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Books on the topic 'Energy Localization'

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Author: Grafiati

Published: 19 October 2024

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1

E, Smith Todd, Murthy Durbha V. 1960-, and United States. National Aeronautics and Space Administration., eds. Localization of aeroelastic modes in mistuned high-energy turbines. [Washington, DC]: National Aeronautics and Space Administration, 1991.

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2

Localization & energy transfer in nonlinear systems (3rd 2002 San Lorenzo de El Escorial, Madrid). Localization & energy transfer in nonlinear systems: Proceedings of the third conference : June 17-21 2002, San Lorenzo de El Escorial, Madrid. Edited by Vázquez L, MacKay R. S, and Zorzano María Paz. River Edge, N.J: World Scientific, 2003.

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3

Chen, Leian. Signal Processing and Machine Learning Methods for Internet of Things: Smart Energy Generation and Robust Indoor Localization. [New York, N.Y.?]: [publisher not identified], 2022.

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4

Hickey, William. Energy and Human Resource Development in Developing Countries: Towards Effective Localization. Palgrave Macmillan, 2016.

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5

Hickey, Will. Energy and Human Resource Development in Developing Countries: Towards Effective Localization. Palgrave Macmillan, 2016.

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6

Mackay, Robert S., and María Paz Zorzano. Localization and Energy Transfer in Nonlinear Systems, Proceedings of the Third Conference. World Scientific Publishing Co Pte Ltd, 2003.

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7

Zorzano, Maria Paz. Localization and Energy Transfer in Nonlinear Systems: Proceedings of the Third Conference. World Scientific Publishing Co Pte Ltd, 2003.

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8

Proceedings of the third conference: Localization & energy transfer in nonlinear systems : June 17-21 2002, San Lorenzo de El Escorial, Madrid. Singapore: World Scientific, 2003.

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9

RSS-AoA-Based Target Localization and Tracking in Wireless Sensor Networks. River Publishers, 2017.

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10

Tomic, Slavisa, Rui Dinis, and Marko Beko. RSS-AoA-Based Target Localization and Tracking in Wireless Sensor Networks. River Publishers, 2022.

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11

Tomic, Slavisa, Rui Dinis, and Marko Beko. RSS-AoA-Based Target Localization and Tracking in Wireless Sensor Networks. River Publishers, 2022.

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12

Tomic, Slavisa, Milan Tuba, Rui Dinis, Marko Beko, and Nebojsa Bacanin. RSS-AoA-Based Target Localization and Tracking in Wireless Sensor Networks. River Publishers, 2017.

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13

RSS-AoA-Based Target Localization and Tracking in Wireless Sensor Networks. River Publishers, 2023.

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14

Hong, Claire. Mapping the distribution of cell surface molecules by chromophore localization in the transmission electron microscope via low electron energy loss imaging. 2004.

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15

Localization and Energy Transfer in Nonlinear Systems: Proceedings of the Third Conference, June 17-21, 2002, San Lorenzo De El Escorial Madrid. World Scientific Publishing Company, 2003.

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16

Neisius, Andreas, Micheal E. Lipkin, Glenn M. Preminger, and James F. Glenn. Stone fragmentation techniques. Edited by John Reynard. Oxford University Press, 2017. http://dx.doi.org/10.1093/med/9780199659579.003.0017.

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Abstract:

After its implementation in 1980, shock wave lithotripsy (SWL) became the first-line treatment for more than 80% of patients with urolithiasis. During the last three decades, SWL technology has advanced rapidly in terms of shock wave generation, focusing, patient coupling, and stone localization. Indications for SWL have evolved as well. Although endoscopic treatment techniques continue to improve, SWL continues to be considered first-line therapy for the treatment of many urinary stones. This chapter reviews the fundamental principles of SWL and presents advances in lithotripsy technology such as shock wave generation and focusing, advances in stone localization (imaging), different energy source concepts, and coupling modalities. Our understanding of the pathophysiology and the physics of shock waves can enhance extracorporeal SWL efficacy while limiting complications. Finally, current indications for and contraindications to SWL depending on stone location and in context of the updated AUA/EAU Guidelines are discussed.

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17

Zangwill, Andrew. A Mind Over Matter. Oxford University Press, 2021. http://dx.doi.org/10.1093/oso/9780198869108.001.0001.

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Philip W. Anderson (1923–2020) is widely regarded as one of the most accomplished and influential physicists of the second half of the twentieth century. Educated at Harvard, he served during World War II as a radar engineer, and began a thirty-five year career at Bell Laboratories in 1949. He was soon recognized as one of the pre-eminent theoretical physicists in the world, specializing in understanding the collective behavior of the vast number of atoms and electrons in a sample of solid matter. He won a one-third share of the 1977 Nobel Prize for Physics for his discovery of a phenomenon common to all waves in disordered matter called Anderson localization and the development of the Anderson impurity model to study magnetism. At Cambridge and Princeton Universities, Anderson led the way in transforming solid-state physics into the deep, subtle, and coherent discipline known today as condensed matter physics. He developed the concepts of broken symmetry and emergence and championed the concept of complexity as an organizing principle to attack difficult problems inside and outside physics. In 1971, Anderson was the first scientist to challenge the claim of high-energy particle physicists that their work was the most deserving of federal funding. Later, he testified before Congress opposing the Superconducting Super Collider particle accelerator. Anderson was a dominant figure in his field for almost fifty years. At an age when most scientists think about retirement, he made a brilliant contribution to many-electron theory and applied it to a novel class of high-temperature superconductors.

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