CN106096899A - A kind of Logistics Distribution Method, mobile terminal and system - Google Patents

Abstract

The invention provides a kind of Logistics Distribution Method, mobile terminal and system, this Logistics Distribution Method includes: obtaining target dispensing dot information, wherein, target dispensing dot information includes with reference to longitude and latitude；When the confirmation instruction receiving user's input, obtain the test gps satellite signal that current location is corresponding；According to test gps satellite signal with reference to longitude and latitude, determine logistics distribution result.The present invention first passes through acquisition target dispensing dot information, wherein target dispensing dot information includes the reference longitude and latitude of target dispensing point, secondly when in the confirmation instruction receiving user's input, the test gps satellite signal that user current location is corresponding can be obtained, reference longitude and latitude finally according to the test gps satellite signal obtained with target dispensing point, it is possible to determine the dispensing result of logistics.This programme can effectively be supervised and be performed the user of logistics distribution by goods delivery to client's hands.

Description

Logistics distribution method, mobile terminal and system

Technical Field

The present invention relates to the field of communications technologies, and in particular, to a logistics distribution method, a mobile terminal, and a system.

Background

With the development of electronic commerce, more and more people are interested in shopping online, and then goods purchased by consumers are sent to a specified delivery address in a way of express delivery by merchants. The consumer signs the delivery slip when receiving the goods and then marks the delivery on the internet. Express companies rely on the signature of consumers on express bills to prove that express services are satisfactorily completed. However, there are problems with such a courier sign-on process. For example: the express company does not send the goods, and the forged consignee signs or does not sign at all; the express company does not deliver the goods to the delivery address or the like designated by the receiver.

Based on the problems, in the prior art, a two-dimensional code containing a mobile phone number of a receiver and a goods order number can be pasted on a goods package, so that the receiver can confirm the goods receipt through scanning the two-dimensional code when receiving the goods, and the method can be used for replacing a method for signing on an express bill. Although the method can alleviate the defect of signing on the express bill, the two-dimensional code is easy to counterfeit and crack, and the user who performs logistics distribution can not be guaranteed to send the goods to the receiving address specified by the receiver, so that the prior art can not effectively supervise whether the user who performs logistics distribution distributes the goods to the hands of the client.

Disclosure of Invention

The embodiment of the invention provides a logistics distribution method, a mobile terminal and a system, which can effectively supervise and manage that a user executing logistics distribution distributes goods to a client.

In a first aspect, an embodiment of the present invention provides a logistics distribution method, including:

acquiring target distribution point information, wherein the target distribution point information comprises reference longitude and latitude;

when a confirmation instruction input by a user is received, acquiring a test GPS satellite signal corresponding to the current position;

and determining a logistics distribution result according to the test GPS satellite signal and the reference longitude and latitude.

Preferably, before the obtaining the target distribution point information, the method further includes:

acquiring and displaying an electronic map corresponding to a target area;

when an identification instruction input by a user aiming at a target distribution point is received, acquiring the corresponding target longitude and latitude of the target distribution point on the electronic map;

and converting the target longitude and latitude into the reference longitude and latitude.

Preferably, after the obtaining of the target distribution point information and before the obtaining of the test GPS satellite signal corresponding to the current location when the confirmation instruction input by the user is received, the method further includes: acquiring a current GPS satellite signal in real time, and recording the time when the current GPS satellite signal changes as test time when the current GPS satellite signal is determined to change;

further comprising: setting a standard time difference;

before determining the logistics distribution result according to the test GPS satellite signal and the reference longitude and latitude, the method further comprises the following steps: when a confirmation instruction input by a user is received, acquiring target test time adjacent to the current time from the recorded test time; determining whether the following first formula is met or not according to the current time, the target test time and the standard time difference, and if so, executing the test GPS satellite signal and the reference longitude and latitude to determine a logistics distribution result;

the first formula includes:

t₁-t₂<t

wherein, t₁For characterizing said current time, t₂For characterizing the target test time, and t for characterizing the standard time difference.

Preferably, the method provided by the embodiment of the present invention further includes: setting a reference distance;

the determining the logistics distribution result according to the test GPS satellite signal and the reference longitude and latitude comprises the following steps: acquiring a test longitude and latitude included in the test GPS satellite signal; calculating a target distance between the test longitude and latitude and the reference longitude and latitude, determining that logistics distribution is successful when the target distance meets a second formula, and otherwise, determining that logistics distribution is failed;

the second formula includes:

d>d₁

wherein d is used to characterize the reference distance, d₁For characterizing the target distance.

Preferably, after the determining the logistics distribution result, the method further comprises: and acquiring information of a user who performs logistics distribution, and transmitting the determined logistics distribution result and the acquired information of the user to the server.

In a second aspect, an embodiment of the present invention provides a mobile terminal, where the mobile terminal includes:

an acquisition unit, a positioning unit and a first processing unit, wherein,

the acquisition unit is used for acquiring target distribution point information, wherein the target distribution point information comprises a reference longitude and latitude;

the positioning unit is used for acquiring a test GPS satellite signal corresponding to the current position when receiving a confirmation instruction input by a user;

and the first processing unit is used for determining a logistics distribution result according to the test GPS satellite signal and the reference longitude and latitude.

Preferably, the mobile terminal further comprises: a second processing unit, an acquisition unit and a conversion unit, wherein,

the second processing unit is used for acquiring and displaying an electronic map corresponding to the target area;

the acquisition unit is used for acquiring the corresponding target longitude and latitude of the target distribution point on the electronic map when receiving an identification instruction input by a user aiming at the target distribution point;

the conversion unit is used for converting the target longitude and latitude into the reference longitude and latitude.

Preferably, the mobile terminal further comprises: a recording unit, a first storage unit, and a third processing unit, wherein,

the recording unit is used for acquiring the current GPS satellite signal in real time, and recording the time when the current GPS satellite signal changes as the test time when the current GPS satellite signal is determined to change;

a first storage unit for storing the set standard time difference;

the third processing unit is used for acquiring target test time adjacent to the current time from the recorded test time when receiving a confirmation instruction input by a user; determining whether the following first formula is met or not according to the current time, the target test time and the standard time difference, and triggering the first processing unit to execute corresponding operation when the following first formula is met;

the first formula includes:

t₁-t₂<t

wherein, t₁For characterizing said current time, t₂For characterizing the target test time, t for characterizing the standard time difference;

and/or the presence of a gas in the gas,

further comprising: a second storage unit; wherein,

the second storage unit is used for storing the set reference distance;

the first processing unit is used for acquiring the test longitude and latitude included in the test GPS satellite signal; calculating a target distance between the test longitude and latitude and the reference longitude and latitude, determining that logistics distribution is successful when the target distance meets a second formula, and otherwise, determining that logistics distribution is failed;

the second formula includes:

d>d₁

wherein d is used to characterize the reference distance, d₁For characterizing the target distance.

Preferably, further comprising: a communication unit, wherein,

the communication unit is used for acquiring information of a user who executes logistics distribution and sending the determined logistics distribution result and the acquired information of the user to the server.

In a third aspect, an embodiment of the present invention provides a logistics distribution system, including: a server and any one of the above mobile terminals, wherein,

and the server is used for sending the target distribution point information to the mobile terminal.

The embodiment of the invention provides a logistics distribution method, a mobile terminal and a system. The scheme can effectively supervise the goods delivered to the client by the user who executes the logistics delivery.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a flow chart of a logistics distribution method according to an embodiment of the invention;

FIG. 2 is a flow chart of another method for logistics distribution according to one embodiment of the present invention;

fig. 3 is a schematic structural diagram of a mobile terminal according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of another mobile terminal according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of another mobile terminal according to an embodiment of the present invention;

fig. 6 is a schematic structural diagram of another mobile terminal according to an embodiment of the present invention;

fig. 7 is a schematic structural diagram of a logistics distribution system according to an embodiment of the invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer and more complete, the technical solutions in the embodiments of the present invention will be described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention, and based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the scope of the present invention.

As shown in fig. 1, an embodiment of the present invention provides a logistics distribution method, which may include the following steps:

step 101: and acquiring target distribution point information, wherein the target distribution point information comprises reference longitude and latitude.

Step 102: when a confirmation instruction input by a user is received, a test GPS (global positioning System) satellite signal corresponding to a current position is acquired.

Step 103: and determining a logistics distribution result according to the test GPS satellite signal and the reference longitude and latitude.

In the embodiment shown in fig. 1, first, target distribution point information is obtained, where the target distribution point information includes a reference longitude and latitude of the target distribution point, and then, when a confirmation instruction input by a user is received, a test GPS satellite signal corresponding to the current position of the user is obtained, and finally, according to the obtained test GPS satellite signal and the reference longitude and latitude of the target distribution point, a distribution result of logistics can be determined. The scheme can effectively supervise the goods delivered to the client by the user who executes the logistics delivery.

In an embodiment of the present invention, in order to obtain the information of the target distribution point, information of the distribution point needs to be collected before obtaining the information of the target distribution point, and the collection manner of the information of the distribution point may include at least the following two manners:

mode 1: and (5) field collection.

In the mode 1, the user can arrive at a distribution point where the reference longitude and latitude are required to be acquired for field acquisition, and after the distribution point is reached, the mobile terminal can be used for acquiring the GPS satellite signal, and the longitude and latitude included in the acquired GPS satellite signal is used as the reference longitude and latitude corresponding to the distribution point.

Mode 2: and identifying the map.

In the embodiment 2, the present invention may be implemented in a mobile terminal or a server.

Specifically, the mode 2 may include the following: acquiring and displaying an electronic map corresponding to a target area; when an identification instruction input by a user aiming at a target distribution point is received, acquiring the corresponding target longitude and latitude of the target distribution point on the electronic map; and converting the target longitude and latitude into the reference longitude and latitude.

Since the target longitude and latitude corresponding to the identification point in the electronic map may not be consistent with the true reference longitude and latitude of the location, the acquired target longitude and latitude needs to be converted into the reference longitude and latitude. In the two modes, because the mode 1 has very large workload and is relatively difficult to implement, the mode 2 can be used for collecting information of the distribution points. For example, the target delivery points are identified by google maps or hundred degree maps.

In an embodiment of the present invention, since the validity of the GPS satellite signal may be related to weather conditions, building shielding conditions, and mobile terminal failure conditions, if the GPS satellite signal fails, problems such as positioning failure or inaccurate positioning may be caused, and therefore, the validity of the GPS satellite signal needs to be determined. After the obtaining of the target distribution point information and before the obtaining of the test GPS satellite signal corresponding to the current location when the confirmation instruction input by the user is received, further includes: acquiring a current GPS satellite signal in real time, and recording the time when the current GPS satellite signal changes as test time when the current GPS satellite signal is determined to change;

further comprising: setting a standard time difference;

before determining the logistics distribution result according to the test GPS satellite signal and the reference longitude and latitude, the method further comprises the following steps: when a confirmation instruction input by a user is received, acquiring target test time adjacent to the current time from the recorded test time; determining whether the following first formula is met or not according to the current time, the target test time and the standard time difference, and if so, executing the test GPS satellite signal and the reference longitude and latitude to determine a logistics distribution result;

the first formula includes:

t₁-t₂<t

wherein, t₁For characterizing said current time, t₂For characterizing said target test time, tdyCharacterizing the standard time difference.

It is worth explaining that when the first formula is met, it is indicated that testing of the GPS satellite signal is effective, and the logistics distribution result can be determined according to the testing of the GPS satellite signal and the reference longitude and latitude; if the first formula is not satisfied, it indicates that no GPS satellite signal has been received during the time period, and the test GPS satellite signal is deemed invalid.

For example, the standard time difference is set to 180s, and when a confirmation instruction input by the user is received, the current time t is recorded₁Is 16:12: 35. If adjacent target test time t₂Is 16:11:16, the time difference t between the two₁-t₂79s, it is clear that 79s<180s meets a first formula, which indicates that the test GPS satellite signal is effective, and the logistics distribution result can be determined according to the test GPS satellite signal and the reference longitude and latitude; if adjacent target test time t₂Is 16:08:43, the time difference t between the two₁-t₂232s, obviously 232s>180s do not satisfy the first formula indicating that no GPS satellite signal was received during the time period, and the test GPS satellite signal is deemed invalid.

Wherein, when the tested GPS satellite signal is determined to be invalid, the corresponding operation can be executed according to the set content. For example, the contents of the setting are: the step of determining the logistics distribution result according to the test GPS satellite signal and the reference longitude and latitude does not need to be executed, and the logistics distribution success can be defaulted. Or, the content of the setting is: and executing the step of determining the logistics distribution result according to the test GPS satellite signal and the reference longitude and latitude. This embodiment does not limit the setting of this content.

In one embodiment of the invention, the test GPS satellite signals and the reference latitude and longitude may not be completely coincident due to the accuracy of GPS positioning. Therefore, in this embodiment, the method further includes: setting a reference distance;

the determining the logistics distribution result according to the test GPS satellite signal and the reference longitude and latitude comprises the following steps: acquiring a test longitude and latitude included in the test GPS satellite signal; calculating a target distance between the test longitude and latitude and the reference longitude and latitude, determining that logistics distribution is successful when the target distance meets a second formula, and otherwise, determining that logistics distribution is failed;

the second formula includes:

d>d₁

wherein d is used to characterize the reference distance, d₁For characterizing the target distance.

It should be noted that, since the earth is spherical, the distance between two points on the spherical surface is different from the distance between two points on the plane, so that when the distance between the test longitude and latitude and the reference longitude and latitude is calculated, the distance between two points on the spherical surface can be calculated by using the distance formula.

For example, the set reference distance d is 100m, and the target distance d between the two points is calculated by the reference longitude and latitude included in the information of the target distribution point and the test longitude and latitude acquired by the test GPS satellite signal₁. If d is₁Is 43m, obviously 100m>43m, satisfying the second formula, determines that the logistics distribution was successful, which indicates that the user performing the logistics distribution has delivered the goods to the target delivery point specified by the customer with precision. If d is₁Is 138m, obviously 100m<138m, does not satisfy the second formula, and determines the user who performs the logistics distribution due to the logistics distribution failure.

In an embodiment of the present invention, in order to monitor the normative of the work of the user performing the logistics distribution, the method in any of the above embodiments further includes: and acquiring information of a user who performs logistics distribution, and transmitting the determined logistics distribution result and the acquired information of the user to the server.

The mobile terminal acquires the information of the user who executes the logistics distribution and sends the logistics distribution result to the server, and the server can monitor the working condition of the user who executes the logistics distribution according to the logistics distribution result, so that the standardization of the work of the user who executes the logistics distribution can be effectively monitored.

The following describes the logistics distribution method of the embodiment of the present invention in detail, taking the map identifier as an example to obtain the longitude and latitude of the reference and complete one logistics distribution.

As shown in fig. 2, an embodiment of the present invention provides a logistics distribution method, which may include the steps of:

step 201: determining a target area where the distribution point is located, obtaining information of each distribution point needing to obtain reference longitude and latitude, and obtaining and displaying an electronic map corresponding to the target area according to the determined target area.

For example, if the target area is the city of beijing, an electronic map of the city of beijing may be obtained and displayed on a map client or a browser.

Wherein the reference longitude and latitude is the real longitude and latitude corresponding to the distribution point.

The information of each distribution point required to obtain the reference longitude and latitude may include: the delivery point address. Taking the example of obtaining the reference longitude and latitude of the target distribution point, the distribution point address of the target distribution point is: x.times.mansion.

Step 202: the user searches the obtained electronic map for the delivery point address of the target delivery point, and the target delivery point is shown in the electronic map.

For example: in this embodiment, the delivery point address of the target delivery point is: the xxxX building can be searched, and the target delivery point can be shown on the electronic map.

Step 203: and clicking the target distribution point, receiving an identification instruction by the mobile terminal, and acquiring the corresponding target longitude and latitude of the target distribution point on the electronic map by the mobile terminal according to the identification instruction.

The latitude and longitude of the target can be provided by a server providing an electronic map, wherein the latitude and longitude information corresponding to each address in the electronic map is stored in the electronic map constructing server providing the electronic map.

The method comprises the steps that when a mobile terminal receives an identification instruction, an acquisition request can be sent to a server providing an electronic map, wherein the acquisition request carries a distribution point address of a target distribution point, the server providing the electronic map searches longitude and latitude information corresponding to the distribution point address according to the distribution point address, the longitude and latitude information is sent to the mobile terminal, and the mobile terminal takes the longitude and latitude information sent by the server providing the electronic map as target longitude and latitude corresponding to the target distribution point on the electronic map.

Step 204: and converting the target longitude and latitude into the reference longitude and latitude.

Since the target longitude and latitude corresponding to the identification point in the electronic map may not be consistent with the true reference longitude and latitude of the location, the acquired target longitude and latitude needs to be converted into the reference longitude and latitude. The method for converting the collected target longitude and latitude into the reference longitude and latitude can be realized by the following codes:

it should be noted that, when there are multiple distribution tasks for a user performing logistics distribution, the information of distribution points corresponding to all distribution tasks, including all target latitudes and longitudes corresponding to the information of all distribution points, is obtained when the information of the distribution points is obtained. When the target longitude and latitude are converted into the reference longitude and latitude, all the target longitude and latitude corresponding to the information of all the distribution points are converted into the corresponding reference longitude and latitude.

Step 205: and acquiring the current GPS satellite signal in real time according to the reference longitude and latitude, and recording the time when the current GPS satellite signal changes as the test time when the current GPS satellite signal is determined to change.

Due to the movement of the location of the user who performs the logistics distribution, the current GPS satellite signal corresponding to the user who performs the logistics distribution is collected to be changed. For example: when a user performing logistics distribution performs logistics distribution, the current GPS satellite signal changes 5 times from point a to point B, and the acquired GPS satellite signal includes: the GPS satellite signal 1, the GPS satellite signal 2, the GPS satellite signal 3, the GPS satellite signal 4 and the GPS satellite signal 5 record 5 test times. As in table 1.

TABLE 1

Current GPS satellite signal	Time of measurement
		GPS satellite signal 1	11:42:36
GPS satellite signal 2	11:43:00
		GPS satellite signal 3	11:43:53:
GPS satellite signal 4	11:44:26
		GPS satellite signal 5	11:44:56

Step 206: and when a confirmation instruction input by a user is received, acquiring target test time adjacent to the current time in each recorded test time, and acquiring a test GPS satellite signal corresponding to the current position, wherein the test GPS satellite signal comprises a test longitude and a test latitude.

And when receiving the confirmation instruction, the mobile terminal records the current time. For example, in the present embodiment, when the mobile terminal receives a confirmation instruction of the user performing the logistics distribution, the current time recorded by the mobile terminal is 13:12: 20. In step 205, when there is a change in the current GPS satellite signal of the user performing the logistics distribution, the mobile terminal records the time of the change as the test time. For example: in this embodiment, each test time recorded by the mobile terminal is shown in table 2.

TABLE 2

Current GPS satellite signal	Time of measurement
		GPS satellite signal 1	11:42:36
GPS satellite signal 2	11:43:00
		GPS satellite signal 3	11:43:53:
…	…
		GPS satellite signal 25	13:10:56
GPS satellite signal 26	13:11:29

It can be determined from table 2 that the target test time adjacent to the current time is obtained among the respective test times recorded as 13:11: 29.

Step 207: determining whether the GPS satellite signal is tested to be effective or not according to the current time, the target test time and a preset standard time difference, and if the GPS satellite signal is tested to be effective, executing a step 208; if the test GPS satellite signal is invalid, go to step 211.

In this embodiment, the validity of the test GPS satellite signal can be determined at least by the following equation (1):

t₁-t₂<t (1)

wherein, t₁For characterizing said current time, t₂For characterizing the target test time, t for characterizing the standard time difference;

for example: in the present embodiment, the standard time difference is set to 180s, the current time is 13:12:20, and the target test time adjacent to the current time is 13:11: 29. Then t₁-t₂51s, see 51s<180s, at which point equation (1) is satisfied, indicating that the test GPS satellite signal is valid, the next step may be continued.

It should be noted that if the standard time difference is set to 180s, the current time is 13:12:20, and the target test time adjacent to the current time is 13:09: 11. Then t₁-t₂189s, apparently 189s>180s, at which point equation (1) is not satisfied, illustrating the testThe GPS satellite signals are invalid. At this time, the corresponding operation can be performed according to the set contents. For example, the contents of the setting are: the step of determining the logistics distribution result according to the test GPS satellite signal and the reference longitude and latitude does not need to be executed, and the logistics distribution success can be defaulted. Or, the content of the setting is: and executing the step of determining the logistics distribution result according to the test GPS satellite signal and the reference longitude and latitude. In this embodiment, the content of the setting is: and reminding the user who executes the logistics distribution to collect the evidence of the logistics distribution success, and uploading the evidence to the server.

Step 208: determining a logistics distribution result according to the target distance between the test longitude and latitude and the reference longitude and latitude and a preset reference distance, and if the distribution is successful, executing step 208; if the logistics distribution fails, step 210 is performed.

In the present embodiment, the delivery result can be determined at least by the following formula (2):

d>d₁(2)

wherein d is used to characterize the reference distance, d₁For characterizing the target distance.

Because the earth is spherical, the distance between two points on the spherical surface is different from the distance between two points on the plane in a calculation method, and therefore, when the distance between the test longitude and latitude and the reference longitude and latitude is calculated, the distance between the two points on the spherical surface can be calculated by using a distance calculation formula.

In this implementation, the calculation of the distance between the test longitude and latitude and the reference longitude and latitude can be accomplished by at least the following codes:

in the present embodiment, the distance d of the target distance between the test longitude and latitude and the reference longitude and latitude₁25m and the preset reference distance d is 80m, obviously 80m>25m, when equation (2) is satisfied, indicating that the logistics distribution was successful, the next step of logistics distribution success is performed.

It is worth to say that if the distance d of the target distance between the test longitude and latitude and the reference longitude and latitude is measured₁Is 100m and the preset reference distance d is 80m, obviously 80m<100m, when equation (2) is not satisfied, indicating that the logistics distribution failed, the next step of the logistics distribution failure is performed.

Step 209: determining that the logistics distribution result is successful, acquiring information of the user who performs the logistics distribution, sending the successful logistics distribution result and the acquired information of the user to the server, and executing step 205 to perform distribution of the next task until all distribution tasks are completed.

In this embodiment, by sending information of the users performing the logistics distribution to the server, the distribution process of each user performing the logistics distribution can be monitored in real time, and the distribution tasks of the users performing the logistics distribution can be distinguished, thereby realizing supervision of the users performing the logistics distribution. And can be used as the checking basis of the working condition of the user who executes the logistics distribution.

It should be noted that a logistics distribution for a user performing the logistics distribution may include a plurality of distribution tasks, so that the user performing the logistics distribution performs step 205 to continue the next distribution task until all the distribution tasks are completed.

Step 210: determining that the logistics distribution result is a logistics distribution failure, acquiring information of a user who performs the logistics distribution, sending the logistics distribution failure result and the acquired information of the user to the server, and executing step 205 to perform distribution of the next task until all distribution tasks are completed.

In an embodiment of the present invention, if there may be a case where a user performing logistics distribution successfully performs logistics distribution and a physical distribution result determined by the mobile terminal is a logistics distribution failure due to a problem such as a GPS positioning failure, a function may be configured on the mobile terminal to remind the user performing logistics distribution to collect an evidence of the logistics distribution success and upload the evidence to the server when the logistics distribution result is determined to be a logistics distribution failure.

As shown in fig. 3, an embodiment of the present invention provides a mobile terminal, which may include: an acquisition unit 301, a positioning unit 302, and a first processing unit 303, wherein,

the acquiring unit 301 is configured to acquire target distribution point information, where the target distribution point information includes a reference longitude and latitude;

the positioning unit 302 is configured to obtain a test GPS satellite signal corresponding to a current position when receiving a confirmation instruction input by a user;

the first processing unit 303 is configured to determine a logistics distribution result according to the test GPS satellite signal and the reference longitude and latitude.

In this embodiment, the acquisition unit acquires information of a target distribution point, acquires a test GPS satellite signal of a user performing logistics distribution by a positioning function, and determines a logistics distribution result by processing the test GPS satellite signal and a reference longitude and latitude by the first processing unit.

As shown in fig. 4, in another embodiment of the present invention, the mobile terminal may further include: a second processing unit 401, an acquisition unit 402 and a conversion unit 403, wherein,

the second processing unit 401 is configured to acquire and display an electronic map corresponding to a target area;

the acquisition unit 402 is configured to acquire a target longitude and latitude, corresponding to a target distribution point, on the electronic map when receiving an identification instruction input by a user for the target distribution point;

the converting unit 403 is configured to convert the target longitude and latitude into the reference longitude and latitude.

In this embodiment, in order to enable the obtaining unit to conveniently obtain the information of the target distribution point, the second processing unit is arranged to obtain and display the electronic map of the target area, and the collecting unit is further arranged to identify the distribution point by the map. Because the target longitude and latitude corresponding to the identification point in the electronic map may not be consistent with the real reference longitude and latitude of the position, the acquired target longitude and latitude is converted into the actual longitude and latitude of the distribution point, namely the reference longitude and latitude of the distribution point, by arranging the conversion unit.

As shown in fig. 5, in an embodiment of the present invention, the mobile terminal may further include: : a recording unit 501, a first storage unit 502, and a third processing unit 503, wherein,

the recording unit 501 is configured to acquire a current GPS satellite signal in real time, and record time when a change in the current GPS satellite signal is determined as test time;

the first storage unit 502 stores a set standard time difference;

the third processing unit 503 is configured to, when a confirmation instruction input by a user is received, obtain a target test time adjacent to the current time from among the recorded test times; determining whether the following first formula is met or not according to the current time, the target test time and the standard time difference, and triggering the first processing unit to execute corresponding operation when the following first formula is met;

the first formula includes:

t₁-t₂<t

wherein, t₁For characterizing said current time, t₂For characterizing the target test time, t for characterizing the standard time difference;

and/or the presence of a gas in the gas,

further comprising: a second storage unit 504; wherein,

the second storage unit 504 is configured to store a set reference distance;

the first processing unit 303 is configured to obtain a test longitude and latitude included in the test GPS satellite signal; calculating a target distance between the test longitude and latitude and the reference longitude and latitude, determining that logistics distribution is successful when the target distance meets a second formula, and otherwise, determining that logistics distribution is failed;

the second formula includes:

d>d₁

wherein d is used to characterize the reference distance, d₁For characterizing the target distance.

Since the validity of the GPS satellite signal may be related to the situation of failure of the GPS satellite signal due to weather conditions, building sheltering conditions, and mobile terminal failures, etc., it is necessary to determine the validity of the GPS satellite signal. Therefore, in the embodiment, the recording unit is arranged to record the test time, the first storage unit presets a standard time difference, and the third processing unit judges the validity of the test GPS satellite signal by using the first formula. The use of the first formula has been described in detail in the above embodiments of the logistics distribution method, and is not described in detail in this embodiment.

Because of the accuracy problem of GPS positioning, the tested GPS satellite signal and the reference longitude and latitude are not necessarily completely coincident. Therefore, in this embodiment, by setting the second storage unit to preset the reference distance, the first processing unit determines the logistics distribution result according to the second formula. The use of the second formula is described in detail in the above embodiments of the logistics distribution method, and is not described in detail in this embodiment.

As shown in fig. 6, in an embodiment of the present invention, in order to monitor the normalization of the work of the user performing the logistics distribution, the mobile terminal may further include: the communication unit 601 is configured to, among other things,

the communication unit 601 is configured to acquire information of a user who performs logistics distribution, and send a determined logistics distribution result and the acquired information of the user to the server.

It is worth mentioning that the communication unit obtains information of the user who performs the logistics distribution, and transmits the determined logistics distribution result and the obtained information of the user to the server. Therefore, the mobile terminal can not only obtain the information of the distribution point from the server, but also send the distribution result and the information of the distribution personnel corresponding to the distribution result to the server, and the interaction between the mobile terminal and the server is realized. The interaction between the mobile terminal and the server can effectively distinguish the users who perform logistics distribution from the distribution tasks which are used by the users, so that the working state of each user who performs logistics distribution can be determined. The server can also monitor the working condition of the user executing the logistics distribution according to the logistics distribution result, so that the standardization of the work of the user executing the logistics distribution can be effectively supervised.

Because the information interaction, execution process, and other contents between the units in the device are based on the same concept as the method embodiment of the present invention, specific contents may refer to the description in the method embodiment of the present invention, and are not described herein again.

As illustrated in fig. 7, an embodiment of the present invention provides a logistics distribution system, which may include: a server 701 and a mobile terminal 702 as described in any of the above, wherein,

the server 701 is configured to send target distribution point information to the mobile terminal.

It should be noted that, when collecting information of a distribution point, the distribution point may be identified on the electronic map through a map service of the server, so as to collect information of the distribution point. And the server may transmit the information of the distribution point and the distribution task to the mobile terminal. The server can also receive the logistics distribution result and the information of the logistics distribution user sent by the mobile terminal, and store the logistics distribution result and the information of the logistics distribution user sent by the mobile terminal. The logistics distribution result and the information of the logistics distribution users stored by the server can be used as an assessment basis for the working conditions of the users who perform logistics distribution, so that the management of the users who perform logistics distribution is realized.

In summary, the embodiments of the present invention have at least the following advantages:

1. in the embodiment of the invention, firstly, the information of the target distribution point is obtained, wherein the information of the target distribution point comprises the reference longitude and latitude of the target distribution point, secondly, when a confirmation instruction input by a user is received, a test GPS satellite signal corresponding to the current position of the user is obtained, and finally, the distribution result of the logistics can be determined according to the obtained test GPS satellite signal and the reference longitude and latitude of the target distribution point. The scheme can effectively supervise the goods delivered to the client by the user who executes the logistics delivery.

2. In the embodiment of the invention, the information acquisition is carried out by identifying the distribution points on the electronic map, so that the information of the distribution points can be conveniently and quickly acquired. Although the points marked on the electronic map have certain offset with the original longitude and latitude, in order to ensure the accuracy of distribution, the offset longitude and latitude of the distribution points are converted into the original longitude and latitude, and the influence caused by the offset of the electronic map is effectively eliminated.

3. In the embodiment of the present invention, the GPS satellite signal of the user who performs the logistics distribution is invalidated by abnormality of the GPS satellite signal due to weather, buildings, and the like. According to the invention, the standard time difference is set through an offset algorithm, and invalid GPS satellite signals can be effectively eliminated by comparing the standard time difference with the time difference between the current GPS satellite signals and the test GPS satellite signals, so that the valid GPS satellite signals can be screened out.

4. In the embodiment of the invention, the reference distance is set, the target distance between the test longitude and latitude acquired when the user executing the logistics distribution triggers the confirmation command and the reference longitude and latitude of the distribution point is calculated, and then the reference distance is compared with the target distance to determine the logistics distribution result, so that the influence caused by positioning deviation can be effectively eliminated. And can ensure that the user who executes the logistics distribution sends the goods to the distribution point, the delivery rate of the user who executes the logistics distribution is greatly improved, and more importantly, the satisfaction degree of the customer is improved

5. In the embodiment of the invention, the determined logistics distribution result and the acquired information of the user are sent to the server, so that each user performing logistics distribution can be effectively supervised, and each distribution task of each user performing logistics distribution can be accurately judged. The real-time supervision of the users who execute the logistics distribution is realized, so that the delivery rate of the users who execute the logistics distribution is improved, and more importantly, the satisfaction degree of the customers to the work can be improved.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising a" does not exclude the presence of other similar elements in a process, method, article, or apparatus that comprises the element.

Those of ordinary skill in the art will understand that: all or part of the steps for realizing the method embodiments can be completed by hardware related to program instructions, the program can be stored in a computer readable storage medium, and the program executes the steps comprising the method embodiments when executed; and the aforementioned storage medium includes: various media that can store program codes, such as ROM, RAM, magnetic or optical disks.

Finally, it is to be noted that: the above description is only a preferred embodiment of the present invention, and is only used to illustrate the technical solutions of the present invention, and not to limit the protection scope of the present invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention shall fall within the protection scope of the present invention.

Claims (10)

1. A logistics distribution method, comprising:

acquiring target distribution point information, wherein the target distribution point information comprises reference longitude and latitude;

when a confirmation instruction input by a user is received, acquiring a test GPS satellite signal corresponding to the current position;

and determining a logistics distribution result according to the test GPS satellite signal and the reference longitude and latitude.

2. The method of claim 1, wherein prior to said obtaining target distribution point information, further comprising:

acquiring and displaying an electronic map corresponding to a target area;

when an identification instruction input by a user aiming at a target distribution point is received, acquiring the corresponding target longitude and latitude of the target distribution point on the electronic map;

and converting the target longitude and latitude into the reference longitude and latitude.

3. The method of claim 1,

after the obtaining of the target distribution point information and before the obtaining of the test GPS satellite signal corresponding to the current location when the confirmation instruction input by the user is received, further includes: acquiring a current GPS satellite signal in real time, and recording the time when the current GPS satellite signal changes as test time when the current GPS satellite signal is determined to change;

further comprising: setting a standard time difference;

before determining the logistics distribution result according to the test GPS satellite signal and the reference longitude and latitude, the method further comprises the following steps: when a confirmation instruction input by a user is received, acquiring target test time adjacent to the current time from the recorded test time; determining whether the following first formula is met or not according to the current time, the target test time and the standard time difference, and if so, executing the test GPS satellite signal and the reference longitude and latitude to determine a logistics distribution result;

the first formula includes:

t₁-t₂<t

wherein, t₁For characterizing said current time, t₂For characterizing the target test time, and t for characterizing the standard time difference.

4. The method of claim 1,

further comprising: setting a reference distance;

the determining the logistics distribution result according to the test GPS satellite signal and the reference longitude and latitude comprises the following steps: acquiring a test longitude and latitude included in the test GPS satellite signal; calculating a target distance between the test longitude and latitude and the reference longitude and latitude, determining that logistics distribution is successful when the target distance meets a second formula, and otherwise, determining that logistics distribution is failed;

the second formula includes:

d>d₁

wherein d is used to characterize the reference distance, d₁For characterizing the target distance.

5. The method of any of claims 1-4, further comprising, after the determining the logistics distribution result: and acquiring information of a user who performs logistics distribution, and transmitting the determined logistics distribution result and the acquired information of the user to the server.

6. A mobile terminal, comprising: an acquisition unit, a positioning unit and a first processing unit, wherein,

the acquisition unit is used for acquiring target distribution point information, wherein the target distribution point information comprises a reference longitude and latitude;

the positioning unit is used for acquiring a test GPS satellite signal corresponding to the current position when receiving a confirmation instruction input by a user;

and the first processing unit is used for determining a logistics distribution result according to the test GPS satellite signal and the reference longitude and latitude.

7. The mobile terminal of claim 6, further comprising: a second processing unit, an acquisition unit and a conversion unit, wherein,

the second processing unit is used for acquiring and displaying an electronic map corresponding to the target area;

the acquisition unit is used for acquiring the corresponding target longitude and latitude of the target distribution point on the electronic map when receiving an identification instruction input by a user aiming at the target distribution point;

the conversion unit is used for converting the target longitude and latitude into the reference longitude and latitude.

8. The mobile terminal of claim 6,

further comprising: a recording unit, a first storage unit, and a third processing unit, wherein,

the recording unit is used for acquiring the current GPS satellite signal in real time, and recording the time when the current GPS satellite signal changes as the test time when the current GPS satellite signal is determined to change;

a first storage unit for storing the set standard time difference;

the third processing unit is used for acquiring target test time adjacent to the current time from the recorded test time when receiving a confirmation instruction input by a user; determining whether the following first formula is met or not according to the current time, the target test time and the standard time difference, and triggering the first processing unit to execute corresponding operation when the following first formula is met;

the first formula includes:

t₁-t₂<t

wherein, t₁For characterizing said current time, t₂For characterizing the target test time, t for characterizing the standard time difference;

and/or the presence of a gas in the gas,

further comprising: a second storage unit; wherein,

the second storage unit is used for storing the set reference distance;

the first processing unit is used for acquiring the test longitude and latitude included in the test GPS satellite signal; calculating a target distance between the test longitude and latitude and the reference longitude and latitude, determining that logistics distribution is successful when the target distance meets a second formula, and otherwise, determining that logistics distribution is failed;

the second formula includes:

d>d₁

wherein d is used to characterize the reference distance, d₁For characterizing the target distance.

9. The mobile terminal according to any of claims 6 to 8, further comprising: a communication unit, wherein,

the communication unit is used for acquiring information of a user who executes logistics distribution and sending the determined logistics distribution result and the acquired information of the user to the server.

10. A logistics distribution system, comprising: the server and the mobile terminal of any of claims 6 to 9,

and the server is used for sending the target distribution point information to the mobile terminal.