RU2395058C1 - Information control system - Google Patents

Abstract

FIELD: instrument making.

SUBSTANCE: proposed system comprises operator control board, optical shaping system, power supply, brightness control unit, adder, LF filter, hairline mark illumination unit, light filters unit and hairline mark shaping unit, and periodic signal generator incorporating periodic signal adjustment module and frequency transducer. Proposed system additionally comprises data and control unit, periodic signal amplitude transducer, periodic signal amplitude and frequency indicators, first and second control units. Note here that periodic signal amplitude transducer input is connected with output of periodic signal adjustment unit. First inputs of periodic signal amplitude and frequency indicators are connected with outputs of periodic signal amplitude and frequency indicators, while second inputs are connected with outputs of first and second control units. Input of periodic signal amplitude transducer is connected with output of periodic signal adjustment unit. First inputs of periodic signal amplitude and frequency indicators are connected with outputs of periodic signal amplitude and frequency transducers, while second inputs are connected with outputs of first and second control units, respectively.

EFFECT: higher efficiency of operation.

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Description

The invention relates to information management systems, and more specifically to combat information management systems (CIMS), which is a complex of electronic computing equipment and other technical equipment at military facilities intended for the automated development of recommendations for controlling weapons and maneuvers for the most effective use of combat and technical capabilities of the objects under consideration. The main tasks to be solved by CIUS: collection, processing and display of information received from various sources; determination of effectiveness and development of optimal options for the use of various types of weapons; target distribution of fire and technical means; implementation of combat and navigation calculations; automated transfer of settlement data to consumers; monitoring the implementation of teams, information, etc.

The main elements of the CIUS: a digital computer complex, control panels with information display devices, devices for interfacing with information sources and weapon and equipment control systems, workstations, etc. (see, for example, Military Encyclopedic Dictionary. M .: Voenizdat, 2007 . - p. 86).

To solve the tasks of hitting targets, rational maneuvering, choosing optimal tactical techniques, etc., it is first of all necessary to obtain information about the external environment, terrain characteristics, terrain features, location of targets and obstacles, etc. At present, this task is being solved by providing observation and reconnaissance devices , sights and weapons of such a position that would ensure the implementation of the relevant tasks with the greatest efficiency. For example, combining the trajectory of a projectile (missile) with a target at the time it (he) reaches the goal is provided by various devices, one of the main functions of which is to sight the target. The effectiveness of armament depends on the effectiveness of sighting (first of all, the accuracy of sighting), and at the same time the effectiveness of shooting as a whole. The accuracy of range measurement, the accuracy of determining the coordinates of local objects, navigational characteristics, etc. depend on the accuracy of the sight and the condition of the observation devices.

For example, the information-control system that is part of the armament complex of the T-55 and T-62 tanks is known (see, for example, the Manual for the material part and operation of the T-62 tank. M .: Military Publishing House, 1968, p. 195- 210). It contains an operator control panel and an optically coupled target index forming unit and an optical forming system. In this complex, when shooting under normal conditions from a place on a fixed target, sighting is carried out by combining the point of sight on the target with the sighting index (aiming mark), and changes in shooting conditions are taken into account by moving the sighting index (aiming mark) by a certain angular value before the shot. In this case, an angular mismatch occurs between the line of sight and the armament (barrel axis). This ensures uniformity of aiming (combining the target index with the target). But along with this, a disadvantage arises: the line of sight deviates from the optical axis of the field of view of the sighting device, which is accompanied by a deterioration in visibility, a decrease in the resolution of the optical system and a rapid increase in visual fatigue of gunners-operators. In addition, when shooting in conditions other than normal (shooting on the move, on a moving target, shooting with a strong crosswind, etc.), it is necessary to introduce an amendment to the position of the line of sight relative to the target, which causes the offset of the target index relative to the target.

In this case, the uniformity of the sight is violated, its accuracy decreases, the condition of the operators deteriorates, and at the same time, the shooting efficiency drops sharply.

The known system of the armament complex of the T-72 tank (see, for example: The armament of the T-72 tank. Edited by V.M.Shishkovsky. M .: VABTV, 1979, p. 74-91; Kotovsky V.I. and others. The course of armament of tanks. M: VABTV, 1957, p. 311-358). It contains a serially connected operator control panel, an optical forming system and a target index forming unit, a target index illumination unit, the first input of which is connected to the output of the operator control panel, a power source, a brightness index changing unit, the first input of which is connected to the output of the power source, and the second - with the output of the operator’s control panel.

This system compares favorably with the widely used systems in serial fire control systems. In this system, the operator at each sight combines the target index with the center of the target, thereby achieving uniformity of aiming in all shooting cases. In addition, to facilitate the detection of the target index in adverse shooting conditions (poor visibility, dust and light noise, etc.), it is highlighted.

However, this system also has disadvantages. When firing at various targets, the operator must keep the line of sight at the target (target) for a long time (at least 3 s), which is necessary to enter the required amendments. This time can be even longer if guided missiles are used when firing. For example, when firing a guided missile at maximum range, the operator is forced to keep the target index at the target (target) for more than 15 s (see, for example: AN Latukhin. Antitank weapons. M .: Military Publishing House, 1974, pp. 192-235) . Such an aiming, despite the fact that it is more accurate and simpler than in the T-62 tank, causes increased tension for the operator, in particular his visual apparatus, which very often leads to the loss of the target (object of sight) or the target index (even when highlighted) under the influence of dust interference, light interference, especially on colorful backgrounds of different brightness. The situation is even more aggravated if the physical condition of the operator for some reason does not correspond to what is required (injury, fatigue, stressful breakdowns, etc.). Continued shooting in this state of the operator is possible, but its effectiveness drops sharply, and it is very difficult to determine the reason for the sharp decrease in efficiency, since neither the operator himself nor the tank crew notice the state of the operator during the shooting.

The information management system is also known (see, for example, RF patent No. 2070703, priority date 13.07.94), which, by technical nature and essential features, is closest to the claimed one and adopted as its prototype. It contains an operator control panel and an optical forming system connected to its first output, a power supply connected in series, a brightness change unit, the second input of which is connected to the second output of the operator control panel, an adder, a low-pass filter, a visor index illumination unit, the second input of which is connected with the third output of the operator’s control panel, a block of light filters and a block for generating a target index, series-connected generator of periodic signals, a block for adjusting periodic signals and the frequency of the periodic sensor signal, a first output connected to a second input of the low pass filter.

The introduction of a generator and a block for adjusting periodic signals, a low-pass filter, a frequency sensor for periodic signals and other elements and connections into this system made it possible, in addition to illuminating the sighting index, to periodically change its brightness, which makes it much easier to detect it on variegated backgrounds of different brightness. This is also facilitated by filtering the electrical backlight signal from high-frequency interference using a low-pass filter and from optical interference using a filter block. However, the disadvantages associated with the state of the gunner-operator in the information management system according to the patent of the Russian Federation No. 2070703 are not eliminated.

The objective of the present invention is to eliminate these disadvantages, expanding the functionality of the system.

This problem is solved in that in the information management system containing the operator’s control panel and the optical forming system connected to its first output, the power supply in series, the brightness changing unit, the second input of which is connected to the second output of the operator control panel, adder, low filter frequencies, the illumination unit of the target index, the second input of which is connected to the third output of the operator’s control panel, the filter unit and the unit for generating the target index, followed by The newly connected periodic signal generator, the periodic signal adjustment unit and the periodic signal frequency sensor, the first output of which is connected to the second input of the low-pass filter, the information and control unit, the first and second control units, the amplitude sensor of the periodic signals, the amplitude and frequency indicators of the periodic signals , while the input of the information and control unit is connected to the output of the optical forming system, and its output is connected to the input of the target index forming unit, the sensor input amplitude of the periodic signal coupled to the third output periodic signal adjustment unit, first inputs of pointers of the amplitude and frequency of the periodic signal detectors connected to outputs of respectively the amplitude and frequency of the periodic signal and the second input - to the outputs of the first and second control units.

The introduction of new elements and relationships allows us to determine the state of the gunner-operator by, for example, determining his visual fatigue using one of the known methods (see, for example, USSR Author's Certificate No. 339280, class A61B 5/16, 1971) and predict changes in the performance of its functional activities, in particular, performing operator functions both in predetermined conditions, and in real combat situations. Timely determination of the state of the gunner-operator ultimately allows you to timely prevent unwanted ineffective actions, errors, which helps to maintain the effectiveness of his functions at a high level.

The drawing shows the relative position and relationship of the elements of the proposed information management system. New elements and relationships are indicated by a dotted line. Solid lines show the elements and relationships that implement the prototype. The following notations are accepted: 1 - a periodic signal generator (GPS), 2 - a block for adjusting periodic signals (BR), 3 - a block for changing brightness (BII), 4 - a power source (IP), 5 - a low-pass filter (LPF), 6 - adder (C), 7 - periodic signal amplitude sensor (YES), 8 - periodic signal frequency sensor (DC), 9 - visor index illumination unit (BPVI), 10 and 11 - amplitude (UKA) and frequency (UHF) indicators periodic signals 12 - block filters (BSF), 13 - a first control unit (BU _1), 14 - second control unit (CU _2), 15 - an operator (O), 16 - block f rmirovaniya sighting index (BFVI), 17 - and the control information unit (BIU) 18 - forming optical system (OFS), 19 - operator control panel (SCP).

Blocks 1-6, 8, 9, 12, 16, 18, 19 are standard elements of the prototype and are used in the proposed technical solution without any design changes. The design of blocks 7, 10 and 11 is widely known in the scientific and technical literature (see, for example, Korneev V.V. et al. Electrical Automation and Electrical Equipment of Tanks, Part 1. M .: VABTV, 1964, p.19-104 , 191-220; Encyclopedia of Cybernetics, vol. 1. Kiev, 1975, p. 254-256; Fundamentals of automation and tank automatic systems. M: VABTV, 1976, p. 134-13 6, etc.). The first 13 and second 14 control units are made on the basis of switches (toggle switches) and control buttons (see ibid.), When pressed, control signals are transmitted to the inputs of blocks 10 and 14, according to which information on current indicators appears on the information boards of indicators 10 and 12 the values of the amplitude and frequency of periodic signals received from the outputs of the sensors, respectively, of amplitude 7 and frequency 8. The information and control unit 17 is made on the basis of a block of visual information, movable mirror systems and shutters with manual drives, using a cat ryh gunner 15 may manually enter the shutter in the optical system, visual screening forming unit 16 from the index forming an optical system 18, and adjust the degree of screening. Using a movable mirror system and a block of visual information, the visual information provided to the operator for his control and training is managed.

The proposed information management system works as follows. As in the prototype, the operator (gunner) 15, turning on the fire control system (including blocks: 1, 2, 3, 4, 9 and 19), observes the battlefield through the formation unit of the target index 16 and the optical forming system 18, leads reconnaissance of targets (objects of sight) and selects a specific one of them (for example, the object of sight) for defeat. Then, using the operator’s control panel 19 and the optical forming system 18, it combines the sighting point on the sighting object with the sighting index formed in block 16. In the prototype, the sighting index is applied to a glass plate in the shape of a square, with the top of which the sighting point is aligned. In a number of other sighting devices, the index (sighting) can be generated electronically. In this case, its image is formed on the screen of the cathode ray tube and is introduced into the field of view of the gunner-operator using optical refractive devices (see, for example: Guglin I.N. Television gaming machines and simulators. M .: Radio and communication, 1982 ) In modern sighting devices, a change in the brightness of the index is achieved by changing the backlight voltage, for which an adjustable resistance is included in the power circuit of the backlight (see, for example, the Ural Tank (T-72), TO and IE. Book 1. M. : Military Publishing, 1975, 304 p.). In the same way, the brightness of the target index is changed in block 3 of the proposed device. In the future (during the entire process of sighting when firing one projectile or pointing one missile), the signal at the output of block 3 remains constant. To obtain the variable component of the backlight signal, the prototype uses block 1 (periodic signal generator). At the same time, its parameters (amplitude and frequency) are set using block 2, since for different operators they (parameters) are different. Simultaneously with setting the optimal frequency in block 2, due to the connections of block 2 with blocks 8 and then 5, the same frequency is set in blocks 8 and 5.

A change in the amplitude of the illumination signal of the target index will occur in phase with a change in the periodic signal. The presence of a variable component in the backlight signal necessitates its filtering. The electrical filtering of the periodic backlight signal is performed by incorporating an electric filter (block 5) into an electric circuit that transmits the electric signal from the adder 6 to the backlight unit of the sight index 9 to convert the signal from an electrical form to an optical one. In this case, the filter is tuned to the frequency of change of the illumination signal of the target index (due to the connection of block 5 with block 8). The inclusion of the filter 5 provides the exclusion from the electrical signal of high-frequency components that contribute to the blurring of the image of the target index.

Before using the information-control system (for example, for sighting and subsequent shooting) by manually switching the filters on block 12, the operator achieves the optimal contrast between the sighting index and the background for the purpose, and then, combining the sighting index with the object of sight, he acting on the remote control 19 and through it to the optical forming system 18, continues to sight (tracking the target) until the shot is made and the results of the shooting are evaluated.

If it is necessary to determine the state of the gunner-operator, blocks 13 and 14 are turned on, by the signals from the outputs of which the pointers 10 and 11 are connected to the outputs of the sensors 7 and 8, so that information about the amplitude of a particular periodic signal and its frequency is transmitted to pointers 10 and 11, respectively, and pressing the corresponding button is issued on the information board of the corresponding pointer. Then, by manually moving the handle of the shielding block 17 by the gunner 15, its shutter is introduced into the optical system of the sighting device, due to which the block of forming the sighting index 16 is shielded from the optical forming system 18, which helps to eliminate light noise and the uniformity of the visual situation. After that, using one of the known methods for determining the degree of visual fatigue (see as.with. 339280), affect the control unit 2, changing either the frequency or the amplitude of the periodic signal, determine the critical value of the measured indicator. This value is determined by its value, at which the flickering light will begin to appear even. At this moment, the gunner-operator presses the button of the corresponding control unit (13 or 14) and the numerical value of the measured value is given on the information board of the corresponding pointer (10 or 11), by which they judge the degree of change in the state of the gunner-operator. The use of a block of visual information and a mirror system occurs when the operator is trained, and his professional data and status are monitored.

When blocks 13, 14 and 17 are turned off, the proposed system works as a prototype, and when blocks 1 and 2 are additionally turned off, as standard sighting devices of modern combat vehicles (T-72 tanks).

The introduction of new elements and relationships has made it possible to substantially eliminate the noted disadvantages and achieve a positive effect. By adjusting both the amplitude and frequency of the periodic signal, operators can not only choose the optimal mode for changing the illumination of the target index, taking into account real conditions, but also evaluate their condition, in particular the degree of visual fatigue, which allows timely taking appropriate measures or to correct functional actions, or to replace gunners-operators. After 2 hours of continuous operation of gunner-operators, such measures can reduce the decrease in the efficiency of their work by 15-17%. The ability to train operators and control their professional level allows you to maintain and improve their skills constantly, as well as assess the impact of various external conditions on the effectiveness of operator actions.

Claims (1)

An information management system when firing a projectile or pointing a missile, comprising an operator control panel and an optical forming system connected to its first output, a power supply in series, a brightness changing unit, the second input of which is connected to the second output of the operator control panel, adder, low-pass filter , the illumination block of the target index, the second input of which is connected to the third output of the operator’s control panel, the block of light filters and the block for generating the target index, after interconnected generator of periodic signals, a block for adjusting periodic signals and a frequency sensor of periodic signals, the first output of which is connected to a second input of a low-pass filter, characterized in that it is equipped with a visual information and control unit, an amplitude sensor of periodic signals, amplitude and frequency indicators of periodic signals with control units, while the input of the visual information and control unit is connected to the output of the optical forming system, and its output is connected to input b the target for forming the target index, the input of the periodic signal amplitude sensor is connected to the third output of the periodic signal adjustment block, the first inputs of the amplitude and frequency indicators of the periodic signals are connected to the sensor outputs of the amplitude and frequency of the periodic signals, and the second inputs are connected to the outputs of the first and second control units indicators of the amplitude and frequency of periodic signals.