic "Life cycle of weapons and military equipment"

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Intintolo, John A. "A life cycle analysis of the potential role of commercial computer equipment in military trainers as applied to maritime patrol aviation." Master's thesis, This resource online, 1992. http://scholar.lib.vt.edu/theses/available/etd-12232009-020021/.

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Kimbrough, Anthony K. "Developing cost per flying hour factors for the operations and maintenance phase of the satellite life cycle." View thesis, 2003. http://handle.dtic.mil/100.2/ADA415257.

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Thesis (M.S.)--Air Force Institute of Technology, 2003.
Title from title screen (viewed July 1, 2004). "March 2003." Vita. "AFIT/GCA/ENV/03-04." "ADA415257"--URL. Includes bibliographical references (p. 71-74). Also issued in paper format.
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Скворчевський, Олександр Євгенович. "Управління життєвим циклом озброєння та військової техніки." Thesis, НТУ "ХПІ", 2017. http://repository.kpi.kharkov.ua/handle/KhPI-Press/29558.

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KAO, CHIA-BIN, and 高嘉濱. "A Research of Total Life Cycle System Management for the ROC Military Equipment." Thesis, 2019. http://ndltd.ncl.edu.tw/handle/rg8s3w.

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Books on the topic "Life cycle of weapons and military equipment"

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Tolle, Duane A. Life-cycle impact assessment demonstration for the GBU-24. Cincinnati, Ohio: National Risk Management Research Laboratory, Office of Research and Development, U.S. Environmental Protection Agency, 1999.

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Tolle, Duane A. Life-cycle impact assessment demonstration for the GBU-24. Cincinnati, Ohio: National Risk Management Research Laboratory, Office of Research and Development, U.S. Environmental Protection Agency, 1999.

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Large, Joseph P. Procedures for estimating life-cycle costs of electronic combat equipment. Santa Monica, CA: Rand Corp., 1987.

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Tolle, Duane A. A life-cycle impact assessment demonstration for the GBU-24: Project summary. Cincinnati, OH: U.S. Environmental Protection Agency, National Risk Management Research Laboratory, 1999.

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Tolle, Duane A. A life-cycle impact assessment demonstration for the GBU-24: Project summary. Cincinnati, OH: U.S. Environmental Protection Agency, National Risk Management Research Laboratory, 1999.

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Hanrong, Liu, ed. Zhuang bei quan shou ming fei yong guan li: Management of equipment life cycle cost. Beijing Shi: Guo fang gong ye chu ban she, 2011.

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J, Haythornthwaite Philip. Napoleonic cavalry: Napoleonic weapons and warfare. London: Cassell, 2001.

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Challenges and issues with the further aging of U.S. Air Force aircraft: Policy options for effective life-cycle management of resources. Santa Monica, CA: RAND, 2009.

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Quan shou ming zhuang bei bao zhang. Beijing: Jie fang jun chu ban she, 2009.

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Viking Warrior Operations Manual: The Life, Equipment, Weapons and Fighting Tactics of the Vikings. Haynes Publishing Group P.L.C., 2018.

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Book chapters on the topic "Life cycle of weapons and military equipment"

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"5. Military equipment and the life cycle of a Roman soldier." In Armed Batavians, 157–206. Amsterdam University Press, 2008. http://dx.doi.org/10.1515/9789048515790-006.

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Iniutina, Liudmila Aleksandrovna, and Tatiana Sergeevna Shilnikova. "Leksikograficheskii komponent v sovremennom polikul'turnom obrazovanii (elektronnyi mnogoiazychnyi slovar' voennykh terminov)." In Pedagogy and Psychology of Modern Education, 97–107. Publishing house Sreda, 2021. http://dx.doi.org/10.31483/r-99376.

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The work is devoted to the problem of intensification of teaching Russian as a foreign language in the process of formation and development of lexical competence of students. The Electronic multilingual dictionary, created on the basis of ABBYY Lingvo software for teaching Russian to foreign students of military universities, is presented. His vocabulary includes a special lexicon describing various segments of military activity (weapons, equipment, commands, military life, etc.). For each word there are translations into European languages (boi – English batttle, combat; French combat (m); Portuguese combate) and some Asian languages (boi – Laos ຍິງ). The role of the electronic translated multilingual thesaurus in the formation of speech professional competence, which ensures the removal of language barriers in the study of military-technical sciences by foreigners, is determined. The universality of the vocabulary, created taking into account the national mentality of students, providing opportunities for the redistribution of classroom and independent work of students, is characterized. Its effectiveness has been proven as a tool for modern interactive, multilingual and multicultural education.
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Benthall, Jonathan, and Jonathan Benthall. "Akbar Ahmed." In Islamic Charities and Islamic Humanism in Troubled Times. Manchester University Press, 2016. http://dx.doi.org/10.7228/manchester/9781784993085.003.0016.

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This Chapter was published as a guest editorial in Anthropology Today, 29: 4, August 2013, under the title “Foregrounding the Muslim tribal periphery”. This book is arguably the finest of Professor Akbar Ahmed’s many publications, blending a literary and religious sensibility with political and historical analysis – a model for engaged anthropology. It can be read on two levels. It is a political indictment of the disproportionate victimization of Muslim tribespeople by remotely controlled military weapons – a policy which risks leading to a cycle of revenge. But the drone is also a metaphor for the current age of globalization, “something which comes from nowhere, destroys your life and goes away”, while the prickly, tenacious “thistle” is an image that captures the essence of tribal societies (an image borrowed from Tolstoy’s posthumous novel Hadji Murad).
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Conference papers on the topic "Life cycle of weapons and military equipment"

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Zhongmin, Liu, Yang Zhuo, Zhou Zelong, and Tu Shanchao. "The revelation from Life-Cycle Environmental Management System of Foreign military equipment." In 2015 International Conference on Social Science and Technology Education. Paris, France: Atlantis Press, 2015. http://dx.doi.org/10.2991/icsste-15.2015.41.

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Burgmeier, Lyman, and Matt Poursaba. "Ceramic Hybrid Bearings in Air-Cycle Machines." In ASME 1994 International Gas Turbine and Aeroengine Congress and Exposition. American Society of Mechanical Engineers, 1994. http://dx.doi.org/10.1115/94-gt-393.

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Extensive research in the field of ceramic rolling contact bearings has been conducted over the past several years. The results of this research indicate that silicon nitride may offer significant improvements in rolling fatigue life and a possible increase in operating temperature. AlliedSignal Aerospace Systems & Equipment (ASE) and the Air Force Item Management Engineering Branch at Tinker Air Force Base are conducting a development program under contract to ARPA to introduce ceramic hybrid bearings into existing F-15, F-111, and C-130 aircraft fleets in a near-term program involving retrofitting mature air-cycle machines with such bearings. The air-cycle machine (ACM) is a complex bearing application, operating at very high speeds (up to 100,000 rpm) and at high temperatures. In more severe military ACM applications, mean times between failures (MTBF’s) of 2000 and 3000 hours are common. The fleet would see an immediate benefit from improved bearing life. This paper describes the analytical approach to evaluating and comparing ceramic to steel bearings, describes the laboratory test program to verify performance, and discusses the life-cycle cost improvement and the flight test program.
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Jiménez, Andrés, E. Novillo, E. Morante, and E. Chamorro. "Load Detection and Fatigue Health Monitoring Equipment Design for Landing Gears." In ASME 2014 International Mechanical Engineering Congress and Exposition. American Society of Mechanical Engineers, 2014. http://dx.doi.org/10.1115/imece2014-37029.

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The Weight on Wheel system on an aircraft gives an indication of whether the aircraft has weight on its wheels, meaning the airborne is on the ground. This system monitors the loads appearing on each Landing Gear structure. It sends a status signal to Landing gear computer that manage the redundant signals coming from each WOW systems. The management of these signals gives the information needed to activate “on ground” configuration of aircraft for braking control laws. “On ground” configuration specifies maximum load conditions and requirements for shock absorbers design for each type of aircraft (heavy freighters, military transport …) Based on CESA experience on this field, a new approach oriented to fatigue health monitoring, is presented here. Current WOW system could be modified allowing a continuous monitoring of loads experienced by Landing Gear structure. This will optimize the life cycle of the aircraft by checking individually the status of different structural parts of each Landing Gear. Therefore, it will improve maintenance actions that will be performed only when needed. Load detection and monitoring of landing gears provides a valuable and useful information data to predict accurately the accumulated fatigue damage on landing gear components.
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Reports on the topic "Life cycle of weapons and military equipment"

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Lagutin, Andrey, and Tatyana Sidorina. SYSTEM OF FORMATION OF PROFESSIONAL AND PERSONAL SELF-GOVERNMENT AMONG CADETS OF MILITARY INSTITUTES. Science and Innovation Center Publishing House, December 2020. http://dx.doi.org/10.12731/self-government.

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When carrying out professional activities, officers of the VNG of the Russian Federation are often in difficult, stressful, emotionally stressful situations associated with the use of weapons as a particularly dangerous means of destruction. The right to use a weapon by an officer makes him responsible for its use. And therefore requires the officer to make a balanced optimal decision, which is associated with the risk and transience of events, and in which no mistake can be made, since the price of it can be someone's life. It is at such a moment that it is important that the officer has stable skills in making a decision on the use of weapons, and this requires skills not only in managing subordinates or the situation,but in managing himself. The complication of the military-professional activity, manifested in the need to develop the ability to quickly and accurately make command decisions, exacerbating the problem of social responsibility of an officer who has the management of unit that leads to an understanding of his singular personal and professional responsibility, as the ability to govern themselves makes it possible to achieve a positive result of the Department for the DBA. This characterizes the need for a commander to have the ability to manage himself, as a "system" that manages others. Forming skills of self-control, patience, compassion, having mastered algorithms of making managerial decisions, the cycle of implementing managerial functions, etc., a person comes to the belief: "before effectively managing others, it is necessary to learn how to manage yourself." The required level of personal and professional maturity can be formed in a person as a result of purposeful self-management, which determines the special role of professional and personal self-management in the training of future officers.
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