CN101378555A - System for commanding and scheduling great event emergency based on GIS - Google Patents
System for commanding and scheduling great event emergency based on GIS Download PDFInfo
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- CN101378555A CN101378555A CNA2008100719156A CN200810071915A CN101378555A CN 101378555 A CN101378555 A CN 101378555A CN A2008100719156 A CNA2008100719156 A CN A2008100719156A CN 200810071915 A CN200810071915 A CN 200810071915A CN 101378555 A CN101378555 A CN 101378555A
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Abstract
The invention relates to a guarantee operation of mobile communication electrical signals, in particular to an emergency commanding and dispatching system of critical events based on GIS (general information system). The technical proposal adopted by the system is that: the system comprises the connection between a basic data module and a pre-event module, between an amid-event module and a post-event module, between the pre-event module and the amid-event module, and between the amid-event module and the post-event module. The system is favorable to make quick response and capable of commanding emergency guarantee personnel to conduct emergency repair in time, ensures the recovery to normal communication of regional communication, and provides a stable and reliable communication network, when a critical event happens. The system has simple and visual structure and is convenient to manage.
Description
Technical field
The present invention relates to the safeguard work of the mobile communication signal of telecommunication, especially belong to system for commanding and scheduling great event emergency based on GIS.
Background technology
Common carrier at present in all parts of the country is when facing major event such as typhoon, flood, red-letter day, great meeting, owing to lack scientific commander, response speed is slow, and not only the financial resources loss is big when solution of emergent event, and also can't intuitively represent by GIS the progress of safeguard work.
Recently because the continuous appearance of extreme climate brings significant impact for people's productive life, the inventor puts in order, analyzes at all kinds of major events, sums up present communication system when facing major event, has following problem for a long time:
1) all kinds of major events frequently take place, and scientific commander all can't be provided for a long time;
When 2) facing major event, always have no idea to accomplish that 100% takes group customer into account, finally can't reach the purpose of group customer 100% priority support;
When 3) facing major event, guarantee expense (labour cost, hydro power generation expense) is high, and controllability is low;
4) for the original backwardness of monitor mode of major event, can't intuitively present the guarantee situation of major event, the commanding is commanded have no basis;
5) original troublesome operation is taked in base station fault location, base station maintenance knowledge accumulation etc., can't realize by intelligence, straightforward procedure;
6) fixing loaded down with trivial details at the emergency preplan content of all kinds of major events, lack flexibility.
For the problems referred to above, there is not good technical scheme to be solved at present.
Summary of the invention
The object of the present invention is to provide a kind of system for commanding and scheduling great event emergency based on GIS, it has solved when all kinds of major events take place, the commanding can intuitively represent according to real-time GIS provided by the invention, command dispatching system, carries out the commander of science, loss is reduced to minimum.
The technical solution used in the present invention is: it is to be connected with module afterwards by module in basic data module and module, the thing in advance, and module is connected with module in the thing in advance, in the thing module be connected with module afterwards form.
In described module in advance and the thing in the module scheduling scheme generation module be meant: according to operation conditions and each regional emergency first-aid repair resource distribution situation of major event type, base station, adopt " communication emergency guarantee dispatching algorithm ", generate the emergency resources allocative decision rapidly.
In described " communication emergency guarantee dispatching algorithm ", it is as follows that troop's number scale calculation formula is rushed to repair in transregional scheduling:
| Repairing troop number in these districts and cities devastated | R1 |
| These districts and cities are essential repairing troop number in the devastated not | R2 |
| Other the repairing troop number that can allocate of these districts and cities | R3 |
| These districts and cities breakdown gang 5 sums | R=R1+R2+R3 |
| Disaster-stricken VVIP base station number (particular base station such as transmission node station, Party, government and army) | B1 |
| Disaster-stricken VIP base station number (the common VIP base station of getting rid of the VVIP base station) | B2 |
| B3 is counted in disaster-stricken non-VIP base station | B3 |
| The repairing troop sum that these districts and cities need generating in 1-24 hour to ensure | R24=B1/2+B2/4+B3/16 |
| These districts and cities need 24-48 hour repairing troop sum that ensures | R48=R24*1.2 |
| Needed the repairing troop sum of transregional allotment in 1-24 hour | S24=R24-R1-R3(IF?R24/R>1.2) |
| Needed the repairing troop sum of transregional allotment in 24-48 hour | S48=R48-R1-R3-S24(IF?R48/R>1.2) |
Calculating this city during scheduling earlier needs the repairing troop sum of transregional allotment, and system reanalyses the repairing troop number that the neighboring area can provide scheduling then, has unnecessary repairing troop then to distribute to these districts and cities.
In the described thing in the module optimal path generation module be meant: system is according to distance between emergency resources quantity, base station battery reserve duration, power-equipment Real-time Alarm information, base station and information such as base station grade, optimum repairing path is born in utilization " repairing routing algorithm ".
Wherein the basic step of " repairing routing algorithm " is:
Suppose each point all have a pair of label (dj, pj), wherein dj is the length [from the summit be zero tunnel (road that do not have arc) to the shortest path of itself, its length equals zero] of the shortest path from originating point s to a j; Pj then is more preceding that j is ordered in the shortest path from s to j; The basic process of finding the solution the shortest path first from originating point s to a j is as follows:
(1) initialization; Originating point is set to:
1. ds=0, ps are empty;
2. every other point: di=∞, pi=?
3. mark originating point s remembers k=s, and other are made as unlabelled a little;
(2) check from all the some k of mark to the distance of the unlabelled some j (computational methods of its distance value: from spatial database, extract the actual range of some K earlier, if extract just as the distance value of some K to some j to a j; Otherwise, with regard to the air line distance of calculation level K, as the distance value of a K to some j to some j), and be provided with: dj=min[dj, dk+lkj] in the formula, lkj is the direct connection distance from a k to j;
(3) choose next point; From all unlabelled nodes, choose among the dj a minimum i:di=min[dj, all unlabelled some j] some i just be chosen as in the shortest path a bit, and be made as mark;
(4) find that an i's is more preceding; From the point of mark, find the some j that is directly connected to an i,, be provided with: i=j as more preceding;
(5) gauge point i; If the mark of having a few, then algorithm is released fully, otherwise note k=i forwards (two) to and continues;
As can be seen from the above, in the process of pressing the labelling method implementation algorithm, core procedure is exactly a segmental arc of selecting a weights minimum from unlabelled point, i.e. (two)~(five) of the top described algorithm step; This is a recycle ratio process.
In the described thing in the module GIS to represent module be to adopt the technology of " data and displaying separate ", improve map greatly and be written into speed, average response was less than 0.3 second.
Wherein the technology of " data are separated with displaying " is meant by the web client and sends the pel request by the AJAX asynchronous system to service end, the pel factory module of map server returns to the web client by with the concrete map sheet sector address of the mutual generation of spatial database.
Usefulness of the present invention is: the present invention since adopt the command scheduling module to the base station in the described dynamic Information management system when facing incident such as typhoon, flood, red-letter day, great meeting, guarantee plan efficiently is provided.Therefore it helps commmunication company when facing major event, and response instructs the emergency guarantee personnel in time to rush to repair rapidly, guarantees that area communication recovers normal, provides reliable and stable communication network.Algorithm with actual major event safeguard work, GIS technology, science among the present invention simultaneously carries out organic combination, forms whole system for commanding and scheduling great event emergency based on GIS.And the algorithm by science improves and ensures efficient and quality, also can check the progress of current safeguard work in real time by GIS, presents command support work, reaches the purpose of " working out splendid plans to win victories in battles a thousand miles away ".This system configuration is simple, directly perceived in addition, and is convenient to management, has improved the transparency and the maintainability of system.
Description of drawings
Fig. 1 is the system module structure chart
Embodiment
Below by drawings and Examples, technical scheme of the present invention is described in further detail.
Be illustrated in figure 1 as the system module structure chart.It is to be connected with module afterwards by module in basic data module and module, the thing in advance, and module is connected with module in the thing in advance, in the thing module be connected with module afterwards form.
Basic data module described in the present invention is to connect the warning information acquisition module by the resource information acquisition module, and emergency preplan customized module, knowledge experience library module are formed.
Emergency preplan customized module described in the present invention by the module of preventing and fighting natural adversities, red-letter day assurance module, focus assurance module, fault processing module and other emergency preplan modules formed; At first, system realizes that by analyzing emergency preplan emergency preplan is converted into prediction scheme instruction type by document form; Then according to the characteristics of prevent and fight natural adversities module, red-letter day assurance module, focus assurance module, fault processing module and other emergency preplan modules, configuration emergency preplan storehouse;
Wherein so-called prediction scheme instruction type, the form with configuration-direct disposes prediction scheme exactly; The instruction configuration parameter comprises information such as personnel, repairing resource, base station, administrative region.
Module in advance described in the present invention is connected institute with the emergency preplan generation module respectively by the short message interface module and forms with the scheduling scheme generation module.
Module is to be represented module with the short message interface module with GIS respectively with the optimal path generation module and be connected by emergency preplan generation module, scheduling scheme generation module in the thing described in the present invention, preferentially ensure analysis module and base station distance logging modle be connected with the optimal path generation module respectively form.
Emergency preplan generation module described in the present invention is meant according to the characteristic of analyzing major event, extracts corresponding emergency preplan module from the emergency preplan storehouse, form this major event in advance, the emergency preplan in each stage in the thing and afterwards.
Scheduling scheme generation module described in the present invention is meant according to the operation conditions of major event type, base station and each regional emergency first-aid repair resource distribution situation, adopts " communication emergency guarantee dispatching algorithm ", generates the emergency resources allocative decision rapidly;
In described " communication emergency guarantee dispatching algorithm ", it is as follows that troop's number scale calculation formula is rushed to repair in transregional scheduling:
| Repairing troop number in these districts and cities devastated | R1 |
| These districts and cities are essential repairing troop number in the devastated not | R2 |
| Other the repairing troop number that can allocate of these districts and cities | R3 |
| These districts and cities breakdown gang 5 sums | R=R1+R2+R3 |
| Disaster-stricken VVIP base station number (particular base station such as transmission node station, Party, government and army) | B1 |
| Disaster-stricken VIP base station number (the common VIP base station of getting rid of the VVIP base station) | B2 |
| B3 is counted in disaster-stricken non-VIP base station | B3 |
| The repairing troop sum that these districts and cities need generating in 1-24 hour to ensure | R24=B1/2+B2/4+B3/16 |
| These districts and cities need 24-48 hour repairing troop sum that ensures | R48=R24*1.2 |
| Needed the repairing troop sum of transregional allotment in 1-24 hour | S24=R24-R1-R3(IF?R24/R>1.2) |
| Needed the repairing troop sum of transregional allotment in 24-48 hour | S48=R48-R1-R3-S24(IF?R48/R>1.2) |
Calculating this city during scheduling earlier needs the repairing troop sum of transregional allotment, and system reanalyses the repairing troop number that the neighboring area can provide scheduling then, has unnecessary repairing troop then to distribute to these districts and cities.
Optimal path generation module described in the present invention is meant that system is according to information such as distance and base station grade between emergency resources quantity, base station battery reserve duration, power-equipment Real-time Alarm information, base station, optimum repairing path is born in utilization " repairing routing algorithm ";
Wherein the basic step of " repairing routing algorithm " is:
Suppose each point all have a pair of label (dj, pj), wherein dj is the length [from the summit be zero tunnel (road that do not have arc) to the shortest path of itself, its length equals zero] of the shortest path from originating point s to a j; Pj then is more preceding that j is ordered in the shortest path from s to j; The basic process of finding the solution the shortest path first from originating point s to a j is as follows:
(1) initialization; Originating point is set to:
1. ds=0, ps are empty;
2. every other point: di=∞, pi=?
3. mark originating point s remembers k=s, and other are made as unlabelled a little;
(2) check from all the some k of mark to the distance of the unlabelled some j (computational methods of its distance value: from spatial database, extract the actual range of some K earlier, if extract just as the distance value of some K to some j to a j; Otherwise, with regard to the air line distance of calculation level K, as the distance value of a K to some j to some j), and be provided with: dj=min[dj, dk+lkj] in the formula, lkj is the direct connection distance from a k to j;
(3) choose next point; From all unlabelled nodes, choose among the dj a minimum i:di=min[dj, all unlabelled some j] some i just be chosen as in the shortest path a bit, and be made as mark;
(4) find that an i's is more preceding; From the point of mark, find the some j that is directly connected to an i,, be provided with: i=j as more preceding;
(5) gauge point i; If the mark of having a few, then algorithm is released fully, otherwise note k=i forwards (two) to and continues;
As can be seen from the above, in the process of pressing the labelling method implementation algorithm, core procedure is exactly a segmental arc of selecting a weights minimum from unlabelled point, i.e. (two)~(five) of the top described algorithm step; This is a recycle ratio process.
It is to adopt the technology of " data are separated with displaying " that GIS described in the present invention represents module, improves map greatly and is written into speed, and average response was less than 0.3 second;
Wherein the technology of " data are separated with displaying " is meant by the web client and sends the pel request by the AJAX asynchronous system to service end, the pel factory module of map server returns to the web client by with the concrete map sheet sector address of the mutual generation of spatial database.
The logging modle of base station distance described in the present invention is meant in the repairing process, the actual range between record base station and base station.
Module afterwards described in the present invention is to be connected with the short message interface module by resource playback module, and summarize the experience module and recruitment evaluation module of guarantee formed.
Ensure described in the present invention that the summary of experience module is meant the guarantee experience that is used to preserve major event, form the knowledge experience,, analyze automatically, adjust simultaneously at the pairing emergency preplan of similar major event for next major event guarantee provides decision references.
Operation principle of the present invention is: in advance by the emergency preplan customized module in the basic data module, configuration pin forms major event emergency preplan storehouse to the emergency preplan of various major events, after specific major event starts:
Basic data module: extract the base station information that major event relates to by the resource information acquisition module, pass to the warning information acquisition module, gather the alarm of base station by the warning information acquisition module, will produce the base station of alarm at last and the information that do not produce after the base station of alarming marks respectively and the information of knowledge experience library module passes in advance module in module, the thing.
Module in advance: module is mainly finished obviate and scheduling of resource in advance.The emergency preplan generation module extracts information and the extraction knowledge experience library information that the basic data module is transmitted up.Generate emergency preplan and pass to the short message interface module, pass to line repairing personnel by the short message interface module.The scheduling scheme generation module extracts the information that the basic data module is transmitted up, generates resource scheduling scheme (being major event repairing resource requirement scheduling scheme) and passes to the short message interface module, passes to line repairing personnel by the short message interface module.Last module in advance passes to module in the thing with emergency preplan and the resource scheduling scheme that generates.
Module in the thing: the module concrete safeguard work that mainly takes charge in the thing.Along with the development of the major event state of affairs, the emergency preplan generation module extracts the information that module and basic data module are in advance transmitted up.Generate once more that emergency preplan passes to the short message interface module and GIS represents module, pass to line repairing personnel, and represent module by GIS and present resource scheduling scheme by the short message interface module.The scheduling scheme generation module extracts the information that module and basic data module are in advance transmitted up, generate once more that resource scheduling scheme (be major event repairing resource requirement scheduling scheme) passes to the short message interface module and GIS represents module, pass to line repairing personnel by the short message interface module, and represent module by GIS and present resource scheduling scheme.The preferential analysis module that ensures extracts the information that module and basic data module are in advance transmitted up, analyze the base station actual range information that proposes to need the base station information of preferential repairing and extract the base station distance logging modle and pass to the optimal path generation module, by the optimal path generation module, generate optimum repairing path, pass to short message interface module and GIS then and represent module, pass to line repairing personnel by the short message interface module, and represent module by GIS and present the secondary resource scheduling scheme.In the repairing process in the thing each module circulating and working, ensures until major event and finish, and the information that each submodule in the module in the thing is generated passes to module afterwards.
Module afterwards: ensure that the summary of experience module extracts the information that the module transmission comes in the thing, form the knowledge experience and pass to knowledge experience library module in the basic data module, for next major event guarantee provides decision references.Automatically analyze simultaneously, adjust the pairing emergency preplan of this class major event.Resource playback module is extracted the information that the module transmission comes in the thing, and analyzing to extract needs the resource of playback to pass to the short message interface module, notifies line repairing personnel by the short message interface module.The recruitment evaluation module is extracted the information that the module transmission comes in the thing, analyzes to form the recruitment evaluation report.
Claims (12)
1, a kind of system for commanding and scheduling great event emergency based on GIS is characterized in that:
It is to be connected with module afterwards by module in basic data module and module, the thing in advance, and module is connected with module in the thing in advance, in the thing module be connected with module afterwards form.
2, the system for commanding and scheduling great event emergency based on GIS according to claim 1 is characterized in that:
Described basic data module is to connect the warning information acquisition module by the resource information acquisition module, and emergency preplan customized module, knowledge experience library module are formed.
3, the system for commanding and scheduling great event emergency based on GIS according to claim 2 is characterized in that:
Described emergency preplan customized module by the module of preventing and fighting natural adversities, red-letter day assurance module, focus assurance module, fault processing module and other emergency preplan modules formed; At first, system realizes that by analyzing emergency preplan emergency preplan is converted into prediction scheme instruction type by document form; Then according to the characteristics of prevent and fight natural adversities module, red-letter day assurance module, focus assurance module, fault processing module and other emergency preplan modules, configuration emergency preplan storehouse;
Wherein so-called prediction scheme instruction type, the form with configuration-direct disposes prediction scheme exactly; The instruction configuration parameter comprises personnel, repairing resource, base station, administrative region.
4, the system for commanding and scheduling great event emergency based on GIS according to claim 1 is characterized in that:
Described module in advance is connected institute with the emergency preplan generation module respectively by the short message interface module and forms with the scheduling scheme generation module.
5, the system for commanding and scheduling great event emergency based on GIS according to claim 1 is characterized in that:
Module is to be represented module with the short message interface module with GIS respectively with the optimal path generation module and be connected by emergency preplan generation module, scheduling scheme generation module in the described thing, preferentially ensure analysis module and base station distance logging modle be connected with the optimal path generation module respectively form.
6, according to claim 4 or 5 described system for commanding and scheduling great event emergency, it is characterized in that based on GIS:
Described emergency preplan generation module is meant according to the characteristic of analyzing major event, extracts corresponding emergency preplan module from the emergency preplan storehouse, form this major event in advance, the emergency preplan in each stage in the thing and afterwards.
7, according to claim 4 or 5 described system for commanding and scheduling great event emergency, it is characterized in that based on GIS:
Described scheduling scheme generation module is meant according to the operation conditions of major event type, base station and each regional emergency first-aid repair resource distribution situation, adopts " communication emergency guarantee dispatching algorithm ", generates the emergency resources allocative decision rapidly;
In described " communication emergency guarantee dispatching algorithm ", it is as follows that troop's number scale calculation formula is rushed to repair in transregional scheduling:
Calculating this city during scheduling earlier needs the repairing troop sum of transregional allotment, and system reanalyses the repairing troop number that the neighboring area can provide scheduling then, has unnecessary repairing troop then to distribute to these districts and cities.
8, the system for commanding and scheduling great event emergency based on GIS according to claim 5 is characterized in that:
Described optimal path generation module is meant system according to distance and base station grade between emergency resources quantity, base station battery reserve duration, power-equipment Real-time Alarm information, base station, and optimum repairing path is born in utilization " repairing routing algorithm ";
Wherein the basic step of " repairing routing algorithm " is:
Suppose that each point all has a pair of label (d
j, p
j), d wherein
jBe the length [from the summit be zero tunnel (road that do not have arc) to the shortest path of itself, its length equals zero] of shortest path from originating point s to a j; p
jThen be more preceding that j is ordered in the shortest path from s to j; The basic process of finding the solution the shortest path first from originating point s to a j is as follows:
(1) initialization; Originating point is set to:
1. d
s=0, p
sBe sky;
2. every other point: d
i∞, p
i=?
3. mark originating point s remembers k=s, and other are made as unlabelled a little;
(2) check from all the some k of mark to the distance of the unlabelled some j (computational methods of its distance value: from spatial database, extract the actual range of some K earlier, if extract just as the distance value of some K to some j to a j; Otherwise, with regard to the air line distance of calculation level K, as the distance value of a K to some j to some j), and be provided with: d
j=min[d
j, d
k+ 1
Kj] in the formula, l
KjIt is direct connection distance from a k to j;
(3) choose next point; From all unlabelled nodes, choose d
jA middle minimum i:d
i=min[d
j, all unlabelled some j] some i just be chosen as in the shortest path a bit, and be made as mark;
(4) find that an i's is more preceding; From the point of mark, find the some j that is directly connected to an i,, be provided with: i=j as more preceding;
(5) gauge point i; If the mark of having a few, then algorithm is released fully, otherwise note k=i forwards (two) to and continues;
As can be seen from the above, in the process of pressing the labelling method implementation algorithm, core procedure is exactly a segmental arc of selecting a weights minimum from unlabelled point, i.e. (two)~(five) of the top described algorithm step; This is a recycle ratio process.
9, the system for commanding and scheduling great event emergency based on GIS according to claim 5 is characterized in that:
It is to adopt the technology of " data are separated with displaying " that described GIS represents module, improves map greatly and is written into speed, and average response was less than 0.3 second;
Wherein the technology of " data are separated with displaying " is meant by the web client and sends the pel request by the AJAX asynchronous system to service end, the pel factory module of map server returns to the web client by with the concrete map sheet sector address of the mutual generation of spatial database.
10, the system for commanding and scheduling great event emergency based on GIS according to claim 5 is characterized in that:
Described base station distance logging modle is meant in the repairing process, the actual range between record base station and base station.
11, the system for commanding and scheduling great event emergency based on GIS according to claim 1 is characterized in that:
Described module afterwards is to be connected with the short message interface module by resource playback module, and summarize the experience module and recruitment evaluation module of guarantee formed.
12, the system for commanding and scheduling great event emergency based on GIS according to claim 11 is characterized in that:
Described guarantee summary of experience module is meant the guarantee experience that is used to preserve major event, forms the knowledge experience, for next major event guarantee provides decision references, analyzes automatically, adjusts at the pairing emergency preplan of similar major event simultaneously.
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| CNA2008100719156A CN101378555A (en) | 2008-10-13 | 2008-10-13 | System for commanding and scheduling great event emergency based on GIS |
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| CN102497361A (en) * | 2011-12-06 | 2012-06-13 | 光庭导航数据(武汉)有限公司 | Emergency reparation dispatching management communication system and building method thereof |
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| CN103164747A (en) * | 2011-12-13 | 2013-06-19 | 中国人民解放军第二炮兵工程学院 | Battle field first-aid repair resource reorganization optimized decision method |
| CN103276647A (en) * | 2013-05-27 | 2013-09-04 | 北京交通大学 | Track beam emergency repairing and replacing system |
| CN103699581A (en) * | 2013-12-03 | 2014-04-02 | 国家电网公司 | Database-oriented GIS (Geographic Information System) client data interface implementation method and data access method |
| CN103927584A (en) * | 2014-04-17 | 2014-07-16 | 湖北欣纬应急科技有限公司 | Resource scheduling optimization method based on genetic algorithm |
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| CN102497361A (en) * | 2011-12-06 | 2012-06-13 | 光庭导航数据(武汉)有限公司 | Emergency reparation dispatching management communication system and building method thereof |
| CN103164747B (en) * | 2011-12-13 | 2020-01-14 | 中国人民解放军第二炮兵工程学院 | Battlefield first-aid repair resource recombination optimization decision method |
| CN103164747A (en) * | 2011-12-13 | 2013-06-19 | 中国人民解放军第二炮兵工程学院 | Battle field first-aid repair resource reorganization optimized decision method |
| CN103049812A (en) * | 2011-12-30 | 2013-04-17 | 山东黄金集团有限公司 | Four-dimensional mine digitalization emergency command dispatching system |
| CN103276647A (en) * | 2013-05-27 | 2013-09-04 | 北京交通大学 | Track beam emergency repairing and replacing system |
| CN103276647B (en) * | 2013-05-27 | 2015-08-19 | 北京交通大学 | A kind of rail beam emergency first-aid repair replacement system |
| CN103699581A (en) * | 2013-12-03 | 2014-04-02 | 国家电网公司 | Database-oriented GIS (Geographic Information System) client data interface implementation method and data access method |
| CN103927584A (en) * | 2014-04-17 | 2014-07-16 | 湖北欣纬应急科技有限公司 | Resource scheduling optimization method based on genetic algorithm |
| CN108197165A (en) * | 2017-12-15 | 2018-06-22 | 南京熊猫电子股份有限公司 | A kind of emergent broadcast regional choice dispatch control method |
| CN108934036A (en) * | 2018-07-11 | 2018-12-04 | 中国联合网络通信集团有限公司 | The acquisition methods and device of base station state information |
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| CN113799647B (en) * | 2021-10-22 | 2023-12-15 | 上海融和智电新能源有限公司 | Power conversion method and system with mobile power transmission function |
| CN114463154A (en) * | 2022-04-13 | 2022-05-10 | 江苏金恒信息科技股份有限公司 | Plant area safety accident visualization emergency system and emergency processing method |
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