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Data Portability Among Providers o Platform as a Service

Reference Architecture for Semantically Interoperable Clouds. In: 2010 IEEE Second International Conference on Cloud Computing Technology and Science , pp. 143-150. 13. MERZKY, A., STAMOU, K., JHA, S. 2009. Application Level Interoperability between Clouds and Grids. Workshops at the Grid and Pervasive Computing Conference, pp. 143-149. 14. NoSQL, http://nosql-database.org/, Accessed 20.02.2013. 15. PETCU, D., MACARIU, G., PANICA S., CRACIUN C. 2012. Portable Cloud applications-From theory to practice. Future Generation

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Determination of Accuracy and Reliability of Portable Hardness Testers

REFERENCES Belan, J., 2012. Study of advanced materials for aircraft jet engines using quantitative metallography . Recent Advances in Aircraft Technology, Rijeka, Croatia, 49-74. Borggreen, K., Auerkari, P., 2001. Performance of some portable hardness testers . Baltica V – Condition and life management for power plants, Porvoo, Finland, 559-574. Borkowski, S., Ulewicz, R., 2009. Laboratorium z materiałoznawstwa dla inżynierów , CWA, Częstochowa, Poland. Chandler, H., 2004. Hardness testing , ASM International, Materials Park, Ohio

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Portable Airfield Surfaces

Portable Airfield Surfaces

Since existing methods and technologies for rebuilding airfield surfaces damaged in unfortunate events can not cope with stringent time regimes, folding, portable airfield surfaces have been constructed. NATO member countries, including Poland, have at their disposal portable airfield surfaces which allow the restoration of damaged airfield surface system components in the shortest time possible. Currently, for repairing damage to major airfield surfaces two types of folding, portable airfield surfaces are used: aluminium and composite, both assuring safe conditions for airborne operations.

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Reliability of Lactate Scout Portable Analyzer in Agility Dogs During Multiple Measurements

References 1. Ignjatović A, Hofmann P, Radovanović D: Non-invasive determination of the anaerobic threshold based on the heart rate deflection point. FU Phys Ed Sport 2008; 6: 1-10. 2. Tanner RK, Fuller KL, Ross MLR: Evaluation of three portable blood lactate analysers: Lactate Pro, Lactate Scout and Lactate Plus. Eur J Appl Physiol 2010; 109: 551-559. 3. Šentija D, Vučetić V, Marković G: Validity of the modified Conconi running test. Int J Sports Med 2007; 28: 1006-1011. 4. Rovira S, Muñoz M

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A Concept of Minimizing an Electric Power Supply System for Portable Gear and Arms

-Hill, New York 1993. [5] Meeting the energy needs of future warriors, Committee on Soldier/Energy Systems, National Research Council, The National Academies Press Washington, D.C., 2004. [6] Salejda W., Poprawski R., Jacak L., Misiewicz J., Termodynamika, Wrocław 2001 [Thermodynamics - available in Polish]. [7] SET-173, Fuel cells and other emerging man portable power technologies for the NATO Warfighter, Science and Technology Organization, 2014. [8] Wytyczne techniczne dla baterii i akumulatorów w zakresie

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Portable Heat Pump Testing Device

Abstract

The aim of this paper is to present the design and working principle of a portable testing device for heat pumps in the energy recirculation system. The presented test stand can be used for any refrigerating/reverse flow cycle device to calculate the device energy balance. The equipment is made of two portable containers of the capacity of 250 liters to simulate the air heat source and ground heat source with a system of temperature stabilization, compressor heat pump of the coefficient of performance (COP) of = 4.3, a failsafe system and a control and measurement system.

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Design, Investigation and Measurement of A Compact Ultra Wideband Antenna for Portable Applications

ultra-wideband antenna with dual band- notch characteristics. In 14th International Conference on Computer and Information Technology (ICCIT) , 22-24 December 2011. IEEE, 117-121. [10] Mobashsher, A.T., Misran, N., Islam, M.T. (2011). Ultra-compact wideband antenna for portable device applications. Informacije MIDEM , 41 (3), 179-181. [11] Medeiros, C.R., Costa, J.R., Fernandes, C.A. (2009). Compact tapered slot UWB antenna with WLAN band rejection. IEEE Antennas and Wireless Propagation Letters , 8, 661-664. [12

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Electromagnetic Dosimetry of Radiofrequency Portable Transceivers Used in Front of the Face

., model SY4050-LM, Oct. 2015. [8] Miclaus S., Dumbrava I., Voicu V., Bechet P., Patru I., Electromagnetic Exposure due to Portable Two-way Radio Transceivers and Walkie-Talkies, Proceedings of the 10th International Symposium On Advanced Topics In Electrical Engineering, Bucharest, Romania, 23-25 March, 2017. [9] Vermeeren G., Joseph W., and Martens L., SAR compliance assessment of PMR 446 and FRS walkie-talkies, Bioelectromagnetics, vol. 36(7), pp. 517-526, 2015. [10] Gryz K., Zradziński P., Karpowicz J., and Leszko W

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Construction of a Portable Mini Luminescence-Measurement System Equipped with a Miniature X-Ray Generator

-007-0542-1. Poolton NRJ, Bøtter-Jensen L, Wintle AG, Jakobsen F and Knudsen KL, 1994. A portable system for the measurement of sediment OSL in the field. Radiation Measurements 23(2-3): 529-532, DOI 10.1016/1350-4487(94)90093-0. Yawata T and Hashimoto T, 2004. Availability of a small X-ray tube combined with Al-absorber as a new irradiator for luminescence researches. Radioisotopes 53: 207-212. Yawata T, Sakaue H, Itou S and Hashimoto T, 2006. Usability of a new multiple high speed pulse time data registration, processing and

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A portable fast neutron radiography system for non-destructive analysis of composite materials

., Punnachaiya, S., & Wonglee, S. (2010). Neutron radiography imaging plate. Appl. Radiat. Isot ., 68 , 662–664. doi: 10.1016/j.apradiso.2009.09.21. 4. Hausladen, P. A., Bingham, P. R., Neal, J. S., Mullens, J. A., & Mihalczo, J. T. (2007). Portable fast-neutron radiography with the nuclear materials identification system for fissile material transfers. Nucl. Instrum. Methods Phys. Res. Sect. B-Beam Interact. Mater. Atoms , 261 , 387–390. doi: 10.1016/j.nimb.2007.04.206. 5. Fujine, S., Yoneda, K., Yoshii, K., Kamata, M., Tamaki, M., Ohkubo, K., Ikeda, Y

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