System for taking decisions in critical situations of social sphere of region

FIELD: computer engineering, in particular, systems for taking decisions in critical situations of social sphere of region.

SUBSTANCE: system contains block for receiving records of typical plans, block for receiving user requests, block for receiving records of server database plans, block for selecting supporting address of plan, block for selecting supporting reading address, block for selecting user address, block for forming current address of plan, first and second adders, block for forming time period address, block for forming server database addresses, block for controlling reading and recording of data, data dispensing block.

EFFECT: increased speed of system operation due to exclusion of search for optimal plan of actions under conditions of critical situation across whole server database, and localization of search only by time and character signs of certain critical situation.

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The invention relates to computer technology, in particular to the system of decision making in crisis situations in the social sphere of the region.

A significant feature of the technology management of the crisis in the social sphere is that the controls here at the same time perform complex set of heterogeneous by nature components: social community (settlement patterns), target organizations, and social institutions.

At its core process management technologies in the social sphere is aimed at regulating the various aspects of social life of a particular community in the region.

In other words, to ensure their viability regions may have a natural mechanism to effectively go from almost any dangerous situation

Today in the social sphere, there are many problems associated with instability and manifestation of crisis management technologies in this field.

Among such problems in the first place, is a problem of available income, poverty, and income differentiation. There are several indicators to measure the status of this problem.

A clear indicator of the state of society is the decile ratio. With the ratio of income ten percent of the population, located at the top of the social pyramid, to the incomes of those ten percent of the poorest part of the population determine the so-called decile ratio.

If the decile ratio is beyond the range of 10:1, the state gets into the zone of unstable social development, which is fraught with the most unexpected surprises for the government and for the people. In our country not only violated familiar to the civilized countries of the decile ratio, but also the situation when the process of income differentiation is not accompanied by social consolidation of the society.

The second problem associated with instability and manifestation of the crisis is the problem of crime. Statistics shows that over the last ten years of supporting the criminalization of social relations has become an integral part of the government's course.

According to statistics, since the second half of the 80s, there was at first slow, and then the rapid growth of crime. The number of prisoners does not increase, and decrease.

The third problem associated with instability and manifestation of the crisis was the problem of the globalization of society.

Globalization - a new phase in the modern development of modern society on a global scale, called post-industrial, Technotron the m society. The challenges of modern globalization is not bypassed, and Russia, recently included in the top ten Mature industrial countries and had the most powerful economic potential among the Soviet republics of the former USSR and Warsaw Pact countries.

The share of modern Russia in global GDP of 1.7% (compare: the U.S. and the EU 21%, Japan 8%), China (7%). Particularly large losses over the past decade of reforms Russia has suffered in the social sphere. The main reason for such negative dynamics experts believe "the unprecedented growth of inequality in the distribution of material resources.

These problems have important theoretical and practical significance, put before the social science in the social sphere the new task.

To solve problems effectively respond to the threat of a crisis in the social sphere of regions of the Russian Federation is possible only with the help of decision support systems in crisis situations, can in the shortest time to ensure the adoption by the Heads of the respective regions based and the only correct solution.

Known systems that could be used to solve the task [1, 2].

The first of the known systems contains blocks receiving and storing data connected to the blocks UE is Alenia and data processing, blocks search and selection, connected to the blocks of the data storage and display, the clock inputs are connected to outputs of control unit [1].

A significant disadvantage of this device consists in the impossibility of solving the problem of updating data stored in memory in the form of relevant documents, simultaneously with the solution of the issue of the content of these documents to users in real time.

Known and other system containing blocks of data reception, the outputs of which are connected with the memory unit and data processing unit, the block selection time intervals, the outputs of which are connected to the unit receiving data, the block receiving user requests to the memory unit and the data processing unit, the outputs of which are connected to one inputs of the switching unit channel data output, the other input of which is connected to the block selection intervals, and outputs are the outputs of the system [2].

The last of the above technical solutions closest to being described.

Its disadvantage is the low system performance, due to the fact that all are received by the system data is first written to the database system and then starts the procedure of their processing, which leads to unnecessary delays time of receipt of the final results.

the Purpose of the invention - increase system performance by eliminating the search for the optimal plan of action in crisis situations all over the database server and localization of search only temporary and the distinctive characteristics of a particular crisis.

This objective is achieved in that in the known system containing block receiving records sample plans, information and clock inputs of which are the first information and the clock inputs of the system, the information input unit receiving records standard plans is designed to receive records of typical plans with informational outputs of the automated workplaces of users, and the clock input unit receiving records standard plans is designed to receive clock pulses from the clock outputs of the model plans workstations user, the first output unit receiving records standard plans is an information output system, designed for output of data to the information input to the database server, block receiving user information and the clock inputs of which are the second information and the clock inputs of the system, the information input unit receiving user requests is designed to receive user requests the oil from workstations users and the clock input unit receiving user requests intended for receiving clock pulses from clock outputs query workstations users, block receiving records plans, database servers, data and clock inputs of which are the third information and the clock inputs of the system, the information input unit receiving records plans database server is designed to receive records of the plans from the database server, and the clock input unit receiving records plans database server is designed to receive clock pulses server, the block selection addresses of users, an information input connected to one output unit receiving user requests, the clock input unit selection of addresses of the users connected to the third clock input of the system, the power output of data, one data input connected to the information output block selection addresses of the users and other information input unit data output connected to the output unit receiving records plans database server, which synchronizes the input block of data output connected to the clock output of the block selection address of the user, and outputs a block of data output are information o the DAMI system group, designed for issuing records plans on informational inputs appropriate automated places users of the system, the control unit recording and reading data of the database server, the address which is the address output system designed to issue addresses to write and read address input of the database server, the first clock output control unit recording and reading data of the database server is the first clock output system designed to issue the clock signals input to the first interrupt server database, and the second clock output control unit recording and reading data of the database server is the second clock output system designed to issue clock signals at the input of the second interrupt of the database server, wherein the system includes a block selection reference address plan information the input of which is connected with the second output unit receiving records standard plans, and the clock input of the selection of the reference address of the plan is attached to the first clock input of the system, the block forming the current address of the plan, the control inputs of which are connected to the relevant control outputs block selection reference is dres plan, reading the inputs of the processing unit of the current plan addresses connected to the corresponding outputs of the read block selection reference address of the first adder, one data input connected to the information output unit selection reference address of the plan, any other information the input of the first adder connected to the output of the block forming the current address of the plan, the clock input of the first adder is connected to the synchronizing output of the block selection reference address of the plan, the block address generation time period, an information input connected to the third output block receiving records standard plans, the clock input of the address generation time period is connected to the synchronizing output of the block selection reference address of the plan, and the clock output unit address generation time period connected to the first clock input of the control unit of the recording and reading of data of a database server, a second adder, the information input of which is connected to the information output of the first adder and the block address generation time period, the clock input of the second adder is connected to the synchronizing output of the block address generation time period, and the output of the second adder is connected to one information input the MD control unit recording and reading data of the database server, the block selection reference read address, data input connected to another output unit receiving user clock input connected to the second clock input system, an information output unit selection reference read address connected to another information input control unit recording and reading data of the database server, which synchronizes the output of the block selection reference read address is connected to the second clock input of the control unit of the recording and reading data of the database server, and the block address generation server database, an information input connected to other information output unit selection anchor address read clock input connected to the clock output block selection reference read address control inputs of the block address generation server database are the control inputs of the system, with one output block selection reference read address is connected to the third clock input of the control unit of the recording and reading data of the database server, and the other output of the block selection reference read address is connected to the fourth clock input of the control unit of the recording and reading data of the database server.

Sunstitute illustrated by drawings, where figure 1 shows the block diagram of the system figure 2 shows an example of a specific design implementation unit selection reference address plan, figure 3 shows an example of a specific design implementation unit selection anchor address read figure 4 - shows an example of a specific design implementation of the block selection address of the user, figure 5 - shows an example of a specific design implementation unit forming a current address plan figure 6 - shows an example of a specific design implementation module address generation time period figure 7 - example of a specific design implementation module address generation server database, Fig shows an example of a specific design implementation of control unit recording and reading of data, figure 9 shows an example of a specific design implementation unit data output.

The system (figure 1) contains the unit 1 intake records standard plans, unit 2 receiving user requests, block 3 admission records plans database server, unit 4 selection of the reference address of the plan, unit 5 selection reference read address, unit 6 selection of the user address, unit 7 forming the current address of the plan, the first 8 and second 9 adders, block 10 address generation time period, block 11 forming the address database is rvera, unit 12 controls the recording and reading of data and the block 13 data output.

Figure 1 shows the first 15, second 16 and 17 third information input system, the first 18, 19 second and third 20 clock inputs of the system, the first 21 and second 22 control inputs of the system information 23 address 24 the system outputs, the first 31 and second 32 clock system outputs and group information 33-35 system outputs.

Unit 1 receiving records standard plans (figure 1) is made in the form of the register, with information 15 and the clock 18 inputs and outputs 36-38.

Unit 2 receiving user requests (figure 1) is made in the form of the register, with information 16 and the clock 19 inputs and outputs 39-40.

Unit 3 admission records plans database server (figure 1) is made in the form of the register, with information 17 and the clock 20 inputs, and an output connected to the input 168 of the block 13.

Unit 4 selection of the reference address of the plan (figure 2) contains the memory block 41 made in the form of a persistent storage device, the decoder 42, the register 43, the items 44-49 And elements 50-53 delay. The drawing shows information 54 and the clock 18 inputs, as well as information 55 and the clock 56 outputs the first 57-59 and second 60-62 group of outputs.

Unit 5 selection anchor address read (figure 3) contains the memory block 64, made in the form of just the frame storage device, the decoder 65, items 66-68 And element 69 OR element 70 delay.

The drawing also shows information 72 and the clock 19 unit, and the clock 73 and information 74, 75 exits.

Unit 6 selection address of the user (figure 4) contains the memory block 76, made in the form of a persistent storage device, the decoder 77, the elements 78-80 And element 81 OR elements 82-83 delay. The drawing also shows information 84 and the clock 20 inputs, as well as information 85 and clock 86 outputs.

Unit 7 forming the current address of the plan (figure 5) contains counters 87-89, group 90-92 elements And group elements 93 OR. The drawing also shows the first 94-96 and second 97-99 group of inputs, as well as information 100 output.

The first adder 8 is informational inputs 101, 102, clock input 103 and the output 104.

The second adder 9 is informational inputs 105, 106, clock input 107 and the output 108.

Unit 10 address generation time period (6) contains the memory block 110, made in the form of a persistent storage device, the decoder 111, a register 112, the elements 113-115 And elements 116, 117 delay. The drawing also shows information 118 and clock 119 inputs, information 120 and the clock 121 outputs.

Block 11 forming an address database (Fig.7) contains Regis is p 122, reversible counter 123, the Comparators 124, 125, the first 126, 127 second and third 128 elements OR 129 first, second 130 and 131 third delay elements, and element 138 OR. The drawing also shows information 132 and the clock 133 unit, the first 134 and 135 second control inputs of the block, as well as control 136 and 137 outputs of the block.

Unit 12 controls the recording and reading of data (Fig) contains a reversible counter 140, the trigger 141, groups, 144-145 elements And group 146 elements OR elements 142-143 And elements 147-148 OR elements 149-151 delay. The drawing shows information 152, 153 inputs, clock 154, 155 inputs, the first 156 and 157 second counter inputs, as well as information 158 output and outputs the recording 159 and read 160.

Block 13 data output (figure 9) contains the register 161, the decoder 162, 163 first, second 164 and 165 third group of elements And the element 166 delay. The drawing also shows the first 167 168 and the second information and the clock 159 inputs, as well as information 170-173 outputs group outputs of the module.

Based build system based on information technology that allows you to organize rapid response to threats of crisis situations on the basis of the typical scenarios for which pre-coordinated plans prevent crisis situations.

With this aim, for each event occurrence is risisng situation developed a specific plan of measures on liquidation of the crisis based on the standard plans.

The plan consists of several sections. Each section (subsection) may consist of subsections or paragraphs of the plan. Split plan on the topics generally associated with the perception of the plan Manager on-screen tools for collective use.

Each item of the plan contains the specific name of the event, specifying the type (type) forces, the means, the resources necessary for its implementation, and the item ID of the plan that must be completed before the beginning of its execution.

For each point plan developed methods of implementation for each method practiced methods (calculation task), allowing to determine (estimate) the time of its execution and quantitative characteristics involved for execution of the plan assets, resources, depending on the specific parameters of a crisis. In addition, developed the methodology for determining the run-time and performance of specific ways to carry out the activities of the sections of the plan and the plan as a whole.

The set of all parameters of crisis situations that you want to calculate the necessary forces, means, resources, time, indicators of the effectiveness of the plan and how to perform a specific action plan is a set of parameters, which must be received in the center exceed the Finance since the crisis.

The structure plan should clearly identify the sequence and temporary regulations proceeds of specific parameters, and the set of all other information indicators used for calculations (for example, the number of people in a locality will compile a list of information indicators conditionally-constant information database system response.

Thus, the system ensures completeness of the information necessary for making management decisions.

For each section (subsection) of the plan responds to the particular members of the duty shift. For this purpose workstations duty shift equipped with special software that allows timely develop and amend their assigned sections (subsections) plans.

Software and hardware systems allow you to store, process, display on a collective means of displaying relevant plans. When this plan is displayed with a given granularity.

The process of making the Guide management decisions in crisis situations using standard plans will look as follows.

When setting to control a crisis situation is defined by its type (classified situation). Automatically on the screen is ane in the situation center should appear in the project plan, created based on the model. First, it will be a plan that is filled only count events. The structural unit of the Ministry responsible for specific sections of the plan should go a notification about the beginning of work on the section of the plan.

Information from the place of occurrence of crisis situations (specific parameters) should also automatically sent to the appropriate division for choosing the implementation plan and the calculation of the quantitative and temporal characteristics of the items.

The decisive role in the development of the plan belongs to the decision maker. In the plan development process, implementing visual control over the development of the plan, he may, on the basis of the existing situation, to provide guidance on the development of new sections of the plan, adjustments to already prepared to make a choice of how to implement sections of the plan and the plan as a whole.

After the formation and approval of the plan must begin its practical development. Monitoring the implementation of the action plan in crises is based on information coming from a place of crisis. The most effective monitoring of the implementation of the plan, as shown, by using photographic and video from a designated crisis, which features displays is on the screen.

The proposed method of management decisions on the elimination of crisis situations on the basis of the typical plans will allow you to reduce the time for decision-making by moving the main intellectual efforts on the development of goal setting and design solutions on the stage of everyday activity, when there are no hard constraints on time and automate the process of preparation of the draft plan will reduce the preparation time of the project management decisions.

Drafting of the model plan and its refinement in the mode of daily activities should be engaged in the analytical unit. They should consider all the possible negative consequences of emergency situations of the specified type and to choose the most adequate methods of their elimination, which should improve the quality of managerial decisions. This will contribute to the proposed method of comparing alternatives (methods) of implementing the activities of the plan.

Plans to cope with crisis situations are divided into master plans and specific plans. Typical plans are prepared in advance for various types of crisis situations in accordance with the classifier of crisis situations and contain a list of the main measures to be taken in the respective crisis situations and their brief description.

Specific plans contain a list of the main the outdoor activities the enterprises, performed during the prevention and elimination of consequences of specific crisis situations. They are developed on the basis of the typical plans and in addition to the actual events must have a specific time frame and composition of the forces involved for their implementation.

When setting to control a crisis situation, which provides a model plan should be automatically generated on the basis of a specific plan. Further expansion and updating of plans should be carried out by users who have been given that right. Extension and amendment of the plan is carried out mainly by the forces of the authority entrusted with the liquidation of the crisis.

For each section (subsection) of the model plan and its corresponding specific plan for a crisis situation at the Federal level must be assigned to a Department (Department), division officer (an employee of the Department, the management, the operator of the duty shift, member of the operational staff crises).

Name of responsible entity should be written after the title of the relevant section (sub-section).

Software and hardware must allow the adjustment of the corresponding section of the plan responsible parties directly from your workplace. Other users who should have access to the sections (subsections) of the plan read-only (including responsible for the category of users to other sections-subsections of the plan).

The system works as follows.

In the process develop model emergency response, to the input of the system with workstations users enter input data in the form of codogram having the following structure:

CODECODECODE
ID crisisReady date planThe content of the sections of the plan

After receipt of this codogram on the information input 15 of this codogram will be entered into the register 1 clock pulse received at the clock input 18 of the system. From the first output register 36 1 full contents of codogram is issued for informational output 23 of the system.

From the second output 37 case 1 code ID crisis is supplied to the information input 54 module 4, where it is input to the decoder 42, deciphering the code identity crisis and outstanding on one of its outputs a high potential supplied to corresponding inputs of elements 44-49 I.

For definiteness, let us assume that the high potential from the first output of the decoder 42 badalotti elements 44 and 47 And moreover, the high potential on the first output of the decoder will be issued directly to the output 57.

The clock pulse from the input 18 of the system, the detainee element 50 during operation of the decoder 42, receives, firstly, through the element 44 And to the input of a fixed cell in the ROM 41 in which is stored the reference address of the zone database memory allocated for the recording of all plans related to a given emergency, and reads its contents to the input of the register 43.

Secondly, the same pulse delayed by element 51 at the time of reading the base address of the ROM 41, is fed to the clock input of the register 43 and enters a code base address, which is output 55 of the register 43 is fed to the input 102 of the adder 8. To another input of the adder 101 8 output 100 unit 7 receives the code from the output of the counter 87 through the elements 90 And open at a second output a high potential from the output 57 of the block 4.

The same clock pulse unit 4, the detainee element 52 at the time of entry code base address register 43, first, through the output 56 of the block 4 is supplied to the clock input of the adder 103 8, providing a summation of the reference address and the code counter 87 unit 7. Considering, however, that to date, the counter 87 was in the initial state, and his testimony is equal to zero, then the result of the summation code reference address is ihade 104 adder 8 will remain unchanged and output 104 will proceed to the input 105 of the adder 9.

Secondly, the clock pulse from the output element 52 unit 4 delayed element 53 at the time of actuation of the adder 9, and then, passing the element 47, and the output 60 of the block 4, is fed to the input 97 of the block 7 and further to the counting input of the counter 87, increasing his testimony on the unit and thereby forming the counter 87 for the next cycle of operation.

In parallel with the above described process ID creation date of the plan from the output 38 of the register 1 is supplied to the information input 118 of the block 10 and then goes to the input of the decoder 111, deciphering the code date and outstanding at one of its outputs a high potential supplied to corresponding inputs of elements 113-115 I.

For definiteness, let us assume that the high potential from the first output of the decoder 111 will be open element 113 I. the Clock pulse from the output 56 unit 4 receives, firstly, to the input 119 of the block 10 and then through the element 113 And fed to the input of a fixed cell ROM 110, which stores the address of the zone database memory allocated for the recording of all plans within a specified period of time, and reads its contents to the input register 112.

Secondly, the clock pulse from the input 119 of the block 10 is delayed by element 116 to the read time code time period, and is supplied to the clock input of the register 112 and enters a code time period, the which from the output 120 of the register 112 is supplied to the other information input 106 of the adder 9. Recall that at the first input of adder 105 9 from the output 104 of the adder 8 is supplied code reference address of a given crisis situation.

The clock pulse from the output of element 116, the detainee element 117 at the time of entry code time period in the register 112, the output 121 of the block 10 is supplied to the clock input of the adder 107 9, fixing the total address of record, which output 108 of the adder 9 is fed to the input 152 of the block 12. In addition, the clock pulse from the output 121 of the block 10 is supplied to the clock input 154 of the block 12.

Input 152 of the block 12 is formed address of record supplied to one inputs of the elements 144 And the first group that will be revealed high potential with inverse trigger output 141. The state of the trigger 141 is determined by the clock pulses entries received at the input 154 of the block 12, and a word clock reading at the input of 155 unit 12.

Given that at this point in time to the input 154 of the block 12 has received the sync pulse recording, then passing on the installation log trigger 141, this impulse will confirm it in the original condition in which a high potential with inverted output trigger 141 will be open as elements 144 And groups, and the element 142 I.

Address code writing output elements 144 And group passes through the elements 146 OR group on the WMO information is counter 140, at the clock input of which receives a pulse from the input 154 of the block 12, the last in the chain: element 147 and OR element 149 delay, delaying the impulse response time of the adder 9.

In addition, this same pulse from the output element 149 delay is element 142 And the delay element 150 at the time of entry code address counter 140 and then exit 159 through the output 31 of the system is fed to the input of the first interrupt server database.

With receipt of this signal, the database server passes to the routine recording the indications of the register 1 output 23 system address generated at the output 24 of the system.

The write procedure subsequent model plans for other crisis situations in a similar way.

To obtain relevant information from the database server, each user having access to the corresponding database partitions of the standard plans, at its automated workplace forms codogram query and press "View".

Structure codogram formed on the workstations of users, has the following structure:

While codes of ID crisis and ArmA ID of the user via the input 16 are received in the case 2, where they recorded clock pulse input 19. From the first output 39 of the register 2 identifier crisis enters through the inlet 72 of module 5 to the input of the decoder 65.

The decoder 65 decodes the ID code of a crisis, throwing on one of its outputs a high potential. For definiteness, suppose that a high potential is received at one input element 67 I.

In parallel, the clock pulse input 19 is delayed by element 70 at the time of enrollment code in register 2 and the operation of the decoder 65 and then queries the state of the elements 66-68 I.

Given the fact that open on one input will be only element 67 And, after this item, the sync pulse arrives, firstly, to the input of the read fixed memory permanent storage device 64.

In the fixed memory cell stores the code of the reference address of the first memory cell of this crisis in the database server and the code number of the plans in the database server, which is supposed to act in this crisis.

Structure codogram in the memory cell has the following structure:

CODECODE
ID crisisID ArmA user
CODECODE
Code reference address of the first memory cell of a given crisis situation in the database serverCode number of action plans given the crisis in the database server

Code reference address of the first memory cell and the code number of plans is read from a fixed memory location and proceed to the outputs 74, 75 unit 5, respectively.

In parallel, the pulse reading fixed a memory cell block 5, having the element 69 OR immediately with exit 73 unit 5 is supplied through the inlet 155 of the block 12 on a single input trigger 141 and sets it in one state, when it opens on one input elements 145 And groups, as well as an element 143 And closing at the same time, low potential with its inverted output elements 144 And groups with item 142 I.

Code reference address of the first memory cell from the output 74 of the block 5 through the inlet 153 of the block 12 and the elements 145 And as well as elements 146 OR group is supplied to the information input of the reversible counter 140.

The same clock pulse input 155 unit 12 passes through the element 147 OR delayed element 149 delay time code read from the memory unit 64 and the trigger 141 and supplied to the clock input of the reversible counter 140, locking in the counter the od of the reference address of the first memory cell of this crisis in the database server.

In addition, the same pulse from the output element 149 delay is element 143 And the element 148 and OR delayed element 151 delay time preset code reference address counter 140 and through the output 160 of the block 12 and the output 32 of the system it is fed to the input of the second channel interrupt server.

On this signal, the server goes on a routine survey of the contents of the memory cell at the address formed by the address output system 24 and outputting the read data through the entrance 17 system information to the input of the register 3, where they are recorded synchronizing pulse server at the input 20 system.

Simultaneously with this process, the code number of records plans this emergency exit 75 unit 5 is supplied through the inlet 132 of the block 11 to the information input of the register 122, which is also written by a pulse from the output 73 of the block 5 through the input 133 of the block 11.

In parallel with this ID code ArmA user from the output 40 of the register 2 is supplied through the inlet 84 of the block 6 to the input of decoder 77.

The decoder 77 decodes the ID code ArmA user, throwing on one of its outputs a high potential. For definiteness, suppose that a high potential is received at one input element 78 I.

In parallel, the clock pulse input 20 is delayed by element 82 during operation of the decoder is 77 and then queries the state of the elements 78-80 I.

Given the fact that open on one input will be only element 78 And, after this item, the sync pulse arrives, firstly, to the input of the read fixed memory permanent storage device 76 that stores the address code ArmA user, and reads it through the outlet 85 of the block 6 on the information input 167 of the block 13.

Secondly, the same pulse reading, passing the element 81 OR delay element 83 delay time read the contents of a fixed cell ROM. Next, the output 86 of the block 6 this pulse is fed through the inlet 169 unit 13 to the clock input of the register 161, locking in the register address code ArmA user.

The decoder 162 decodes address code ArmA user and a high potential on one of its outputs open items And one of the groups 163-165. Simultaneously, the pulse input 169 of the block 13, detained by the delay element 166 at the time of operation of the decoder 162, code the first few entries from the output of the register 3 through the inlet 168 of the block 13 and the corresponding group elements And 163-165, through the corresponding output 170-173 module 13 and respectively outputs 35-37 system, issued on the arm of the user.

The user is able to view all the plans for this emergency in the database server and to receive useful information about the area the information.

To do this, the user uses the buttons "Forward" and "Back", the signals from which are received at control inputs 21, 22 system, respectively.

When you press "Forward" momentum input 21 of the system passes through the inlet 134 of the block 11 at the counting input of the counter 123, fixing the number of scanned plans. This is the number of plans is compared by the comparator 124 with a number of plans relating to this emergency situation, as recorded in the register 122, the signal coming from the output of the delay element 129, delaying the pulse input 134 during operation of the counter 123.

If the number of scanned plans less than the specified number of plans in the register 122, the output 175 of the comparator 124 is formed pulse received through the element 127 OR to the output 136 of the block 11 and then through the inlet 156 of the block 12 at the summing input of the reversible counter 140, forming the next read address output 24.

In addition, the same pulse, after passing through the element 148 and OR delay element 151, delaying the impulse response time reversible counter is held at the output 160 of the block 12 and further to the outlet 32 and is again fed to the input of the second channel interrupt server.

On this signal, the server goes back to a routine survey of the contents of the memory cell at the address formed by the address output system 24 and issue please take the R data through the entrance 17 system information to the input of the register 3, where they recorded synchronizing pulse server at the input 20 system.

Describes the process of reading plans from the database server and issue them on a workstation user continues until the number of entries in the register 122 unit 11 is not equal to the number of plans that are read from the database, as recorded by the counter 123. The specified time will be recorded by the issuance of the pulse at the output 176 of the comparator 124.

The pulse output from the comparator 176 124, first, through the element 128 OR output 137 of the block 11 and then to the subtractive input 157 reversible counter 140, reducing its readings on the unit. In addition, the same pulse, after passing through the element 148 and OR delay element 151, delaying the impulse response time reversible counter is held at the output 160 and the output 32 of the system and then again fed to the input of the second channel interrupt server.

On this signal, the server goes back to a routine survey of the contents of the memory cell at the address formed by the address output system 24 and outputting the read data through the entrance 17 system information to the input of the register 3, where they are recorded synchronizing pulse server at the input 20 system.

Secondly, the same pulse from the output 176 of the comparator 124 is delayed by the delay element 130 at the time DL the activity and momentum through the element 126 OR supplied to the subtractive input of the counter 111, reducing his testimony.

After that, the user can go to the opposite view sample plans by pressing "Back". Pulse input 29 through the element 116 OR, first goes to the subtractive input of the counter 123, and, secondly, after passing through the element 138 OR delay element 131 at the time of actuation of the counter 123 is supplied to the clock input of the comparator 125.

On this signal, the comparator 125 compares the counter 123 to "zero". If the counter 123 is greater than zero, then the output 177 of the comparator 125, a signal is generated, through which the element 128 OR output 137 of the block 11 and further to the subtractive input of the reversible counter 140.

If the counter 123 are equal to zero, then the output 178 of the comparator 125 is formed impulse, which, through the element 127 OR passes to the output 136 of the block 11. Then, the same pulse through the inlet 156 of the module 12 is fed to a summing input of reversible counter 140, translating user a direct view of typical plans in the database server.

In other words, the user is given the opportunity to repeatedly view all standard plans and is reasonable to choose the relevant data.

Thus, the introduction of new units will significantly improve system performance by eliminating the search for the optimal plan the actions in a crisis situation for the entire database server and localization of search only temporary and distinctive characteristics of the situation.

Sources of information

1. The Japan patent No. 4-38021, MCL 11/30, 13/14 from 23.06.92.

2. U.S. patent No. 5136708, MCL G06F 15/16 from 04.08.92 (prototype).

The system of decision-making in crisis situations in the social sphere of the region containing the block receiving records sample plans, information and clock inputs of which are the first information and the clock inputs of the system, the information input unit receiving records standard plans is designed to receive records of typical plans with informational outputs of the automated workplaces of users, and the clock input unit receiving records standard plans is designed to receive clock pulses from the clock outputs of the model plans workstations user, the first output unit receiving records standard plans is an information output system, designed for output of data to the information input to the database server, block receiving user information and the clock inputs of which are the second information and the clock inputs of the system, the information input unit receiving user requests is designed to receive user requests from workstations of users, and the clock input unit receiving the request the s users is designed to receive clock pulses from the clock output request workstations users block receiving records plans, database servers, data and clock inputs of which are the third information and the clock inputs of the system, the information input unit receiving records plans database server is designed to receive records of the plans from the database server, and the clock input unit receiving records plans database server is designed to receive clock pulses server, the block selection addresses of users, an information input connected to one output unit receiving user clock input of the block selection addresses of the users connected to the third clock input of the system, the power output of data, one data input connected to the information the output of the block selection addresses of the users and other information input unit data output connected to the output unit receiving records plans database server, which synchronizes the input block of data output connected to the clock output of the block selection address of the user, and outputs a block of data output are informational outputs of the system group intended to issue records plans on informational inputs appropriate automated places users of the system, the control unit of the recording and reading data the x server database, the address which is the address output system designed to issue addresses to write and read address input of the database server, the first clock output control unit recording and reading data of the database server is the first clock output system designed to issue the clock signals input to the first interrupt server database, and the second clock output control unit recording and reading data of the database server is the second clock output system designed to issue the clock signals to the input of the second channel interrupts database server, wherein the system includes a block selection reference address of the plan, information an input connected to the second output unit receiving records standard plans, and the clock input of the selection of the reference address of the plan is attached to the first clock input of the system, the block forming the current address of the plan, the control inputs of which are connected to the relevant control outputs block selection reference address plan that reads the inputs of the processing unit of the current plan addresses connected to the corresponding outputs of the read block selection reference address of the first adder, one of the information in the od which is connected with the information output unit selection reference address of the plan, other information the input of the first adder connected to the output of the block forming the current address of the plan, the clock input of the first adder is connected to the synchronizing output of the block selection reference address of the plan, the block address generation time period, an information input connected to the third output block receiving records standard plans, the clock input of the address generation time period is connected to the synchronizing output of the block selection reference address of the plan, and the clock output unit address generation time period connected to the first clock input of the control unit of the recording and reading of data of a database server, a second adder, the information input of which is connected to the information output of the first adder, and block address generation time period, the clock input of the second adder is connected to the synchronizing output of the block address generation time period, and the output of the second adder is connected to one information input control unit recording and reading data of the database server, the block selection reference read address, data input connected to another output unit receiving user clock input connected to the second clock I the control system, one information output unit selection reference read address connected to another information input control unit recording and reading data of the database server, which synchronizes the output of the block selection reference read address is connected to the second clock input of the control unit of the recording and reading data of the database server, and the block address generation server database, an information input connected to other information output unit selection reference read address, the clock input is connected to the synchronizing output of the block selection reference read address control inputs of the block address generation server database are the control inputs of the system, with one output block selection reference address reading is connected to the third clock input of the control unit of the recording and reading data of the database server, and the other output of the block selection reference read address is connected to the fourth clock input of the control unit of the recording and reading data of the database server.



 

Same patents:

FIELD: computer engineering, in particular, automated system for court and executive accounting.

SUBSTANCE: in accordance to the invention, the system contains court data receiving block, block for selecting support address of court in server database, block for selecting current address of case in server database, block for receiving requests to server database, block for selecting data searching direction, block for identification of case address in server database, block for identification of base address of accused identity, block for identification of database records, block for receiving records of server database, block for data dispensing channel commutation, control signal dispensing block.

EFFECT: increased speed of system operation due to localization of addresses of requested criminal cases or on basis of identifier of court hearing the criminal case and case number, or based on identifiers of surname, name, patronymic name of the accused.

8 dwg, 1 tbl

FIELD: computer engineering, in particular, automated system for gathering and processing data of court and executive accounting of governmental automated system.

SUBSTANCE: in accordance to the invention, the system contains block for receiving criminal case records, block for receiving user requests, block for receiving case records from server database, block for selecting support address of record, block for selecting support reading address, block for selecting user address, block for forming current recording address, first and second adders, block for forming time period address, block for forming server database addresses, block for controlling recording and reading and data and data dispensing block.

EFFECT: increased speed of system operation due to prevention of search for renewed data across whole database and localization of search based on only time and character signs of court identifiers.

9 dwg

FIELD: automatic teller machines, capable of receiving sheets of financial documents.

SUBSTANCE: automatic teller machine contains user interface. User interface contains a device for reading from cards, an opening for dispensing printed receipts, an opening for dispensing cash and an opening for receiving deposits. Near an appropriate place, where user interacts with certain device for realizing transaction functions, available on automatic teller machine, multicolor light-emitting devices, connected to that place, are positioned. One or more automatic teller machine controllers are selectively programmed for controlling color and duration of output radiation of each light-emitting device in response to program, connected to controller, and to working condition of appropriate device for realizing transaction functions.

EFFECT: increased degree of protection, simplified user operations.

3 cl, 27 dwg

FIELD: system and method for controlling patient care in patient care institution.

SUBSTANCE: device for controlling patient care contains memory for storing a set of database configurations. Each database configuration preferably contains protocols, operation limits, sets of rules and/or working signs, which jointly define operation conditions, or specialization of device. Selection of database configuration is preferably based on information about certain patient, received from any location in distributed network of health care institution. It is possible to program the patient care controlling device to issue medicines to the patient.

EFFECT: increased efficiency of usage of reserves of patient care institution, lower costs of laboratory losses, improved quality of patient care.

6 cl, 7 dwg

FIELD: engineering of systems for storage and processing of data during purchasing of goods by client.

SUBSTANCE: system contains: mobile system with keyboard for client and output terminal for seller, mobile device and terminal, including devices for two-side data exchange between them during purchase. Mobile system includes devices for storing information about behavior line of client and his preferences, devices for renewing such information on basis of data received from terminal and means for transferring aforementioned information from terminal for renewal and displaying of the information, and also navigation systems. Terminal includes means for transferring bonuses received during execution of certain predetermined requirements to character of data during information renewal.

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2 cl, 4 dwg

FIELD: game devices.

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2 cl, 7 dwg

FIELD: automated product distribution equipment for execution of a set of physical orders.

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2 cl, 15 dwg

FIELD: usage of authentication methods with usage of zero knowledge proof as base for providing protection in computerized betting game system.

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6 cl, 5 dwg

FIELD: automation of record keeping for various services, operations, and other actions subject to recording.

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EFFECT: automation of procedures for recording given parameters when automating record keeping processes.

8 cl, 2 dwg

FIELD: telecommunications.

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1 dwg

FIELD: technology for finding and identifying documents based on their descriptions, present in various databases and information resources with different document creation standards.

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EFFECT: increased precision of searching and analyzing of received information.

4 dwg, 1 tbl

FIELD: metadata index structures.

SUBSTANCE: in accordance to the invention, key is searched for across index structure of multi-keys, containing values of multi-keys and identifying information for metadata, corresponding to multi-key value, while multi-keys are structured by means of a combination of predetermined metadata fields, after than a fragment of metadata is extracted using the found key.

EFFECT: increased index searching speed.

4 cl, 15 dwg, 6 tbl

FIELD: index structures for meta-data.

SUBSTANCE: in accordance to the invention, structure of metadata index includes values of multi-keys and identification information for metadata, corresponding to value of multi-key, while multi-keys are structured by means of a combination of predetermined metadata fields. In this structure, key is searched for, which is then used to find and extract a fragment of metadata.

EFFECT: increased meta-data searching speed.

6 cl, 15 dwg, 6 tbl

FIELD: index structure of metadata.

SUBSTANCE: in accordance to the invention, structure of metadata index includes a list of multi-keys and position information for defining multi-keys, while information is determined, which corresponds to search condition fields, and multi-key, corresponding to position information, is searched for, after that, metadata fragment is extracted using the found multi-key.

EFFECT: increased index search speed.

2 cl, 15 dwg, 6 tbl

FIELD: technology for providing audio and visual services.

SUBSTANCE: in accordance to invention, signal has structure for transferring index with encoded multi-component key for determining position of component key of meta-data index of digital content, transported on basis of independent data unit, containing key index list section (index list), including multi-component key data, used in search for component key of index, while the data of multi-component key is encoded by single code value.

EFFECT: possible transfer of data stream structure with encoded multi-component key, useable for determining position of component keys of meta-data index of digital content.

2 cl, 5 tbl

FIELD: computer engineering.

SUBSTANCE: in accordance to invention, file version watermarks are included in source data file of an application. File version watermarks may indicate various properties of original data file. File version watermarks may include older version watermark, last version watermark, lesser version watermark, creation version watermark and object version watermark. In accordance to invention, file version watermarks are used to determine whether file or certain information in file correspond with previous, active or future version of an application. Respectively, invention allows to load or save original data file on basis of determined results.

EFFECT: creation of expandable file format, compatible with previous, current and future versions of an application; possible use of previous versions of applications for working with a file.

20 cl, 9 dwg

FIELD: medical information technologies.

SUBSTANCE: in accordance to method, medical databases are created and regularly updated; informative characteristics of patients health condition are formed on basis of case histories in medical databases; on basis of detected informative coefficients, deciding rules are created, considering cause-effect connections between pieces of medical information and biological age and health condition of patients; client units of practical doctors are equipped with software means for using formed deciding rules for information support of practical doctors; data pertaining to research and patient examination are recorded in client unit; appropriate deciding rules are used in client unit to determine biological age and to evaluate health condition of patient by groups: healthy, belongs to risk group or sick; to predict, when patient is included in risk group, the course of disease or pathological process; to provide, when patient is included in "sick" group, the clinical diagnosis with consideration of nature and severity degree of changes in main life support systems, individual features of organism and constitution factor of patient.

EFFECT: increased precision of diagnostics.

1 tbl

FIELD: systems for selling goods and services to population, using network technologies.

SUBSTANCE: in accordance to invention, in unified informational consolidating center, data input/output and identification block is meant for identification of user being buyer, seller, manufacturer, activation of controlling software block, for access to blocks of unified informational consolidating center depending on its user status. If user is buyer, then block for controlling personal account of buyer is initiated, if user is seller, then sales block is initiated for charging personal account of buyer with a part of price of product, and seller terminal is meant for, during purchases, to receiver payment of part of product price from buyer, and remaining part of price is received from virtual bank block.

EFFECT: creation of new software-hardware complex for selling goods with compensation of consumer losses.

2 dwg

FIELD: metadata searching means.

SUBSTANCE: in accordance to invention, in a carrier, containing indexing metadata structure, in first variant, indexing structure includes a list of keys, consisting of predetermined metadata fields, where at least part of information about position is expressed in form of predetermined code. In second variant, indexing structure contains section of list of key indexes, section of key index, section of key sub-index. In accordance to third variant, contains a list of keys and information about position for determining keys, key values and metadata identification information.

EFFECT: decreased metadata searching time.

3 cl, 12 dwg, 6 tbl

FIELD: information technologies, possible use for optimizing storage and selection of data.

SUBSTANCE: in accordance to method, spatial data structure is formed with elements in form of original n-dimensional intervals; lens is determined, being a 2n-dimensional interval of interval request operator, representing an instruction about selection of data of required n-dimensional intervals with description of given interval and positioning conditions of required ones relatively to it, while lens is determined in accordance to rose of intervals, representing virtual two-dimensional geometric diagram of areas such as 2n-dimensional points in axes xp and yp of their space, coordinates {xp,yp} of which are appropriate coordinates of p-projections of n-dimensional intervals appropriate for these points, where p-projection of n-dimensional interval is its projection on p-axis of its space basis; built and stored on physical data carrier is interval request operator about selection from data structure of such points, which are enveloped by this lens, by means of this operator interval request to structure is performed, resulting in a set of data of 2n-dimensional points, simultaneously being the data of sought after intervals corresponding to the data.

EFFECT: possible efficient execution of any interval requests in one spatial data structure.

10 dwg, 1 tbl, 8 ex

FIELD: data access technologies.

SUBSTANCE: method includes assignment of simplified network address, recording URL and converting numbers into storage system with net access, inputting assigned number into computer, transferring inputted number to storage system, converting number to URL, receiving page matching URL, and displaying it. Method for use in operation systems for message transfer include intercepting system level messages to certain objects and forming pseudonym messages during that. Systems realize said methods.

EFFECT: broader functional capabilities.

12 cl, 30 dwg

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