Relevant bibliographies by topics / Military equipment and supplies

Contents

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

Academic literature on the topic 'Military equipment and supplies'

Author: Grafiati
Published: 4 June 2021
Last updated: 6 February 2022

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Journal articles on the topic "Military equipment and supplies"

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Bilous, M. V., O. P. Shmatenko, O. A. Ryzhov, V. V. Trokhymchuk, О. V. Galan, and D. V. Drozdov. "Conceptual aspects of management of the distribution of medical supplies from the position of military pharmaceutical logistics." Farmatsevtychnyi zhurnal, no. 3 (March 18, 2019): 3–11. http://dx.doi.org/10.32352/0367-3057.3.19.01.

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One of the main directions of logistic support of the Armed Forces of Ukraine is medical support which is aimed at life safeguard and health of military personnel, well-timed and efficient provision of medical care in the event of injuries, injuries and diseases, fast renewal of combat power and ability to work in different conditions of its handling and at different period of time. The readiness of medical service of the Armed Forces of Ukraine to the medical support of the troops depends on the well-timed organization of medical supplies and the refilling of medical supplies full and complete. The qualitative and efficient allocation of medical equipment and medical supplies is a determining factor in this process. The aim of the work – reasoning of the irregularity of distribution logistics in the unified logistic system of the Armed Forces of Ukraine and the study of the main aspects of management of the distribution of medical supplies from the position of military pharmaceutical logistics. To get the purpose of the research, the analysis of domestic scientific sources and the current normative and legal base of Ukraine have been carried out. Research methods are: information search, comparison, systemization, semantic analysis, synthesis and modeling. In the conditions of logistic support of the Armed Forces of Ukraine and other components of the security and defense forces of Ukraine, the logistic function of the distribution of logistical equipment, inventory, military equipment and services (food, bath and laundry services, etc.) should ensure the activity of troops (forces) in peacetime and war time. It is the guarantee of the ability to ensure the defense of the state and appropriate response to military threats to the national security of Ukraine, efficiently using available potential and resources. Distribution logistics from the position of military pharmaceutical logistics is the management of all functional subsystems of the medical supplies and health services of the Ministry of Defense of Ukraine in order to optimize the distribution of the material flow (purchased medical supplies) from the supplier to the final consumer (according to the applications of the Military Medical Clinical Centers of the Regions). Same, distributive logistics in the structure of a unified logistic support system of the Armed Forces of Ukraine does not carry a commercial component, and its functions consist in planning, organization of distribution, control and regulation of the logistic process of distribution of material and technical means (including medical equipment and supplies), inventory, military equipment, services (catering, bath and laundry service, etc.). According to the authors, the term «marketing logistics» is not possible to use as a single system of logistic support of the Armed Forces of Ukraine, and in its subsystems. To sum it up, it was suggested to use the term «distributive logistics». On the basis of theoretical generalization of the data of scientific literature and normative legal acts, the main aspects of management of the distribution of medical equipment and supplies from the standpoint of military pharmaceutical logistics are studied. The functions of distributive logistics are defined, the model of the current logistic chain of distribution of medical equipment and supplies in the medical service of the Armed Forces of Ukraine is constructed. It is noted that in order to ensure the qualitative and efficient distribution of medical equipment and supplies, a regulatory and legal framework which regulates the division of powers between institutions and units of medical supplies and defines the responsibility for their implementation in the current conditions of the reformation of the Armed Forces of Ukraine.
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Sun, Yang, Xin Wang, Ke Peng Zhang, and Xiao Tang. "Study on Supplies Loading of Equipment Support Force." Applied Mechanics and Materials 333-335 (July 2013): 2089–92. http://dx.doi.org/10.4028/www.scientific.net/amm.333-335.2089.

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This paper mathematically described the supplies loading problem of military equipment support dispatching force. Through taking all supplies average loading as the objective function, taking the same kind of supplies group loading, no overweight and overcapacity, no-repeated loading and packing as constraint conditions, optimization model was put forward. And the effectiveness of the model was validated by the example computation.
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Sullivan, Francis M., Gary Kleinman, Selim Suner, and Jack St.Jean. "Development of an Equipment and Supply List for Emergency Medical Services Delivery at an Annual Air Show." Prehospital and Disaster Medicine 14, no. 2 (June 1999): 68–71. http://dx.doi.org/10.1017/s1049023x00027369.

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AbstractIntroduction:Reports of medical care at mass gatherings reflect variability in mission and delivery models. Equipment recommendations are similarly varied. Thoughtful pre-planning and experience-based analysis are the best mechanisms for defining general and specific equipment recommendations.Objective:This report presents a suggested supply and equipment list developed over a six-year period of medical coverage at an air show, with an emphasis on the usage and cost of expendable supplies.Methods:The authors were involved in the planning for and execution of emergency medical care for a large, local, military air show on an annual basis, including provision of expendable medical supplies. A list of such supplies was developed over the initial two to three years, formalized and refined over the subsequent two years, and analyzed in the final, highest patient volume year of coverage. Detailed usage and cost was tracked over the final year for expendable supplies.Results:The results of this analysis indicate that comprehensive emergency medical care from first aid to mass casualty care can be offered at reasonable equipment and supply costs, if existing equipment resources can be supplemented by expendable supplies from a pre-determined list. Given the need for large quantities of supplies for a mass casualty contingency and the low likelihood of occurrence, a loan arrangement with a supplier, with return of unused supplies, is particularly convenient and economical. The approach used in this study should be appreciable in other similar settings. In concurrent scheduled events, the iterative process described can lead to greater specificity of needs for expendable supplies.
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Alexejev, Gueorgui. "Military-Civilian Collaboration for Disaster Medicine in the USSR (Discussion Comment)." Journal of the World Association for Emergency and Disaster Medicine 1, no. 1 (1985): 31. http://dx.doi.org/10.1017/s1049023x00032623.

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The efficiency of EMS, especially resuscitation of the severely wounded, depends upon speed and skills. This requires well-organized military-civilian collaboration, as shown during recent earthquakes in Ashkhabad and Tashkent. Reasons include the great mobility of military medical units, including field hospitals; communication facilities; specialized means of transportation; readiness of equipment and supplies; as well as skillled military medical personnel.
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Nawrotek, Jarosław. "MILITARY-INDUSTRIAL COMPLEX OF RUSSIAN FEDERATION." PROBLEMY TECHNIKI UZBROJENIA 153, no. 1 (July 3, 2020): 37–53. http://dx.doi.org/10.5604/01.3001.0014.2703.

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Defence industry may be defined as a system of factories and organisations developing, manufacturing and selling military equipment, weapons and ammunition. In the case of the Russian Federation the terminology of “defence industry” and “military industry” is often used as an equivalent to the Military-Industrial Complex (MIC). The Military-Industrial Complex is a segment of the state industry involved in manufacture of the military equipment and performance of research-development projects in the defence sector. Typical feature of the Military-Industrial Complex is that the state is always its customer. Level of development for the Russian MIC plays a crucial role for maintaining the safety of the state and beside the supplies for the army it is responsible in a great degree for technical equipment of main segments of economy (medicine, transport, education, fuelenergetic complex, etc.). The governing board of the MIC in-cludes 18 persons led by the President of Russian Federation - Vladimir Putin.
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Honcharuk, A., V. Oleniev, V. Shlapak, V. Didyk, and N. Oleniev. "THE DETERMINATION OF THE PROSPECTIVE COMPOSITION OF THE POWER SUPPLY SYSTEM AS A PART OF COMBAT EQUIPMENT COMPLEXES OF SERVICEMENOF MILITARY RECONNAISSAHCE UNITS OF THE ARMED FORCES OF UKRAINE." Collection of scientific works of Odesa Military Academy 2, no. 12 (December 27, 2019): 46–54. http://dx.doi.org/10.37129/2313-7509.2019.12.2.46-54.

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In a certain perspective, the development of military equipment of military personnel should be aimed at equipping the military units with modern models of small arms that meet the world standards in terms of aiming, range and accuracy of shooting, armor-piercing, ammunition, energy supply, weight indicators etc. The priorities of logistical support are determined by: equipping the personnel with modern combat equipment complexes, which will consist of field uniforms at the level of the best world samples and personal protective equipment, night vision devices, navigation and communication equipment (with the necessary level of energy supply, energy security, security); search for new materials and technologies for the protection of manpower, terrestrial and aerial vehicles (composite nanostructured masking coatings with high thermal conductivity to reduce the likelihood of detection in the infrared spectrum by means of observation, detection, recognition) etc. The Individual Equipment Set of Personnel (IESP) remains one of the most important components that contributes to improving combat effectiveness and reducing personnel losses when performing combat missions. At the present stage of IESP development, priority is given to the creation of advanced systems of defeat, control and communication, protection, life support and energy supply, as well as increased soldier maneuverability in combat at the turn of 2020. A generalized analysis of the main tasks of creating a combat equipment complex (CEC) for the serviceman of the Armed Forces of Ukraine makes it possible to state that the fulfillment of all the intended goals and tasks should be ensured and accompanied by a highly effective system of scientific research and scientific support of the state programs of development of all systems and elements of the CEC. The power supply system and its components (chargers, power supplies, power converters and transmitters, means of controlling the system components) are one of the most important components of equipment. The most important stage of substantiation of the perspective composition of the energy supply system (chargers, power sources, means of transformation and transmission of electricity, means of controlling the performance of system components) in the complexes of combat equipment of military intelligence units is a complex assessment of the contribution to the effectiveness of combat based on mathematical modeling of fighting. According to the basic principles of the system approach, when developing requirements for individual subsystems, it is necessary to proceed from the basic purpose of the whole system as a whole, expressed in terms of its efficiency. This approach to the study of the energy supply system (chargers, power supplies, means of transformation and transmission of power, means of monitoring the performance of system components) in the complexes of military equipment of military intelligence units of the Armed Forces of Ukraine allows to choose rational option from the many options and direct the priority direction of upgrading of power supply system (chargers, power supplies, means of conversion and transmission of electricity, means of controlling work system components) in the complexes of military equipment of military personnel.
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Aydın, Abdurrahim, and Tuncay Zorlu. "Transfer of German Military Know-How and Technology to the Ottoman Military Factories at the beginning of the First World War." Belleten 79, no. 285 (August 1, 2015): 739–60. http://dx.doi.org/10.37879/belleten.2015.739.

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Supply of military weapons, equipment, spare parts and ammunition had always been of a crucial importance for the Ottoman Empire. This issue came to be a part of an international diplomacy from 19th century onwards when the Ottoman governments were forced into a position to choose allies from European Powers who were in rivalry in providing military materials. Many companies from France, England and Germany competed with each other in order to have the greatest share from the military supplies market in the Ottoman Empire. Such German companies as Krupp, and Rheinische Metallwaren und Maschinefabrik in Düsseldorf; French company Sxneider/Le Creusot; and British Armstrong/Vickers Company were among them. However, German weapon companies stood out in meeting the needs of the Ottoman military. In the reign of Abdulhamid II, the German company of Krupp came forward in selling artillery weapons in particular after the 1880's, and turned out to be the dominant power in the end of the century, while the other German companies dealt in the various other military materials such as rifles, ammunitions, spare parts, wagons, factory workbenches. Levazımat-ı Umumiye Dairesi (General Supplies Department) which functioned as attached to the Harbiye Nezareti (Ministry of War) during the early years of the 20th century was in charge of the supply and distribution of primary materials which were necessary for the provisioning of the army. This department was not only involved in the provisioning and equipment of the army during the WWI, but played an important role in procuring the technical equipment for the setting up and development of military factories as well as establishing connections and cooperation with Germany to this end, through its branches. It is possible to reach many correspondences about these cases in ATESE Archives which is attached to the General Staff. This study aims to provide some examples concerning the activities of the above-mentioned department and military factories and procuring the wartime equipment in particular, based on the primary sources.
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McManus, William F. "Burn Mass Casualty Management: Lessons Learned." Prehospital and Disaster Medicine 1, S1 (1985): 153. http://dx.doi.org/10.1017/s1049023x00044241.

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Successful management of a mass casualty situation involving 45 injured marines following a fire in Japan demonstrates the important principles of triage, patient movement, quality patient care, logistics, communication and medical direction.Following the accident, the US Army Institute of Surgical Research assembled a burn team consisting of three surgeons, three nurses, one microbiologist and eleven clinical specialists (three of whom were inhalation therapy technicians) and the equipment and supplies necessary to treat and transport these patients. The US Air Force Military Airlift Command transported the team and equipment to Japan in a C–141 Starlifter Medevac plane and pre-positioned a second C–141 in Japan for the return flight. Additional ventilators and supplies were mobilized from Japan, Okinawa, the Philippines and Alaska.
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Gazda, Andrzej, and Tadeusz Olejarz. "NATO Logistics System – Example of the Polish Armed Forces." Applied Mechanics and Materials 708 (December 2014): 26–32. http://dx.doi.org/10.4028/www.scientific.net/amm.708.26.

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Logistics support is essential for armed forces in terms of successful accomplishment of tasks. It is a process which consists in providing supplies, which include armament and military equipment as well as combat and material assets The article presents the general principles of NATO logistics, basic terms and definitions, logistic support issues and logistic systems in the Polish Armed Forces.
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Belikov, V., S. Kovalishyn, and L. Papusha. "TRANSPORT PLATFORMS OF MODERN LAND-MOBILE ROBOTS FOR CLANDESTINE CONDUCT OF BATTLE OPERATIONS AND TRANSPORTATION OF LOADS." Collection of scientific works of Odesa Military Academy, no. 11 (December 27, 2019): 79–84. http://dx.doi.org/10.37129/2313-7509.2019.11.79-84.

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The current level of development of robotic systems of armaments, military and special equipment is characterized by an accelerated transition to their construction on a modular basis. Due to this relatively small nomenclature of initial blocks-modules of lower levels can provide a large variety of the type of land-mobile robotic complexes of specialized functionality. There is an opportunity to quickly adapt the necessary robotic military equipment to specific combat conditions, which guarantees the reliable performance of the assigned combat missions. It is proposed to equip the transport platforms for robotic systems of armament, military and special technics by electromechanical engines on the basis of autonomous drive modules with driven forced electric motors on the basis of rare-earth neodymium permanent magnets. At the same time, record high performance transshipment capacity is achieved, which dramatically increases the ability to overcome difficult road impediments. The article deals with the design features of modular transport platforms for modern robotized weapons, military and special equipment systems, which are conditioned by the need for reliable delivery of weapons, ammunition, equipment, foodstuffs and medical supplies to the personnel on the line of contact with the enemy in difficult geoclimatic conditions. It is shown that the necessary quality of realization of the assigned of combat tasks is ensured by the application of the installation on the platforms of autonomous electromechanical drives of driving wheels.
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Dissertations / Theses on the topic "Military equipment and supplies"

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Thornhill, Paula Georgia. "Catalyst for coalition : the Anglo-American supply relationship, 1939-1941." Thesis, University of Oxford, 1991. http://ora.ox.ac.uk/objects/uuid:e66ee069-43c1-423b-8d54-d883c8ff4040.

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This thesis explores the Anglo-American supply relationship, 1939-1941, and the ability of these two nations to wage a coalition war immediately after the Japanese attack on Pearl Harbor. Organisationally, the first chapters of the thesis look at the impact of the Great War and the interwar period on this relationship. The remaining chapters are devoted to the evolution of the supply relationship between September 1939 and December 1941. The evidence found in British and American archives indicates that early supply discussions, conducted under the supervision of Arthur Purvis and Henry Morgenthau, established a common ground for Anglo-American co-operation during the early days of the Second World War. The fall of France prompted the British Government to seek much closer ties with the United States. However, in mid-1940 many senior US officials insisted that America should concentrate on its own defence against the Nazi threat because of the likelihood of Britain's defeat. By the end of 1940, the American defence planners were more confident of Britain's ability to survive, and therefore they were willing to consider the creation of Anglo-American defence plans. At the same time President Roosevelt requested Congressional approval for the Lend-Lease Act, to ensure the British Government could still acquire US war supplies even if it lacked the dollars to pay for them. Because of the inability of US industry to produce adequate war materiel for the British effort and American rearmament, representatives from the two countries were forced to work closely together to determine production and allocation priorities. Moreover, since these decisions influenced the fighting capability of British and American forces, war planners rather than civilians officials began to make these supply decisions. Subsequently, British and American officials determined that their efforts should be based on a joint strategy. Ultimately this realisation inspired the creation of the Victory Programme, which effectively acknowledged that supply needs, strategic considerations, and an overall commitment to defeat Germany and its allies were indistinguishable. Thus the supply relationship, 1939-1941, provided the foundation for the Anglo-American wartime coalition against Hitler.
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Hwang, Yawlin. "Dynamic electromechanical measurements of carbon black loaded SBR." Thesis, Virginia Tech, 1988. http://hdl.handle.net/10919/43862.

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The major objectives of this study were to examine electrical and electromechanical properties of SBR filled with carbon black in the 0-70 phr range. The experiments were divided into four parts: dielectric measurement, loss modulus and phase angle measurements, temperature rise measurement during stress cycling, and dynamic conductivity measurement. It is established that there are three distinct conduction regimes existing at carbon black loadings below, at, and above the percolation threshold. Characteristics of dielectric dispersion depend strongly on carbon black loading and frequency. Dielectric and AC conductivity measurements are shown to provide a nondestructive method to explore the carbon black network inside the rubber. Both loss modulus and phase angle are related to hysteresis properties, and to temperature rise due to compressive cycling. Measurements of these parameters will be discussed in detail, as functions of carbon black loading, stress and strain amplitudes, and oscillation frequency. These and other results can be understood in terms of the mechanics of the carbon black network. The variation of conductivity with strain amplitude is related directly to the interplay between the "persistent" and "transient" fractions of carbon black network. It is shown that, owing to its experimental accuracy and great sensitivity to carbon black network changes, the dynamic conductivity measurement is preferable to traditional modulus measurements for determining certain dynamic properties of carbon black filled rubbers.
Master of Science
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Ingold, Joseph Patrick. "Fiber optic sensors and networks for U.S. Navy shipboard tests and trials." Thesis, Virginia Tech, 1990. http://hdl.handle.net/10919/41974.

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After a U. S. Navy ship is built but before it is placed into service, many performance tests of all shipboard systems are conducted. These tests vary greatly in who performs the test, the purpose of each test, which system or systems are being tested, and the duration of each test. As naval warfare ships become increasingly complicated, the performance tests that are conducted also become numerous and complex. The current test philosophy prescribes that for each test and test organization, telemetry cables for electrical sensors are strung throughout the ship immediately prior to the test being conducted. As the shipboard tests and trials become more numerous and complex this philosophy becomes expensive from a labor and materials point of view.

This thesis proposes an economical solution to the current test and trials problem by offering a fiber optic network with optical sensors. The fiber optic network will be designed to accommodate as many different users as possible, and it will be installed once, during the new ship construction. Prior to the network design, optical fiber sensor schemes are discussed. One sensing scheme, using quartz crystal oscillators, looks promising for the test and trials application. This one sensing method can be applied to acceleration, velocity, displacement, temperature, current, and voltage. Thus economies can be realized by using one network and sensor type for the majority of tests and trials applications.
Master of Science

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Harty, Michael David. "Statistical process control as a tool for expert system diagnostics." Thesis, Georgia Institute of Technology, 1989. http://hdl.handle.net/1853/24853.

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Mepham, Leslie P. "Making their mark, Canadian snipers and the Great War, 1914-1918." Thesis, National Library of Canada = Bibliothèque nationale du Canada, 1997. http://www.collectionscanada.ca/obj/s4/f2/dsk2/ftp01/MQ30969.pdf.

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Al-Ansary, Hany A. "Investigation and improvement of ejector-driven heating and refrigeration systems." Diss., Georgia Institute of Technology, 2004. http://hdl.handle.net/1853/36540.

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Santos, William O. "An analysis of the prediction accuracy of the U.S. Navy repair turn-around time forecast model." Thesis, Monterey, Calif. : Springfield, Va. : Naval Postgraduate School ; Available from National Technical Information Service, 2003. http://library.nps.navy.mil/uhtbin/hyperion-image/03Jun%5FSantos.pdf.

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Thesis (M.S. in Operations Research)--Naval Postgraduate School, June 2003.
Thesis advisor(s): Robert A. Koyak, Samuel E. Buttrey. Includes bibliographical references (p. 55). Also available online.
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Bares, John Alvin 1951. "Preliminary equipment selection analysis of mining shovels and haulage trucks." Thesis, The University of Arizona, 1987. http://hdl.handle.net/10150/558076.

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Villaseñor-Herrera, Alejandro. "Recoil effect of the ice hockey stick during a slap shot." Thesis, McGill University, 2004. http://digitool.Library.McGill.CA:80/R/?func=dbin-jump-full&object_id=81450.

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This thesis examined the 'recoil' effect of the ice hockey stick shaft during a stationary slap shot. Nine subjects were tested. Four were classified as 'elite' and the remaining five as the 'recreational' group. Their performances were evaluated by simultaneously recording stick movement and bending from high-speed video capture (1000 Hz) and puck acceleration from a triaxial accelerometer positioned inside the puck. Data were analyzed with a one-way ANOVA for several dependant variables including final puck velocity, stick shaft bending, blade-puck contact time and stick kinetic energy. The results indicated that: (1) the puck velocity was influenced by skill level, blade-puck contact time and stick bending energy but not puck acceleration. Further studies are needed to address the influence of events before and after blade-puck contact as well as the strength of the player on the mechanical energy and impulse given to the puck.
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Dowler, Patrick McLean 1983. "Effects of ice hockey facial protectors on response time and kinematics." Thesis, McGill University, 2008. http://digitool.Library.McGill.CA:80/R/?func=dbin-jump-full&object_id=111600.

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Ice hockey facial protectors are essential to prevent eye and dental injuries but must also not encumber vision and, in turn, players' performance. The purpose of this study was to investigate the effects of three different facial protection conditions on response time (RsT) and kinematics in a goal directed pointing task: helmet (control), visor, and cage. A 13 light target array and six-camera Vicon Mx system were used to collect response time and kinematic data. Subjects recruited were 16 male and 12 female varsity ice hockey players (n=28). Results demonstrated that although kinematics remained largely unaffected, throughout the visual field test RsT increased significantly with the cage (23 ms) as well as delayed head movement for both the visor (14 ms) and cage (18 ms). These differences may well represent a functional disadvantage to a player's performance given the dynamic, open environment where multiple players contest for puck possession. In summary, further research is warranted to achieve both optimal performance and safety.
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Books on the topic "Military equipment and supplies"

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

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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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Zhuang bei yun chou xue: Military operations research on equipment. Beijing: Guo fang gong ye chu ban she, 2004.

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

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Will, Fowler. Arms & equipment of Special Forces. London: Greenhill Books, 1996.

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C, Coulston J., ed. Military equipment and the identity of Roman soldiers: Proceedings of the Fourth Roman Military Equipment Conference. Oxford, England: B.A.R., 1988.

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Silvey, Michael W. United States military knives: Collector's guide. Sacramento, Calif. (P.O. Box 278103, Sacramento 95827): M.W. Silvey, 1989.

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Thomson, Mark. Three views of risk: Selecting and acquiring military equipment. Canberra]: Australian Strategic Policy Institute (ASPI), 2011.

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Silvey, Michael W. United States military knives, 1941 to 1991. Sacramento, Calif. (P.O. Box 278103, Sacramento 95827): M.W. Silvey, 1992.

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Office, General Accounting. Honduran deployment: Controls over U.S. military equipment and supplies : report to Congressional requesters. Washington, D.C: The Office, 1988.

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Book chapters on the topic "Military equipment and supplies"

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Fisher, Richard C., and Dominic Awariyah Adondaa. "Equipment and Supplies." In Global Orthopedics, 31–36. Cham: Springer International Publishing, 2019. http://dx.doi.org/10.1007/978-3-030-13290-3_7.

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Fisher, Richard C., and Dominic Awariyah Adondaa. "Equipment and Supplies." In Global Orthopedics, 31–37. New York, NY: Springer New York, 2014. http://dx.doi.org/10.1007/978-1-4614-1578-7_7.

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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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Goltra, Peter S. "Medical Supplies and Equipment." In Medcin, 691–706. New York, NY: Springer New York, 1997. http://dx.doi.org/10.1007/978-1-4612-2286-6_87.

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Richardson, Graham T. "Illustrator’s Equipment and Supplies." In Illustrations, 205–70. Totowa, NJ: Humana Press, 1985. http://dx.doi.org/10.1007/978-1-4612-4992-4_9.

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Dykstra, Michael J., and Laura E. Reuss. "Electron Microscopy Equipment and Supplies." In Biological Electron Microscopy, 493–98. Boston, MA: Springer US, 2003. http://dx.doi.org/10.1007/978-1-4419-9244-4_32.

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Vandormael, Michel, Thomas Ischinger, and Robert Roth. "Angioplasty Equipment and Supplies: Technical Considerations." In Practice of Coronary Angioplasty, 93–127. Berlin, Heidelberg: Springer Berlin Heidelberg, 1986. http://dx.doi.org/10.1007/978-3-642-70815-2_7.

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Tricker, Ray. "Electrical equipment, components, accessories and supplies." In Wiring Regulations in Brief, 153–206. Fourth edition. | Abingdon, Oxon ; New York : Routledge, 2021.: Routledge, 2020. http://dx.doi.org/10.1201/9781003001829-5.

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Tricker, Ray. "Electrical equipment, components, accessories and supplies." In Wiring Regulations Pocket Book, 187–235. London: Routledge, 2021. http://dx.doi.org/10.1201/9781003165170-6.

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Delgado, Edgar, Wendeline J. Grbach, Joanne Kowiatek, and Michael DeVita. "Equipment, Medications, and Supplies for an RRS." In Textbook of Rapid Response Systems, 291–311. New York, NY: Springer New York, 2010. http://dx.doi.org/10.1007/978-0-387-92853-1_26.

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Conference papers on the topic "Military equipment and supplies"

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Anderson, John, and George Bullen. "Aviation Assembly Automation: A Case Study in MET/Industry Alliance." In ASME 2004 International Mechanical Engineering Congress and Exposition. ASMEDC, 2004. http://dx.doi.org/10.1115/imece2004-59876.

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There is a revolution underway in military aircraft assembly. This has been spurred by a combination of customer demands for faster and less expensive solutions, competition in the global aircraft market, and the opportunity to capitalize on technologies that have been developed for other industry segments. In addition, the workforce in military aviation in the US is aging and there is a need to train and educate a new workforce. This paper describes the formation of a unique consortium and the resultant strategic alliance(s) that are formed involving aircraft manufacturers, their equipment suppliers, and education. At the forefront of the educational efforts is Mechanical Engineering Technology. MET is in a unique position to assist in the test, evaluation, modification and technology assessments for their strategic industry and supplier partners. At the same time students are familiarized with the specific processes that the technology addresses and the problems of industry that the technology is targeted to resolve. The involvement of universities in industry research facilitates the familiarization of students with the unique and current problems faced by industry so that graduates enter the work force ready to assimilate into the value stream with minimum training and instruction. The development of a collaborative project between Northrop Grumman Corporation, M. Torres, SA, and the MET Department of Purdue University is discussed. The goal of this project is to develop a lower cost method of fixturing aircraft parts during assembly, with an integrated metrology system. Particular emphasis is placed on overcoming and aligning the scheduling, cultural and business obstacles in bringing together a Spanish machine builder, an American aircraft manufacturer and an academic department to address all aspects of the problem.
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Dumas, Antonio, Michele Trancossi, and Stefano Anzillotti. "An Airship Design Methodology Based on Available Solar Energy in Low Stratosphere." In ASME 2010 International Mechanical Engineering Congress and Exposition. ASMEDC, 2010. http://dx.doi.org/10.1115/imece2010-38931.

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The actual applicative research concerning airships and their use as HAP (High Altitude Platforms for telecommunications and military use) presents new applicative hypothesis of these systems, also concerning energetic high quote production. Authors present the energetic balance of a high quote photovoltaic platform with capability of static hovering realized by electric powered propellers. This is the first step trough the design of the P. S. I. C. H. E. (Photovoltaic Space Island for Conversion of Hydrogen as Energy vector) airship concept: a stratospheric airship which could be considered a platform for hydrogen and oxygen production by photovoltaic. It investigates the behaviour of a similar platform operating at altitudes between 10 and 20 km, positioned at 45° latitude north [1, 2]. This paper analyses the design process for a High Altitude Platform based on photovoltaic energy caption, but the process could be generalized in order to be applied to any airship project. It is considers airship shapes equipped with large PV array that covers energy request during the day. Surplus in power supplies electrolyser equipments for hydrogen and oxygen production from water, which could be captured by atmospheric humidity or brought by an auxiliary airship. Hydrogen and Oxygen are compressed and stored in gas cylinders. With insufficient solar irradiance, with severe wind conditions and during the night, a fuel cell system fed by hydrogen and oxygen tanks supplies power requirements. The Standard Atmosphere Model is used to evaluate PV performance at various operative altitudes. A propulsion system with electric motors grants airship manoeuvrability and hovering. Energy balance of PV-hydrogen energy supply system has been analyzed for three airship shapes with equal volume with concern of overabundant hydrogen and oxygen production. Total weight and payload are calculated in relation to altitude. Storage tanks dimensions and products ground transportation frequency has been estimated. Hydrogen annual production for PV square meter has been evaluated in relation to ground production at the same latitude.
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Asano, Noboru, Kiyoshi Tsutsui, Takashi Yamashita, and Shizuo Furubo. "Power supplies for customer premises telecommunications equipment." In TELESCON '94 - The First International Telecommunications Energy Special Conference. IEEE, 1994. http://dx.doi.org/10.1109/telesc.1994.4794313.

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Walker, W. D. "Modern military avionics power supplies a DFM challenge." In 1999 IEEE Aerospace Conference. Proceedings (Cat. No.99TH8403). IEEE, 1999. http://dx.doi.org/10.1109/aero.1999.793160.

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Cucchietti, Flavio, Luca Giacomello, Patrizia Vaccarone, and Sara Rollino. "Ecoefficiency of universal power supplies for customer premises equipment." In INTELEC 2011 - 2011 33rd International Telecommunications Energy Conference. IEEE, 2011. http://dx.doi.org/10.1109/intlec.2011.6099736.

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Broadley, E. T. "Autonomous Power Supplies for Remote, Safety Critical Electronic Equipment." In Road Transport Information and Control Conference 2014 (RTIC 2014). Institution of Engineering and Technology, 2014. http://dx.doi.org/10.1049/cp.2014.0804.

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Mancini, N. "Canadian Standards Association Certification Requirements for Telephone Equipment Power Supplies." In INTELEC '86. IEEE, 1986. http://dx.doi.org/10.1109/intlec.1986.4794500.

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Zhai, Cheng-gong, Xiao-biao Jiang, Ying-xing Zhang, and Nan Liu. "Research on the Optimization of Military Supplies under Big Data Background." In 2018 International Conference on Big Data and Artificial Intelligence (BDAI). IEEE, 2018. http://dx.doi.org/10.1109/bdai.2018.8546629.

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TATTELMAN, PAUL. "Interpreting climatic information for designing military equipment." In 26th Aerospace Sciences Meeting. Reston, Virigina: American Institute of Aeronautics and Astronautics, 1988. http://dx.doi.org/10.2514/6.1988-386.

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Qiang, Tao, Bin Zhu, and Lin Li. "A study on Military Equipment Lean Maintenance." In 2011 International Conference on Quality, Reliability, Risk, Maintenance, and Safety Engineering (ICQR2MSE). IEEE, 2011. http://dx.doi.org/10.1109/icqr2mse.2011.5976680.

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Reports on the topic "Military equipment and supplies"

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CORPS OF ENGINEERS WASHINGTON DC. Maintenance of Supplies and Equipment: Materiel Maintenance Policies. Fort Belvoir, VA: Defense Technical Information Center, February 1999. http://dx.doi.org/10.21236/ada404386.

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ARMY MATERIEL COMMAND ALEXANDRIA VA. Maintenance of Supplies and Equipment, Guide to Reliability-Centered Maintenance. Fort Belvoir, VA: Defense Technical Information Center, June 1985. http://dx.doi.org/10.21236/ada170938.

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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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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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Stroud, Mary Ann. ARIES oxide production program legacy risk reduction project: Parts, supplies, and equipment assessment 2015 report. Office of Scientific and Technical Information (OSTI), September 2015. http://dx.doi.org/10.2172/1215823.

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DEPARTMENT OF THE ARMY WASHINGTON DC. Requisition and Issue of Supplies and Equipment: Special Authorization and Procedures for Issues, Sales, and Loans. Fort Belvoir, VA: Defense Technical Information Center, February 2002. http://dx.doi.org/10.21236/ada402450.

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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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Marsh, Patricia A., Amy J. Frontz, Edward A. Blair, Gregory M. Mennetti, Michael B. Dell, Devon R. Houston, Ai T. Nguyen, et al. Internal Controls Over the Department of the Navy Military Equipment Baseline Valuation Effort. Fort Belvoir, VA: Defense Technical Information Center, October 2008. http://dx.doi.org/10.21236/ada499184.

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