Mathematical model of calculation of video light traps design

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The effectiveness of integrated plant protection is largely determined by quality monitoring of the number and type of insect pests by reducing the time of meeting by transmitting data received wire-lessly. Application of VideoLightTraps will more accurately conduct analysis of insect pests, as well as useful species through wireless communication channel it is more active to identify the time of day, and any flying insects. For instant calculating basic parameters established VideoLightTraps wireless communication channel was created, software de-signed to select the necessary parameters to the installation of not only depending on consumer characteristics, but also on particular climatic condi-tions in the place of the study. Based on data input it is considered necessary battery capacity, in order to maintain operation of the unit in the dark, the power required for solar installation work in the day-time and battery recharging, as well as the total consumption of the installation. This takes into ac-count that the LEDs operate only at night and DVR with video cameras work around the clock. In addi-tion, you can add any number of traps and remove them. On the basis of the entered data the neces-sary capacity of the battery for maintenance of work of installation in night-time, the necessary power of the solar battery for ensuring work of installation during daylight hours and an accumulator sub-charge, and also the general consumption of instal-lation is considered. In the program the possibility of preservation of loading of parameters of the unit, automatic preservation at calculation, automatic loading of the last autosave when opening the pro-gram is created. For VideoLightTraps use in vari-ous regions of the Russian Federation the software allowing establishing the main technical character-istics of systems of VideoLightTraps was created.

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Pests, photoelectric converter, re-chargeable battery, wireless channel of communi-cation, monitoring, computer program, light source

Короткий адрес: https://sciup.org/14084908

IDR: 14084908

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