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Journal articles on the topic 'Airborne'

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Published: 4 June 2021
Last updated: 25 May 2024

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1

Daakir, M., M. Pierrot-Deseilligny, P. Bosser, F. Pichard, and C. Thom. "UAV ONBOARD PHOTOGRAMMETRY AND GPS POSITIONNING FOR EARTHWORKS." ISPRS - International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences XL-3/W3 (August 19, 2015): 293–98. http://dx.doi.org/10.5194/isprsarchives-xl-3-w3-293-2015.

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Over the last decade, Unmanned Airbone Vehicles (UAVs) have been largely used for civil applications. Airborne photogrammetry has found place in these applications not only for 3D modeling but also as a measurement tool. <i>Vinci-Construction-Terrassement</i> is a private company specialized in public works sector and uses airborn photogrammetry as a mapping solution and metrology investigation tool on its sites. This technology is very efficient for the calculation of stock volumes for instance, or for time tracking of specific areas with risk of landslides. The aim of the present work is to perform a direct georeferencing of images acquired by the camera leaning on an embedded GPS receiver. UAV, GPS receiver and camera used are low-cost models and therefore data processing is adapted to this particular constraint.
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2

Ayala, Naomi. "Airborne." Callaloo 17, no. 3 (1994): 849. http://dx.doi.org/10.2307/2931867.

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3

Adkins. "Airborne." Fourth Genre: Explorations in Nonfiction 17, no. 2 (2015): 71. http://dx.doi.org/10.14321/fourthgenre.17.2.0071.

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4

Ojaide, Tanure. "Airborne." World Literature Today 68, no. 1 (1994): 22. http://dx.doi.org/10.2307/40149838.

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5

Bischoff, Werner E., Brian K. Tucker, Michelle L. Wallis, Beth A. Reboussin, Michael A. Pfaller, Frederick G. Hayden, and Robert J. Sherertz. "Preventing the Airborne Spread ofStaphylococcus aureusby Persons With the Common Cold: Effect of Surgical Scrubs, Gowns, and Masks." Infection Control & Hospital Epidemiology 28, no. 10 (October 2007): 1148–54. http://dx.doi.org/10.1086/520734.

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Objective.Transmission ofStaphylococcus aureusvia air may play an important role in healthcare settings. This study investigates the impact of barrier precautions on the spread of airborneS. aureusby volunteers with experimentally induced rhinovirus infection (ie, the common cold).Design.Prospective nonrandomized study.Setting.Wake Forest University School of Medicine (Winston-Salem, NC).Participants.A convenience sample of 10 individuals with nasalS. aureuscarriage selected from 593 students screened for carriage.Intervention.AirborneS. aureusdispersal was studied in the 10 participants under the following clothing conditions: street clothes, surgical scrubs, surgical scrubs and a gown, and the latter plus a face mask. After a 4-day baseline period, volunteers were exposed to a rhinovirus, and their clinical course was followed for 12 days. Daily swabs of nasal specimens, pharynx specimens, and skin specimens were obtained for quantitative culture, and cold symptoms were documented. Data were analyzed by random-effects negative binomial models.Results.All participants developed a common cold. Incidence rate ratios (IRRs) indicated that, compared with airborne levels ofS. aureusduring sessions in which street clothes were worn, airborne levels decreased by 75% when surgical scrubs were worn (P<.001), by 80% when scrubs and a surgical gown were worn (P<.001), and by 82% when scrubs, a gown, and a face mask were worn (P<.001). The addition of a mask to the surgical scrubs and gown did not reduce the airborne dispersal significantly (IRR, 0.92;P>.05). Male volunteers shed twice as muchS. aureusas females (incidence rate ratio, 2.04;P= .013). The cold did not alter the efficacy of the barrier precautions.Conclusions.Scrubs reduced the spread of airborneS. aureus, independent of the presence of a rhinovirus-induced cold. Airborne dispersal of S. aureus during sessions in which participants wore surgical scrubs was not significantly different from that during sessions in which gowns and gowns plus masks were also worn.
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6

Reid, Michael J. A., Miriam Haverkamp, Tammi McAllister, Jonathan Miller, and Brianna L. Kirk. "Airborne Outreach." Journal of the International Association of Providers of AIDS Care (JIAPAC) 13, no. 2 (June 4, 2013): 106–9. http://dx.doi.org/10.1177/2325957413488198.

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7

Cull, J. P. "Airborne sirotem." Exploration Geophysics 20, no. 3 (June 1989): 399–402. http://dx.doi.org/10.1071/eg989399.

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8

LAURELL, GUNNAR, GUNNAR LÖFSTRÖM, J. HENNING MAGNUSSON, and ÖRJAN OUCHTERLONY. "Airborne Infections." Acta Medica Scandinavica 134, no. 3 (April 24, 2009): 189–204. http://dx.doi.org/10.1111/j.0954-6820.1949.tb06627.x.

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9

Bubnova, Olga. "Airborne graphene." Nature Nanotechnology 12, no. 3 (March 2017): 190. http://dx.doi.org/10.1038/nnano.2017.35.

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10

Śpiewak, Radosław. "Airborne dermatitis." Dermatopedia 3 (2014): 004. http://dx.doi.org/10.14320/dermatopedia.pl.2014.004.

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11

LAURELL, GUNNAR. "AIRBORNE INFECTIONS." Acta Pathologica Microbiologica Scandinavica 31, no. 1 (August 14, 2009): 92–98. http://dx.doi.org/10.1111/j.1699-0463.1952.tb05061.x.

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12

LAURELL, GUNNAR. "AIRBORNE INFECTIONS." Acta Pathologica Microbiologica Scandinavica 31, no. 1 (August 14, 2009): 99–111. http://dx.doi.org/10.1111/j.1699-0463.1952.tb05062.x.

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13

LAURELL, GUNNAR. "AIRBORNE INFECTIONS." Acta Pathologica Microbiologica Scandinavica 31, no. 1 (August 14, 2009): 112–23. http://dx.doi.org/10.1111/j.1699-0463.1952.tb05063.x.

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14

Pennycuick, C. J. "Just airborne." Nature 381, no. 6578 (May 1996): 126. http://dx.doi.org/10.1038/381126b0.

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15

LAURELL, GUNNAR. "Airborne Infections." Acta Paediatrica 41, no. 2 (June 28, 2008): 124–37. http://dx.doi.org/10.1111/j.1651-2227.1952.tb17012.x.

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16

LAURELL, GUNNAR, GUNNAR LÖFSTRÖM, J. HENNNING MAGNUSSON, and ÖRJAN OUCHTERLONY. "AIRBORNE INFECTIONS1." Acta Medica Scandinavica 128, S196 (April 24, 2009): 602–16. http://dx.doi.org/10.1111/j.0954-6820.1947.tb14695.x.

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17

M, Eeftens, and Gehrig R. "Airborne pollen." Environmental Epidemiology 3 (October 2019): 107. http://dx.doi.org/10.1097/01.ee9.0000606884.39242.88.

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18

Kramer, Melissa G., and James H. Marden. "Almost airborne." Nature 385, no. 6615 (January 1997): 403–4. http://dx.doi.org/10.1038/385403a0.

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19

Spellberg, Brad, and Robert A. Bonomo. "“Airborne Assault”." Critical Care Medicine 41, no. 8 (August 2013): 2042–44. http://dx.doi.org/10.1097/ccm.0b013e31829136c3.

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20

McGoldrick, Mary. "Airborne Contaminants." Home Healthcare Now 35, no. 7 (2017): 400. http://dx.doi.org/10.1097/nhh.0000000000000575.

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21

Lewtas, Joellen. "Airborne carcinogens." Pharmacology & Toxicology 72 (February 1993): 55–63. http://dx.doi.org/10.1111/j.1600-0773.1993.tb01670.x.

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22

Shermer, Michael. "Airborne Baloney." Scientific American 296, no. 1 (January 2007): 32. http://dx.doi.org/10.1038/scientificamerican0107-32.

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23

ITABE, Toshikazu. "Airborne lidars." Review of Laser Engineering 17, no. 4 (1989): 300–309. http://dx.doi.org/10.2184/lsj.17.4_300.

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24

Featonby, David. "Airborne physics." Physics Education 42, no. 1 (December 21, 2006): 68–71. http://dx.doi.org/10.1088/0031-9120/42/1/008.

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25

Jones, David. "Forever airborne." Nature 372, no. 6502 (November 1994): 136. http://dx.doi.org/10.1038/372136a0.

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26

Dooms-Goossens, A. "Airborne dermatitis." Journal of the European Academy of Dermatology and Venereology 5, no. 1 (October 1995): S9. http://dx.doi.org/10.1016/0926-9959(95)95761-o.

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27

Iordache, Mihai. "North Atlantic Early Warning (Naεw) Εvolution in Maјor Сonflicts." International conference KNOWLEDGE-BASED ORGANIZATION 24, no. 1 (June 1, 2018): 93–97. http://dx.doi.org/10.1515/kbo-2018-0014.

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Abstract The security of the regional and global environment is an issue of major concern for the political and military deciding factors, especially in the current security environment marked by profound and surprising changes at geopolitical and geostrategical level. In the early 1970s, different studies of NATO indicated that a system of airborne early warning (AEW) would considerably increase the defense of the air space of the Alliance. The Committee of Planning Defense of NATO (СΡD) signed a Memorandum of Understanding (MOU) on the acquisition and operational use of an Airborne Early Warning system. The Airbornе Warning & Сontrol Systеm (AWAСS) is a developed and well-organized system, which can be permanently improved and adapted to the present realities generated by the dynamics of regional and global security. The paper presents its evolution and benefits
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28

Khudov, Hennadii, Oleksii Diakonov, Nina Kuchuk, Volodymyr Maliuha, Kostiantyn Furmanov, Ihor Mylashenko, Yurii Olshevskyi, Stanislav Stetsiv, Yuriy Solomonenko, and Iryna Yuzova. "Method for determining coordinates of airborne objects by radars with additional use of ADS-B receivers." Eastern-European Journal of Enterprise Technologies 4, no. 9(112) (August 31, 2021): 54–64. http://dx.doi.org/10.15587/1729-4061.2021.238407.

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The method of determining coordinates of an airborne object using ADS-B receivers was improved. The method involves the following sequence of actions: input of initial data, measurement of coordinates of the airborne object by the radar, checking the availability of data about the airborne object obtained from the ADS-B receivers. In the absence of such data, coordinates of the airborne object are determined only from the data of the radar. The airborne object mark was identified according to information from the radar and the ADS-B receivers. Unlike the known methods, the advanced method of determining coordinates of an airborne object by a radar additionally uses information from the ADS-B receivers. The ADS-B receiver signals were experimentally studied. It was found that the ADS-B receiver has received more than 6,000 messages about airborne objects in a single day. It was established that information about the location of the airborne object contained in ADS-B messages was encoded in CPR format. An algorithm for decrypting the ADS-B messages with a global connection of an airborne object to geographical coordinates was presented. An algorithm for detecting signals of onboard transponders of ADS-B airborne objects was presented. Non-standard ADS-B messages from airborne objects were studied. It was suggested that some short non-standard ADS-B messages were received from small and military airborne objects. Accuracy of determining coordinates of airborne objects by the radar with additional use of the ADS-B receiver was estimated. Dependence of the root mean square error of determining the airborne object coordinates on a distance to the airborne object was presented for various cases. It was established that the accuracy of determining the airborne object coordinates can be raised from 36 % to 67 % depending on the distance to the airborne object
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29

Kaplan, Ayse, and Yasin Özdogan. "Airborne Spore Analysis of Karabük Atmosphere." Karaelmas Science and Engineering Journal 4, no. 1 (March 20, 2014): 33–42. http://dx.doi.org/10.7212/zkufbd.v4i1.124.

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30

Nagasaka, Ken, Amin Amini, and Mohammad Mehdi Vaez Momeni. "WinDam: A Novel Airborne Wind Turbine." Journal of Clean Energy Technologies 5, no. 3 (May 2017): 243–47. http://dx.doi.org/10.18178/jocet.2017.5.3.376.

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31

Gravenhorst, Gode, Alexander Oltchev, Andrey Sogachev, Andreas Ibrom, and Heinrich Kreilein. "Forests as protection against airborne immissions." Meteorologische Zeitschrift 14, no. 2 (May 10, 2005): 117–22. http://dx.doi.org/10.1127/0941-2948/2005/0011.

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32

Takahashi, Hironobu. "Need for international standards to evaluate airborne ultrasound emitted by high-intensity ultrasonic equipment." INTER-NOISE and NOISE-CON Congress and Conference Proceedings 268, no. 4 (November 30, 2023): 4335–40. http://dx.doi.org/10.3397/in_2023_0618.

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Airborne ultrasound applications have been around for several decades and are still being actively developed. The applications developed in recent years include parametric speakers and airborne ultrasound haptic devices, which are becoming more familiar in our daily lives. One of the characteristics of the recently developed applications is that the sound pressure of emitted airborne ultrasound is extremely large. Although airborne ultrasound cannot be perceived as auditory sensation, it is known that high-intensity airborne ultrasound is hazardous to us. To assess the safety of airborne ultrasound and to evaluate the acoustic performance of airborne ultrasound applications, quantitative measurement is essential, however, the measurement procedures for airborne ultrasound have not been clear yet, and some matters are emerging. This paper describes the need to standardize the measurement procedures for airborne ultrasound emitted from airborne ultrasound applications. It also presents the current matters that need to be resolved in the standardization.
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33

Eickhoff, Theodore C. "Airborne Nosocomial Infection: A Contemporary Perspective." Infection Control & Hospital Epidemiology 15, no. 10 (October 1994): 663–72. http://dx.doi.org/10.1086/646830.

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AbstractThe history of airborne nosocomial infections is reviewed, and current beliefs about such infections are placed into their historical context. Possible sources, both animate and inanimate, of airborne nosocomial infections in the hospital environment are identified. Viruses, bacteria, and fungi that have been important causes of airborne nosocomial infections in the past are discussed, and examples of key studies that have confirmed an airborne route of transmission are presented. Where relevant, measures that have been used to control airborne transmission of nosocomial pathogens are discussed. Although outbreaks of airborne nosocomial infection have been uncommon, airborne transmission appears to account for about 10% of all endemic nosocomial infections.
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34

Li, Yanjun, Congyuan Qu, Jun Li, and Li Yu. "Modelling of Parachute Airborne Clusters Flight Dynamics and Parachute Interactions." Aerospace 10, no. 1 (January 4, 2023): 51. http://dx.doi.org/10.3390/aerospace10010051.

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With the need for more condensed airborne clusters in a shortened time, there are increased risks of parachute collision and other interactions in the air. In this paper, the flight dynamics model of the parachute system is proposed for the whole deplaning airborne process, including parachute deployment, inflation, and the steady descent stages. The trajectories and velocities of the typical parachute airborne system are simulated, and the results are validated against the experimental measurement. To understand the potential interactions between parachutes, the flight dynamics of parachute airborne clusters, are then studied based on this model. The main parameters include the airborne altitudes, deplaning velocities, and airborne mass. The results show that the flight characteristics of parachutes are determined by the competence of the inertia effect and aerodynamic drags. The flight interactions of parachute clusters are most likely to occur at the moment of deployment, where the distance between parachutes is at a minimum. This critical distance increases with deplaning velocities and is insensitive to airborne altitudes. Adjusting the airborne order or using adaptive time periods by airborne mass can also avoid the potential interactions. The results of this paper can provide support for airborne strategies and help increase the safety and efficiency of airborne systems.
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35

Bonamonte, D., P. Romita, A. Filoni, G. Angelini, and C. Foti. "Airborne Contact Dermatitis." Open Dermatology Journal 14, no. 1 (September 10, 2020): 31–37. http://dx.doi.org/10.2174/1874372202014010031.

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Airborne dermatoses are complaints linked to external environmental, chemical, and biotic agents carried through the air. In general, airborne dermatoses that are most common in the work environment, tend to cause diagnostic problems that are challenging for both the patient and the doctor. It should also be borne in mind that since the external culprit agents are present in the environment, they do not only come in contact with the skin and mucosa, but can also be inhaled or ingested, thus also causing respiratory and systemic symptoms. Among the various clinical forms, airborne contact dermatitis interests the parts of the body exposed to the air: face, neck, upper aspect of the chest, hands, wrists. These cases must be differentiated from photocontact dermatitis; in the latter case, however, shadowed anatomic areas, such as the upper eyelids, behind the ears, the submandibular region, and under the hair, are not affected.
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36

Stewart, G. A., and P. G. Holt. "Submicronic airborne allergens." Medical Journal of Australia 143, no. 9 (October 1985): 426–27. http://dx.doi.org/10.5694/j.1326-5377.1985.tb123117.x.

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37

Burge, Harriet A. "Airborne Allergenic Fungi." Immunology and Allergy Clinics of North America 9, no. 2 (August 1989): 307–19. http://dx.doi.org/10.1016/s0889-8561(22)00213-2.

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38

Vogel, Lauren. "Is monkeypox airborne?" Canadian Medical Association Journal 194, no. 32 (August 21, 2022): E1121. http://dx.doi.org/10.1503/cmaj.1096013.

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39

Kurmi, Indrajit, David Schedl, and Oliver Bimber. "Airborne Optical Sectioning." Journal of Imaging 4, no. 8 (August 13, 2018): 102. http://dx.doi.org/10.3390/jimaging4080102.

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Drones are becoming increasingly popular for remote sensing of landscapes in archeology, cultural heritage, forestry, and other disciplines. They are more efficient than airplanes for capturing small areas, of up to several hundred square meters. LiDAR (light detection and ranging) and photogrammetry have been applied together with drones to achieve 3D reconstruction. With airborne optical sectioning (AOS), we present a radically different approach that is based on an old idea: synthetic aperture imaging. Rather than measuring, computing, and rendering 3D point clouds or triangulated 3D meshes, we apply image-based rendering for 3D visualization. In contrast to photogrammetry, AOS does not suffer from inaccurate correspondence matches and long processing times. It is cheaper than LiDAR, delivers surface color information, and has the potential to achieve high sampling resolutions. AOS samples the optical signal of wide synthetic apertures (30–100 m diameter) with unstructured video images recorded from a low-cost camera drone to support optical sectioning by image integration. The wide aperture signal results in a shallow depth of field and consequently in a strong blur of out-of-focus occluders, while images of points in focus remain clearly visible. Shifting focus computationally towards the ground allows optical slicing through dense occluder structures (such as leaves, tree branches, and coniferous trees), and discovery and inspection of concealed artifacts on the surface.
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40

Peter, Thomas, and Daniel M. Murphy. "Airborne Particle Analysis." Science 274, no. 5295 (December 20, 1996): 1996–97. http://dx.doi.org/10.1126/science.274.5295.1996.b.

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41

Spengler, Bernhard, Klaus-Peter Hinz, and Raimund Kaufmann. "Airborne Particle Analysis." Science 274, no. 5295 (December 20, 1996): 1996. http://dx.doi.org/10.1126/science.274.5295.1996.a.

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42

Peter, Thomas, and Daniel M. Murphy. "Airborne Particle Analysis." Science 274, no. 5295 (December 20, 1996): 1996–97. http://dx.doi.org/10.1126/science.274.5295.1996-b.

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43

Spengler, Bernhard, Klaus-Peter Hinz, and Raimund Kaufmann. "Airborne Particle Analysis." Science 274, no. 5295 (December 20, 1996): 1996. http://dx.doi.org/10.1126/science.274.5295.1996-a.

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44

Sibruk, L. V., R. O. Zadorozhnii, D. P. Bondarenko, and I. V. Syniak. "AIRBORNE DIRECTIONAL ANTENNAS." Telecommunications and Radio Engineering 76, no. 11 (2017): 983–90. http://dx.doi.org/10.1615/telecomradeng.v76.i11.40.

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45

BROWELL, Edward V. "Airborne Lidar Measurements." Review of Laser Engineering 23, no. 2 (1995): 135–41. http://dx.doi.org/10.2184/lsj.23.135.

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46

Macnae, James. "Airborne Electromagnetic Systems." ASEG Extended Abstracts 2007, no. 1 (December 1, 2007): 1–4. http://dx.doi.org/10.1071/aseg2007ab082.

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47

Becker, A. "Airborne resistivity mapping." IEEE Transactions on Antennas and Propagation 36, no. 4 (April 1988): 557–62. http://dx.doi.org/10.1109/8.1145.

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48

Forsberg, R., A. Olesen, L. Bastos, A. Gidskehaug, U. Meyer, and L. Timmen. "Airborne geoid determination." Earth, Planets and Space 52, no. 10 (October 2000): 863–66. http://dx.doi.org/10.1186/bf03352296.

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49

Thompson, Jonathan E. "Airborne Particulate Matter." Journal of Occupational and Environmental Medicine 60, no. 5 (May 2018): 392–423. http://dx.doi.org/10.1097/jom.0000000000001277.

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50

Alderton, Gemma. "Reducing airborne transmission." Science 368, no. 6498 (June 25, 2020): 1443.9–1445. http://dx.doi.org/10.1126/science.368.6498.1443-i.

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