Relevant bibliographies by topics / Weapons and military equipment

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  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers
  6. Reports

Academic literature on the topic 'Weapons and military equipment'

Author: Grafiati
Published: 28 May 2022

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Journal articles on the topic "Weapons and military equipment"

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Shang, Shan Yu, and Jia Man Sun. "Research on Effectiveness Evaluation Method of Weapon Equipment." Frontiers in Education Technology 3, no. 4 (September 9, 2020): p1. http://dx.doi.org/10.22158/fet.v3n4p1.

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Due to the wide application of high and new technology in weapons and equipment, modern weapons present the characteristics of complexity and systematization, and their effectiveness analysis and evaluation are paid more and more attention, which has become an arduous and urgent task in the research of weapon equipment system. Only by using scientific methods and technology to evaluate the effectiveness of various types of weapons and equipment, can we have a profound understanding of the characteristics and application value of weapons and equipment, ensure that the army can give full play to the operational potential of weapons and equipment, improve the operational efficiency, and explore the correct direction of the construction and development of weapons and equipment. Therefore, systematic research on weapon equipment effectiveness evaluation method is a necessary way for every military equipment effectiveness researcher to seek effective and accurate quantitative analysis of weapon equipment effectiveness method.
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Vučković, Dragan. "Modern weapons and military equipment." Vojnotehnicki glasnik 70, no. 2 (2022): 491–504. http://dx.doi.org/10.5937/vtg2202491v.

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Dachkovskyi, Vоlodymyr, Oleksandr Sampir, and Yana Horbachova. "Methodical approach to evaluation of economic efficiency of repairing the weapons and military equipment." VUZF REVIEW 5, no. 1 (March 31, 2020): 22–30. http://dx.doi.org/10.38188/2534-9228.20.1.03.

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The analysis of using the military units and formation during conduct of hostilities on the territory of Donetsk and Luhansk region allows to claim that the one of the main aspect that impact on the success in the execution of tasks are existence of workable samples of weapons and military equipment. Thus, the one of the main source of entering of workable samples of weapons and military equipment in military units (military formations) during conduct of hostilities is returning them from stationary and movable damage-control military formations (units) after the completion of their restoration. Accordingly, during the restoration of damaged samples of weapons and military equipment consumes replacement parts, assemblages, aggregates, components equipment etc. that need to be purchased from manufacturers, which has resulted to financial and economic costs. Therefore, in this work are proposed the methodical approach to evaluation of economic efficiency of repairing samples of weapons and military equipment. This approach includes two ways: financial and economic costs on the repairing of weapons and military equipment in the stationary conditionals and in the moving repair and reconstruction military formations (units). The main costs will be focused on the principal salary of repairmen, the basic materials, replacement parts, overhead of mechanical department, common overhead, new product development costs, and special costs during the repairing of weapons and military equipment in stationary conditions. And the basic spending will be focused on the purchasing of new details, assemblages, aggregates, depreciation cost of equipment, the cost of maintaining the personnel of repair specialists, average cost of operational set during the repairing of weapons and military equipment in the moving repair and reconstruction military formations (units).
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Dachkovskyi, Volodymyr. "Method of determination of survival characteristics of weapons and military equipment." Journal of Scientific Papers "Social development and Security" 10, no. 1 (February 29, 2020): 18–24. http://dx.doi.org/10.33445/sds.2020.10.1.3.

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In order to repel armed aggression in the East of Ukraine, the national defense-industrial complex has modernized and developed a significant nomenclature of weapons and military equipment, which correspond to the forms and methods of conducting modern hostilities. Experience of using the samples of weapons and military equipment, which are allowed to exploitation in the Armed Forces of Ukraine, indicates on the necessity of resolving a number of problematic issues related to tecnical maintenance, repair, providing of logistical means etc., for keeping them in working order Keeping the samples of weapons and military equipment in working order in conditions of fightfare is determined by the number of factors, the one of which is their survivability, namely ability of sample of weapons and military equipment to keep their parameters in given limits,withstand damage of all kinds, and in the event of damage retain the possibility of combat use after repair with minimal cost of time and repair. The article proposes a technique for determining the survivability characteristics of a sample of weapons and military equipment. This technique makes it possible to determine the durability and reproducibility indices of weapons and military equipment samples thereby determining the survivability of a particular weapons and military equipment sample or group of single-purpose machines.
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Kopashynskii, S., O. Serpukhov, H. Makogon, S. Guba, O. Isakov, Yu Babkin, and O. Klimov. "JUSTIFICATION OF RECOMMENDATIONS FOR IMPROVING THE FUNCTIONING OF THE ARMORED WEAPONS AND MILITARY EQUIPMENT RECOVERY SYSTEM BASED ON THE STUDY OF THE GRAPHICAL NETWORK MODEL." Системи управління, навігації та зв’язку. Збірник наукових праць 1, no. 59 (February 26, 2020): 36–40. http://dx.doi.org/10.26906/sunz.2020.1.036.

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The subject matter of the article is the functioning process of the armored weapons and military equipment recovery system during combat operations in modern conditions. The goal of the study is to justify of recommendations for improving the functioning of the recovery armored weapons and military equipment under the order to reduce the time of work and rational use of forces and resources. The tasks to be solved are: to present the process of functioning of the system of armored weapons recovery and military equipment as a list of events and works that comprehensively reflect its essence and the interrelations between individual actions; to build a network graphical model of functioning of the armored weapons and military equipment recovery system of the assigned units; to analyze the critical path of network grapHhics; to identify critical work requiring closer scrutiny and identification of issues and risks that may impact the functioning of the whole recovery system, by analyzing and optimizing the network schedule make suggestions for improving the operation of the recovery armored weapons and military equipment system. General scientific and special methods of scientific knowledge are used. The following results are obtained. It was simulated the functioning of the armored weapons and military equipment recovery system of military units in performing their tasks by constructing a graphical network models critical path. Analysis network diagram allowed us to determine directions of improvement of functioning of system of recovery of armored weapons and military equipment under the conditions of limited material and nonmaterial resources and regular information updates. Conclusions. The network graphic model of the for restoring armored weapons and military equipment recovery of during combat operations it possible to present the entire scope of work, their logical and chronological relationship and to adjust plans taking into account the limited time and insufficient number and training of personnel. Analysis of the critical path of the network schedule makes it possible to conclude that if there are several battalions in the brigade, the repair of samples of armored weapons and military equipment with a labor intensity of more than 200 people / hour is on the critical path because the forces and means for the restoration of armored weapons and military equipment not enough in modern conditions. The network schedule for the recovery of armored weapons and military equipment with the functional distribution of the volume and list of works is optimal for the length of the critical path. The practical implementation of proposals to improve the functioning of the armored weapons and military equipment recovery system is possible by creating separate logistics units of the appropriate hierarchy levels and implementing an interspecific territorial system for providing military units
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Dachkovskyi, Vоlodymyr. "Methodology of explanation of tactical and technical requirements for means of evacuation of weapons and military equipment." Journal of Scientific Papers "Social development and Security" 10, no. 3 (June 30, 2020): 104–13. http://dx.doi.org/10.33445/sds.2020.10.3.9.

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The main impact force of ground troops is the hard weapons and military equipment, that is why the loss of one of them is always painful for any army in the world The basic combat weapons and military equipment (high-precision samples of weapons and military equipment) are too expensive to destroy damaged vehicles or leave them on the battlefield. Realizing this, the special vehicles were created for the evacuation of this type of weapons and military equipment – armored repair and evacuation vehicle, which are designed to evacuate from the battlefield damaged and stuck tanks, infantry fighting vehicles, armored personnel carriers, self-propelled artillery system and other units of equipment, even out of the probable enemy fire. Taking into account the analysis of the development of evacuation means which are in the service of the Armed Forces of Ukraine and the armed forces of the leading countries of the world, in this work the method of substantiation of tactical and technical requirements for means of evacuation of damaged weapons and military equipment is proposed. The essence of this method is to distribute the means of evacuation by mass and size, by type of mover, by the method of moving the damaged sample, by the level of application. The formation of requirements is aimed at the transition of evacuation means and basic models of weapons and military equipment to unified basic platforms of the modular type. The implementation of these platforms will make it possible to install various types of special modules of evacuation means (material-handling, load-lifting, etc.) and modules of samples of weapons and special equipment. The application of this metodology will provide an opportunity to obtain technical outlines of evacuation tools for different levels of the hierarchy, taking into account the scope of tasks assigned to them.
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Wang, Xiao Yan, Xue Cheng Lu, and Ying Ren. "Research on Nano-Technology and Military Modernization." Applied Mechanics and Materials 192 (July 2012): 470–74. http://dx.doi.org/10.4028/www.scientific.net/amm.192.470.

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In the future, war is the war of science and technology among countries. In addition, nanotechnology plays an irreplaceable role. In the military field, many advanced countries in the world are carrying out extensive research and development. With the development of nanotechnology and its continuous application in weapons and equipment, weapons and equipment have been improved in many ways. This paper mainly studies the application of nanotechnology materials in military equipment. Moreover, it briefly describes the military modernization process of nanotechnology, as well as its influence on the outcome direction of the military wars.
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Spalevic, Zaklina, Zeljko Bjelajac, and Dusko Dimitrijevic. "Arms trade as a global international problem." Medjunarodni problemi 65, no. 2 (2013): 139–59. http://dx.doi.org/10.2298/medjp1302139s.

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The aim of this paper is to highlight the great social danger resulting from uncontrolled trade in arms and military equipment. A large number of terrorist attacks in the world show that uncontrolled arms trade is a growing problem for international security. In order to provide the same protection, the problem of uncontrolled arms and military equipment, which is the major international business, should be viewed from several aspects. To this end, after defining weapons, their production and trade, the authors have presented one of the ways the leading companies in the military-industrial complex provide themselves a market for sale of arms and military equipment, thus creating the conditions that contribute to expanding of their military companies. As the world?s largest exporters of arms and military equipment the United States, Russia and China give a short historical account of their arms trafficking. Then, considering the fact that the amount of weapons would unlikely diminish, the authors have pointed out that states should find a way to control the movement of weapons in the world preventing terrorist to take hold of them.
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Jegdić, Bore V., Slavica S. Ristić, Suzana R. Polić-Radovanović, and Ana B. Alil. "Corrosion and conservation of weapons and military equipment." Vojnotehnicki glasnik 60, no. 1 (2012): 169–82. http://dx.doi.org/10.5937/vojtehg1201169j.

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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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Dissertations / Theses on the topic "Weapons and military equipment"

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Martin, Ian A. "Origins of Roman Infantry Equipment: Innovation and Celtic Influence." Thesis, University of North Texas, 2019. https://digital.library.unt.edu/ark:/67531/metadc1609154/.

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The Romans were known for taking technology and advancements from other peoples they encountered and making them their own. This pattern holds true in military affairs; indeed, little of the Roman military was indigenously developed. This dissertation looks at the origins of the Roman's mainline weapons systems from the beginning of Roman Republic expansion in the fourth century BC to the abandonment of Western-style armaments in favor of Eastern style ones beginning in the late-third century AD. This dissertation determines that the Romans during that time relied predominately on the Celtic peoples of Europe for the majority of their military equipment. One arrives at this conclusion by examining at the origins of the major weapons groups: armor, shields, spears, swords, and missile weapons. This determination is based on the use of ancient written sources, artistic sources, and archaeological sources. It also uses the large body of modern scholarship on the individual weapons. The goal is to produce a unified work that addresses the origins of all weapons in order to see if there is an overarching impact on the Roman military from outside cultures. When one studies whence the weapons that ended up in Romans hands originated, a decided Celtic influence is easily found. That does not mean the Romans did not advance those weapons. The Romans proved very adroit at improving upon the basic designs of others and modifying them into new forms that met new needs. The Romans just did not develop their own technology very often. As a result, the Celts will exert a strong impact on the Roman military culture as it develops from 400 BC until it is overtaken by Eastern influences in the late 200s AD.
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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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Chou, Chi-Wu Information Technology &amp Electrical Engineering Australian Defence Force Academy UNSW. "Evolutionary cluster costing for weapon system early design." Awarded by:University of New South Wales - Australian Defence Force Academy. School of Information Technology and Electrical Engineering, 2004. http://handle.unsw.edu.au/1959.4/38648.

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The Evolutionary Cluster Costing Methodology (ECCM) is proposed for estimating the cost of designing and producing a weapon system at the early design stage. The issue is related to the particular difficulties which system designers often encounter in the absence of cost data on present system details and historically relevant cases associated with the early development phase of a major acquisition project. This is especially relevant in the military environment. In general, the traditional approach for new system cost estimation is to use parametric methods with data from a number of historical cases. However, when there are limited cases it is difficult to establish appropriate and reliable cost models. As an approach to solving this problem, this research has developed ECCM to generate cost characteristics from only a few or even a single existing case to estimate new system costs. The purpose of ECCM is to extract cost characteristics from an existing system by separating it into mutually independent function clusters. Accordingly, ECCM consists of three essentials: function activity cost tables (FACT), an evolutionary clustering methodology, and cost pattern usages. Based on value engineering and system engineering, a system is made up of a particular group of functions, and each function is further supported by certain activities. Because activities can be represented as resources used for supporting related functions, cost employment among functions can be allocated as FACT. As part of the process, a binary incident matrix is constructed, where the values 1 or 0 represent the existence or non-existence of cost interactions between activity and function in FACT. The binary matrix can easily be deduced to represent the most relevant function clusters. To solve the N-P complete combinatorial problem, evolutionary algorithms and proposed cluster evaluation formulae are integrated into the evolutionary clustering methodology. Once the optimal function clusters have been grouped, the costs that interact among functions and activities can be relisted and rated into ratios within each cluster. Cost patterns can then be determined by activity cost ratios from individual clusters. The cost of a new system can be evaluated by considering each similar cluster as a cost parameter because each cluster represents the cost characteristics of a particular function group. Based on the fact that the technology is evolving gradually and the functions in a cluster are related to each other through certain resource relationships, the cost of new systems or products can be estimated by using those clusters. The cost estimates for the new system are obtained through comparing the needs of technologies or values in similar function clusters of existing systems. A case study from three generations of light-sport helicopters has shown that function and assembly clusters can be used to infer the cost of a new design. The results from the case study demonstrate that: 1) the various functions can be clustered to create a certain number of critical purposes, e.g., engine power or structural strength and safety related tasks; 2) ECCM can be used to estimate empirical costs given the absence of detailed design information; 3) the function and assembly similarities of clusters among systems are statistically significant; 4) the differences of cost ratios in related clusters between systems are not statistically significant; 5) the differences between cluster's estimated costs and actual costs in helicopter L-2 or L-3 are not significant statistically; and 6) the differences between assembly's estimated costs and actual costs in L-2 or L-3 are not significant statistically. The cost ratio patterns of individual clusters can be used to target the activity or assembly budgets for developing new systems.
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Тертишнік, Є. М. "Створення системи реєстрації інформації на базі мікроконтролера для визначення параметрів об’єктів." Thesis, Чернігів, 2021. http://ir.stu.cn.ua/123456789/24988.

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Тертишнік, Є. М. Створення системи реєстрації інформації на базі мікроконтролера для визначення параметрів об’єктів : випускна кваліфікаційна робота : 123 "Комп’ютерна інженерія" / Є. М. Тертишнік ; керівник роботи С. С. Стасюк ; НУ "Чернігівська політехніка", кафедра інформаційних і комп’ютерних систем. – Чернігів, 2021. – 88 с.
Метою кваліфікаційної роботи є створення системи реєстрації інформації на базі мікроконтролера для визначення параметрів об’єктів. Розроблена система буде виконувати функції збору, обробки, відображення та накопичення параметрів роботи дослідного зразка автомобільної (бронетанкової) техніки та їх складових (систем) під час випробувань. Отримувати інформацію дана система буде з модулів (датчиків). Інформація після обробки буде надавати в структурованому виді зручному для використання та подальшого аналізу виконавцями. Для реалізації запропонованої моделі буде використовуватися обладнання на базі мікроконтролера.
The purpose of the qualification work is to create a system of information registration based on a microcontroller to determine the parameters of objects. The developed system will perform the functions of collecting, processing, displaying and accumulating the parameters of the prototype of automotive (armored) vehicles and their components (systems) during the tests. This system will receive information from modules (sensors). The information after processing will provide in a structured form convenient for use and further analysis by performers. To implement the proposed model will use equipment based on a microcontroller.
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Guillaud, Lucas. "Militaria à Lugdunum : étude de l'armement et de l'équipement militaire d'époque romaine à Lyon (1er s. av.-IVe s. apr. J.-C.)." Thesis, Lyon, 2017. http://www.theses.fr/2017LYSE2024/document.

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En tant que colonie romaine, capitale administrative de la province de Lyonnaise, la ville de Lugdunum tisse depuis ses origines des liens étroits avec l’exercitus romanus. Impliquée directement, et à plusieurs reprises, dans des conflits militaires de grande ampleur, elle est la seule ville de Gaule à avoir accueilli une cohorte urbaine, dont l’existence est attestée par les sources écrites comme par les inscriptions funéraires. Face à ces témoignages, et à défaut de découvertes récentes, l’archéologie, jusqu’ici peu prise en compte, apparaît comme une source complémentaire de poids pour comprendre les modalités de la présence et de l’occupation militaire de Lugdunum. Le développement récent de l’archéologie programmée et préventive a favorisé la collecte d’un mobilier toujours plus abondant. Parmi les ensembles d’instrumentum recueillis, certains objets, appelés militaria, relèvent de la sphère militaire. Le travail exposé au sein de cette thèse se propose donc de traiter de la question de la présence militaire romaine à Lugdunum à travers le prisme de ces artefacts archéologiques. L’étude proposée s’appuie sur un corpus de de 496 fragments pour 337 objets, répartis sur quarante sites disséminés sur le territoire de la colonie romaine et ses abords proches. Chaque artefact fait l’objet d’une étude exhaustive selon les catégories fonctionnelles en usage (armement offensif et défensif, ceintures/baudrier, harnachement, autres). Une discussion d’ordre technologique, typologique et chronologique est proposée pour chacun d’eux, sur la base des comparaisons observées à l’échelle du monde romain. A l’appui des données collectées, une discussion d’ordre quantitative, spatiale et contextuelle est engagée ainsi qu’une réflexion sur une éventuelle production artisanale de certaines catégories d’armement et d’équipement militaire à Lugdunum. Les résultats de l’étude servent de point d’appui pour un discours élargi sur la présence militaire romaine à Lyon entre le Ier et le IVe s. apr. J.-C. La confrontation des données archéologiques, historiques et épigraphiques permet de proposer plusieurs hypothèses sur la nature de l’occupation militaire de Lugdunum, sur son évolution et sa densité mais aussi son intégration au tissu urbain de la colonie de droit romain
As a roman colony and administrative capital of the Gaul Lyonnaise province, the city of Lugdunum entwines, since its origins, direct links with the exercitus romanus. This city was entangled directly and often in major military conflicts. Furthermore, it was the only settlement in Gaul to welcome a roman cohort, whose existence is confirmed by written sources such as funerary inscriptions. Taking into account these evidences, and lacking of recent findings, Archeology, lightly valued till now, appears as a great important source to understand the procedures of the military presence and occupation in Lugdunum. Recentdevelopments in both rescue and voluntary Archeology, favored the assemblage of a great number of collections. Among the gathered sets of instrumentum, certain objects arise mainly from the military sphere, the militaria.The work set out at the center of this thesis enables to approach the interpretation of the roman military presence in Lugdunum through the perspective of these archeological artifacts. The present study relies on a militaria corpus of 496 fragments to 337 objects, diffused over forty sites, scattered on the territory of the roman colony and its outskirts. Each artifact wassubjected to a thorough research, according to the classifications in use: defensive and offensive armament, belts, straps, harness and others. A technological, typological and chronological analysis is proposed for each one of them, based on the fieldwork observed at the scale of the roman world. After analyzing the data collected, conclusions about space, context and quantity can be established, as well as the notion of a possible craft-related production of certain types of military weaponry and equipment in Lugdunum.The results of this study provide a support for a broader discussion, as it concerns the roman military occupation in Lyon between the 1st century BC and the 4th century AD. The combination of the archaeological, historical and epigraphical data allows several hypothesis on the nature of the military establishment in Lugdunum, but also on its evolution, density andits role on the urban network of the colony of roman law
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Pfarrer, Michael A. "Optimizing procurement of special operations weapons and equipment." Thesis, Monterey, Calif. : Springfield, Va. : Naval Postgraduate School ; Available from National Technical Information Service, 2000. http://handle.dtic.mil/100.2/ADA381319.

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Geick, James L. "Nuclear weapons and the revolution in military affairs." Thesis, Monterey, Calif. : Naval Postgraduate School, 2000. http://handle.dtic.mil/100.2/ADA379585.

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Thesis (M.A. in National Security Affairs)--Naval Postgraduate School, June 2000.
Thesis advisors: Yost, David S.; Wirtz, James J. "June 2000." Includes bibliographical references. Also available online.
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Brickner, William K. "An analysis of the kill chain for time critical strike." Thesis, Monterey, Calif. : Springfield, Va. : Naval Postgraduate School ; Available from National Technical Information Service, 2005. http://library.nps.navy.mil/uhtbin/hyperion/05Jun%5FBrickner.pdf.

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Thesis (M.S. in Operations Research)--Naval Postgraduate School, June 2005.
Thesis Advisor(s): Patricia A. Jacobs, Donald P. Gaver. Includes bibliographical references (p. 95). Also available online.
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Vossen, Terrence John 1962 Carleton University Dissertation International Affairs. "The proliferation of aerospace weapons technology; ballistic missiles and the case of Brazil." Ottawa.:, 1993.

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Seng, Chor Chow. "A business case analysis of the Hard Target Void Sensing Fuze (HTVSF) Joint Capability Technology Demonstration (JCTD)." Thesis, Monterey, Calif. : Naval Postgraduate School, 2008. http://edocs.nps.edu/npspubs/scholarly/theses/2008/Dec/08Dec%5FSeng.pdf.

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Thesis (M.S. in Operations Research)--Naval Postgraduate School, December 2008.
Thesis Advisor(s): Nussbaum, Daniel. "December 2008." Description based on title screen as viewed on January 29, 2009. Includes bibliographical references (p. 49-51). Also available in print.
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Books on the topic "Weapons and military equipment"

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Special forces: Weapons and equipment. London: Brassey's, 2004.

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Bertin, François. D-Day Normandy: Weapons, uniforms, military equipment. Philadelphia: Casemate, 2007.

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J, Haythornthwaite Philip. Weapons and equipment of the Napoleonic Wars. London: Arms and Armour, 1996.

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C, Bishop M., ed. The production and distribution of Roman military equipment: Proceedings of the second Roman Military Equipment Research Seminar. Oxford, England: B.A.R., 1985.

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Sumrall, Robert F. Iowa class battleships: Their design, weapons & equipment. Annapolis, Md: Naval Institute Press, 1988.

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Featherstone, Donald. Weapons & equipment of the Victorian soldier. London: Arms and Armour Press, 1997.

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1955-, Dawson M., ed. Roman military equipment: The accoutrements of war : proceedings of the Third Roman Military Equipment Research Seminar. Oxford, England: B.A.R., 1987.

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Special operations: Weapons. Greensboro, N.C: Morgan Reynolds Pub., 2013.

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White, Mark. Tactical use of low-signature weapons for military & police. Kearney, NE: Morris Pub., 2010.

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Xiangqian, Zhao, and Yang Jilin, eds. Zhuang bei jiao yu lun: Equipment education theory. Beijing Shi: Guo fang gong ye chu ban she, 2011.

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Book chapters on the topic "Weapons and military equipment"

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Korniienko, Ihor, Svitlana Korniienko, Volodymyr Dmytriiev, Anatolii Pavlenko, and Dmytro Kamak. "Investigation of the Model of Testing for Weapons and Military Equipment." In Advances in Intelligent Systems and Computing, 309–16. Cham: Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-58124-4_30.

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Men, Nan, Zhibing Pang, Pengdong Zhang, Shuai Mu, Zhaofeng Luo, and Ming Kong. "The New Requirement of the Development of Weapons and Equipment to the Quality of Military Talents." In Lecture Notes in Electrical Engineering, 125–30. Singapore: Springer Singapore, 2017. http://dx.doi.org/10.1007/978-981-10-6232-2_15.

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Nicholson, Helen. "Military equipment." In Medieval Warfare, 88–112. London: Macmillan Education UK, 2004. http://dx.doi.org/10.1007/978-1-4039-4386-6_5.

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Anderberg, Bengt, and Myron L. Wolbarsht. "Current Military Applications." In Laser Weapons, 43–63. Boston, MA: Springer US, 1992. http://dx.doi.org/10.1007/978-1-4899-6094-8_3.

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Alic, John A. "Choosing Weapons." In Trillions for Military Technology, 1–13. New York: Palgrave Macmillan US, 2007. http://dx.doi.org/10.1057/9780230606876_1.

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Miall, Hugh. "The Military." In Nuclear Weapons: Who’s in Charge?, 44–56. London: Palgrave Macmillan UK, 1987. http://dx.doi.org/10.1007/978-1-349-18679-2_4.

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Kohlhoff, Jürgen. "Weapons and military systems." In Technology Guide, 504–9. Berlin, Heidelberg: Springer Berlin Heidelberg, 2009. http://dx.doi.org/10.1007/978-3-540-88546-7_95.

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Alic, John A. "Research and Weapons Design." In Trillions for Military Technology, 107–27. New York: Palgrave Macmillan US, 2007. http://dx.doi.org/10.1057/9780230606876_7.

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Cronberg, Tarja, and Dave Webb. "Cost of nuclear weapons." In Military Spending and Global Security, 83–102. Abingdon, Oxon ; New York, NY : Routledge, 2021. |: Routledge, 2020. http://dx.doi.org/10.4324/9781003045823-7.

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Tsipis, Kosta. "Third-generation Nuclear Weapons." In Military Technology, Armaments Dynamics and Disarmament, 67–91. London: Palgrave Macmillan UK, 1989. http://dx.doi.org/10.1007/978-1-349-10221-1_3.

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Conference papers on the topic "Weapons and military equipment"

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HEGR, Eduard, Zbynek STUDENY, Huu Chien NGUYEN, Jiri PROCHAZKA, and Jan ADAM. "EVALUATION OF DLC COATING FOR PARTS OF WEAPONS AND MILITARY EQUIPMENT." In METAL 2020. TANGER Ltd., 2020. http://dx.doi.org/10.37904/metal.2020.3537.

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Li, Xiaosong, and Bin Lv. "Research on weapon equipment Civil-Military Integration development mode based on Fuzzy Petri Net." In 2017 36th Chinese Control Conference (CCC). IEEE, 2017. http://dx.doi.org/10.23919/chicc.2017.8029011.

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Mihm, Gerhard. "Routine Calibration of Large Number of Test & Measurement Equipment." In NCSL International Workshop & Symposium. NCSL International, 2013. http://dx.doi.org/10.51843/wsproceedings.2013.53.

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Military forces need always new equipment to cope with the expected challenges they face in unknown, hostile environment. To enable unrestricted operations, military forces are also preparing to maintain this equipment (if possible) in this environment with own personal and equipment. By doing this, they have a high need of up-to-date, precise test & measurement equipment. So the existing stock of test & measurement equipment has continuously to be updated to the needs of the user. Obsolete equipment has to be scraped and replaced by new items, which fulfills the requirements. As for every new part number a specific calibration procedure is needed and the user in the field needs to be trained in the handling of the equipment, military forces are thriving for standardization and use of general purpose test & measurement equipment. For calibration of the test & measurement equipment military forces set up their own technical calibration documents (e.g. 33K100--). Inventory equipment of the calibration laboratories is also standardized to cope with the predicted workload. Thereby routine procedures can be set up to determine measurement uncertainties automatically. The presentation will cover the way to set up routine calibration of test & measurement equipment for the end user. Like every modern army the German armed forces dispose of a huge number of weapon systems and the necessary equipment for handling, repair, inspection and testing, which includes also test & measurement equipment or test systems. The equipment of the armed forces is mission-oriented - the equipment is continuously adapted to the situation to be expected in the respective place of action.
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Xiaosong, Li, Lv Bin, and Jiang Yujiao. "Research on civil-military integration degree of weapon equipment research and production by system dynamics model." In 2017 29th Chinese Control And Decision Conference (CCDC). IEEE, 2017. http://dx.doi.org/10.1109/ccdc.2017.7978917.

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Ponton, Tony, and Gordon Warnes. "Helicopter IRS Engine Integration for the “FIRST” Technology Demonstrator Programme." In ASME Turbo Expo 2007: Power for Land, Sea, and Air. ASMEDC, 2007. http://dx.doi.org/10.1115/gt2007-27408.

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The balanced protection of military assets presents a major challenge to military rotorcraft customers. The proliferation of sophisticated threat systems (including simpler weapons cued by imaging hardware) has highlighted the need for signature suppression systems to be considered as an integral part of rotorcraft design. Suppression of emissions at source offers multiple synergies with other aircraft systems including aerothermal optimisation (minimised pressure losses & highest utility of air flows), enhanced efficiency of other defensive aids equipment, and increased operational effectiveness. The optimisation of the benefits of IR suppression to the helicopter platform as a whole is closely tied into the design of the engine and exhaust system. The achievement of a successful design thus requires the close cooperation of the airframe and engine manufacturers and the availability of the necessary design and assessment tools. This paper is intended to illustrate the many aspects of Infra-Red Suppressor (IRS) design and the tools required to enable successful IRS optimisation and airframe integration. The development of a generic Future Infra-Red Suppressor Technology (FIRST) and the supporting design & analysis capability are described. The FIRST technology development programme has yielded a generic, scaleable, retrofit helicopter IRS that balances aircraft signatures (multi-band IR & RADAR) and installation penalties (such as engine performance and operating costs) to yield a substantial increase in aircraft survivability when compared with existing IRS designs.
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МИНЕНКО, В. В., А. М. ФАТЬКОВ, and М. В. ЧИРКОВ. "Armament Supplies from the Excavation of the Medieval Ancient Settlement Bolshoe Savrasovo-2 in Leninsky District of Moscow Region." In Тверь, тверская земля и сопредельные территории в эпоху средневековья. Crossref, 2019. http://dx.doi.org/10.25681/iaras.2018.978-5-9906508-3-1.240-251.

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В статье представлены результаты анализа комплекса холодного наступательного вооружения и снаряжения всадника, происходящего из раскопок селища Большое Саврасово-2. Выделены три хронологические группы предметов вооружения – X–XI вв., XII–XIII вв., XV–XVI вв. Находки первых двух периодов (древнерусское время) представлены ручным метательным оружием – наконечниками стрел. Третий период характеризуется увеличением типов и видов воинского снаряжения, что, вероятно, связано с присутствием на поселении дворянина – вотчинника с отрядом вооруженных слуг. The report outlines the results of analysis of cold offensive armament and horseman equipment complex found during the excavation of the ancient settlement Bolshoe Savrasovo-2. There are three chronological groups of armament supplies: the X–XI centuries, the XII–XIII centuries, the XV–XVI centuries. Manual throwing weapon such as arrowheads represent fi ndings of the fi rst and second periods (Old Russian period). During the third period there was expansion in the number of types and sorts of military equipment apparently caused by the presence of a noblemanlandowner with a force of armed servants in the settlement.
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Glista, Andrew S., and John Nahvi. "A Broadband Wave Division Multiplexed (WDM) Local Area Network for Military Aircraft Using Commercial Off-the-Shelf (COTS) Components." In ASME 2003 International Electronic Packaging Technical Conference and Exhibition. ASMEDC, 2003. http://dx.doi.org/10.1115/ipack2003-35062.

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The US Naval Air Systems Command (NAVAIR) has recognized the need to rapidly test and evaluate (T&E) Generation II commercial, fiber optic and photonic components for use in harsh, military aerospace environments. This paper describes the Wavelength Division Multiplexed (WDM) Fiber-Optic Network (FON) demonstration program for the Navy EA-6B aircraft. The EA-6B Integrated Program Team is designing, developing and flight-testing a broadband fiber-optic Local Area Network (LAN) using ruggedized commercial WDM components and single mode cables and connectors. This WDM fiber optic backbone will be the first test demonstration of a network capable of simultaneously transferring both multi-protocol digital information and broadband radio frequency (RF) analog signals. Flight-testing of the digital portion of the system will take place on the EA-6B Tactical Electronic Attack aircraft with the support of NAVAIR at Patuxent River, MD. RF performance testing will take place at the Naval Air Warfare Center, Pt. Mugu California EA-6B Weapon System Support Laboratory. The first phase of this program [Flight Testing Optical Communication Using Open Standards (FOCUS) Phase I] demonstrated the survivability of Commercial Off-the-Shelf (COTS) fiber-optic single mode and multi-mode network hardware technology (cables, connectors, transmitters, receivers, encoders, decoders, and test equipment) on the EA-6B aircraft. The objective of the second phase of this program (FOCUS Phase II) is to design, develop, test and demonstrate, in the laboratory a (WDM ) network capable of simultaneously transmitting ultra wideband Radio Frequency (RF) analog signals as well as digital transmission protocols including Ethernet (10baseT), MIL-STD-1553, and ARINC-429 (et. al.) over a single fiber cable. The WDM FON system will then be installed and tested in the EA-6B aircraft. This paper will describe the backbone network design, which includes the network topology, test results on the proposed COTS components (lasers, couplers, add/drops, receivers etc.), and bandwidth allocation on the International Telecommunications Union (ITU) grid. Packaging of the COTS components to survive the extremely harsh military aircraft environment is also described.
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Bingqie, Wang, Ding Kejia, Jin Mei, and Su Donglin. "EMC Design Technologies on EW Weapons and Equipment." In 2006 7th International Symposium on Antennas, Propagation & EM Theory. IEEE, 2006. http://dx.doi.org/10.1109/isape.2006.353312.

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Yin, Tiehong, and Wenxiu Xie. "Analysis on The Performance of Weapons and Equipment Acquisition." In First International Conference Economic and Business Management 2016. Paris, France: Atlantis Press, 2016. http://dx.doi.org/10.2991/febm-16.2016.85.

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Celik, Hasan, Saban Adana, and Erhan Yahsi. "Military applications of the laser weapons in the future battlefield." In SPIE Defense, Security, and Sensing, edited by Mark Dubinskii and Stephen G. Post. SPIE, 2013. http://dx.doi.org/10.1117/12.1518459.

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Reports on the topic "Weapons and military equipment"

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Ruff, Grigory, and Tatyana Sidorina. THE DEVELOPMENT MODEL OF ENGINEERING CREATIVITY IN STUDENTS OF MILITARY INSTITUTIONS. Science and Innovation Center Publishing House, December 2020. http://dx.doi.org/10.12731/model_of_engineering_creativity.

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The troops of the national guard of the Russian Federation are equipped with modern models of weapons, special equipment, Informatization tools, engineering weapons that have artificial intelligence in their composition are being developed, " etc., which causes an increase in the requirements for the quality of professional training of future officers. The increasing complexity of military professional activities, the avalanche-like increase in information, the need to develop the ability to quickly and accurately make and implement well-known and own engineering solutions in an unpredictable military environment demonstrates that the most important tasks of modern higher education are not only providing graduates with a system of fundamental and special knowledge and skills, but also developing their professional independence, and this led to the concept of engineering and creative potential in the list of professionally important qualities of an officer. To expedite a special mechanism system compact intense clarity through cognitive visualization of the educational material, thickening of educational knowledge through encoding, consolidation and structuring Principle of cognitive visualization stems from the psychological laws in accordance with which the efficiency of absorption is increased if visibility in training does not only illustrative, but also cognitive function, which leads to active inclusion, along with the left and right hemispheres of the student in the process of assimilation of information, based on the use of logical and semantic modeling, which contributes to the development of engineering and creative potential.
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DEPARTMENT OF DEFENSE WASHINGTON DC. Military Handbook: General Guidelines for Electronic Equipment. Fort Belvoir, VA: Defense Technical Information Center, April 1995. http://dx.doi.org/10.21236/ada345304.

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Kirkwood, David B. Non-Lethal Weapons in Military Operations Other Than War. Fort Belvoir, VA: Defense Technical Information Center, June 1996. http://dx.doi.org/10.21236/ada312201.

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McNabb, Richard B. U.S. Military Intervention and the Role of Nonlethal Weapons. Fort Belvoir, VA: Defense Technical Information Center, April 1998. http://dx.doi.org/10.21236/ada363670.

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Wake, L. V. Fire Retardant Coatings for Military Equipment - A Review,. Fort Belvoir, VA: Defense Technical Information Center, February 1988. http://dx.doi.org/10.21236/ada195164.

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Bohler, Jeffrey A. Integrating Commercial Electronic Equipment to Improve Military Capabilities. Fort Belvoir, VA: Defense Technical Information Center, April 1999. http://dx.doi.org/10.21236/ada388691.

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Dickinson, Lansing E. Military Role in Countering Terrorist Use of Weapons of Mass Destruction. Fort Belvoir, VA: Defense Technical Information Center, April 1999. http://dx.doi.org/10.21236/ada388556.

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Hertog, Mary K. Nonlethal Weapons and Their Role in Military Police Missions: Future Fact or Fantasy. Fort Belvoir, VA: Defense Technical Information Center, April 1996. http://dx.doi.org/10.21236/ada388208.

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Cortes, Catherine M. Direct Commercial and Foreign Military Sales: Chemical Defense Equipment, an Introductory Brochure. Fort Belvoir, VA: Defense Technical Information Center, June 1991. http://dx.doi.org/10.21236/ada239026.

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Hornbeck, Brian, Johannes Kluck, and Richard Connor. Trilateral Design and Test Code for Military Bridging and Gap-Crossing Equipment. Fort Belvoir, VA: Defense Technical Information Center, May 2005. http://dx.doi.org/10.21236/ada476104.

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