SU610037A1 - Method of determining atmosphere transparency - Google Patents

Description

The invention relates to the field of meteorology and can be used in determining the transparency of the atmosphere. Methods are known for determining the transparency of the atmosphere by sending a short-duration light pulse into the atmosphere, converting light scattered in the opposite direction into an electrical signal, registering discrete signal values and accumulating them for two different periods of time corresponding to the depth of the entire sounding path and its part. 1, the methods do not take into account that the maximum possible depth of sounding in practice depends on the transparency of the atmosphere and the magnitude of the external background and changes in dependence ing on weather conditions, time of day and direction sensing. There are also known methods for determining the transparency of the atmosphere by sending a pulse of light into the atmosphere, a set of durations, receiving and converting scattered in the opposite direction of radiation into electrical signals, the packings of these toys when they are amplified in proportion to the square of the current time counted from the moment of sending the pulse atmosphere, and determining the desired parameter with respect to two accumulated signals 2. Under conditions of external background radiation, for example, on a sunny day, the signal after the amplification of the proportional to the square of the time counted from the time of sending a pulse to the atmosphere does not reach the maximum value, and continues to rise by the action of the variable component of the background. Similarly, the effect of the intrinsic noise of the measuring circuit is shown. At this point, the moment of termination of the accumulation of the signal becomes critical, since the maximum possible tubin sensing is not known in advance. This leads to a large transparency dimension of aTMOohopw. The aim of the invention is to improve the measurement accuracy under the conditions of aiyMOB. This goal is achieved by the fact that the noise value is additionally recorded when it is proportional to the square of the current time, the ratio is determined (31 instantaneous values of the converted scattered signal to the noise value at times , corresponding to the same coefficient of their amplification, and when this ratio reaches a predetermined threshold value, the accumulation of signals ceases, and the value of the accumulated signals determines the The drawing shows a variant of the block scheme of the device with which the method described is carried out to T. The optical transmitter 1 sends a short sounding light pulse to the atmosphere. Receiver 2 receives a backscatter signal that, after conversion, is an electrical signal the control unit .4 starts the optical transmitter 1, the unit for the adjustment of the adjustment signal 5 and the analog-to-digital converter (LCP) 6. When In the absence of noise, the backscattering signal Moi. (t) from the output of amplifier 3, in the presence of noise, has a variable composition, which is also amplified by a quadratic law. After amplification, the signals arrive at the ADC 6 and the discrete values of the signal ordinates are entered into the memory-storage devices (RAM) 7 and 8. When started, the control unit 4 of all device units, except transmitter 1, in RAM 7, stores the ordinates of only one .choge noise Ish. (ti). then a pulse is transmitted from & 1 sensor and discrete values of the received signal Hrfp.ltl are recorded in RAM 8. In division block 9, the corresponding signal time ordinates and the resulting Hnayltt ratios are divided. /Hn.yA are compared in block 10 with a threshold value, gfi reaching which comparator unit 10 determines the moment, and "stopping the accumulation of discrete ordinates of the signal in accumulator 11, which corresponds to the maximum possible sounding depth. An increase in the accuracy of determining the moment can be achieved by averaging the values Ip, 1; x: 1} / and Ish.l (ti) in several realizations and comparing the ratio of averaged values of the ordinates I. ". C (1 Hiu.y with a threshold value. Usage This method, when recording atmospheric transparency using atmospheric transparency recorders, automates the process of measuring the transparency under conditions of internal and external noise, which improves the measurement accuracy. This signal, i.e., the maximum possible sounding depth, is determined automatically depending on the intensity of the background and the transparency of the atmosphere in the direction of measurement and the internal noise of the recorder. A method for determining the transparency of the atmosphere by probing it with a small light pulse, receiving and converting scattered in the bibrically direction and emitting into electric signals, accumulating these signals while amplifying them in proportion to the square of the current time & In order to improve accuracy in terms of noise, the value of the sound system is additionally recorded when it is amplified in proportion to the square of the current time, the ratios of the instantaneous values of the converted scattered signal to the noise value at the time points are determined. , corresponding to the same gain factor, and when this ratio reaches a predetermined threshold value, the accumulation of signals is stopped, and the value of the accumulated signals is judged by L proxy settings ... Information sources received attention in the examination of: 1.Avtorskoe certificate of the USSR No 412581, Kn.Q01 W l / OO, 31.12.1971. 2, Copyright certificate No. 390401, CL. G-OlWl / 00, Oi.1,1971,