CN111274524A - Combat resource scheduling method for emergency alarm event - Google Patents

Abstract

The invention discloses a combat resource scheduling method for an emergency alarm event, which comprises the following steps: calculating the threat degree of at least one emergency alarm event to be distributed; judging emergency alarm events to be distributed based on the threat degree, if the emergency alarm events to be distributed are emergency alarm events, sequentially distributing defense weapons for the emergency alarm events based on the threat degree, and calculating the threat degree of other emergency alarm events to be distributed again; and if the emergency alarm event to be distributed is a non-emergency alarm event, sequentially distributing defense weapons for the non-emergency alarm event based on the threat degree so as to realize the battle resource scheduling. The invention analyzes the threat degree of the sudden emergency alarm event to be distributed, sequentially distributes defense weapons for the judged sudden emergency alarm event to be distributed according to different threat degrees, considers the situation that the emergency alarm event and the non-emergency alarm event exist simultaneously, and has the characteristics of fair and rapid battle resource scheduling, simple scheduling method and contribution to engineering application.

Description

Combat resource scheduling method for emergency alarm event

Technical Field

The invention relates to the field of target tracking, in particular to a combat resource scheduling method for an emergency alarm event.

Background

With the change of battlefield situation, the defenses against multiple fire are the inevitable requirements for system development. How to timely and accurately distribute the defense weapons to the alarm events and fully play the fighting capacity of the defense weapons is the key to success defense in our position. Unpredictability of the battlefield environment leads to inevitable occurrence of emergency alert events, the burstiness of which affects the fire distribution of non-emergency alert events, however, the lack of research on resource scheduling of emergency alert events in the prior art leads to failure of location defense.

Therefore, a method for scheduling combat resources for emergency alarm events needs to be provided.

Disclosure of Invention

The invention aims to provide a combat resource scheduling method for an emergency alarm event, which aims to solve at least one of the problems in the prior art;

in order to achieve the purpose, the invention adopts the following technical scheme:

the invention provides a method for scheduling combat resources for an attack target, which comprises the following steps:

calculating the threat degree of at least one emergency alarm event to be distributed;

judging the emergency alarm event to be distributed based on the threat degree,

if the emergency alarm event to be distributed is an emergency alarm event, sequentially distributing defense weapons for the emergency alarm event based on the threat degree, and calculating the threat degree of other emergency alarm events to be distributed again;

and if the emergency alarm event to be distributed is a non-emergency alarm event, distributing defense weapons for the non-emergency alarm event in sequence based on the threat level so as to realize battle resource scheduling.

Optionally, the threat degree target of the emergency alarm event to be allocated_dThe formula for calculating _ ID is:

target_d_ID＝1/(target_d_deadline-ctime),；

wherein ctime is the current time and target_dAnd _ delay is the latest interception time of the emergency alarm event d to be distributed.

Optionally, the formula for determining the emergency alarm event to be allocated based on the threat degree is as follows: target_d_deadline-ctime≤K；

Wherein, target_dA _ deadline is the latest interception time of the emergency alarm event d to be distributed; ctime is the current moment, and K is the time required for interception.

Optionally, if the emergency alert event to be allocated is an emergency alert event, allocating defense weapons for the emergency alert event in sequence based on the threat degree, further comprising:

acquiring format parameters of the emergency alarm event;

sequentially ordering the emergency alert events based on the threat level;

in turn, assign defensive weapons for the sequenced emergency alert events.

Optionally, format parameter utarget of the emergency alert event j_jComprises the following steps:

utarget_j＝{utarget_j_deadline,utarget_j_ID}；

wherein, utarget_j"deadline" is the latest interception time, utarget, of the Emergency alert event j_jID is the threat level of emergency alert event j.

Optionally, if the emergency alert event to be allocated is a non-emergency alert event, allocating defensive weapons for the non-emergency alert event in sequence based on the threat level includes:

acquiring format parameters of the non-emergency alarm event;

sequentially ordering the non-emergency alert events based on the threat level;

in turn, assign defensive weapons for the sequenced non-emergency alert events.

Optionally, the format parameter target of the non-emergency alert event i_iComprises the following steps:

target_i＝{target_i_deadline,target_i_postion,target_i_address,target_i_ID}；

wherein, target_i"deadline" is the latest intercept time, target, of non-emergency alert event i_i"Postic" is location information of non-emergency alert event i, target_iAddress is the landing point information of non-emergency alarm event i, target_iID is the threat level of non-emergency alert event i.

Optionally, the foothold information of the non-emergency alarm event is obtained by using a longgutta one-step extrapolation algorithm.

Optionally, said assigning defensive weapons for non-emergency alert events in turn based on said threat level further comprises:

dividing the defense area into at least one foothold area;

obtaining the number N of non-emergency alarm events in each foothold area_k；

Based on the number of non-emergency alert events N_kSequencing the landing point areas, and distributing defense weapons for at least one non-emergency alarm event in the sequenced landing point areas.

The invention has the following beneficial effects:

the invention analyzes the threat degree of the sudden emergency alarm event to be distributed, sequentially distributes defense weapons for the judged sudden emergency alarm event to be distributed according to different threat degrees, considers the situation that the emergency alarm event and the non-emergency alarm event exist simultaneously, and has the characteristics of fair and rapid battle resource scheduling, simple scheduling method and contribution to engineering application.

Drawings

The following describes embodiments of the present invention in further detail with reference to the accompanying drawings.

Fig. 1 is a flowchart illustrating a combat resource scheduling method according to an embodiment of the present invention.

Detailed Description

In order to more clearly illustrate the invention, the invention is further described below with reference to preferred embodiments and the accompanying drawings. Similar parts in the figures are denoted by the same reference numerals. It is to be understood by persons skilled in the art that the following detailed description is illustrative and not restrictive, and is not to be taken as limiting the scope of the invention.

As shown in fig. 1, an embodiment of the present invention discloses a method for scheduling combat resources for an emergency alert event, which is characterized by comprising:

calculating the threat degree of at least one emergency alarm event to be distributed;

judging the emergency alarm event to be distributed based on the threat degree,

if the emergency alarm event to be distributed is an emergency alarm event, sequentially distributing defense weapons for the emergency alarm event based on the threat degree, and calculating the threat degree of other emergency alarm events to be distributed again;

and if the emergency alarm event to be distributed is a non-emergency alarm event, sequentially distributing defense weapons for the non-emergency alarm event based on the threat degree so as to realize the battle resource scheduling.

The invention analyzes the threat degree of the sudden emergency alarm event to be distributed, sequentially distributes defense weapons for the judged sudden emergency alarm event to be distributed according to different threat degrees, considers the situation that the emergency alarm event and the non-emergency alarm event exist simultaneously, and has the characteristics of fair and rapid battle resource scheduling, simple scheduling method and contribution to engineering application.

In some optional implementations of this embodiment, the threat degree target of the emergency alert event is to be assigned_dThe formula for calculating _ ID is:

target_d_ID＝1/(target_d_deadline-ctime),；

wherein ctime is the current time and target_dAnd _ delay is the latest interception time of the emergency alarm event d to be distributed.

In some optional implementation manners of this embodiment, if the emergency alert event to be allocated is an emergency alert event, allocating defense weapons for the emergency alert event in sequence based on the threat degree, further includes:

acquiring format parameters of the emergency alarm event;

sequencing the emergency alert events in order based on threat;

in turn, assign defensive weapons for the sequenced emergency alert events.

In the embodiment, the emergency alarm event meeting the judgment condition is represented by a uniform format parameter, so that the information of the emergency alarm event can be effectively and quickly called; and the priority is sequenced according to the threat degree of the emergency alarm event, and defense weapons are distributed to the emergency alarm event according to the priority for carrying out fighting resource scheduling, so that the quick, effective, accurate and timely resource scheduling of the fighting resources corresponding to all the emergency alarm events is realized.

In some optional implementations of this embodiment, format parameter utarget of emergency alert event j_jComprises the following steps:

utarget_j＝{utarget_j_deadline,utarget_j_ID}；

wherein, utarget_j"deadline" is the latest interception time, utarget, of the Emergency alert event j_jID is the threat level of emergency alert event j.

In some optional implementations of this embodiment, if the emergency alert event to be allocated is a non-emergency alert event, sequentially allocating defensive weapons for the non-emergency alert event based on the threat level includes:

acquiring format parameters of the non-emergency alarm event;

sequentially ordering the non-emergency alert events based on the threat level;

in turn, assign defensive weapons for the sequenced non-emergency alert events.

In some optional implementations of this embodiment, the format parameter target of the non-emergency alert event i_iComprises the following steps:

target_i＝{target_i_deadline,target_i_postion,target_i_address,target_i_ID}；

wherein, target_i"deadline" is the latest intercept time, target, of non-emergency alert event i_i"Postic" is location information of non-emergency alert event i, target_iAddress is the landing point information of non-emergency alarm event i, target_iID is the threat level of non-emergency alert event i.

In some optional implementations of this embodiment, the foothold information of the non-emergency alert event is obtained using a longgutta one-step extrapolation algorithm. The Runge Kuta one-step extrapolation algorithm is a high-precision single-step algorithm widely applied to engineering, is high in algorithm precision, and can obtain high-precision foot drop point information.

In some optional implementations of this embodiment, assigning defensive weapons to non-emergency alert events in turn based on the threat level further comprises:

dividing the defense area into at least one foothold area;

obtaining the number N of non-emergency alarm events in each foothold area_k。

Based on the number of non-emergency alert events N_kSequencing the landing point areas, and distributing defense weapons for the non-emergency alarm events in the landing point areas in sequence.

In the embodiment, the defense areas are divided, and defense weapons are effectively distributed to each foothold area in sequence based on the number priority of the non-emergency alarm events, so that the combat resource scheduling of all the non-emergency alarm events in the whole defense area is effectively realized.

The following explains embodiments of the present invention with specific examples:

s1, calculating the threat degree of at least one emergency alarm event to be distributed;

the quantity of the emergency alarm events d to be distributed is assumed to be M, wherein M is more than or equal to 1; threat degree target of emergency alarm event d to be distributed_dThe formula for calculating _ ID is:

target_d_ID＝1/(target_d_deadline-ctime),；

wherein ctime is the current time and target_dAnd _ delay is the latest interception time of the emergency alarm event d to be distributed.

S2, judging the emergency alarm event to be distributed based on the threat degree,

s21, if the emergency alarm event to be distributed is an emergency alarm event, distributing defense weapons for the emergency alarm event in sequence based on the threat degree, and calculating the threat degree of other emergency alarm events to be distributed again;

and S22, if the emergency alarm event to be distributed is a non-emergency alarm event, distributing defense weapons for the non-emergency alarm event in sequence based on the threat degree so as to realize the battle resource scheduling.

In this embodiment, the formula for determining the emergency alarm event to be allocated by using the threat level is as follows: target_d_deadline-ctime≤K；

Wherein, target_dA _ deadline is the latest interception time of the emergency alarm event d to be distributed; ctime is the current moment, and K is the time required for interception.

Step S21 further includes:

s211, when the emergency alarm event to be distributed is judged to be the emergency alarm event based on the formula, acquiring the format parameter of the determined emergency alarm event j;

format parameter utarget of emergency alert event j_jComprises the following steps:

utarget_j＝{utarget_j_deadline,utarget_j_ID}；

wherein, utarget_j"deadline" is the latest interception time, utarget, of the Emergency alert event j_jID is the threat level of emergency alert event j.

For example, the format of emergency alert event 1 is: utarget₁＝{utarget₁_deadline,utarget₁_ID}；

The format of emergency alert event 2 is then: utarget₂＝{utarget₂_deadline,utarget₂_ID}；

The format of emergency alert event 3 is then: utarget₃＝{utarget₃_deadline,utarget₃_ID}；

The emergency alarm event is represented and acquired in a uniform format, and timely allocation of combat resource scheduling can be realized.

S212, sequencing the emergency alarm events in sequence based on the threat degree;

the emergency alarm events are prioritized by the threat degree, and after the threat degree is ranked from large to small, the emergency alarm events with the most urgent degree can be effectively and timely preferentially distributed, so that wrong battle resource scheduling caused by wrong judgment of the emergency alarm events is avoided.

S213, allocating defense weapons for the sequenced emergency alert events in sequence.

For example, the threat levels of the emergency alert event 1, the emergency alert event 2 and the emergency alert event 3 are utarget₁_ID、utarget₂_ID、utarget₃An _ ID; the threat level priorities of the three emergency alert events are: utarget₁_ID＞utarget₃_ID＞utarget₂ID, then allocating operational resources for emergency alert event 1 first, then allocating operational resources for emergency alert event 3, and finally allocating operational resources for emergency alert event 2 with the lowest threat level.

And after the combat resources of all the emergency alarm events are scheduled, continuing to judge other emergency alarm events to be distributed.

Step S22 includes:

s221, acquiring format parameters of the non-emergency alarm event;

format parameter target of non-emergency alert event i_iComprises the following steps:

target_i＝{target_i_deadline,target_i_postion,target_i_address,target_i_ID}；

wherein, target_i"deadline" is the latest intercept time, target, of non-emergency alert event i_i"Postic" is location information of non-emergency alert event i, target_iAddress is the landing point information of non-emergency alarm event i, target_iID is the threat level of non-emergency alert event i.

The foothold information of the non-emergency alarm event is obtained by utilizing a Runge Kutta one-step extrapolation algorithm.

For example,

the format of non-emergency alert event 1 is:

target₁＝{target₁_deadline,target₁_postion,target₁_address,target₁_ID}；

the format of non-emergency alert event 2 is:

target₂＝{target₂_deadline,target₂_postion,target₂_address,target₂_ID}；

the format of non-emergency alert event 3 is:

target₃＝{target₃_deadline,target₃_postion,target₃_address,target₃_ID}；

the format of non-emergency alert events 4 is:

target₄＝{target₄_deadline,target₄_postion,target₄_address,target₄_ID}；

the emergency alarm event is represented and acquired in a uniform format, and timely allocation of combat resource scheduling can be realized.

S222, sequencing non-emergency alarm events in sequence based on the threat degree;

the non-emergency alarm events are subjected to priority ranking through the threat degree, and after the threat degree is ranked from large to small, the non-emergency alarm events with the most urgent degree can be effectively and timely subjected to priority allocation, so that wrong battle resource scheduling caused by wrong judgment of the non-emergency alarm events is avoided.

And S223, distributing defense weapons for the sequenced non-emergency alarm events in sequence.

For example, the threat levels of the non-emergency alert event 1, the non-emergency alert event 2, the non-emergency alert event 3 and the non-emergency alert event are target₁_ID、target₂_ID、target₃_ID、target₄An _ ID; the threat level priorities for the four non-emergency alert events are: target₄_ID＞target₁_ID＞target₃_ID＞target₂ID, then allocating operational resources preferentially for non-emergency alert events 4, then allocating operational resources for non-emergency alert events 1, then allocating operational resources for emergency alert events 3, and finally allocating operational resources for emergency alert events 2 with the lowest threat level.

And when the scheduling of the combat resources of all the non-emergency alarm events is finished, finishing the scheduling of all the combat resources of all the emergency alarm events to be distributed which are judged as the non-emergency alarm events.

In another embodiment, S222, the non-emergency alert events are ordered in sequence based on the threat level, and there is a preferred scheduling scheme as follows:

s2221, dividing the defense area into at least one foothold area;

s2222, obtaining the number N of non-emergency alarm events in each foothold area_k；

S2223, counting N based on the non-emergency alert events_kSequencing the landing point areas, and distributing defense weapons for at least one non-emergency alarm event in the sequenced landing point areas.

In order to ensure fairness of defense capability of each foothold area within the whole defense area, therefore, in the present embodiment, the priority of the distributed defense weapons is adjusted. The regulation rule is as follows: and ensuring that each foothold range obtains the same defense weapon resources as much as possible.

The defence area is now divided into A, B and C three foothold areas,

the drop point region a has three non-emergency alert events, non-emergency alert event 5, non-emergency alert event 7 and non-emergency alert event 10,

b the foothold area has a non-emergency alert event 6,

two non-emergency alarm events, namely a non-emergency alarm event 8 and a non-emergency alarm event 9, exist in the C foothold area;

therefore, the sorted foot-drop point areas are the foot-drop point area A, the foot-drop point area C and the foot-drop point area B.

Assuming that the interception probability of each defense weapon is the same, the higher the threat degree of the non-emergency alarm event is, the defense weapons are preferentially allocated.

In the region of A foot-down point, target₇_ID＞target₅_ID＞target₁₀_ID；

Only target exists in the region of the B pin-down point₆_ID；

In the C foot-down point region, target₈_ID＞target₉_ID；

Then the defensive weapons are assigned a priority order of non-emergency alert events 7, non-emergency alert events 6, non-emergency alert events 8, non-emergency alert events 5, non-emergency alert events 9, non-emergency alert events 10.

By the resource scheduling method, defense weapons can be effectively and comprehensively distributed to all non-emergency alarm events in the defense area, and the defense capacity fairness of each foothold area in the whole defense area is ensured.

The invention analyzes the threat degree of the sudden emergency alarm event to be distributed, sequentially distributes defense weapons for the judged sudden emergency alarm event to be distributed according to different threat degrees, considers the situation that the emergency alarm event and the non-emergency alarm event exist simultaneously, and has the characteristics of fair and rapid battle resource scheduling, simple scheduling method and contribution to engineering application.

It should be understood that the above-mentioned embodiments of the present invention are only examples for clearly illustrating the present invention, and are not intended to limit the embodiments of the present invention, and it will be obvious to those skilled in the art that other variations or modifications may be made on the basis of the above description, and all embodiments may not be exhaustive, and all obvious variations or modifications may be included within the scope of the present invention.

Claims (9)

1. A combat resource scheduling method for an emergency alarm event is characterized by comprising the following steps:

calculating the threat degree of at least one emergency alarm event to be distributed;

judging the emergency alarm event to be distributed based on the threat degree,

if the emergency alarm event to be distributed is an emergency alarm event, sequentially distributing defense weapons for the emergency alarm event based on the threat degree, and calculating the threat degree of other emergency alarm events to be distributed again;

and if the emergency alarm event to be distributed is a non-emergency alarm event, distributing defense weapons for the non-emergency alarm event in sequence based on the threat level so as to realize battle resource scheduling.

2. The method of claim 1,

the threat degree target of the emergency alarm event to be distributed_dThe formula for calculating _ ID is:

target_d_ID＝1/(target_d_deadline-ctime),；

wherein ctime is the current time and target_dAnd _ delay is the latest interception time of the emergency alarm event d to be distributed.

3. The method according to claim 1, wherein the judgment formula for judging the emergency alarm event to be allocated based on the threat level is as follows: target_d_deadline-ctime≤K；

Wherein, target_dA _ deadline is the latest interception time of the emergency alarm event d to be distributed; ctime is the current moment, and K is the time required for interception.

4. The method of claim 1, wherein if the emergency alert event to be allocated is an emergency alert event, allocating defensive weapons for the emergency alert event in turn based on the threat level, further comprising:

acquiring format parameters of the emergency alarm event;

sequentially ordering the emergency alert events based on the threat level;

in turn, assign defensive weapons for the sequenced emergency alert events.

5. The method of claim 4, wherein format parameter utarget of emergency alert event j_jComprises the following steps:

utarget_j＝{utarget_j_deadline,utarget_j_ID}；

wherein, utarget_j"deadline" is the latest interception time, utarget, of the Emergency alert event j_jID is the threat level of emergency alert event j.

6. The method of claim 1, wherein the assigning defensive weapons for non-emergency alert events in order based on the threat level if the emergency alert event to be assigned is a non-emergency alert event comprises:

acquiring format parameters of the non-emergency alarm event;

sequentially ordering the non-emergency alert events based on the threat level;

in turn, assign defensive weapons for the sequenced non-emergency alert events.

7. The method as claimed in claim 6, wherein the format parameter target of the non-emergency alert event i_iComprises the following steps:

target_i＝{target_i_deadline,target_i_postion,target_i_address,target_i_ID}；

wherein, target_i"deadline" is the latest intercept time, target, of non-emergency alert event i_iLocation information for non-Emergency alert event i，target_iAddress is the landing point information of non-emergency alarm event i, target_iID is the threat level of non-emergency alert event i.

8. The method of claim 7, wherein the foothold information of the non-emergency alert event is obtained using a Runge-Kutta one-step extrapolation algorithm.

9. The method of claim 8, wherein assigning defensive weapons for non-emergency alert events in turn based on the threat level further comprises:

dividing the defense area into at least one foothold area;

obtaining the number N of non-emergency alarm events in each foothold area_k；

Based on the number of non-emergency alert events N_kSequencing the landing point areas, and distributing defense weapons for at least one non-emergency alarm event in the sequenced landing point areas.

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