Готові списки джерел за темами / Mechatronics engineering in defence systems

Добірка наукової літератури з теми "Mechatronics engineering in defence systems"

Автор: Grafiati
Опубліковано: 30 травня 2022
Оновлено: 31 травня 2022

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Статті в журналах з теми "Mechatronics engineering in defence systems"

1

Luo, ChengPu. "Application and Development of Sensors in Mechatronic Systems." Electronics Science Technology and Application 1, no. 1 (July 26, 2014): 1. http://dx.doi.org/10.18686/esta.v1i1.1.

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This paper describes the role of the sensor and its position in mechatronic systems, but also about the common in mechatronics sensor types, characteristics, structure and use, etc., also introduced in the selection of indicators in mechatronics and sensor sensors in the future development direction and future prospects. Sensor information training as a pulse is more widely popular and development to all areas of our businesses, which is to make our transition from labor-intensive to technology-based, must use its information technology, namely sensor technology, the sensor in industrial automation, defense industry agriculture, energy, transportation, household appliances and other applications has its developing markets. Potential in our country especially in sensor technology maximum. The main applications for chemistry, environmental protection, bio-engineering and medical health and so on.
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Luo, ChengPu. "Application and Development of Sensors in Mechatronic Systems." Electronics Science Technology and Application 1, no. 1 (July 26, 2014): 1. http://dx.doi.org/10.18686/esta.v1i1.11.

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This paper describes the role of the sensor and its position in mechatronic systems, but also about the common in mechatronics sensor types, characteristics, structure and use, etc., also introduced in the selection of indicators in mechatronics and sensor sensors in the future development direction and future prospects. Sensor information training as a pulse is more widely popular and development to all areas of our businesses, which is to make our transition from labor-intensive to technology-based, must use its information technology, namely sensor technology, the sensor in industrial automation, defense industry agriculture, energy, transportation, household appliances and other applications has its developing markets. Potential in our country especially in sensor technology maximum. The main applications for chemistry, environmental protection, bio-engineering and medical health and so on.
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3

Olejnik, Aleksander, Stanisław Kachel, Maciej Henzel, and Piotr Zalewski. "Education and research activity of The Institute of Aviation Technology of The Mechatronic and Aerospace Department of The Military University of Technology for aviation." Transportation Overview - Przeglad Komunikacyjny 2019, no. 1 (January 1, 2019): 10–17. http://dx.doi.org/10.35117/a_eng_19_01_02.

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Military University of Technology in Warsaw (MUT) is a military, engineering university operating over 60 years (since 1951). MUT educates students as well as cadets and conducts scientific researches for the needs of the Polish Armed Forces and national economy as well as defence sector. The Institute of Aviation Technology of the Faculty of Mechatronics and Aerospace is a part of Military University of Technology and conducts activities for the military and aviation industry. The Institute is a successor of the former Faculty of Aviation, which was founded in 1951. The Faculty was established for the training of the military aviation engineers who could maintain the jet-engine aircraft, entered the service in 60. of the previous century. Recently, the Faculty provides the higher education in the field of Aerospace Engineering for both military (cadets) and civil students. The scientific and research activities of the Institute are focused on numerical aerodynamic as well as tunnel investigations, airframe structure strength simulation, determination of thermophysical properties of aviation materials, and on-board avionics systems as well aviation armament. Integrated part of the Institute is the Training Centre of aviation maintenance personnel, certified with EASA Part-147 requirements. and it base on a certificate issued by the Civil Aviation Authority.
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Dorczuk, Maciej, and Przemysław Wachowiak. "The problem and analysis of vibrations appearing in N10 and N11 groups military vehicles with manually-operated armament modules." Scientific Journal of the Military University of Land Forces 203, no. 1 (March 15, 2022): 5–20. http://dx.doi.org/10.5604/01.3001.0015.8023.

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This article is a continuation of work aimed to identify vibrations. It contains the results of tests, calculations, and analyses in the field of vibrations occurring on the elements of equipment of the N10 group tracked vehicle and the N11 group armored wheeled vehicle (classification according to NO-06-A103:2005) equipped with manually operated weapon systems. A detailed description of the analyses carried out, and the results of the research on the N10 group vehicle are contained in the article: “The Problem and Analysis of Vibrations Appearing in an N10 Group Military Vehicle Fitted with a Manually-Operated Armament Module” published in the quarterly Problems of Mechatronics Armament, Aviation, Safety Engineering. This study thoroughly presents the test results and their analysis for the N11 group vehicle and only recalls the results of similar tests and analyses for the N10 group vehicle for comparison. The research aimed to get acquainted with the characteristics of vibrations occurring in stabilized turret systems (weapon system) and devices supplying turret systems in terms of amplitudes, practical values, and their energy for various operating conditions. The analyses were carried out concerning the requirements of the Polish defense standard NO-06-A103:2005 and MIL-STD-810F regarding the correctness of their application.
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Jurisica, Ladislav. "Mechatronics Systems." Communications - Scientific letters of the University of Zilina 9, no. 1 (March 31, 2007): 5–7. http://dx.doi.org/10.26552/com.c.2007.1.5-7.

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6

Vassilyev, S. N., A. A. Galyaev, V. V. Zaletin, K. S. Kulakov, M. V. Silnikov, and E. I. Yakushenko. "Joint Use of Mechatronic Systems to Organize Effective Counteraction to the Coordinated Action of Enemy Torpedoes." Mekhatronika, Avtomatizatsiya, Upravlenie 23, no. 4 (April 8, 2022): 197–208. http://dx.doi.org/10.17587/mau.23.197-208.

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The article proposes an approach to the organization of counteraction to the probable enemy on the basis of the joint use of mechatronic devices using the phenomenon of electric explosion to counteract homing systems and solving a group control task in order to protect the target from defeat. The above class of tasks involves the use by the attacked of mechatronic devices that play the role of mobile defenders, in the quality of which can act as a self-propelled source of interference, distracting the attacking object (missile or torpedo) by intercepting it, and a shock RTK aimed at destroying a dangerous object. A characteristic feature of the considered tasks is the incompleteness of a priori information about the distance to the attacking object and the possibility of instant use of active means. It is shown that the presence of even only a second defender is advisable, since it significantly increases the interception time compared to the case of only one defender. Also, an additional defender increases the probability of choosing one of the defenders for the intermediate pursuit instead of the main target. Under the conditions set in the considered models for starting positions, speeds and power reserve, in the case of a real torpedo attack on defenders, when following the constructed schemes for the release of defenders, the torpedo will not have enough fuel to defeat the main target. The methods of interference formation based on electric explosion are considered. It is proposed to use mechatronic hydroacoustic counteraction devices capable of moving in an aquatic environment and creating broadband interference of a given intensity as such sources. A model example of the use of mechatronic devices in a given scenario is considered.
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Tao, Yong, Jindong Tan, Zili Shao, and Hongxing Wei. "Mechatronics and Embedded Systems." Advances in Mechanical Engineering 6 (January 1, 2014): 239452. http://dx.doi.org/10.1155/2014/239452.

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Dinsdale, Jack. "Mechatronics engineering." Journal of Manufacturing Systems 16, no. 1 (January 1997): 69–70. http://dx.doi.org/10.1016/s0278-6125(97)88407-5.

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Hussein, Bassam A. "A Systems Approach for Modelling Mechatronics Systems." CIRP Annals 47, no. 1 (1998): 431–36. http://dx.doi.org/10.1016/s0007-8506(07)62868-6.

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Tao, Yong, Jindong Tan, and Hongxing Wei. "Mechatronics and embedded systems 2017." Advances in Mechanical Engineering 10, no. 12 (December 2018): 168781401881460. http://dx.doi.org/10.1177/1687814018814600.

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Дисертації з теми "Mechatronics engineering in defence systems"

1

Dawson, Richard Jonathan. "Performance-based management of flood defence systems." Thesis, University of Bristol, 2003. http://hdl.handle.net/1983/25b216eb-2068-47f2-b689-f3e0091f85fb.

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2

Kanjanapas, Kan. "Human Mechatronics Considerations of Sensing and Actuation Systems for Rehabilitation Application." Thesis, University of California, Berkeley, 2014. http://pqdtopen.proquest.com/#viewpdf?dispub=3640496.

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With the predicted increase in worldwide elderly population in the future and already significant populations of disabled people, assistive technologies and rehabilitation devices are demanded significantly. Utilizing a human mechatronic approach results in several advantages, including capability of measuring insightful information for patient's condition and providing proper assistive torque for abnormal movement correction. This dissertation investigates several domains, including (1) human dynamics model, (2) monitoring systems, and (3) design and control of active lower extremity exoskeleton.

The dissertation begins with a study of a human dynamic model and sensing system for diagnosis and evaluation of patient's gait condition as first step of rehabilitation. A 7-DOF exoskeleton equipped with multiple position sensors and smart shoes is developed, so that this system can deliver patient's joint motion and estimated joint torque information. A human walking dynamic model is derived as it consists of multiple sub-dynamic models corresponding to each gait phase. In addition, a 3D human motion capture system is proposed as it utilizes an inertial measurement unit (IMU) sensor for 3D attitude estimation with embedded time varying complementary filter. This sensing system can deliver 3D orientations of upper extremities, and a forward kinematics animation. For the development of a rehabilitation device, an active lower extremity exoskeleton is proposed. A rotary series elastic actuator (RSEA) is utilized as a main actuator of the exoskeleton. The RSEA uses a torsion spring yielding elastic joint characteristics, which is safe for human robot interaction applications. A RSEA controller design is implemented, including a PID controller, a feedforward controller for friction compensation, and a disturbance observer for disturbance rejection. All sensing and actuation systems developed in this dissertation are verified by simulation studies and experiments.

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Sherman, Matthew. "A Hands-on Method of Instruction for Feedback Control Systems and Mechatronics." Honors in the Major Thesis, University of Central Florida, 2005. http://digital.library.ucf.edu/cdm/ref/collection/ETH/id/805.

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This item is only available in print in the UCF Libraries. If this is your Honors Thesis, you can help us make it available online for use by researchers around the world by following the instructions on the distribution consent form at http://library.ucf
Bachelors
Engineering and Computer Science
Mechanical Engineering
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Erdener, Onur Alper. "Development Of A Mechatronics Education Desk." Master's thesis, METU, 2003. http://etd.lib.metu.edu.tr/upload/1095066/index.pdf.

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In this thesis a mechatronics education desk is developed. The system developed is a low cost, versatile mechatronics education and teaching environment that aims to facilitate hands-on education of undergradutate level mechatronics students. The desk is formed of three main modules that address the needs of mechatronics education: The WorkDesk, Mechatronic Building Blocks and Experimental Setups. These parts are well designed and presented to form a complete and coordinated solution for mechatronics education. The WorkDesk is a platform devoted to the mechatronics engineering trainee, which provides mechanical, electrical and software prototyping that enables studying, testing and parts integration for mechatronic projects. The components building up the WorkDesk are selected or developed to facilitate mechatronics design and prototyping. Mechatronic building blocks necessary for mechatronics teaching are identified and selected to be a part of the system. In order to support these modules, low cost custom building blocks are also developed. These include, an autonomous mobile robot kit and a versatile interface board called ready2go. Demonstrative experiments with custom developed building blocks are also presented. Two experimental setups are developed and presented in the scope of the thesis. The setups, Intelligent Money Selector and Heater/Cooler, address and demonstrate many aspects of mechatronic systems as well as aid introducing systems approach in mechatronics education. As a consequence, a mechatronics education desk is developed and presented with many hands-on educational case studies. The system developed forms an extensible and flexible software and hardware architecture and platform that enables integration of additional mechatronics education modules.
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Proesser, Malte. "A new approach to systems integration in the mechatronic engineering design process of manufacturing systems." Thesis, De Montfort University, 2014. http://hdl.handle.net/2086/10492.

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Creating flexible and automated production facilities is a complex process that requires high levels of cooperation involving all mechatronics disciplines, where software tools being utilised have to work as closely as their users. Some of these tools are well-integrated but others can hardly exchange any data. This research aims to integrate the software systems applied by the mechatronic engineering disciplines to enable an enhanced design process characterised by a more parallel and iterative work flow. This thesis approaches systems integration from a data modelling point of view because it sees information transfer between heterogeneous data models as a key element of systems integration. A new approach has been developed which is called middle-in data modelling strategy since it is a combination of currently applied top-down and bottom-up approaches. It includes the separation of data into core design data which is modelled top-down and detailed design data modules which are modelled bottom-up. The effectiveness of the integration approach has been demonstrated in a case study undertaken for the mechatronic engineering design process of body shop production lines in the automotive industry. However, the application of the middle-in data modelling strategy is not limited to this use case: it can be used to enhance a variety of system integration tasks. The middle-in data modelling strategy is tested and evaluated in comparison with present top-down and bottom-up data modelling strategies on the basis of three test cases. These test cases simulated how the systems integration solutions based on the different data modelling strategies react to certain disturbances in the data exchange process as they would likely occur during industrial engineering design work. The result is that the top-down data modelling strategy is best in maintaining data integrity and consistency while the bottom-up strategy is most flexibly adaptable to further developments of systems integration solutions. The middle-in strategy combines the advantages of top-down and bottom-up approaches while their weaknesses and disadvantages are kept at a minimum. Hence, it enables the maintenance of data modelling consistency while being responsive to multidisciplinary requirements and adaptive during its step-by-step introduction into an industrial engineering process.
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Roos, Fredrik. "On design methods for mechatronics : servo motor and gearhead." Licentiate thesis, Stockholm, 2005. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-167.

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Lasa, Morán J. Mikel. "A systems engineering approach for computer based design in mechatronics : a common rail application /." Düssdeldorf : VDI-Verl, 2002. http://www.gbv.de/dms/bs/toc/353099538.pdf.

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Roos, Fredrik. "Towards a methodology for integrated design of mechatronic servo systems." Doctoral thesis, Stockholm : Maskinkonstruktion, Kungliga Tekniska högskolan, 2007. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-4473.

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Lomaeus, Anton. "The Military Utility of Unmanned Aerial Systems for Swedish Tactical Deliveries : A Defence Systems Perspective." Thesis, Försvarshögskolan, 2021. http://urn.kb.se/resolve?urn=urn:nbn:se:fhs:diva-10246.

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There is a rapid development within the unmanned aerial systems (UAS) technologies and the logistics industry leads the research, motivated by potential future profits when used for last-mile deliveries. The military have used unmanned aerial vehicles (UAV) for many decades, but the military usage of UAVs for deliveries is almost unheard of.  The main purpose of the study is to theoretically evaluate if existing payload carrying UAVs could increase the Swedish defence-logistics organizations capabilities. This study is delimited to tactical deliveries and UAVs with a maximal takeoff weight of less than 250 kg.  This study begins by investigating the Swedish Armed Forces logistical needs and the capabilities of the existing UAVs. It then performs a research overview in the subject to be updated on the latest insights which are complemented by discussions with expertise in the subject. The theory utilized are Systems Science, Systems Engineering and Military Capability which lay ground to the Military Utility concept which is developed to evaluate the value of military systems to support decision-makers when acquiring new complex systems. To evaluate the military logistics performance, Mosh Kress book Operational logistics was used.  The research is split into three phases, phase one utilizes the insights from the background research to select UAVs to evaluate and to develop three potential scenarios. In phase two the Military Utility evaluation models are developed for each scenario. Phase three evaluates the concept systems performance for the scenarios. The conclusion is that there is circumstantial Military Utility with UAS within the Swedish logistics organization. The potential exists when used for their strengths such as low response time in hard-to-reach areas, and where there is a desire to remove the operators from danger during the transport. Further there is a potential to save operative costs in terms of man-hours, but UAVs are quite vulnerable to electronic disturbances and the cold and windy Swedish climate. The civil airspace regulation is also a major hinder for UAS effective use as well as their limited payload capacity.
Den teknologiska utvecklingen inom obemannade flygande system (UAS) går snabbt framåt. Det är logistikindustrin som leder forskningen motiverade av framtida vinster när tekniken används för sista kilometern-transporter. Militären har använt obemannade flygande fordon (UAV) i flera decennier, men inte för materielleveranser i någon betydande utsträckning. Det huvudsakliga syftet med den här studien är att teoretiskt utvärdera om befintliga transport UAV:er kan öka den svenska försvarslogistiska förmågan. Studien är avgränsad till taktiska leveranser med UAV:er som har en maximal startvikt på 250 kg. Studien börjar med att undersöka de svenska försvarslogistiska behoven samt förmågorna av existerande UAV:er. Den genomför sedan en forskningsöversikt i ämnet för att uppdateras om de senaste insikterna som även kompletteras av diskussioner med experter i ämnet. Teorin som används är Systemteori, Systemteknik och Militär förmåga som lägger grunden för det Militär Nytta-konceptet. Konceptet är utvecklat för att utvärdera värdet av militära system och förse beslutstagare med stöd vid anskaffande av nya komplexa system. För att utvärdera den militära logistikprestandan används Mosh Kress bok Operational Logistics. Genomförandet delas upp i tre faser. I fas ett används insikterna från initiala undersökningen för att välja ut UAV:er att utvärdera samt utvecklas tre potentiella scenarier. I fas två utvecklas Militära Nytta utvärderingsmodellerna för vartdera scenario. I fas tre utvärderas systemkonceptens prestanda i scenarierna. Slutsatsen är att Militär Nytta med UAS finns till varierande grad beroende på omständigheterna. Potentialen för tekniken finns främst när den används för sina styrkor till exempel vid behov av snabba leveranser till svåråtkomliga platser, samt när det finns ett behov att få bort förare från farliga platser. Vidare så finns det potential att spara operativa kostnader genom reducering av man-timmar, men UAV:er är ganska sårbara till elektroniska störningar och det svenska klimatet. Även luftrumsregelverken är ett hinder för effektiv användning samt dess begränsade lastkapacitet.
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Gustafsson, Filip. "Waste heat recovery systems : Fuel energy utilisation for a marine defence platform." Thesis, Blekinge Tekniska Högskola, Institutionen för maskinteknik, 2020. http://urn.kb.se/resolve?urn=urn:nbn:se:bth-19681.

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This report is a thesis for BTH in collaboration with the company Saab Kockums AB. In order to meet future environmental and economical demands, a vessel must reduce its fuel consumption to have a smaller climate impact and save money. Waste heat recovery systems (WHRS) captures the thermal energy generated from a process that is not used but dumped into the environment and transfers it back to the system. Thermal energy storage (TES) is the method of storing thermal energy which allows heat to be used whenever necessary. Some applications of TES are seasonal storage, where summer heat is stored for use in the winter or when ice is produced during off-peak periods and used for cooling later. The purpose of this study is to investigate the possibilities of utilising a vessel’s waste heat by converting thermal energy into electrical energy. This thesis also aims to investigate conditions for SaltX Technology’s nano-coated salt as a potential solution for thermal energy storage. Initially, the expectations and requirements a future WHRS were investigated in a function analysis. Continuously, the method consisted of a combination of a literature review and dialogue with stakeholders. The literature review was used as a tool to identify, select and study concepts of interest built on scientifically proven facts. Dialogues with stake holders were held as a complement to the literature study to find information. The study showed that an organic Rankine cycle has the highest efficiency for low-medium temperature heat and is therefore most suitable to recover thermal energy from the cooling water. The concept of a steam Rankine cycle is most suitable for recovering thermal energy from the exhaust gases for direct use.The study obtained conditions and important properties for storing thermal energy in salt for later use. Finally, the result showed that a Stirling engine is the most efficient concept for conversion of stored energy into electrical energy. The conclusions are that there are great possibilities for waste heat recovery on marine defence platforms. A Stirling engine for energy conversion in combinations with thermal energy storage shows most promise as a future waste heat recovery system on this type of marine platform.
Denna rapport är ett examensarbete för BTH i samarbete med företaget Saab Kockums AB. Arbetet utforskar möjligheterna att möta framtida miljömässiga och ekonomiska krav genom att låta fartyg minska sin bränsleförbrukning. System för återvinning av spillvärme (WHRS) fångar upp värmeenergi som vanligtvis kyls ner eller släpps ut i naturen och för den tillbaka till systemet. Termisk energilagring (TES) är metoder för lagring av värme som gör det möjligt att använda termisk energi när det behövs. Vissa applikationer av TES är säsongslagring, där sommarvärme lagras för användning på vintern eller när is produceras under vintern och används för kylning senare. Syftet med denna studie är att undersöka möjligheterna att utnyttja ett fartygs spillvärme genom att omvandla termisk energi till elektrisk energi. Detta examensarbete syftar också till att undersöka förhållandena för hur SaltX Technology’s nanobelagda salt kan användas som en potentiell lösning för lagring av termisk energi. Inledningsvis undersöktes WHRS:s förväntningar och krav i en funktionsanalys. Fortsättningsvis bestod metoden av en kombination av en litteraturstudie och dialoger med intressenter. Litteraturstudien användes som ett verktyg för att identifiera, välja och studera intressanta koncept baserade på vetenskapligt beprövade fakta. Dialoger hölls som ett komplement till litteraturstudien för att hitta information. Studien visade att en organisk Rankine-cykel har den högsta verkningsgraden för låg-medelhög temperatur och därför är bäst lämpad för att återvinna energi buren i kylvattnet samt att en ång-Rankine-cykel är bäst lämpad för att utnyttja energin från avgaserna för direkt användning. Studien erhöll förhållanden för termisk energilagring i salt samt viktiga parametrar för systemet. Slutligen visade resultatet att en Stirlingmotor är det mest effektiva konceptet för omvandling av lagrad energi till elektrisk energi. Slutsatserna är att det finns stora möjligheter för återvinning av restvärme på marina försvarsplattformar. En Stirlingmotor för energiomvandling i kombination med termisk energilagring visar störst potential som ett framtida system för återvinning av spillvärme på denna typen av plattformar.
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Книги з теми "Mechatronics engineering in defence systems"

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B, Histand Michael, ed. Introduction to mechatronics and measurement systems. 4th ed. New York: McGraw-Hill, 2012.

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B, Histand Michael, ed. Introduction to mechatronics and measurement systems. 3rd ed. Dubuque, IA: McGraw-Hill, 2007.

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B, Histand Michael, ed. Introduction to mechatronics and measurement systems. 2nd ed. Boston: McGraw-Hill, 2003.

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4

Mechatronics: A foundation course. Boca Raton: Taylor & Francis, 2010.

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5

Electromechanical systems, electric machines, and applied mechatronics. Boca Raton, Fla: CRC Press, 2000.

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6

Janschek, Klaus. Mechatronic Systems Design: Methods, Models, Concepts. Berlin, Heidelberg: Springer-Verlag Berlin Heidelberg, 2012.

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7

1956-, Zhang Qin, and Hansen Alan C, eds. Mechatronics and intelligent systems for off-road vehicles. London: Springer, 2010.

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8

Merzouki, Rochdi. Intelligent Mechatronic Systems: Modeling, Control and Diagnosis. London: Springer London, 2013.

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9

International, Conference on Design Manufacturing and Mechatronics (2015 Wuhan China). Design, manufacturing and mechatronics: Proceedings of the 2015 International Conference on Design, Manufacturing, and Mechatronics (ICDMM2015), Wuhan, China, April 17-18, 2015. [Hackensack] New Jersey: World Scientific, 2016.

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Finn, Anthony. Innovations in Defence Support Systems – 1. Berlin, Heidelberg: Springer-Verlag Berlin Heidelberg, 2010.

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Частини книг з теми "Mechatronics engineering in defence systems"

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Hein, Lars. "Framework for Mechatronics Systems Design." In Perspectives from Europe and Asia on Engineering Design and Manufacture, 251–59. Dordrecht: Springer Netherlands, 2004. http://dx.doi.org/10.1007/978-1-4020-2212-8_24.

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Bachorz, Paweł. "Mechatronics Systems Modelling Challenges and Threats." In Modelling in Engineering 2020: Applied Mechanics, 1–10. Cham: Springer International Publishing, 2021. http://dx.doi.org/10.1007/978-3-030-68455-6_1.

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Hockley, Christopher J., Adam T. Zagorecki, and Laura J. Lacey. "Enabling Support Solutions in the Defence Environment." In Complex Engineering Service Systems, 257–76. London: Springer London, 2011. http://dx.doi.org/10.1007/978-0-85729-189-9_14.

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Bu, Xuhui, Fashan Yu, and Fuzhong Wang. "Iterative Feedback Tunning for Boiler–Turbine Systems." In Electrical, Information Engineering and Mechatronics 2011, 239–46. London: Springer London, 2012. http://dx.doi.org/10.1007/978-1-4471-2467-2_28.

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Wang, Shaohua. "Fault-Tolerant Control of Time-Delay Systems." In Electrical, Information Engineering and Mechatronics 2011, 837–45. London: Springer London, 2012. http://dx.doi.org/10.1007/978-1-4471-2467-2_99.

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Hockley, Christopher J., Jeremy C. Smith, and Laura J. Lacey. "Contracting for Availability and Capability in the Defence Environment." In Complex Engineering Service Systems, 237–56. London: Springer London, 2011. http://dx.doi.org/10.1007/978-0-85729-189-9_13.

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Liu, Juan. "Dynamical Output Feedback Control for Distributed Delay Systems." In Electrical, Information Engineering and Mechatronics 2011, 285–92. London: Springer London, 2012. http://dx.doi.org/10.1007/978-1-4471-2467-2_33.

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Liu, Lifang, and Shuli Sun. "State Filter for Descriptor Systems with Packet Losses." In Electrical, Information Engineering and Mechatronics 2011, 427–33. London: Springer London, 2012. http://dx.doi.org/10.1007/978-1-4471-2467-2_50.

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Haibin, Yuan. "Network Topology Model and Fault Analysis for Electrical Control Systems." In Electrical, Information Engineering and Mechatronics 2011, 1473–79. London: Springer London, 2012. http://dx.doi.org/10.1007/978-1-4471-2467-2_175.

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Wang, Guowei, Zhibin Zhang, and Manjun Xue. "A Solution for Management Information Systems Integration Based on WebService." In Electrical, Information Engineering and Mechatronics 2011, 1601–8. London: Springer London, 2012. http://dx.doi.org/10.1007/978-1-4471-2467-2_191.

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Тези доповідей конференцій з теми "Mechatronics engineering in defence systems"

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Ma, Qi, and Jincheng Han. "Research on Air Defense Missile Target Assignment Algorithm." In 2015 International Conference on Intelligent Systems Research and Mechatronics Engineering. Paris, France: Atlantis Press, 2015. http://dx.doi.org/10.2991/isrme-15.2015.371.

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Gao, Jianjun, Qi Ma, Lipo Huang, Qiang Guo, and Jianting Huang. "Research on Multi-objective Algorithm of Air Defense Missile Fire Unit." In 2015 International Conference on Intelligent Systems Research and Mechatronics Engineering. Paris, France: Atlantis Press, 2015. http://dx.doi.org/10.2991/isrme-15.2015.370.

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Ai, Jieqing, Zhenyue Long, and Shang Gao. "A Novel Virus Detection and Active Defense Algorithm Based on SVM Optimized by Differential Evolution Algorithm." In 2015 International Conference on Intelligent Systems Research and Mechatronics Engineering. Paris, France: Atlantis Press, 2015. http://dx.doi.org/10.2991/isrme-15.2015.14.

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Tong, Weiming, Peiyou Chen, and Xuelei Song. "Dual-CPU Based Power Monitor Applied in the Electrical System of People Defense Engineering." In 2007 International Conference on Mechatronics and Automation. IEEE, 2007. http://dx.doi.org/10.1109/icma.2007.4304185.

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Biggs, B. "Ministry of Defence Architectural Framework (MODAF)." In IEE Seminar on UML Systems Engineering. IEE, 2005. http://dx.doi.org/10.1049/ic:20050127.

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Fan, Lin, Jun Du, YanPeng Guo, and Hui Wang. "A Security Defense Scheme for Encryption and Network Isolation Gateway in Power System." In 2018 IEEE 4th Information Technology and Mechatronics Engineering Conference (ITOEC). IEEE, 2018. http://dx.doi.org/10.1109/itoec.2018.8740437.

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Farncombe, A. "Systems engineering within the defence and aerospace industries." In IET Seminar on Systems Engineering in Railways 2009: Making it work for you. IET, 2009. http://dx.doi.org/10.1049/ic.2009.0277.

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Bardo, B. "SEAS DTC systems engineering for Autonomous Systems Defence Technology Centre." In IET Seminar on the Directions and Funding of Robotics Research in the UK. IEE, 2008. http://dx.doi.org/10.1049/ic:20080557.

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Woodroof, Harry J., and Ase K. Jakobsson. "Defence and security implications of technology changes." In 2014 9th International Conference on System of Systems Engineering (SOSE). IEEE, 2014. http://dx.doi.org/10.1109/sysose.2014.6892490.

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Petrucci, Laure, Michal Knapik, Wojciech Penczek, and Teofil Sidoruk. "Squeezing State Spaces of (Attack-Defence) Trees." In 2019 24th International Conference on Engineering of Complex Computer Systems (ICECCS). IEEE, 2019. http://dx.doi.org/10.1109/iceccs.2019.00015.

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Звіти організацій з теми "Mechatronics engineering in defence systems"

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Modlo, Yevhenii O., Serhiy O. Semerikov, Stanislav L. Bondarevskyi, Stanislav T. Tolmachev, Oksana M. Markova, and Pavlo P. Nechypurenko. Methods of using mobile Internet devices in the formation of the general scientific component of bachelor in electromechanics competency in modeling of technical objects. [б. в.], February 2020. http://dx.doi.org/10.31812/123456789/3677.

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Анотація:
An analysis of the experience of professional training bachelors of electromechanics in Ukraine and abroad made it possible to determine that one of the leading trends in its modernization is the synergistic integration of various engineering branches (mechanical, electrical, electronic engineering and automation) in mechatronics for the purpose of design, manufacture, operation and maintenance electromechanical equipment. Teaching mechatronics provides for the meaningful integration of various disciplines of professional and practical training bachelors of electromechanics based on the concept of modeling and technological integration of various organizational forms and teaching methods based on the concept of mobility. Within this approach, the leading learning tools of bachelors of electromechanics are mobile Internet devices (MID) – a multimedia mobile devices that provide wireless access to information and communication Internet services for collecting, organizing, storing, processing, transmitting, presenting all kinds of messages and data. The authors reveals the main possibilities of using MID in learning to ensure equal access to education, personalized learning, instant feedback and evaluating learning outcomes, mobile learning, productive use of time spent in classrooms, creating mobile learning communities, support situated learning, development of continuous seamless learning, ensuring the gap between formal and informal learning, minimize educational disruption in conflict and disaster areas, assist learners with disabilities, improve the quality of the communication and the management of institution, and maximize the cost-efficiency. Bachelor of electromechanics competency in modeling of technical objects is a personal and vocational ability, which includes a system of knowledge, skills, experience in learning and research activities on modeling mechatronic systems and a positive value attitude towards it; bachelor of electromechanics should be ready and able to use methods and software/hardware modeling tools for processes analyzes, systems synthesis, evaluating their reliability and effectiveness for solving practical problems in professional field. The competency structure of the bachelor of electromechanics in the modeling of technical objects is reflected in three groups of competencies: general scientific, general professional and specialized professional. The implementation of the technique of using MID in learning bachelors of electromechanics in modeling of technical objects is the appropriate methodic of using, the component of which is partial methods for using MID in the formation of the general scientific component of the bachelor of electromechanics competency in modeling of technical objects, are disclosed by example academic disciplines “Higher mathematics”, “Computers and programming”, “Engineering mechanics”, “Electrical machines”. The leading tools of formation of the general scientific component of bachelor in electromechanics competency in modeling of technical objects are augmented reality mobile tools (to visualize the objects’ structure and modeling results), mobile computer mathematical systems (universal tools used at all stages of modeling learning), cloud based spreadsheets (as modeling tools) and text editors (to make the program description of model), mobile computer-aided design systems (to create and view the physical properties of models of technical objects) and mobile communication tools (to organize a joint activity in modeling).
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