CN107436152B - Interactive multi-event processing method based on high-precision position - Google Patents

Abstract

The invention provides an interactive multi-event processing method based on high-precision positions, which comprises the following steps: adding a series of backlogs in the software of the mobile terminal; positioning high-precision position information of the mobile terminal; the mobile terminal pushes the high-precision position information and the to-be-handled items to a cloud server; the cloud server returns a planning route for completing the event to be handled; the user can select a dynamic adjusting line, namely, a scheme issued by a cloud of a to-do matter is accepted or rejected; the user selects the adjustment task and pushes the to-be-processed item to a cloud server; the cloud server returns a planning route which meets the requirement and completes backlog again; the user goes to the office with reference to the planned route. The cloud server gives a selection again by using the high-precision position and the quick computing capability of the user, provides convenience for the user to solve a plurality of trivial matters in life, and provides greater activity.

Description

Interactive multi-event processing method based on high-precision position

Technical Field

The invention relates to the technical field of communication, in particular to an interactive multi-event processing method based on high-precision positions.

Background

The modern people face more and more huge information quantity, work tasks and related matters are heavier than the past, and a memo reminding function is arranged on a plurality of existing terminals for reminding people to process corresponding work and matters in a certain time period in order to facilitate people to reasonably arrange and timely finish corresponding work and related matters.

At present, the function of a memo on a terminal is basically based on time, namely, the function of setting a certain time point to trigger and remind a certain thing to reach the memo is set, and when the preset time of a user is reached, people are reminded to handle related matters, so that the function is single. There are also many related free products on the market, such as Google calendar, millet calendar, etc. With the popularization of intelligent terminals and GPS, another demand is coming, that is, civil navigation positioning, which is now slowly becoming popular. Civil GPS navigation can be realized on most of the existing intelligent mobile terminals, the position of an intelligent mobile terminal user is positioned by receiving signals of a GPS satellite, and under the condition of good signals, the positioning precision can reach 10 meters, which is more than enough for meeting the civil requirements. Many products based on GPS positioning, such as Google maps, Baidu maps and the like, are also available in the market, can provide visual map navigation functions for users, and can give voice or other forms of guidance to the users at the positions where the users need to turn after the walking routes are calculated on an electronic map so as to guide the users to complete the set journey.

The existing memorandum reminding method based on the position has three problems:

1. in strange places, a common precision positioning mode can limit a user to accurately and efficiently find a destination;

2. the common precision positioning mode limits the cloud to provide a more accurate and better planning scheme;

3. the memorandum reminding method based on the common position is passive, and the user can accurately remind the user of the event depending on the method.

Disclosure of Invention

The interactive multi-event processing method based on the high-precision position can solve the three problems:

1. the high-precision positioning can reach the sub-meter level, and a destination can be accurately found in an unfamiliar place;

2. the cloud acquires the high-precision position of the user, and quickly and efficiently finds out the position which meets the purpose of the user to plan the finished line;

3. the user can dynamically adjust a certain transaction scheme according to a planned line given by the cloud, the adjustment items are pushed to the cloud, and the server can recalculate and plan according to the high-precision position of the user to give a new planning scheme.

The technical scheme adopted by the invention is as follows:

an interactive multi-event processing method based on high-precision position is characterized by comprising the following steps:

step 1, adding backlogs in mobile terminal software;

step 2, acquiring the high-precision position of the mobile terminal through mobile terminal software;

step 3, uploading the acquired high-precision position and the to-do item set created by the user to a cloud server;

step 4, the cloud server obtains the high-precision position and the backlog set, firstly finds out the high-precision position according with each backlog through calculation, then obtains a planning line for completing the backlog through optimal path calculation, and returns the planning line to the mobile terminal;

and step 5, dynamically adjusting the selection of the user according to the planned route pushed by the cloud server: if the user selects a scheme of refusing or not satisfying the backlog issued by the cloud server, selecting the backlog and pushing the backlog to the cloud server; otherwise, executing step 7;

step 6, after receiving the scheme of the backlog rejected or unsatisfied by the user, the cloud server recalculates and finds out the scheme meeting the requirements of the backlog, calculates a new planning line for completing the backlog through the optimal path, and sends the new planning line to the mobile terminal;

step 7, if the user receives the scheme issued by the cloud server, finishing backlogs according to the planned route; and if the user refuses or is not satisfied with the scheme issued by the cloud server, repeating the step 6 until the user can finish the backlog.

Further, the mobile terminal is provided with a navigation chip and a difference resolving module.

Further, the high-precision position precision reaches a sub-meter level.

Further, the step 2 specifically includes the following steps:

step 21, the ground base station acquires information broadcast by the satellite, and calculates to obtain differential correction data of the area where each ground base station is located through correction;

step 22, the ground base station broadcasts the differential correction data to the mobile terminal;

and step 23, the mobile terminal is provided with a navigation chip and a differential calculation module, acquires information broadcast by the satellite and differential correction data broadcast by the ground base station, and calculates to obtain a high-precision position.

Further, the information broadcast by the satellite includes satellite ephemeris.

Further, the ground base station broadcasts the differential correction data to the mobile terminal through the internet.

Further, in step S23, the mobile terminal obtains a high-precision position through an RTD or RTK algorithm.

Further, in the step 3, the obtained high-precision position and the to-do item set created by the user are uploaded to the cloud server through the network module.

Further, in the step 4, the mobile terminal marks the planned route acquired from the cloud server on the high-precision map, and observes the position of each backlog, the route to the backlog, and the planned routes of all the backlogs.

Further, in the step 5, if the user temporarily decides not to handle the backlog, the backlog is deleted from the backlog set, and the process returns to the step 3 again.

According to the event reminding method and the event reminding device, the high-precision position information is combined into the event reminding and planning function, the completion line of the to-be-processed events of the user is rapidly planned by utilizing the super-strong computing capacity of the cloud server, and the defect of common precision event reminding is overcome. When the user does not accept the recommendation scheme of the cloud end to a certain backlog, only the adjustment event needs to be sent to the server, and the cloud server gives a selection again by using the high-precision position and the quick computing capacity of the user, so that convenience is provided for solving a lot of trivial matters in life for the user, and greater activity is provided.

Drawings

FIG. 1 is a flow chart of the high precision location based interactive multiple event processing method of the present invention.

Fig. 2 is a schematic diagram of the high-precision position implementation of the invention.

Detailed Description

The invention is further illustrated below with reference to the figures and examples. FIG. 1 is a flow chart of the high-precision position-based interactive multi-event processing method of the invention, which comprises the following steps:

step 1, adding a series of backlogs based on software with high-precision positioning of the mobile terminal.

The mobile terminal is a movable computer device, a navigation chip (such as a Beidou chip) and a differential resolving module are installed in the mobile terminal, and a GIS (Geographic Information System) ground base station reinforcing System is matched to obtain the high-precision position of a user, so that the precision can reach a sub-meter level.

And 2, the mobile terminal software acquires the high-precision position of the mobile terminal.

Compared with the common precision, the positioning precision of the common precision positioning is about 10 meters generally, and the high precision positioning adopts a differential technology and can reach sub-meter precision and even centimeter-level precision.

And 3, uploading the acquired high-precision position information and the to-do item set created by the user to a cloud server through a network module by the mobile terminal.

And 4, the cloud server calculates the obtained high-precision positions and backlogs, firstly finds out the high-precision positions according with each backlog, then obtains a planning line for completing the backlogs through optimal path calculation, and returns the planning line to the mobile terminal. The mobile terminal marks the data acquired from the cloud server on a high-precision map, so that the position of each backlog, the path to the backlog and the planning lines of all backlogs can be clearly observed.

And step 5, the user can select a scheme for dynamically adjusting the sequence of the backlogs according to the planning route of the backlogs pushed by the cloud server, namely, the scheme issued by the cloud server of the backlogs is accepted or rejected. If the user selects a scheme of rejecting the to-be-processed item issued by the cloud server, the to-be-processed item can be selected and pushed to the cloud server in a clicking mode, or the user is not satisfied with the scheme below the cloud server. If the backlog is temporarily determined not to be handled, the backlog can be directly deleted, and the process returns to the step 3 again.

And 6, after receiving the scheme that the user refuses or is not satisfied with a backlog, the cloud server recalculates to find out the scheme meeting the requirements of the backlog, calculates a new planning line for completing the backlog through optimal path planning, and sends the new planning line to the mobile terminal.

Step 7, if the mobile terminal user receives the scheme issued by the cloud server, the to-do matters can be completed according to the navigation line; and if the user refuses to accept or not to be satisfied with the cloud server issuing scheme, repeating the step 6 until the user can finish the self to-do item.

Preferably, the implementation of the high-precision position in step 2 is as follows:

step 21, broadcasting information such as satellite ephemeris by a satellite, and obtaining the information by the ground base station, correcting interference caused by an ionized layer, an atmosphere layer and the like through calculation, and calculating to obtain differential correction data of an area where each ground base station is located;

step 22, the ground base station broadcasts information such as differential correction data to the mobile terminal purchasing high-precision service through the internet;

and step 23, the mobile terminal with the navigation chip and the differential calculation module acquires information broadcast by the satellite and differential correction data broadcast by the ground base station, and calculates by an algorithm to obtain a high-precision position. The algorithms include Real-Time dynamic Differential division (RTD) algorithm (Real-Time Differential, Real-Time dynamic code phase Differential technology) and Real-Time kinematic (RTK) algorithm (Real-Time kinematic, carrier phase Differential technology), where RTD can reach sub-meter level and RTK can reach higher precision.

Although the present invention has been described with reference to the preferred embodiments, it is not intended to limit the present invention, and those skilled in the art can make variations and modifications of the present invention without departing from the spirit and scope of the present invention by using the methods and technical contents disclosed above.

Claims (10)

1. An interactive multi-event processing method based on high-precision position is characterized by comprising the following steps:

step 1, adding backlogs in mobile terminal software;

step 2, acquiring the high-precision position of the mobile terminal through mobile terminal software;

step 3, uploading the acquired high-precision position and the to-do item set created by the user to a cloud server;

step 4, the cloud server obtains the high-precision position and the backlog set, firstly finds out the high-precision position according with each backlog through calculation, then obtains a planning line for completing the backlog through optimal path calculation, and returns the planning line to the mobile terminal;

step 5, the user selects a scheme for dynamically adjusting the sequence of the to-be-handled items according to the planning line pushed by the cloud server, namely, the scheme issued by the cloud server for the to-be-handled items is accepted or rejected: if the user selects a scheme of refusing or not satisfying the backlog issued by the cloud server, selecting the backlog and pushing the backlog to the cloud server; otherwise, executing step 7;

step 6, after receiving the scheme of the backlog rejected or unsatisfied by the user, the cloud server recalculates and finds out the scheme meeting the requirements of the backlog, calculates a new planning line for completing the backlog through the optimal path, and sends the new planning line to the mobile terminal;

step 7, if the user receives the scheme issued by the cloud server, finishing backlogs according to the planned route; and if the user refuses or is not satisfied with the scheme issued by the cloud server, repeating the step 6 until the user can finish the backlog.

2. The high-precision position-based interactive multi-event processing method according to claim 1, wherein the mobile terminal is provided with a navigation chip and a differential solution module.

3. A high-precision position-based interactive multiple-event processing method according to claim 1, wherein the high-precision position precision reaches sub-meter level.

4. The high-precision position-based interactive multi-event processing method according to claim 1, wherein the step 2 specifically comprises the following steps:

step 21, the ground base station acquires information broadcast by the satellite, and calculates to obtain differential correction data of the area where each ground base station is located through correction;

step 22, the ground base station broadcasts the differential correction data to the mobile terminal;

and step 23, the mobile terminal is provided with a navigation chip and a differential calculation module, acquires information broadcast by the satellite and differential correction data broadcast by the ground base station, and calculates to obtain a high-precision position.

5. A high accuracy location based interactive multi-event processing method as recited in claim 4 wherein said satellite broadcast information includes satellite ephemeris.

6. A high accuracy location based interactive multiple event processing method as in claim 5, wherein the ground base station broadcasts the differential correction data to the mobile terminal via the Internet.

7. A high-precision position based interactive multi-event processing method according to claim 6, characterized in that in step 23, the mobile terminal obtains the high-precision position by RTD or RTK algorithm.

8. The method as claimed in claim 1, wherein in step 3, the obtained high-precision location and the to-do-set created by the user are uploaded to a cloud server through a network module.

9. The method as claimed in claim 1, wherein in step 4, the mobile terminal marks the planned route obtained from the cloud server on the high-precision map, and observes the location of each backlog, the route to the backlog, and the planned routes of all backlogs.

10. The method as claimed in claim 1, wherein in step 5, if the user temporarily decides not to handle the backlog, the backlog is deleted from the backlog set and the process returns to step 3.

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