RU2666001C2 - Method of monitoring the control of the target's defeat by a cruise missile - Google Patents

Abstract

FIELD: rocket technics.SUBSTANCE: invention relates to rocket engineering. In the method for controlling the target's defeat by a cruise missile (CM) after CM launching and flying along individual trajectory, selecting the target and approaching the target, removing the stages of protecting the combat equipment at a given distance to the target, determined from the conditions of the imminent defeat of the target, a data array is formed according to a given algorithm in the CM onboard equipment. Array contains the CM number, the type of the warhead, the target number in the target order and the target coordinates, the distance to the target at the time the data array is completed. It is possible to transfer the generated data array to the CM carrier. In addition, it may be possible to transmit a data set before the command to blast the warhead with a predetermined time interval, including at least one repeater.EFFECT: ensuring the autonomy and speed of delivery of information about the defeat of the target.11 cl, 1 dwg

Description

The proposed solution relates to rocket technology, namely to cruise missiles (CR), designed to destroy sea and ground targets.

Marine targets primarily include aircraft carrier and cruising groups, which are highly capable of repelling massive strikes by aircraft.

As ground targets, it is advisable to consider small-sized highly protected military targets. Objects of this kind, as a rule, cause difficulties in defeat due to their small size and rationally organized defense system.

Currently, in most cases, the main means of combating such targets are cruise missiles, which plan and free-fall bombs equipped with high-precision guidance equipment (radar, infrared and laser homing heads, high-precision satellite navigation and GPS-type guidance equipment).

It should be noted that modern methods of monitoring the results of hitting a target practically do not allow to quickly obtain data on the results of a missile strike on a target. Only if there is an operatively deployed group of aerospace monitoring tools in the conflict zone is it possible to obtain some information about the results of the operation. In the event that it becomes necessary to strike at an operational target, obtaining information on the effectiveness of the applied means of destruction will require considerable time (from several hours to several days). The lack of operational information on the results of the use of aviation weapons can lead to the failure to fulfill the entire combat mission, unjustified losses in strength and equipment, a significant slowdown in the regrouping of the armed forces and the slow reaction of troops to new threats.

The invention is known (RF patent 2247312), involving the installation of an additional autonomous module (aircraft) on a rocket with monitoring means on board it, followed by transmission of the target image to the operator.

In practice, the invention is not practicable. Given the weight of the autonomous module, the required characteristics of communications equipment and energy, as well as the density of the layout of modern missiles, the completion of existing RCs or the development of new CRs with such a module is unlikely.

As the closest solution analogue, a method for hitting ground targets with an AGM-142 tactical cruise missile is proposed. The missile was developed by the Israeli company Rafael and the American Lockheed Martin Missiles and Fire Control. Used in the US Air Force to equip strategic bombers B-52N.

According to the materials of the site http://www.airwar.ru/weapon/avz/agm142.html, the main goals of the KR AGM-142 are power plants, substations, cracking and distillation towers, communication nodes, mobile and stationary radars, etc.

The missile is equipped with an inertial navigation system, a television or infrared homing head and a digital communication line with the carrier.

Guidance of the rocket in the middle part of the trajectory is carried out by an inertial system with possible correction from the carrier aircraft, and in the final part of the trajectory there is a television guidance system using the digital communication line between the rocket and the carrier.

The communication line provides the ability to control the process of striking an AGM-142 missile, providing high accuracy and efficiency of hitting a ground target.

However, this method has serious disadvantages:

- the rocket is not autonomous; the carrier aircraft must always be in the target attack zone to control the target’s destruction process, at the same time being at risk of being shot down by the target’s air defense system,

- the carrier aircraft should be equipped with an additional container with the equipment of the data line and have antennas, practically, with a circular radiation pattern, which is an additional unmasking factor, requires an increase in the weight of the aircraft and the number of crew on board the aircraft. The time also increases and the complexity of ground handling of aircraft carriers of the indicated means of destruction of the target increases.

The aim of the proposed solution is to eliminate these shortcomings and develop such a method for controlling the target’s defeat, the implementation of which would allow: firstly, to ensure the speed of delivery of information on the results of the defeat of any type of target; secondly, to ensure the autonomy of controlling the defeat of the target of a cruise missile (singly or as part of a salvo).

The proposed solution is as follows.

The following differences are introduced in the method of controlling a target’s defeat by a cruise missile, which consists in ensuring the launch and flight of at least one cruise missile (CR).

After completing the flight of the Kyrgyz Republic on an individual trajectory, selecting the target of the Kyrgyz Republic, approaching the target, ensuring the removal of the stages of protection of combat equipment at a given distance to the target, on-board equipment of the Kyrgyz Republic generates an array of data containing the number of the Kyrgyz Republic, type of warhead (warhead) using the specified algorithm , the target number in the order of goals and the coordinates of the target, the distance to the target at the time of completion of the preparation of the data array and the transfer of the data array to the CD carrier is provided.

In the above method of controlling the destruction of a target by a cruise missile, the following can additionally be carried out:

- provides the transfer of an array of data before the command to undermine the warhead with a specified time interval;

- the transfer of the data array to the CD carrier is provided through at least one repeater;

- as a repeater, a missile is used, making a flight as part of a salvo of missiles with a predetermined interval from the first missile in a salvo;

- a spacecraft and / or aircraft is used as a repeater;

- the composition of the transmitted data includes a photographic image of the target being hit;

- the structure of the transmitted data includes the image of the target being stripped made in the infrared range of the electromagnetic spectrum;

- - the image of the target hit in the radar range is included in the transmitted data;

- after completion of the attack (including hitting the target) by one of the missiles in the salvo on board the repeater, an additional photographic image of the target is formed with its subsequent transfer to the carrier of the missile;

- after completion of the attack (including hitting the target) by one of the missile launchers in the salvo on board the repeater, an additional image of the target is formed, made in the infrared range of the electromagnetic spectrum, with its subsequent transfer to the launcher;

- after the completion of the attack (including hitting the target) by one of the missile launchers in the salvo aboard the repeater, an additional target image is formed, made in the radar range, with its subsequent transfer to the launcher of the missile launcher.

The illustration (Figure 1) shows the general flight pattern of the Kyrgyz Republic with options for generating an array of data and transmitting information (including broadcasting) about the results of monitoring the defeat of the target.

In Figure 1, the positions indicate the following solution components:

1 - CD carrier;

2 - the flight path of the Kyrgyz Republic to the target;

3 - the line of completion of the distribution of goals;

4 - the line of removal of the stages of protection of combat equipment (warhead);

5 - the line of completion of the preparation of the data array;

6 - CR;

7 - KP - repeater;

8 - KA - repeater;

9 - LA - repeater;

10 - ground communication node - repeater;

11 - data transmission channel from the Kyrgyz Republic;

12 is the goal.

The solution is implemented as follows.

After the launch (start) of the CR (6) from the carrier (1), the KR is flown along a predetermined path (2). Upon reaching the target area of the target area (12), the target is guided directly to the target, and in the case of multiple launch rocket fire on a group target, the target is distributed among the goals in the group (target order), where each target corresponds to a specific target. At the turn (3) - the specified distance to the target L1, with a single attack on the target, - the capture of the target must be completed (when carrying out a salvo of missile defense - the distribution of missile defense by targets must be completed), the approach of the missile defense to the target must be ensured. This sequence is performed using the homing head (other guidance tools) and on-board equipment of the Kyrgyz Republic, which is technically implemented many times in the technical samples.

As the KR approaches the target at a given distance L2, the protection steps are removed from the combat equipment. In fact, after milestone (4), the Kyrgyz Republic continues to fly in a “combat platoon”.

The distance L2 is set from the conditions, in fact, of the inevitable achievement of the missile defense target, after overcoming the vast majority of missile defense systems, capturing the target and calculating the departure of the moving target.

Given that at a given distance L2, the probability of hitting the target is significantly high (much higher than at the time of launch or at any other distance to the target), it is quite acceptable to take the calculated probability for further analysis and conclusions about the fate of the target. To do this, you need to transfer a specific and limited data set. Namely: the KR number (required to clarify the calculations), the type of military equipment (or warhead (warhead)) - is required to calculate and clarify the possibility of causing damage to the target, the target number in the order of targets (for a group target) and target coordinates (required for eliminating the possibility of duplication of the use of the missile defense for one purpose, and vice versa, accurate information on the number of anti-missile defense used against one target allows us to make accurate conclusions about the possibility of its destruction, the distance to the target (L3) at the time of completion of the preparation of the data array (information and End a preparation and transmission of the required data to a close the CD to the target increases the probability of achieving the goal of the Kyrgyz Republic with the subsequent undermining of military equipment).

After the preparation of the data array at a distance of L3 is completed, they are immediately sent to the carrier by the provided communication means of the Kyrgyz Republic.

Even in the case of damage or destruction of the CR at this distance (L3), either uncontrolled CR with fuel residues or its fragments can reach the target. Hitting parts of the missile launcher on a target can cause it some damage.

The probability of hitting a target can be increased if the proposed solution is supplemented by the following: to ensure the transfer of an array of data (described above) to the medium immediately before the command to undermine the warhead.

Undermining warhead is carried out, in fact, at the time of the collision of the Kyrgyz Republic with a target. The presence of information about the inevitable collision of the RC with the goal will allow us to draw conclusions about the damage to the target even without taking into account the warhead detonation (due to the high velocity of the Raman, its mass and the rigidity of the structural elements).

For unambiguous identification of the target, it is advisable to include in the dataset a photographic image of the target obtained on board the Kyrgyz Republic (under adequate weather conditions and during daylight hours) or an image made in the infrared or radar range of the electromagnetic spectrum (or images made in all versions).

For a photographic image in the optical range, it is necessary to additionally install a camera on the CD, convert the received image to the capabilities of the communication channel or modify the information transmission channel.

An image made in the infrared or radar range of the electromagnetic spectrum requires refinement of the on-board equipment. The presence of a homing head operating in the radar range requires a converter of signals received from the target, the installation of an infrared matrix on the Raman, followed by conversion of the received signals in the infrared range of the electromagnetic spectrum, will make it possible to obtain the desired image.

Given the presence of curvature of the planet’s surface and the radius of the Raman’s radius, it is possible to transmit data (via channels 11) to the carrier only with the help of a relay (8 and / or 9, and / or 10), which can be provided when preparing a Raman salvo to hit a target.

The number of repeaters may be several; this is technically feasible.

As a repeater, other CRs in a salvo can be used, flying at a given distance from the first (first) CRs in a salvo, and at a given height. In a combat situation, when moving away from vital centers, a carrier, a troop deployment location, the use of missile defense is supposed to be the most justified.

Nevertheless, taking into account the cost of the RC, as well as to obtain information on the effectiveness of all the KR used, other types of aircraft (planes, helicopters, space vehicles) or even ground-based complexes can be used as a relay if it is possible to communicate between the RC and the indicated objects. Technically, this is feasible.

Considering that the transmitted data array is only initial information for calculating the probability of hitting the target, it is advisable to ensure that the target is received and transferred to the carrier of the photographic image of the target upon completion of the attack (under favorable climatic conditions, in the daytime and at a distance from the target acceptable for the photograph) photo images is quite possible) or an image made in the infrared or radar range.

A photo image (infrared, radar image) of the target’s state after an attack on it can be obtained on board the repeater and transferred to the CD carrier. Images can be obtained and transferred to the CD carrier many times, which depends on the time spent by the repeater in the target area and possible data transmission.

To provide a way to control the defeat of the target of the Kyrgyz Republic, it is necessary to solve the following tasks:

- to develop on-board equipment, algorithms and software for monitoring and transmitting data on the results of the use of RCs for goals;

- provide communication centers, aircraft and spacecraft with appropriate transceiver equipment to perform the functions of repeaters.

These tasks are technically feasible and do not cause insurmountable difficulties for specialists in the relevant field. Those. the alleged invention is industrially applicable in solving exclusively organizational issues about the appropriateness of its use.

Thus, you can reasonably articulate the benefits that the proposed solution provides:

- the autonomy of the use of CR for any type of purpose;

- Efficiency of obtaining information on the results of the application of the CD;

- the reliability of the results on the impact of CR on the target;

- the effectiveness of the use of CD for the purpose;

The technical result of the invention lies in the fact that with a minimum amount of re-equipment of both the material part and the software of the control system of the Kyrgyz Republic, the carrier crew using the RC to make a decision on further actions can receive the following information: updated information about the target (i.e. ., conduct additional reconnaissance of the target according to preliminary data on the target), the initial data (with high reliability), to calculate damage to the target, the state of the target and its ability to perform significant actions (the set goals of the task) follows an attack, accurate information about the type of target and its status (if optional equipment).

The timely availability of the above information makes it possible to rationally use the ammunition of both the carrier of the Kyrgyz Republic and other types of weapons, to more efficiently carry out the tasks, quickly switch to other new tasks, and, as a result, reduce the loss of personnel and equipment. The obtained initial data are also useful for the refinement (modernization) of the operating rocket technology samples.

Claims (11)

1. The method of controlling the destruction of a target by a cruise missile, which consists in ensuring the launch and flight of at least one cruise missile (CR), characterized in that after performing the KR flight on an individual trajectory, selecting the target of the KR, approaching the target, ensuring the removal of the stages of protection of combat equipment at a given distance to the target, in the on-board equipment of the Kyrgyz Republic, according to the specified algorithm, an array of data is generated containing the number of the Kyrgyz Republic, the type of warhead (warhead), the target number in the order of targets and the coordinates of the target, the distance to the target at the time of verification making the data array preparation, and the data array is transferred to the CD carrier. 2. A method for controlling the destruction of a target according to claim 1, characterized in that the data array is transmitted before the command to undermine the warhead with a specified time interval. 3. A method for controlling the destruction of a target according to claim 1, characterized in that the transmission of the data array to the CD carrier is provided through at least one repeater. 4. A method for controlling the destruction of a target according to claim 3, characterized in that the radio relay is used as a repeater, flying in the composition of a salvo of a salmon with a predetermined interval from the first salmon of a salvo. 5. A method for controlling the destruction of a target according to claim 3, characterized in that a spacecraft and / or aircraft is used as a repeater. 6. A method for controlling the destruction of a target according to claim 1, characterized in that a photographic image of the target is included in the data array. 7. A method for controlling the destruction of a target according to claim 1, characterized in that the image of the target, made in the infrared range of the electromagnetic spectrum, is included in the data array. 8. A method for controlling the destruction of a target according to claim 1, characterized in that the image of the target, made in the radar range of the electromagnetic spectrum, is included in the data array. 9. A method for controlling a target’s defeat according to claim 3, characterized in that after hitting a target of one of the RCs, a photographic image of the target is formed on the volley on board the repeater with its subsequent transfer to the CD carrier. 10. A method for controlling a target’s defeat according to claim 3, characterized in that after hitting a target of one of the RCs in a salvo on board the repeater, an image of the target is formed, made in the infrared range of the electromagnetic spectrum, with its subsequent transfer to the CD carrier. 11. A method for controlling a target’s defeat according to claim 3, characterized in that after hitting a target of one of the RCs in a salvo on board the repeater, an image of the target is formed, made in the radar range of the electromagnetic spectrum, with its subsequent transfer to the KR’s carrier.

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