RU2206043C1 - Practice and armament control system of aircraft - Google Patents

Abstract

FIELD: airborne armament. SUBSTANCE: proposed group of inventions is related to armament means of wide class of military aircraft and helicopters. Practice of control over armament is based on detection of target, determination of its parameters, selection of weapon, formation of control signals by scanning sighting means and weapons. Apart from it mode of operation of armament control system is specified, master channel of armament control system is selected and operation conditions of scanning sighting means and weapons are formed in correspondence with them. Armament control system incorporates weapon control system intercoupled with aircraft rocket homing aids, connected to indication system, radar, optic location station. Above-mentioned stations include control computers. In addition armament control system is equipped with target indication former for aircraft rocket homing aids which switches over target indication depending on operation conditions of weapons and with switch changing modes of operation of armament control system. All specified elements of system are properly intercoupled to execute control over armament. Control computer of radar demonstrates potential for formation of sign of master channel of armament control system depending on selected weapon, mode of operation of armament control system and conditions of location aids, on formation of operation conditions of radar, weapon and indication system as well as on identification of targets. Computer of optic location station can form modes of operation of optic location station and target identification. EFFECT: given design makes it feasible to use completely potential of armament means and crew, to raise probability of carrying out combat task under various tactical conditions and interference situations. 12 cl, 4 dwg, 3 tbl

Description

 The proposed group of inventions relates to weapons for a wide class of military aircraft and helicopters, in particular for fighters.

 The weapons of a military aircraft, including guided and uncontrolled weapons, radar and optoelectronic observation and sighting systems, are designed to destroy ground and air targets and ensure the defense of the aircraft. The difficulty in solving this problem is determined by a wide variety of tactical conditions, the presence of fire and interference counteraction from the enemy.

 The problem of controlling the armament of an aircraft consists in organizing the interaction of weapons and crew or a control operator in such a way that they would make full use of the capabilities of weapons and crew for solving a combat mission.

 Known methods and devices for controlling the armament of an aircraft, in which they detect and capture a target, determine its parameters, choose a weapon, and prepare and launch a weapon.

These systems are described in:
- the book "Combat aircraft: Aircraft armament" (D.I. Gladkov and others) M .: Military Publishing House, 1987,
- the book "Su-27", POLYGON-aviation series Red flag for modellers. M., 1993

 - Utility model: RU 4109 U1, B 64 S 30/00, publ. 05/16/1997.

 The disadvantages of the described systems are that the crew is entrusted with the functions of both tactics and the operator of weapons, which leads to an increase in the time required for the preparation and use of weapons, and, as a consequence, to a decrease in the probability of completing a combat mission.

 The basis of the invention is the solution to the problem of automation of arms control, which allows you to fully use the capabilities of weapons and crew, to increase the likelihood of solving a combat mission in various tactical conditions and jamming conditions.

 Of particular importance, the invention is for single-seat multi-functional fighters, where the task of controlling weapons is performed by the pilot along with other tasks of controlling the aircraft and its systems.

 This goal is achieved by the fact that in the aircraft’s weapon control method, in which the target is detected, its parameters are determined, weapons are selected, control signals and sighting weapons and weapons are generated, according to the invention, the operation mode of the weapon control system is set, the leading channel of the control system is selected armaments and in accordance with them form the operating modes of sighting and sighting equipment and weapons.

 To form operating modes of sighting and sighting equipment and weapons, remember the possible states of the weapon control system, in accordance with the latter, memorize the operating modes of sighting and weapons, determine the current state of the weapon control system and, in accordance with it, set the current operating modes of sighting and aiming tools and weapons. This achieves control automation.

 The used (current) type of the leading channel of the weapon control system, the current state of the location means of the leading and driven channels of the weapon control system are compared with the possible states of the weapon control system and then the current state of the weapon control system is determined.

 The operating mode of the weapons control system is set using the controls located on the dashboard and / or on the control stick of the aircraft.

 When specifying one of the air combat modes as the mode of operation of the weapons control system, the leading channel of the weapons control system is selected depending on the specified mode of operation of the weapons control system, the selected weapon, and the condition of location assets.

 When specifying the operating mode of the weapon control system as one of the long-range aerial combat modes and in the absence of target detection, a survey mode of operation of the location tools with the centers of the viewing zones in one direction is set.

 When specifying one of the long-range air combat modes as the operating mode of the weapon control system, the mode of operation of the indicating means with displaying information of the leading channel of the weapon control system is set.

 In addition, the identification of targets accompanied by the location means of the leading and slave channels of the weapons control system is carried out, in the absence of which the capture mode is detected for the tracking means of the tracking channel of the weapons channel of the weapon control system. This increases the probability of tracking the target and the noise immunity of the aircraft.

 The goals are identified by comparing the module of the difference in the angular coordinates of the target’s sighting by the location means of the leading and driven channels of the weapon control system with a given threshold, and exceeding the specified threshold is allowed for a given time interval.

 When tracking the target only with the location means of the leading channel of the weapon control system, the location means of target acquisition from target location means of the leading channel of the weapon control system are set to the location means of the guided channel of the weapon control system and homing means of aircraft missiles.

 When specifying the armament control system as one of the long-range aerial combat modes and choosing the channel with passive-type locating means as the leading channel for the armament control system, the armament control system is set to periodically measure the range to the target, followed by the active means of the guided channel’s active type location-based means of the leading channel of the weapons control system, with the transition to continuous direction-finding mode when reaching a given Nost any of the crew team. This provides the possibility of a hidden attack of the target during its capture.

 The described weapon control method is implemented using an aircraft weapon control system, which comprises a weapon control system interconnected with aircraft missile homing systems connected to an indication system, a radar station including a control computer, an optical radar station including a control computer. Additionally, the system is equipped with the ability to switch target designation, depending on the mode of operation of the weapon, by the target designator to homing aircraft missiles, as well as a mode switch of the weapon control system. The latter is connected to the first input of the radar station control computer, the second input of which is connected to the third output of the weapon control system, and the third and fourth inputs are connected to the first and second outputs of the optical radar station, respectively. The first output of the indicated station is also connected to the first input of the target designator for homing aircraft missiles and the second input of the display system. The first output of the radar station control computer is connected to the second input of the target designator for homing aircraft missiles. The second and third outputs of the specified control computer are connected to the third and fourth inputs of the display system. In this case, the third output of the control computer of the radar station is connected to the first input of the control computer of the optical radar station. The first output of the radar station is connected to the third input of the target designator by homing aircraft missiles and to the second input of the control computer of the optical radar station. The second output of the radar station is connected to the third input of the control computer of the optical radar station and to the fifth input of the display system. The control unit of the radar station is configured to generate a sign of the leading channel of the weapon control system depending on the weapon selected, the mode of operation of the weapon control system and the condition of the location tools, the formation of the operation modes of the radar station, weapon and indication system, and target identification. The control computer of the optical location station is configured to generate operating modes of the optical location station and the identification of targets.

The claimed invention is illustrated by the attached graphic materials, which depict:
figure 1 is a block diagram of an arms control system;
figure 2 is a block diagram of a control computer of the radar station;
figure 3 is a block diagram of a control computer of an optical location station;
figure 4 is a block diagram of a unit for determining the current state of an arms control system of a radar station control computer.

 According to the proposed method for controlling the armament of an aircraft, a target is detected, its parameters are determined (angular coordinates), a weapon is selected, and control signals for sighting and aiming weapons and weapons are generated using the control system. Then, the operating mode of the weapon control system is set, the leading channel of the weapon control system is selected, and, in accordance with them, the operating modes of sighting and sighting means and weapons are formed.

The operating modes of an arms control system are understood to mean a certain minimal set of features, which, taking into account the state of an arms control system (SUV) and weapons, unambiguously sets the operating modes of sighting and sighting weapons and weapons. These signs are of a combined nature and contain information both about the tactical task (situation) and the way to solve it. For instance:
- RL - long-range aerial combat with priority radar,
- Helmet - close air combat using a helmet-mounted target designation system for target sighting.

 Automation of the operating modes of sighting and sighting equipment and weapons is carried out by setting all possible states of the SUV, determining the current state of the SUV, remembering the operating modes of sighting and aiming means and weapons corresponding to the possible states of the SUV, and setting the operating modes of sighting and aiming weapons and weapons corresponding to the current state of the SUV.

 The coordinates of the SUV state are: type of the leading channel, state (presence or absence of target capture) of the location means of the leading and driven channels of the weapon control system. To determine the current state of the SUV, the current values of the type of the leading channel of the arms control system, the state of the location means of the leading and slave channels of the weapon control system are compared with the states of the SUV, and the current state of the SUV is determined.

 The operating mode of the weapons control system is set by the crew, based on the tactical situation, using controls located on the dashboard and / or on the control stick of the aircraft.

 In the case of setting one of the air combat modes as the mode of operation of the weapon control system, the leading channel of the weapon control system is automatically selected depending on the specified mode of operation of the weapon control system, the selected weapon, and the condition of the location assets.

 To ensure the detection of a target with a high probability at the stage of its search, including in an interference environment and in various tactical conditions, when choosing a long-range aerial combat mode and in the absence of target detection, an overview mode of operation of location tools with the centers of the viewing areas in one direction is set.

 When specifying one of the long-range air combat modes as the operating mode of the weapon control system, the mode of operation of the indicating means with displaying information of the leading channel of the weapon control system is set.

 Identify the targets, accompanied by the location means of the leading and driven channels of the weapon control system, in the absence of which the reset mode of capture by the location tools of the driven channel of the weapon control system is set. Identification of targets is carried out by comparing the module of the difference in the angular coordinates of the target’s sighting by the location means of the leading and driven channels of the weapon control system with a predetermined threshold assigned based on errors in determining the angular coordinates by search means, and exceeding the specified threshold is allowed for a given time interval.

 When tracking the target only with the location means of the leading channel of the weapon control system, the location means of target acquisition from target location means of the leading channel of the weapon control system are set to the location means of the guided channel of the weapon control system and homing means of aircraft missiles.

 The possibility of a covert attack when capturing a target is ensured by the fact that if you set one of the long-range air combat modes as the operating system of the weapon control system and if you select a channel with passive type radar means as the leading channel, the active type of the system’s slave channel means weapons control set the periodic measurement of the range to the target, accompanied by location tools of the leading channel of the weapons control system, with the transition to the continuous direction finding mode when reaching a given range or at the command of the crew.

 The aircraft’s weapon control system contains (see FIG. 1) a radar station 1 with a control computer 2, an optical radar station 3 with a control computer 4, homing means 5 for an aircraft missile, target designator 6, an indication system 7, a weapon control system 8, a mode switch work 9 weapons control system. The weapon control system 8 is interconnected with the homing means 5 of the aircraft missile and connected to the indication system 7. The output of the mode switch 9 of the weapon control system is connected to the first input of the control computer 2 of the radar station 1. The second input of the control computer 2 of the radar station 1 is connected to the third output of the system weapons control 8, and the third and fourth inputs of the specified computer connected to the first and second outputs of the optical location station 3, respectively. The first output of the indicated station 3 is also connected to the first input of the target designator 6 for homing of the aircraft missile and the second input of the indicating system 7. The first output of the control computer 2 of the radar station 1 is connected to the second input of the target forwarder 6 for homing of the aircraft missile. The second and third outputs of the specified control computer 2 are connected to the third and fourth inputs of the display system 7, respectively. The third output of the control computer 2 of the radar station 1 is connected to the first input of the control computer 4 of the optical radar station 3. The first output of the radar station 1 is connected to the third input of the targeting unit 6 by homing aircraft and to the second input of the control computer 4 of the optical station 3. Second output of the radar station 1 is connected to the third input of the control computer 4 of the optical location station 3 and to the fifth input of the display system 7.

 The control transmitter 2 of the radar station 1 includes (see FIG. 2) a lead channel selection unit 10, an armament control system current state determining unit 11, a radar station 1 operating mode generator 12, weapons and indicating means, an identification unit 13. Second block output 10 the choice of the leading channel is connected to the second inputs of the block 11 determining the current state of the weapons control system and block 13 identification, the first outputs of which are connected with the shaper 12 modes of operation of the radar station, ruzhiya and indication means.

 The first input of the host channel selection unit 10 is the first input of the control computer 2 of the radar station 1 and it receives a signal from the switch 9 of the operating modes of the weapon control system. The second input of the lead channel selection unit 10 is the second input of the control computer 2 of the radar station 1 and receives a signal from the third output of the weapon control system 8. The third input of the lead channel selection unit 10 is the fourth input of the control computer 2 of the radar station 1, from which the signal also goes to the first input of the unit 11 for determining the current state of the arms control system. The first output of the host channel selection unit 10 is the third output of the control computer 2 of the radar station 1.

 The first output of the shaper 12 of the operating modes of the radar station 1, weapons and indicators is connected to the first output of the control computer 2 of the radar station 1, and the signal from it is fed to the second input of the shaper 6 target designation homing aircraft missiles. The second output of the shaper 12 operating modes of the radar station, weapons and indicators is connected to the second output of the control computer 2 of the radar station 1. At the input of the identification unit 13, the signal comes from the third input of the control computer 2.

 The control calculator 4 of the optical locating station 3 includes (see FIG. 3) a block 14 for determining the current state of the arms control system, a shaper 15 of the operating modes of the optical locating station and an identification block 16. Moreover, the block 14 for determining the current state of the arms control system and the identification block for 16 outputs associated with the shaper 15 operating modes of the optical location station. The armament control system current state determining unit 14 has two inputs, the first of which is the first input of the control computer 4 of the optical radar station 3 and receives a signal from the third output of the control computer 2 of the radar station 1. The second input of the armament control system determining the current state unit 14 is the third input control computer 4.

 The identification unit 16 also has two inputs, one of which the signal comes from the third output of the control computer 2 of the radar station 1 and is the first input of the control computer 4 of the optical station 3. The other input of the identification unit 16 is the second input of the control computer 4 of the optical station 3.

 The signal generated by the shaper 15 operating modes of the optical location station is the control for the latter.

 The possibility of carrying out the invention is illustrated by the example of the weapon control system of a multifunctional fighter in long-range aerial combat. This example should not be construed either as limiting the scope of the invention, or as the preferred form of its implementation for all cases.

Radar station 1 and optical radar station 3 have several modes of operation, namely:
- airspace survey with detection and automatic target capture,
- target capture by external target designation,
- continuous tracking of the target with the determination of its parameters (angular coordinates and range),
- reset capture target, etc.

 The control computer 2 of the radar station 1 generates control signals for the operating modes of the station 1, weapons, display systems, as well as the formation of the sign of the leading weapons control channel.

 The control computer 4 of the optical location station 3 generates control signals of the operating modes of the optical location 3.

At the outputs of the radar station 1, the following signals are generated:
- at the first exit - the angular position of the target followed,
- at the second exit - a sign of target capture by station 1,
At the outputs of the control computer 2, the following signals are generated:
- at the first exit - a sign of the weapon control mode, - at the second exit - a sign of the operation mode of the display system,
- on the third exit - a sign of the leading channel of the arms control system.

At the outputs of the optical location station 3, the following signals are generated:
- at the first exit - the angular position of the target followed,
- at the second exit - a sign of target capture by station 3.

 Display system 7 provides an indication of: the target situation according to radar 1 and optical radar 3 stations, such as the leading weapon control channel, the type of weapon selected and its use, the remainder of the ammunition, etc. The display system 7 may include an indicator on the windshield and indicators on the dashboard.

 The weapon control system 8 provides information and an indication of the presence of weapons at the suspension points and the readiness of the weapon for use, the choice of the type of weapon, its application and their indication, controls the unloading of weapons from the suspension points. The weapon control system 8 includes means for manually selecting the type of weapon, as well as means for indicating the state of the weapon (not shown in the graphic materials).

The switch modes of operation of the arms control system 9 has the provisions:
- RL - long-range combat with priority radar,
- OL - long-range combat with the priority of optoelectronic devices.

 The sign of the leading arms control channel is generated in the lead channel selection block 10 of the radar station control computer (the output of the lead channel selection block 10 is the third output of the radar control calculator 2) according to the control mode signals from switch 9 of the weapon control system operating modes, the selected weapon from system 8 weapons control, as well as status signals (the presence of target capture) radar 1 radar and 3 optical stations (from the second exit ptikolokatsionnoy station 3).

 Either a radar (U10 = 1) or an optoelectronic (U10 = 0) weapon control channel is chosen as the leader.

где V - знак логического сложения;
Λ - знак логического умножения;

- логическое отрицание а;
РЛ, ОЛ - положения переключателя 9 режимов работы системы управления вооружением;
АТ1 - признак захвата цели радиолокационной станцией;
АТ2 - признак захвата цели оптиколокационной станцией, поступающий со второго выхода указанной станции;
РГС - признак выбора авиационной ракеты с радиолокационной головкой самонаведения, поступающий от системы 8 управления оружием.When setting one of the modes (radar (RL) or optical radar (OL)), the formation of the sign of the leading arms control channel is carried out in accordance with the following logical expression:

where V is the sign of logical addition;
Λ is the sign of logical multiplication;

- logical negation of a;
RL, OL - switch position 9 modes of operation of the arms control system;
АТ1 - sign of target acquisition by a radar station;
АТ2 is a sign of target capture by an optical location station coming from the second output of the specified station;
RGS is a sign of the choice of an aircraft missile with a homing radar coming from the weapon control system 8.

From the specified expression follows:
- in the absence of target capture, the purpose of the leading channel is determined by the position of the switch 9 modes of operation of the arms control system;
- when choosing a missile with a radar homing head and the presence of a target capture, at least one of the location tools leads the radar channel;
- when choosing a missile with a thermal homing head and having a target capture by one of the location tools, the lead channel is selected by the type of location tool that captures the target;
- when choosing a missile with a thermal homing head and the presence of a target capture by both location means, the choice of the leading complex is determined by the position of the switch 9 modes of operation of the weapon control system.

 This logic of choosing the leading arms control channel in long-range aerial combat allows taking into account, on the one hand, the tactical preferences of the pilot, which are set by the switch 9 of the weapon control system operation modes and the choice of weapons (which is set by the weapon control system 8), and on the other, the real capabilities of the location tools.

 In blocks 11 and 14 of determining the current state of the arms control system of the control computers of the radar and optical radar stations, the current state of the arms control system (the blocks are identical) is determined respectively, the sign of which goes to the shaper 12 of the operating modes of the radar station 1, weapons and indicating means, and the shaper of 15 modes, respectively work of optical station 3.

 Let us consider for definiteness the block 11 for determining the current state of the weapon control system of the computer 2 of the control of the radar station 1.

 The specified block 11 (see figure 4) includes a series-connected block 17 of the memory of possible states of the arms control system, a comparator 18 and a recorder 19. The second, third and fourth inputs of the comparator 18 are connected to the first and second inputs of the block 11 for determining the current state of the system arms control and the second output of the radar station 1. The states of the arms control system contained in block 17 are presented in table 1.

 The radar in the table indicates the radar station 1, and the OLS - optical radar station 3.

 Current values of the type of the leading channel of the arms control system and the state of the location tools are input to the comparator 18, where they are compared with possible states from the memory block 17 of the possible states of the arms control system and the current state is determined, the number of which is stored in the recorder 19. The output of the recorder 19 is the output of the block 11 determining the current state of the arms control system.

 Consider the following situation as an example.

 In long-range aerial combat, an airborne guided missile with a radar homing head was selected for use, an armament control regime was set with preference for radar means, and the target was captured by radar and optical radar systems. In this case, the current state is number 3 in table 1.

 In block 12, the signs of the control modes of the radar station 1, weapon and indication system 7 are formed. The memory of the indicated block 12 stores the signs corresponding to the possible states of the arms control system (table 2) and the current operating modes are formed (line selection) by the current state number with block 11 determining the current state of the arms control system (similar to block 14).

 In table 2, the indicator "capture radar (OLS)" refers to the mode of target acquisition by target designation of a radar station or optical radar station, "P (T)" - display mode with information display radar (OLS).

For the current state of the arms control system, 3 control modes have the form: (3 tables 2)
- means 5 homing aircraft missiles receives the target designation signal from the radar station 1 through the target designator 6 (U21 = 1),
- display system 7 operates in the display mode information of the radar station 1 (U22 = 1),
where U21 is the signal at the first output of block 2,
U22 - signal at the second output of block 2.

 If the radar channel is selected as a follower and the target is followed by both location tools (line 7 of Table 1), then in the case of generation in the identification unit 13 of the calculator 2 of the control of the radar station 1 a signal of the absence of identification of the target from the shaper 12 of the operating modes of the radar station, weapons and means of indication, the capture reset signal of the radar station is sent to the control of radar station 1 with the highest priority.

 The signal of the lack of identification of the target is generated in the block 13 identification.

Указанное рассогласование сравнивается с порогом (U 0) и при его превышении запускается счетчик времени, который обнуляется при рассогласовании, равном или меньшем порога.The current mismatch is calculated according to the angular coordinates obtained from radar 1 (not shown) and optical radar 3 stations (if there is a sign of capture of the radar station (not shown) and a sign of the guided radar channel) in accordance with the expression:

The indicated mismatch is compared with the threshold (U 0) and when it is exceeded, a time counter is started, which is reset when the mismatch is equal to or less than the threshold.

T = Int (U1-3) for U1-3>U0;
T = 0 for U1-3 <U0.

 The counter readings are compared with a predetermined threshold value of time (U01) and when it is exceeded, a signal is generated that, together with the indication of the leading channel, is transmitted to the coincidence circuit. If the radar channel is selected as a slave at the output of the identification unit 13, a sign of lack of identification is formed.

 U13 = 1 for T> U01 AND U13 = 0 for T <U01.

where mod is the sign of the absolute value,
Int is the sign of integration,
U11у, U11z - angular coordinates of the target from the radar station 1,
U31y, U31z - angular coordinates of the target from the optical location station 3,
U1-3 - current mismatch,
T is the output of the time counter,
U13 is the output of identification block 13.

 The threshold value for the mismatch value (U0) is set based on the maximum error values for determining the angular coordinates of the target using location tools.

 The threshold time value (U01), when the mismatch value is allowed to go beyond the threshold U0, is set based on the presence of short-term anomalous signal surges.

 Values U0 and U01 are selected based on the results of field work.

 In the shaper 15 of the operating modes of the optical station 3, the signs of the control modes of the indicated station 3 are formed. The memory of block 15 stores the signs corresponding to the possible states of the control system (table 3) and the current modes of operation (line selection) are generated by the current state number from the determination unit 14 the current state of the weapons control system (similar to block 12 of the control computer 2 of the radar station 1).

 If the optolocation channel is selected as the slave and the target is followed by both location tools (row 3 of Table 1), then in the case of generating an identification signal in block 16 of the lack of identification of the target in the shaper 15 of the operating modes of the optical colony station, a signal to reset the capture by the optical colony station is generated, which to control the optical station 3 with the highest priority.

 The identification unit 16 for calculating the control computer 4 of the optical radar station 3 operates similarly to the unit 13 for identifying the calculator control 2 of the radar station 1.

 Homing means 5 of an aircraft missile receive a target designation signal from a target designator 6 and give a sign of readiness to the weapon control system 8.

 The target designator 6 generates a target designation signal arriving to the aircraft missile homing means 5 according to information about the angular position of the target being tracked from radar 1 or optical radar 3 stations depending on the sign of the weapon’s operating mode from the first output of control computer 2 of radar station 1.

 Flight tests of the device showed its effectiveness in various tactical situations and in the presence of interference.

Claims (12)

 1. Aircraft weapon control method, according to which the target is detected, its parameters are determined, weapons are selected, control signals and sighting devices and weapons are generated, characterized in that the weapon control system operation mode is set, and the weapon control system channel is selected and in accordance with them form the operating modes of sighting and sighting weapons and weapons.  2. The method according to claim 1, characterized in that for the formation of operating modes of sighting and sighting means and weapons, remember the possible states of the weapon control system, in accordance with the latter, the operating modes of sighting and sighting means and weapons are remembered, the current state of the weapon control system is determined and in accordance with it, the current operating modes of sighting and sighting equipment and weapons are set.  3. The method according to claim 2, characterized in that the current type of the leading channel of the weapon control system, the current state of the location means of the lead and slave channels of the weapon control system are compared with the possible states of the weapon control system and then determine the current state of the weapon control system.  4. The method according to any one of claims 1 to 3, characterized in that the mode of operation of the weapons control system is set using controls located on the dashboard and / or on the control stick of the aircraft.  5. The method according to any one of claims 1 to 4, characterized in that when setting one of the air combat modes as the mode of operation of the weapon control system, the leading channel of the weapon control system is selected depending on the specified mode of operation of the weapon control system, the selected weapon and condition location tools.  6. The method according to claim 5, characterized in that when setting as the mode of operation of the weapon control system one of the long-range air combat modes and in the absence of target detection, an overview mode of operation of the location means with the centers of the viewing areas in one direction is set.  7. The method according to p. 5 or 6, characterized in that when specifying as the operating mode of the weapon control system one of the long-range air combat modes, the operating mode of the indicating means with the display of information of the leading channel of the weapon control system is set.  8. The method according to claim 5 or 7, characterized in that the identification of targets accompanied by the location means of the lead and slave channels of the weapon control system is carried out, in the absence of which the reset mode of capture by the location means of the lead channel of the weapon control system is set.  9. The method according to claim 8, characterized in that the identification of the targets is carried out by comparing the module of the difference in the angular coordinates of the target’s sighting by the location means of the master and slave channels of the weapon control system with a given threshold, and exceeding the specified threshold is allowed for a specified time interval.  10. The method according to claim 5 or 7, characterized in that when tracking the target only with the location means of the lead channel of the weapon control system, the location means of target acquisition from target location means of the control channel of the weapon system and homing aircraft missiles are set weapons.  11. The method according to claim 5 or 7, characterized in that when specifying as an operating mode of the weapon control system one of the long-range air combat modes and if a channel with passive-type locational means is selected as the leading channel, the active-type locational means the armament control system’s slave channel is set to periodically measure the range to the target, accompanied by the location means of the armament control system’s leading channel, with the transition to continuous DF th at the given range or on the crew team.  12. Aircraft weapon control system, comprising a weapon control system interconnected with aircraft missile homing systems, connected to an indication system, a radar station including a control computer, an optical radar station including a control computer, characterized in that it is provided with the ability to switch target designation to depending on the mode of operation of the weapon by the target designator for homing aircraft missiles, and also switch the mode of operation of the weapon control system connected to the first input of the radar station control computer, the second input of which is connected to the third output of the weapon control system, and the third and fourth inputs are connected to the first and second outputs of the optical radar station, respectively, the first output of this station is also connected to the first the input of the target designator to homing aircraft missiles and the second input of the display system, the first output of the control computer of the radar station the station is connected to the second input of the target designator by homing aircraft missiles, the second and third outputs of the specified control computer are connected to the third and fourth inputs of the display system, while the third output of the control computer of the radar station is connected to the first input of the control computer of the optical location station, the first output of the radar station is connected with the third input of the target designator for homing aircraft missiles and with the second input of the computer calculator of the optical radar station, the second output of the radar station is connected to the third input of the control computer of the optical radar station and to the fifth input of the display system, while the control computer of the radar station is configured to form a leading channel of the weapon control system depending on the weapon selected, the mode of operation of the weapon control system and the state of the location tools, the formation of the operating modes of the radar station, weapons and indication systems, destination, the control computer of the optical station is configured to form the operating modes of the optical station and identify the targets.

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