CN101976205A - Electronic map technology-based talkback mobile phone task scheduling management system and method - Google Patents

Abstract

The invention discloses an electronic map technology-based talkback mobile phone task scheduling management system, which comprises an application layer, a support layer, a support platform and an interface layer, wherein the application layer realizes the service functions of interface operation of a user, map display, mobile phone position display, task scheduling call, temporary group management and log query, and the application layer realizes common operation and positioning operation of a map in the service functions by calling the support layer; the support layer realizes general core functions relating to a bottom layer in the service functions, and realizes map operation and positioning operation; the support platform provides support service for the application layer, and realizes positioning function operation by downwards calling the interface layer; and the interface layer is integrated with a talkback mobile phone GPS (global position system) positioning and calling interface, and is directly implemented by calling related interfaces of a talkback mobile phone manufacturer. The invention also discloses a system-based task scheduling management method. The system is intuitive to use, quick to operate and flexible and convenient to group policy, and realizes real-time feedback of task work orders and flow states and delicate log management; and extent and depth of the talkback mobile phone scheduling system application are enhanced.

Description

Intercom mobile phone task scheduling management system and method based on electronic map technology

Technical Field

The invention relates to task scheduling management, in particular to a talkback mobile phone task scheduling management system and method based on an electronic map technology.

Background

The application field of the current talkback supporting cluster calling mobile phone is more and more extensive, and a large number of group clients can use the mobile phone in systems of logistics, city delivery, emergency dispatching, forest area management, freight wharf management and the like, so that the group talkback and coordination work can be conveniently realized.

For example, GoTa intercom mobile phone is a common system brand which is widely applied in intercom cluster calling mobile phones, supports the basic functions of cluster calling, GPS positioning, short messages and general mobile phones, and is applied to cluster calling and dispatching systems in many provinces.

However, in practical applications, the current intercom call system has several main defects:

1. the dispatching platform is separated from the positioning platform, the traditional solution is that a client needs to activate the talkback service and the GPS positioning service at the same time, and the separate platforms are used, so that the user experience is poor.

2. At present, fixed groups are mainly used for calling, the relationship between the groups and the group members is predetermined and well input and set in advance, so that the requirements of certain real-time changing group and group member relationships are difficult to meet;

3. when the temporary grouping calling is realized, the setting of the group is manually managed by personnel in a dispatching center, and the number of each mobile phone is temporarily selected to form the temporary grouping calling, which cannot be related to the task position; when the number of members in the group is large, the efficiency of establishing the temporary group is slow, and errors are easy to occur;

4. when the personnel in the task scheduling degree center calls, the personnel can realize the communication by voice, and when the personnel in the task scheduling degree center touches many members in the group or has additional information of the task, the personnel needs to explain repeatedly, so that the efficiency is extremely low;

disclosure of Invention

Based on the problems, the invention provides an intercom mobile phone task scheduling management system and method based on an electronic map technology, so that the organic combination of a scheduling platform, a positioning platform and a task platform is achieved, and the intuitive, timely and traceable intercom task scheduling is realized.

Based on the above purpose, the technical scheme provided by the invention is as follows:

an intercom mobile phone task scheduling management system based on electronic map technology, the intercom mobile phone is provided with a GPS positioning interface and a calling interface, the calling interface is mainly responsible for realizing an intercom calling function, and the system comprises:

the application layer is used for realizing a user operation interface, realizing map display, mobile phone position display, task scheduling calling, temporary group management and log query service functions, and calling the support layer to realize map common operation and positioning operation in the service functions;

and the support layer is used for realizing core functions which are universal in service functions and relate to a bottom layer, including map operation and positioning operation. The support platform provides support service for the application layer upwards and calls an interface layer downwards to realize positioning function operation;

and the interface layer integrates the GPS positioning and calling interfaces of the talkback mobile phone and is directly realized by calling the related interfaces of the talkback mobile phone.

Further, the application layer comprises:

the scheduling main module integrates the traditional talkback and positioning platform by using an electronic map technology and calls other corresponding modules to realize specific functions;

the group management module is mainly responsible for setting fixed groups and establishing temporary groups, adding user group entry, deleting user group exit and canceling the temporary groups; inquiring task state statistics of the group, wherein the task progress state of each mobile phone in the group; the group management module enters after the group selection by the scheduling main module, or the menu enters to manage the existing temporary group;

the log query module is used for combining the call log, the positioning log and the task flow log together and is responsible for log management and query;

the task management module is mainly responsible for creating a real-time task work order and feeding back a flow state, and specifically comprises the following steps: newly building a task, maintaining basic information of the task, comparing short messages fed back by the task, tracking and counting the feedback condition of the task, inquiring a task table of a database, and obtaining and displaying task state information; the task management module is called by the scheduling main module;

further, for a newly-built task, the task management module calls a feedback short message template of the short message presetting module to enable a user to select and add short messages of each flow of the task; for task feedback, the task management module reads the short message buffer area, analyzes the information of the head of the short message to identify which task and which mobile phone send back a feedback result, fills the feedback result into the task work order, and changes the task state;

the short message presetting module is mainly responsible for managing and maintaining a task presetting issued short message and a preset feedback short message template; the short message presetting module is called by the scheduling main module to enter.

Further, the supporting layer comprises:

the positioning manager is responsible for receiving positioning information uploaded by the mobile phone and storing the positioning information so as to enable the scheduling main module and the task management module to inquire the latest position and the log inquiry module to inquire the track;

the map engine module is responsible for basic operations of the electronic map and calling other related modules, and the basic operations comprise: displaying a map, zooming in and out and dragging; and the map engine module calls the positioning manager to position.

Further, the temporary group establishment is realized by selecting a frame or clicking a central equidistant area or an irregular area.

Further, the location manager includes:

the positioning service component is responsible for receiving the positioning request and returning to the positioning position; the mobile phone is responsible for receiving and storing the positioning position of the mobile phone;

the positioning component is responsible for periodically positioning the position of the mobile phone and uploading the position to the positioning service component;

positioning log, storing mobile phone positioning track information;

the positioning component periodically calls a GPS positioning interface to obtain the latest position information of the talkback mobile phone and uploads the latest position information to the positioning service component; the positioning service component stores the mobile phone positioning position information to form track data and stores the track data to the positioning log.

The map engine module comprises:

an operation queue component: storing unprocessed map operations initiated by a current user;

operating the queue controller: in the process of displaying the map, receiving a user operation request, storing the map operation needing to be processed into an operation queue component and returning;

drawing factory: taking out and executing the user operation request; calling a primitive controller component to obtain a primitive, calculating the corresponding relation between the position of the primitive and the positions of windows at four corners of a map display range, and drawing and displaying;

the picture element controller: the map data processing system is responsible for managing the primitives, managing a current map cache assembly, establishing an index for the position of current primitive information, and applying for drawing from a grid map spatial database for the locally lacked primitives;

the map cache component: and storing the local basic graphic element picture, the latitude and longitude information and the index.

Furthermore, the information in the map cache component can be downloaded in advance according to regions

Further, when the drawing factory component is idle, the latest map operation is continuously taken out from the operation queue component, and the operation queue component is cleared.

The task scheduling management method of the system comprises the following steps:

step 1, an interface layer reports positioning information at regular time by using a GPS positioning interface of an intercom mobile phone, a positioning manager of a supporting layer monitors and receives the positioning information reported by the intercom mobile phone and stores mobile phone numbers, sending time and position longitude and latitude records;

step 2, the user enters a scheduling main module of an application layer, applies for taking an electronic map from a map engine module and displays the electronic map to the user;

preferably, in step 2, the main scheduling module that the user enters the application layer applies for obtaining the electronic map from the map engine module, and the method specifically includes:

a user applies for displaying a map or operating a request on a map interface;

the operation queue controller stores the map operation request into the operation queue component and returns the map operation request;

calculating the positions of a scale and four corners to be displayed by the new image after the operation by a drawing factory, calculating a needed primitive set, and requesting the primitive controller for the part needing to be changed on the screen; further, when the drawing factory component is idle, continuously taking out the latest map operation from the operation queue component, and emptying the operation queue component;

the primitive controller reads the primitives from the map cache, returns the part of primitives to a drawing factory for display, and fetches the map from the grid map space database for the set of primitives found to be lacking;

the primitive controller writes the primitives which are not in the obtained map cache into the map cache and returns the primitives to the drawing factory for drawing and displaying.

Step 3, the user enters a group management module through a scheduling main module to set a temporary group;

and 4, the user enters the task management module through the scheduling main module to set a task, and calls a short message preset module to send short messages in a group or calls a calling interface of an interface layer to carry out group calling on the talkback mobile phones in the temporary group to finish task dispatching and feedback.

Preferably, the step 4 of entering the task management module by the user through the scheduling main module to set the task further includes: s4-1, the user sets a short message template by using a short message presetting module and stores the set common short message template in a database; s4-2, a user uses a task management module to newly build a task, enters the task additional short message setting, and selects a required short message from the template for each process link of the task; s4-3, the user selects a temporary group for executing the task, sends a task short message to the mobile phone meeting the task flow state condition in the temporary group and stores a task flow log; s4-4, after the feedback of the mobile phone, modifying the corresponding task state according to the feedback content and storing the task state in a task flow log; preferably, after step S4-4, the method further comprises: the scheduling main module calls the classified or grouped mobile phones according to the task state and the task type information of a single mobile phone or a temporary group in the task flow log;

preferably, the step 4 of calling the short message preset module to the intercom mobile phone in the fixed group or the temporary group to send the short message in group further includes: and judging whether the current task flow state of each mobile phone in the group is in the mass sending range, and if not, rejecting the mass sending set.

Further, the specific steps of setting the temporary group in step 3 are as follows: the group management module calls a map engine module to select a space area of a temporary group, inquires a mobile phone number set of the last positioning position in the space area range in the latest time period to form the temporary group, and names and stores the temporary group; preferably, the spatial region of the selected temporary group is realized by frame selection or central equidistant region selection or irregular region clicking selection.

The method further comprises the following steps: a user enters a log query module through a scheduling main module to query a log; carrying out positioning log playback on a single mobile phone or a temporary group query log;

the invention has the beneficial effects that:

1. the use is intuitive, and the operation is quick. Because the invention comprises a map engine, the position of each intercom mobile phone can be visually checked by using the map in the processes of task query, calling, task feedback and tracking; when a certain mobile phone is selected, the mobile phone can be directly clicked on the graph, and the operation is simple and quick.

2. The group strategy is flexible and convenient. The temporary group can be conveniently selected and defined by combining the range operation (drawing a square frame operation, ranging and circular area selection) of the electronic map, the scheduling force is enhanced, and the application field of the system is wider;

3. and feeding back a real-time task work order and a process state. The user can know the progress of each grouping task in time, show the progress flow state of the task on the map in different colors, and can adopt means such as calling, grouping and mass texting to strengthen management;

4. and (4) careful log management. The call log, the positioning log and the task log are combined together, so that the whole task execution process can be understood in detail;

5. the application range and depth of the talkback mobile phone scheduling system are enhanced. The method changes the characteristic that the prior talkback mobile phone dispatching application is mainly based on voice calling, increases the characteristics of electronic maps and task feedback, and improves the talkback application to the level of real-time command dispatching application, so that the GoTa (open trunking architecture) can be applied in more industrial fields and more deeply.

Drawings

FIG. 1 is an overall structure diagram of the intercom mobile phone task scheduling management system based on the electronic map technology;

FIG. 2 is a schematic diagram illustrating a flow of a group management module calling a map engine module to establish a temporary group according to an embodiment of the present invention;

FIG. 3 is a schematic diagram illustrating a task management module according to the present invention completing task dispatch and feedback via a short message default module;

FIG. 4 is a schematic diagram of a log query process of the log management module according to the present invention;

FIG. 5 is a schematic diagram of a map engine module according to the present invention;

fig. 6 is a schematic diagram of the working flow of the positioning manager according to the present invention.

Detailed Description

The technical scheme of the invention is explained in detail by taking a GoTa mobile phone platform as an example.

As shown in fig. 1, the overall structure of the present invention is divided into three layers, namely an application layer, a support platform and an interface layer.

The application layer realizes a user operation interface and realizes the service functions of map display, mobile phone position display, task scheduling call, temporary group management, log query and the like. The application layer is composed of five application modules, namely a scheduling main module, a group management module, a log query module, a task management module and a short message presetting module, and the application layer calls a supporting layer to realize map common operation and positioning operation in the service function. Wherein,

the scheduling main module intuitively integrates the traditional GoTa talkback and the positioning platform by using an electronic map technology, and is convenient for scheduling personnel to use and make real-time decisions.

The scheduling main module is responsible for displaying a user interface and an electronic map; three temporary group strategies of frame selection calling, center equidistant area calling and irregular area click calling are responsible for building a temporary group; the system is responsible for carrying out management of calling group modules to carry out temporary group maintenance; the system is responsible for calling task management, creating tasks and maintaining tasks; the system is responsible for calling log management to perform log query and track query;

the scheduling main module can call a single user and a part of mobile phone classifications in the temporary group according to the current state and the flow of the task.

The scheduling main module is an entry operated by a user in the embodiment and can call other application modules to realize specific functions;

and after entering the scheduling main module, calling a map engine module to display the electronic map of the specific city area. Other modules are accessed through the menu, and the group management module can be directly accessed through confirmation after temporary group operation such as frame selection.

The group management module realizes various temporary group strategies and functions of frame selection calling, center equidistant area calling, irregular area click calling and the like of the GoTa intercom mobile phone except for fixed groups set according to user departments.

The group management module is responsible for the functions of establishing a temporary group, adding users into the group, deleting users from the group, cancelling the temporary group and the like.

The group module is entered after the main module selects the group, and can also enter into and manage the existing temporary group through a menu;

the task state statistics of the group, the task progress state of each handset in the group can be queried.

The log query module provides comprehensive log management, combines the call log, the positioning log and the task log together, and can understand the whole task execution process in detail.

The log query module is responsible for classifying and querying task logs and call logs; grouping and inquiring a task log and a call log; positioning log playback (track playback), and the like.

The log query module is called by the main scheduling module;

the log query module is used for listing by querying three log tables of a call log table, a task log table and a positioning log table (track database) in the database, and track drawing is realized by calling a line drawing functional interface of a map engine.

And the task management module is used for realizing real-time task work order and flow state feedback. The user can know the completion progress of each grouping task in time.

The task management module is responsible for newly building a task, maintaining basic information of the task, comparing short messages fed back by the task, and tracking and counting the feedback condition of the task.

The task management module is called by the main scheduling module;

the task management module queries a task table of the database to obtain task state information for display; when a task is newly established, the task management module calls a short message template table to allow a user to select and add short messages of each flow of the task; in task feedback, the task management module reads the short message buffer area, analyzes the information of the head of the short message to identify which task is the feedback result of which link sent back by which mobile phone, fills the feedback result into a task table, and changes the task state;

the short message presetting module is responsible for managing and maintaining a task presetting issuing short message and a preset feedback short message template;

the short message preset module is called by the main scheduling module to enter;

the short message presetting module displays common short messages in the short message template, and a user can add, modify and delete the short messages; the user can configure the task type suitable for the short message; storing the modified short message template into data for a task management module to use when maintaining a task;

the invention realizes the task distribution and feedback by combining the prefabricated short message module and the call, thereby improving the system efficiency.

The support layer realizes the core functions which are universal in the service functions and relate to the bottom layer, including map operation and positioning operation. The support layer is composed of a map engine module and a positioning manager, and the support layer and the positioning manager respectively realize the functions correspondingly. And the support platform provides support service for the application layer module, and the external interface is called to realize the positioning function operation. Wherein,

and the positioning manager receives the positioning information uploaded by the mobile phone and stores the positioning information into the GPS track log.

And calling a positioning manager to position during map display and task management.

And the positioning manager periodically calls a GPS positioning interface of the mobile phone to perform positioning and recording. The positioning manager receives the uploaded positioning information, stores the positioning information into a mobile phone track database (positioning log), and is used when the scheduling main module and the task management module query the latest position and also used when the log query module queries the track.

And a map engine module. And a map engine module can be called to visually check the position of each GoTa mobile phone by using a map in the processes of task query, calling, task feedback and tracking.

The map engine module is responsible for basic map operations such as map display, zooming in and zooming out dragging and the like; and the map control is in charge of the selection of frames, the selection of the central position and the click operation in the group strategy selection.

When the regulation and control main module, the task management module and the log management module are used for displaying the electronic map, the map engine module needs to be called for drawing, the map engine module finds that cached primitives are directly displayed, the missing primitives inquire map indexes and primitives from a grid map space database, and the supplementary primitives are displayed and cached.

The interface layer integrates the GPS positioning and calling interfaces of the mobile phone and is directly realized by calling the relevant interfaces of GoTa mobile phone manufacturers.

As shown in fig. 1, the main operation steps of the present invention are as follows:

1) the GoTa mobile phone reports the positioning position at regular time, and supports a plurality of reporting modes such as short messages, CDMA1X and the like;

2) the positioning manager monitors and receives a positioning position reported by the mobile phone, and records the mobile phone number, the sending time and the position longitude and latitude into a database;

1) a user enters a scheduling main module, applies for taking an electronic map from a map engine module and displays the electronic map to the user; the user can use the map engine to finish operations of zooming in, zooming out and dragging the common map;

2) a user enters a group management module to set a temporary group;

3) selecting a space area of the temporary group by using operations of drawing a frame, drawing concentric circles, selecting points and the like of the map engine module, inquiring a mobile phone number set of which the last positioning position is in the range in the latest time period by the system to form the temporary group, obtaining a name, and storing the name in a database;

3) a user enters a task management module to set a task;

4) displaying the current position and the flow state of each mobile phone in the task by using a map engine module;

5) newly establishing a task or selecting a short message template preset by a short message preset module to generate a group sending short message when the task still has a group sending short message flow link; judging whether the current task flow state of each mobile phone is in a mass sending range or not, and eliminating the mass sending set if the current task flow state of each mobile phone is not in the mass sending range; sending a short message to the GoTa mobile phone;

6) calling assistance is needed, and a calling interface is called for the temporary group to carry out group calling;

7) the user may query the log. Classifying and inquiring task logs or call logs; grouping and inquiring a task log or a call log;

8) carrying out positioning log playback on a single mobile phone inquiry positioning log; and performing temporary group positioning log playback on the temporary group query positioning log.

The embodiment of the invention realizes three temporary group strategies and functions of frame selection calling, center equidistant area calling and irregular area click calling of the GoTa intercom mobile phone. Referring to fig. 2, the group management module calls the map engine module to implement the temporary group flow as follows:

1) a user pulls a frame on the electronic map to perform framing grouping;

2) or the user marks a central point on the electronic map, and then drags the radius to draw a circle to carry out regional grouping with equal distance between the centers;

4) or the user marks a plurality of vertexes on the electronic map to form a simple polygon for clicking and grouping;

5) the system generates a temporary group, automatically generates a temporary group ID for subsequent tracking and stores the temporary group ID in a database;

6) performing temporary group calling in a main interface or a task management module according to the requirement;

7) and performing temporary group task dispatching in the main interface or the task management module according to the requirement.

The invention realizes the task distribution and feedback by using the prefabricated short message mode, thereby improving the system efficiency. As shown in fig. 3, the task management module finishes the task distribution and feedback through the short message preset module by the following specific steps:

8) a user sets a short message by using a short message preset module;

9) storing the set common short message template into a database;

10) a user uses a task management module to establish a new task;

11) entering task additional short message setting;

12) selecting used short messages from the template for each flow link of the task;

13) the user selects a temporary group for executing the task from the group list;

14) sending a task short message to the mobile phone which accords with the task flow state condition in the temporary group;

15) storing a task flow log;

16) after the mobile phone feeds back, the system analyzes and marks the received short message header;

17) modifying the corresponding task state, such as modifying to 'task fed back';

18) and storing the task flow log.

And the log query module combines the call log, the positioning log and the task log together, and can carefully know the whole task execution process. As shown in fig. 3, the log query process of the present invention comprises the following steps:

1) the log classifying and inquiring system extracts task flow logs of different categories according to time periods, task categories and mobile phone numbers;

2) the log classifying and inquiring system extracts the call log according to the time period and the mobile phone number;

3) the log classifying and inquiring system extracts a mobile phone track log, namely a positioning log according to the time period and the mobile phone number;

4) displaying the logs according to a time, category and flow step ordered list;

5) the log grouping query system extracts task flow logs of different categories according to the time period, the temporary group ID and the task category;

6) the log grouping inquiry system extracts the call log according to the time period and the mobile phone number in the temporary group;

7) the log grouping query system extracts the mobile phone track log according to the time period and the mobile phone number in the temporary group;

8) displaying the logs according to time, categories, flow steps and a mobile phone number sorting list;

9) the log dynamic query system extracts the mobile phone track log according to the time period and the mobile phone number in the temporary group;

10) playing tracks on a map according to time;

referring to fig. 5, the GoTa scheduling platform and the positioning platform are intuitively integrated by using an electronic map, so that convenience is brought to the use and real-time decision of scheduling personnel. The map engine shown in fig. 5 is composed of five components, namely an operation queue component, an operation queue controller, a drawing factory, a drawing element controller and a map cache. Each part of the components is as follows:

an operation queue component: storing unprocessed map operations initiated by a current user;

operating the queue controller: in the process of displaying the map, receiving user input, storing the map operation needing to be processed into an operation queue component and returning;

drawing factory: taking out and executing a map operation request; calling a primitive controller to obtain a primitive (the primitive comprises a primitive picture and longitude and latitude position information), calculating a corresponding relation between the primitive position and window positions at four corners of a display range of a screen map, and drawing the corresponding relation to a screen for display;

the picture element controller: and is responsible for managing the primitives. Managing current primitive cache, establishing an index for the position of current primitive information, and applying for drawing from a grid map spatial database for locally lacking primitives;

map caching: and the basic graphic element pictures, the longitude and latitude information and the index of the local area are stored for a long time. The map cache can be downloaded in advance according to cities, so that the map fetching speed is increased.

As shown in fig. 5, the basic flow steps of the mobile phone map engine module are as follows:

1) a user applies for displaying a map in each application module, or performs operation requests such as dragging, zooming and the like on a map interface;

2) the operation queue controller stores the map operation request into the operation queue component;

3) returning from the operation queue controller to continue operating the map;

4) when the drawing factory is idle, the latest map operation is continuously taken out from the operation queue, and the operation queue component is cleared; this way, accumulation of rapid map operations can be prevented, in effect reducing the feeling of "jamming" of the map;

5) calculating the positions of a scale and four corners to be displayed by the new image after the operation by a drawing factory, calculating a needed primitive set, and requesting the primitive controller for the part needing to be changed on the screen;

6) the primitive controller reads the primitives from the cache and returns the part of the primitives to the drawing factory for display;

7) finding a missing primitive set, and drawing the grid map space database by a primitive controller;

8) obtaining a missing graphic element;

9) writing the supplementary graphic elements which are not cached into the cache;

10) returning the graphics primitives to a drawing factory;

11) drawing factory drawings to display to a screen;

referring to fig. 6, the location event manager module is composed of three components, namely, a location service, a GoTa location control, and a mobile phone track database (location log). Each part of the components is as follows:

a positioning service component: the main control assembly is responsible for receiving the positioning request and returning to the positioning position; the mobile phone is responsible for receiving and storing the positioning position of the mobile phone;

the mobile phone end GoTa positioning component comprises: the mobile phone is responsible for periodically positioning the GoTa mobile phone and uploading the GoTa mobile phone to positioning service;

positioning a log: saving the mobile phone positioning track information;

according to the general positioning processing steps, the basic flow steps of the positioning event manager described with reference to fig. 6 are as follows:

1) the positioning component periodically calls a GPS positioning interface;

2) the positioning component obtains the latest position information of the local machine;

3) the positioning component uploads a positioning position to provide positioning service;

4) the positioning service component stores the positioning position of the mobile phone to form track data;

5) the application module calls a positioning manager to apply for position information;

6) inquiring the latest position of the mobile phone;

7) and returning the latest positioning position to the application program.

Although the present invention has been described in detail with reference to the specific embodiments, it should be understood by those skilled in the art that the present invention is not limited to the embodiments, and any modifications, equivalents and the like, which are within the spirit and principle of the present invention, should be included in the scope of the present invention.

Claims (10)

1. An intercom mobile phone task scheduling management system based on electronic map technology, the intercom mobile phone has a GPS positioning interface and a calling interface, the calling interface is mainly responsible for realizing an intercom calling function, and the system is characterized by comprising:

the application layer is used for realizing a user operation interface, realizing map display, mobile phone position display, task scheduling calling, temporary group management and log query service functions, and calling the support layer to realize map common operation and positioning operation in the service functions;

and the support layer is used for realizing core functions which are universal in service functions and relate to a bottom layer, including map operation and positioning operation. The support platform provides support service for the application layer upwards and calls an interface layer downwards to realize positioning function operation;

and the interface layer integrates the GPS positioning and calling interfaces of the talkback mobile phone and is directly realized by calling the related interfaces of the talkback mobile phone.

2. The system for managing task scheduling of intercom handset based on electronic map technology as claimed in claim 1, wherein:

the application layer comprises:

the scheduling main module integrates the traditional talkback and positioning platform by using an electronic map technology and calls other corresponding modules to realize specific functions;

the group management module is mainly responsible for setting fixed groups and establishing temporary groups, adding user group entry, deleting user group exit and canceling the temporary groups; inquiring task state statistics of the group, wherein the task progress state of each mobile phone in the group; the group management module enters after the group selection by the scheduling main module, or the menu enters to manage the existing temporary group;

the log query module is used for combining the call log, the positioning log and the task flow log together and is responsible for log management and query;

the task management module is mainly responsible for creating a real-time task work order and feeding back a flow state, and specifically comprises the following steps: newly building a task, maintaining basic information of the task, comparing short messages fed back by the task, tracking and counting the feedback condition of the task, inquiring a task table of a database, and obtaining and displaying task state information; the task management module is called by the scheduling main module;

further, for a newly-built task, the task management module calls a feedback short message template of the short message presetting module to enable a user to select and add short messages of each flow of the task; for task feedback, the task management module reads the short message buffer area, analyzes the information of the head of the short message to identify which task and which mobile phone send back a feedback result, fills the feedback result into the task work order, and changes the task state;

the short message presetting module is mainly responsible for managing and maintaining a task presetting issued short message and a preset feedback short message template; the short message presetting module is called by the scheduling main module to enter.

3. An electronic map technology-based intercom handset task scheduling management system as in claim 1 or 2 wherein:

the supporting layer comprises:

the positioning manager is responsible for receiving positioning information uploaded by the mobile phone and storing the positioning information so as to enable the scheduling main module and the task management module to inquire the latest position and the log inquiry module to inquire the track;

the map engine module is responsible for basic operations of the electronic map and calling other related modules, and the basic operations comprise: displaying a map, zooming in and out and dragging; and the map engine module calls the positioning manager to position.

4. The system for managing task scheduling of intercom handset based on electronic map technology as claimed in claim 2, wherein: the temporary group establishment is realized by selecting a frame or selecting a central equidistant area or an irregular area.

5. The system for managing task scheduling of intercom handset based on electronic map technology as claimed in claim 3, wherein:

the location manager comprises:

the positioning service component is responsible for receiving the positioning request and returning to the positioning position; the mobile phone is responsible for receiving and storing the positioning position of the mobile phone;

the positioning component is responsible for periodically positioning the position of the mobile phone and uploading the position to the positioning service component;

positioning log, storing mobile phone positioning track information;

the positioning component periodically calls a GPS positioning interface to obtain the latest position information of the talkback mobile phone and uploads the latest position information to the positioning service component; the positioning service component stores the mobile phone positioning position information to form track data and stores the track data to the positioning log.

The map engine module comprises:

an operation queue component: storing unprocessed map operations initiated by a current user;

operating the queue controller: in the process of displaying the map, receiving a user operation request, storing the map operation needing to be processed into an operation queue component and returning;

drawing factory: taking out and executing the user operation request; calling a primitive controller component to obtain a primitive, calculating the corresponding relation between the position of the primitive and the positions of windows at four corners of a map display range, and drawing and displaying;

the picture element controller: the map data processing system is responsible for managing the primitives, managing a current map cache assembly, establishing an index for the position of current primitive information, and applying for drawing from a grid map spatial database for the locally lacked primitives;

the map cache component: and storing the local basic graphic element picture, the latitude and longitude information and the index.

6. The system for managing task scheduling of intercom handset based on electronic map technology as claimed in claim 5, wherein: the information in the map cache component can be downloaded in advance according to regions.

7. The system for managing task scheduling of intercom handset based on electronic map technology as claimed in claim 5, wherein: and when the drawing factory component is idle, continuously taking out the latest map operation from the operation queue component, and clearing the operation queue component.

8. A task scheduling management method of a system according to any one of claims 1 to 7, characterized by comprising the steps of:

step 1, an interface layer reports positioning information at regular time by using a GPS positioning interface of an intercom mobile phone, a positioning manager of a supporting layer monitors and receives the positioning information reported by the intercom mobile phone and stores mobile phone numbers, sending time and position longitude and latitude records;

step 2, the user enters a scheduling main module of an application layer, applies for taking an electronic map from a map engine module and displays the electronic map to the user;

preferably, in step 2, the main scheduling module that the user enters the application layer applies for obtaining the electronic map from the map engine module, and the method specifically includes:

a user applies for displaying a map or operating a request on a map interface;

the operation queue controller stores the map operation request into the operation queue component and returns the map operation request;

calculating the positions of a scale and four corners to be displayed by the new image after the operation by a drawing factory, calculating a needed primitive set, and requesting the primitive controller for the part needing to be changed on the screen; further, when the drawing factory component is idle, continuously taking out the latest map operation from the operation queue component, and emptying the operation queue component;

the primitive controller reads the primitives from the map cache, returns the part of primitives to a drawing factory for display, and fetches the map from the grid map space database for the set of primitives found to be lacking;

the primitive controller writes the primitives which are not in the obtained map cache into the map cache and returns the primitives to the drawing factory for drawing display;

step 3, the user enters a group management module through a scheduling main module to set a temporary group;

and 4, the user enters the task management module through the scheduling main module to set a task, and calls a short message preset module to send short messages in a group or calls a calling interface of an interface layer to carry out group calling on the talkback mobile phones in the temporary group to finish task dispatching and feedback.

Preferably, the step 4 of entering the task management module by the user through the scheduling main module to set the task further includes: s4-1, the user sets a short message template by using a short message presetting module and stores the set common short message template in a database; s4-2, a user uses a task management module to newly build a task, enters the task additional short message setting, and selects a required short message from the template for each process link of the task; s4-3, the user selects a temporary group for executing the task, sends a task short message to the mobile phone meeting the task flow state condition in the temporary group and stores a task flow log; s4-4, after the feedback of the mobile phone, modifying the corresponding task state according to the feedback content and storing the task state in a task flow log; preferably, after step S4-4, the method further comprises: the scheduling main module calls the classified or grouped mobile phones according to the task state and the task type information of a single mobile phone or a temporary group in the task flow log;

preferably, the step 4 of calling the short message preset module to the intercom mobile phone in the fixed group or the temporary group to send the short message in group further includes: and judging whether the current task flow state of each mobile phone in the group is in the mass sending range, and if not, rejecting the mass sending set.

9. The task scheduling management method according to claim 8, wherein:

the specific steps of setting the temporary group in the step 3 are as follows: the group management module calls a map engine module to select a space area of a temporary group, inquires a mobile phone number set of the last positioning position in the space area range in the latest time period to form the temporary group, and names and stores the temporary group; preferably, the spatial region of the selected temporary group is realized by frame selection or central equidistant region selection or irregular region clicking selection.

10. The task scheduling management method according to claim 8, wherein:

the method further comprises the following steps: a user enters a log query module through a scheduling main module to query a log; and carrying out positioning log playback on the single mobile phone or the temporary group query log.

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