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Книги з теми "Camera monitoring"

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1

G, Raphael Martin, and Pacific Northwest Research Station (Portland, Or.), eds. Inexpensive camera systems for detecting martens, fishers, and other animals: Guidelines for use and standardization. Portland, Or. (333 S.W. First Ave., Portland 97208-3890): U.S. Dept. of Agriculture, Forest Service, Pacific Northwest Research Station, 1993.

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2

D, Nichols James, Kāranta Ke Ullāsa 1948-, and International Mammalogical Conference (9th : 2005 : Sapporo, Japan), eds. Camera traps in animal ecology: Methods and analyses / Allan F. O'Connell, James D. Nichols, K. Ullas Karanth, editors. Tokyo: Springer, 2011.

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3

Program, WWF Nepal, ed. Status, distribution, and monitoring of tiger populations in Terai Arc Landscape (TAL)-Nepal: A photographic documentation of camera trapped tigers. Kathmandu: WWF Nepal Program, 2002.

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4

Rieckoff, T. J. High-speed observer: Automated streak detection in SSME plumes. Marshall Space Flight Center, Ala: National Aeronautics and Space Administration, George C. Marshall Space Flight Center, 2001.

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5

George C. Marshall Space Flight Center., ed. High-speed observer: Automated streak detection in SSME plumes. Marshall Space Flight Center, Ala: National Aeronautics and Space Administration, George C. Marshall Space Flight Center, 2001.

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6

George C. Marshall Space Flight Center., ed. High-speed observer: Automated streak detection in SSME plumes. Marshall Space Flight Center, Ala: National Aeronautics and Space Administration, George C. Marshall Space Flight Center, 2001.

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7

Hare, John. The lost camels of Tartary: A quest into forbidden China. London: Abacus, 1999.

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8

Hare, John. The lost camels of Tartary: A quest into forbidden China. London: Little, Brown, 1998.

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9

Zimmermann, Fridolin, Francesco Rovero, and Luigi Boitani. Camera Trapping for Wildlife Research. Pelagic Publishing Ltd., 2016.

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10

Camera Trapping for Wildlife Research. Pelagic Publishing Ltd., 2016.

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11

Zimmermann, Fridolin, Francesco Rovero, and Luigi Boitani. Camera Trapping for Wildlife Research. Pelagic Publishing Ltd., 2016.

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12

Rovero, Zimmerman, Fridolin Zimmermann, Francesco Rovero, and Luigi Boitani. Camera Trapping for Wildlife Research. Pelagic Publishing Ltd., 2016.

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13

Camera Trapping for Wildlife Research. Pelagic Publishing Ltd., 2016.

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14

Meek, Paul, Peter Fleming, Guy Ballard, Peter Banks, Andrew Claridge, Jim Sanderson, and Don Swann, eds. Camera Trapping. CSIRO Publishing, 2014. http://dx.doi.org/10.1071/9781486300402.

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Анотація:
Camera trapping in wildlife management and research is a growing global phenomenon. The technology is advancing very quickly, providing unique opportunities for collecting new biological knowledge. In order for fellow camera trap researchers and managers to share their knowledge and experience, the First International Camera Trapping Colloquium in Wildlife Management and Research was held in Sydney, Australia. Camera Trapping brings together papers from a selection of the presentations at the colloquium and provides a benchmark of the international developments and uses of camera traps for monitoring wildlife for research and management. Four major themes are presented: case studies demonstrating camera trapping for monitoring; the constraints and pitfalls of camera technologies; design standards and protocols for camera trapping surveys; and the identification, management and analyses of the myriad images that derive from camera trapping studies. The final chapter provides future directions for research using camera traps. Remarkable photographs are included, showing interesting, enlightening and entertaining images of animals 'doing their thing', making it an ideal reference for wildlife managers, conservation organisations, students and academics, pest animal researchers, private and public land managers, wildlife photographers and recreational hunters.
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15

Karanth, K. Ullas, James D. Nichols, and Allan F. O'Connell. Camera Traps in Animal Ecology: Methods and Analyses. Springer, 2014.

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16

Meek, Paul, Peter Fleming, Andrew Claridge, Jim Sanderson, and Peter Banks. Camera Trapping: Wildlife Management and Research. CSIRO Education, 2014.

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17

Camera Trapping: Wildlife Management and Research. CSIRO Publishing, 2014.

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18

Reasonable Expectations of Privacy?: Eleven country reports on camera surveillance and workplace privacy (Information Technology and Law). Asser Press, 2005.

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19

High-speed observer: Automated streak detection in SSME plumes. Marshall Space Flight Center, Ala: National Aeronautics and Space Administration, George C. Marshall Space Flight Center, 2001.

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20

Al-Nahhas, Adil, and Imene Zerizer. Nuclear medicine. Oxford University Press, 2013. http://dx.doi.org/10.1093/med/9780199642489.003.0070.

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Анотація:
The application of nuclear medicine techniques in the diagnosis and management of rheumatological conditions relies on its ability to detect physiological and pathological changes in vivo, usually at an earlier stage compared to structural changes visualized on conventional imaging. These techniques are based on the in-vivo administration of a gamma-emitting radionuclide whose distribution can be monitored externally using a gamma camera. To guide a radionuclide to the area of interest, it is usually bound to a chemical label to form a 'radiopharmaceutical'. There are hundreds of radiopharmaceuticals in clinical use with different 'homing' mechanisms, such as 99 mTc HDP for bone scan and 99 mTc MAA for lung scan. Comparing pre- and posttherapy scans can aid in monitoring response to treatment. More recently, positron emission tomography combined with simultaneous computed tomography (PET/CT) has been introduced into clinical practice. This technique provides superb spatial resolution and anatomical localization compared to gamma-camera imaging. The most widely used PET radiopharmaceutical, flurodeoxyglucose (18F-FDG), is a fluorinated glucose analogue, which can detect hypermetabolism and has therefore been used in imaging and monitoring response to treatment of a variety of cancers as well as inflammatory conditions such as vasculitis, myopathy, and arthritides. Other PET radiopharmaceuticals targeting inflammation and activated macrophages are becoming available and could open new frontiers in PET imaging in rheumatology. Nuclear medicine procedures can also be used therapeutically. Beta-emitting radiopharmaceuticals, such as yttrium-90, invoke localized tissue damage at the site of injection and can be used in the treatment of synovitis.
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21

Hare, John. Lost Camels of Tartary. Little, Brown Book Group Limited, 2015.

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22

Wich, Serge A., and Lian Pin Koh. Sensors. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198787617.003.0003.

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Анотація:
The number of sensors that can be fitted and/or have been specifically designed to be fitted to drones is expanding rapidly. This chapter provides an overview of the various types of sensors used on drones for conservation research and monitoring, including RGB cameras, multispectral and hyperspectral cameras, and thermal imaging cameras. Increasing miniaturization means LiDAR and synthetic aperture radar (SAR) sensors can now also be fitted to drones, and they are also discussed briefly, as are a number of other types (e.g. acoustic and gas sensors) now being developed. Because most conservation researchers will start with a specific question and then explore which sensor or set of sensors will be suitable for their data collection, we approach the sensor issue from the application end. Some technical information on the sensors is provided as well as an overview of the various studies that they have been used for.
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