CN112040407A - Beacon data processing method and device, electronic equipment and readable storage medium - Google Patents

Abstract

The embodiment of the invention discloses a beacon data processing method, a device, electronic equipment and a readable storage medium, wherein a target beacon list corresponding to a target task address is obtained, a beacon signal set scanned by a target task terminal is determined, and prompt information is generated according to the matching state of the beacon signal set and the target beacon list, so that the positioning accuracy of the target task terminal and the accuracy of the prompt information can be improved.

Description

Beacon data processing method and device, electronic equipment and readable storage medium

Technical Field

The present invention relates to the field of computer technologies, and in particular, to a beacon data processing method and apparatus, an electronic device, and a readable storage medium.

Background

Currently, positioning is generally realized through a GPS, but in some short-distance scenes, the GPS positioning may have the problems of inaccurate position caused by drift and the like.

Disclosure of Invention

In view of this, embodiments of the present invention provide a beacon data processing method, an apparatus, an electronic device, and a readable storage medium, so as to improve positioning accuracy of a target task terminal and accuracy of a prompt message.

In a first aspect, an embodiment of the present invention provides a beacon data processing method, where the method includes:

acquiring a target beacon list corresponding to a target task address;

determining a beacon signal set scanned by a target task terminal;

and generating prompt information according to the matching state of the beacon signal set and the target beacon list.

Optionally, determining the beacon signal set scanned by the target task terminal includes:

and determining the beacon signal set scanned by the target task terminal in response to the arrival instruction being triggered.

Optionally, determining the beacon signal set scanned by the target task terminal includes:

and determining the beacon signal set according to at least one beacon signal scanned by the target task terminal within a preset time before the arrival instruction is triggered and/or within a preset time after the arrival instruction is triggered.

Optionally, determining the beacon signal set scanned by the target task terminal includes:

controlling the target task terminal to scan the beacon signals in the target beacon list;

and determining the beacon signal set according to the beacon signals in the target beacon list scanned by the target task terminal.

Optionally, generating the prompt information according to the matching state between the beacon signal set and the target beacon list includes:

and generating legal arrival information in response to the fact that the proportion of the beacon signals in the beacon signal set to the same beacon signals in the target beacon list is larger than or equal to a preset value, wherein the legal arrival information is used for representing that the target task terminal is located at the target task address.

Optionally, generating the prompt information according to the matching state between the beacon signal set and the target beacon list includes:

and responding to a target beacon signal in the beacon signal set, wherein the target beacon signal comprises a target beacon signal in the target beacon list, and legal arrival information is generated, and the target beacon signal is a signal of a beacon device arranged at the target task address.

Optionally, generating the prompt information according to the matching state between the beacon signal set and the target beacon list further includes:

in response to the set of beacon signals not matching the target beacon list, generating illegal arrival information.

Optionally, the target beacon list is determined according to a beacon signal set scanned by a plurality of task terminals at the target task address.

Optionally, the beacon signal in the target beacon list is a beacon signal scanned by a plurality of task terminals at the target task address for a continuous preset time.

Optionally, the method further includes:

and uploading the beacon signal set.

In a second aspect, an embodiment of the present invention provides a beacon data processing method, where the method includes:

in response to the arrival instruction being triggered, determining a beacon signal set scanned by the task terminal;

and uploading the beacon signal set.

Optionally, determining the beacon signal set scanned by the task terminal includes:

and determining the beacon signal set according to at least one beacon signal scanned by the task terminal within a preset time before the arrival instruction is triggered and/or within a preset time after the arrival instruction is triggered.

In a third aspect, an embodiment of the present invention provides a beacon data processing method, where the method includes:

acquiring at least one beacon signal set corresponding to at least one task address;

and aggregating each beacon signal set, and determining a beacon list corresponding to each task address.

Optionally, the obtaining at least one beacon signal set corresponding to at least one task address includes:

for a task address, acquiring beacon signals scanned by a plurality of task terminals at the task address;

and screening beacon signals scanned by each task terminal at the task address for a continuous preset time to determine a beacon signal set of each task terminal at the task address.

Optionally, aggregating each beacon signal set, and determining a beacon list corresponding to each task address includes:

and for a task address, determining a beacon list corresponding to the task address according to the same beacon signal of each task terminal in the beacon signal set of the task address.

Optionally, the method further includes:

acquiring a beacon signal set corresponding to a target task address;

determining a target beacon list corresponding to the target task address;

and generating and sending prompt information according to the matching state of the beacon signal set and the target beacon list.

Optionally, generating and sending a prompt message according to the matching state between the beacon signal set and the target beacon list includes:

and generating and sending legal arrival information in response to the fact that the proportion of the beacon signals in the beacon signal set to the same beacon signals in the target beacon list is larger than or equal to a preset value, wherein the legal arrival information is used for representing that the target task terminal is located at the target task address.

Optionally, generating and sending a prompt message according to the matching state between the beacon signal set and the target beacon list includes:

and responding to a target beacon signal in the beacon signal set, wherein the target beacon signal comprises a target beacon signal in the target beacon list, and generating and sending legal arrival information, and the target beacon signal is a signal of a beacon device arranged at the target task address.

Optionally, generating and sending a prompt message according to the matching state between the beacon signal set and the target beacon list includes:

in response to the set of beacon signals not matching the target beacon list, generating and transmitting illegal arrival information.

In a fourth aspect, an embodiment of the present invention provides a beacon data processing apparatus, where the apparatus includes:

the list acquisition unit is configured to acquire a target beacon list corresponding to the target task address;

a set determination unit configured to determine a set of beacon signals scanned by a target task terminal;

an information generating unit configured to generate prompt information according to a matching state of the beacon signal set and the target beacon list.

Optionally, the set determining unit is further configured to determine a set of beacon signals scanned by the target task terminal in response to the arrival instruction being triggered.

Optionally, the set determining unit includes:

a first set determination subunit configured to determine the beacon signal set according to at least one beacon signal scanned by the target task terminal within a predetermined time before the arrival instruction is triggered and/or within a predetermined time after the arrival instruction is triggered.

Optionally, the set determining unit includes:

a scanning subunit configured to control the target task terminal to scan the beacon signals in the target beacon list;

a second set determination subunit configured to determine the beacon signal set according to the beacon signal in the target beacon list scanned by the target task terminal.

Optionally, the information generating unit includes:

and the first information generation subunit is configured to generate legal arrival information in response to that the ratio of the beacon signal in the beacon signal set to the same beacon signal in the target beacon list is greater than or equal to a preset value, wherein the legal arrival information is used for representing that the target task terminal is located at the target task address.

Optionally, the information generating unit includes:

a second information generating subunit configured to generate legal arrival information in response to a target beacon signal included in the target beacon list in the beacon signal set, the target beacon signal being a signal of a beacon device set at the target task address.

Optionally, the information generating unit further includes:

a third information determination subunit configured to generate illegal arrival information in response to the set of beacon signals not matching the target beacon list.

Optionally, the target beacon list is determined according to a beacon signal set scanned by a plurality of task terminals at the target task address.

Optionally, the beacon signal in the target beacon list is a beacon signal scanned by a plurality of task terminals at the target task address for a continuous preset time.

Optionally, the apparatus further comprises:

a first uploading unit configured to upload the set of beacon signals.

In a fifth aspect, an embodiment of the present invention provides a beacon data processing apparatus, where the apparatus includes:

a set determination unit configured to determine a set of beacon signals scanned by the task terminal in response to the arrival instruction being triggered;

a second uploading unit configured to upload the set of beacon signals.

Optionally, the set determining unit includes:

a set determining subunit configured to determine the beacon signal set according to at least one beacon signal scanned by the task terminal within a predetermined time before the arrival instruction is triggered and/or within a predetermined time after the arrival instruction is triggered.

In a sixth aspect, an embodiment of the present invention provides a beacon data processing apparatus, where the apparatus includes:

the device comprises a set acquisition unit, a task address acquisition unit and a task processing unit, wherein the set acquisition unit is configured to acquire at least one beacon signal set corresponding to at least one task address;

and the aggregation unit is configured to aggregate the beacon signal sets and determine a beacon list corresponding to each task address.

Optionally, the set obtaining unit includes:

the signal acquisition subunit is configured to acquire, for a task address, beacon signals scanned by a plurality of task terminals at the task address;

and the signal cleaning subunit is configured to screen the beacon signals scanned by each task terminal at the task address for a continuous preset time so as to determine a beacon signal set of each task terminal at the task address.

Optionally, the aggregation unit includes:

and the aggregation subunit is configured to determine, for a task address, a beacon list corresponding to the task address according to the same beacon signal of each task terminal in the beacon signal set of the task address.

Optionally, the apparatus further comprises:

the target set acquisition unit is configured to acquire a beacon signal set corresponding to a target task address;

a target list determining unit configured to determine a target beacon list corresponding to the target task address;

an information generating unit configured to generate prompt information according to a matching state of the beacon signal set and the target beacon list;

an information transmitting unit configured to transmit the prompt information.

Optionally, the information generating unit includes:

and the first information generation subunit is configured to generate legal arrival information in response to that the ratio of the beacon signal in the beacon signal set to the same beacon signal in the target beacon list is greater than or equal to a preset value, wherein the legal arrival information is used for representing that the target task terminal is located at the target task address.

Optionally, the information generating unit includes:

a second information generating subunit configured to generate legal arrival information in response to a target beacon signal included in the target beacon list in the beacon signal set, the target beacon signal being a signal of a beacon device set at the target task address.

Optionally, the information generating unit includes:

a third information generating subunit configured to generate illegal arrival information in response to the beacon signal set not matching the target beacon list.

In a seventh aspect, an embodiment of the present invention provides an electronic device, including a memory and a processor, where the memory is used to store one or more computer program instructions, where the one or more computer program instructions are executed by the processor to implement the method according to the first aspect of the embodiment of the present invention and/or the method according to the second aspect of the embodiment of the present invention and/or the method according to the third aspect of the embodiment of the present invention.

In an eighth aspect, embodiments of the present invention provide a computer-readable storage medium on which computer program instructions are stored, which when executed by a processor, implement the method according to the first aspect of embodiments of the present invention and/or the method according to the second aspect of embodiments of the present invention and/or the method according to the third aspect of embodiments of the present invention.

According to the embodiment of the invention, the target beacon list corresponding to the target task address is obtained, the beacon signal set scanned by the target task terminal is determined, and the prompt information is generated according to the matching state of the beacon signal set and the target beacon list, so that the positioning accuracy of the target task terminal and the accuracy of the prompt information can be improved.

Drawings

The above and other objects, features and advantages of the present invention will become more apparent from the following description of the embodiments of the present invention with reference to the accompanying drawings, in which:

fig. 1 is a flowchart of a beacon data processing method according to an embodiment of the present invention;

fig. 2 is a schematic view of an application scenario of a beacon data processing method according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of an interface display of a target task terminal according to an embodiment of the present invention;

FIG. 4 is a schematic diagram of an interface display of another target task terminal according to an embodiment of the present invention;

fig. 5 is a flowchart of another beacon data processing method according to an embodiment of the present invention;

fig. 6 is a flowchart of a beacon data processing method according to another embodiment of the present invention;

fig. 7 is a schematic diagram of a beacon device distribution of an embodiment of the present invention;

fig. 8 is a flowchart of a beacon data processing method according to another embodiment of the present invention;

fig. 9 is a flowchart of a beacon data processing method according to another embodiment of the present invention;

fig. 10 is a schematic diagram of a beacon data processing apparatus according to an embodiment of the present invention;

fig. 11 is a schematic diagram of another beacon data processing apparatus according to an embodiment of the invention;

fig. 12 is a schematic diagram of a beacon data processing apparatus according to a further embodiment of the present invention;

fig. 13 is a schematic diagram of an electronic device of an embodiment of the invention.

Detailed Description

The present invention will be described below based on examples, but the present invention is not limited to only these examples. In the following detailed description of the present invention, certain specific details are set forth. It will be apparent to one skilled in the art that the present invention may be practiced without these specific details. Well-known methods, procedures, components and circuits have not been described in detail so as not to obscure the present invention.

Further, those of ordinary skill in the art will appreciate that the drawings provided herein are for illustrative purposes and are not necessarily drawn to scale.

Unless the context clearly requires otherwise, throughout the description, the words "comprise", "comprising", and the like are to be construed in an inclusive sense as opposed to an exclusive or exhaustive sense; that is, what is meant is "including, but not limited to".

In the description of the present invention, it is to be understood that the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. In addition, in the description of the present invention, "a plurality" means two or more unless otherwise specified.

The beacon data processing method of this embodiment may be applied to any positioning-related scene of the beacon device, such as a take-away application scene, a leg-running application scene, and the like, and this embodiment does not limit the application scene. The following description will mainly take a takeaway application scenario as an example.

At present, users often order dishes through a network platform, and the corresponding network platform sends takeouts to the corresponding users through distribution resources. In order to determine task nodes of take-out tasks, the network platform uploads node information, such as store information and delivery information, by distributing resources (including riders, terminals, vehicles and the like) according to needs. Generally, when a distribution resource reaches a merchant corresponding to a target task, the distribution resource clicks to upload store information, in the related art, a GPS is generally adopted to obtain a distribution resource position, and the obtained distribution resource position is compared with a merchant position corresponding to the target task to determine whether the distribution resource is currently located at the corresponding merchant. However, in a short-distance positioning scene, the GPS positioning may have a problem of inaccurate position due to drift. Therefore, in order to prevent the distribution resources from reporting false node information or from causing misjudgment due to inaccurate positioning, the embodiment provides a beacon data processing method to improve the positioning accuracy of the target task terminal and the accuracy of the prompt information through the beacon device.

Fig. 1 is a flowchart of a beacon data processing method according to an embodiment of the present invention. As shown in fig. 1, the beacon data processing method according to the embodiment of the present invention includes the following steps:

step S110, a target beacon list corresponding to the target task address is obtained. Alternatively, the target beacon list may include beacon identifiers of beacon devices that can be scanned in the target task address, beacon signal strength ranges, set location identifiers of beacon devices, and the like.

In an optional implementation manner, after the target task terminal uploads the message bound with the target task, a target beacon list corresponding to a target task address sent by the server or the network platform is received. In another optional implementation manner, after the target task terminal uploads the message reaching the target task address, a target beacon list corresponding to the target task address sent by the server or the network platform is received. It should be understood that, in other alternative implementations, the target task terminal may request the server or the network platform for the target beacon list corresponding to the target task address at any time after the target task terminal is bound to the target task, which is not limited in this embodiment.

In an alternative implementation manner, the target beacon list is determined according to a beacon signal set scanned by a plurality of task terminals at the target task address. That is to say, according to the beacon signal set scanned by each task terminal at the target task address acquired in the historical task, the same beacon signal in the beacon signal set corresponding to the target task address is determined as the target beacon list, so that a beacon association map between the target task address and other task addresses can be established, and the position information of the target task terminal is determined according to the beacon device of the target task address and/or the beacon devices around the target task address, thereby improving the positioning accuracy. In another optional implementation manner, the beacon signals in the target beacon list are beacon signals scanned by a plurality of task terminals at target task addresses continuously preset time, and the beacon signals are determined as the target beacon list according to the same beacon signals in the beacon signal set corresponding to each task address, so that beacon signals scanned by the task terminals accidentally are screened out, and the positioning accuracy is improved. That is, in each historical task corresponding to the target task address, the beacon signal that can be scanned by each task terminal within a continuous period of time is determined as the beacon signal in the target beacon list. For example, task terminal a scans for beacon signals a, B, and c at the target task address for a continuous preset time, task terminal B scans for beacon signals a and B at the target task address for a continuous preset time, and task terminal C, D scans for beacon signals a and B at the target task address for a continuous preset time, and thus, beacon signals a and B are determined as beacon signals in the target beacon list. Therefore, the beacon signals which are accidentally scanned by the task terminal can be screened out, and the positioning accuracy is improved.

And step S120, determining a beacon signal set scanned by the target task terminal. In an alternative implementation, after the target task terminal uploads the message bound with the target task, the beacon signal set is periodically scanned.

In another alternative implementation, step S120 includes: and determining the beacon signal set scanned by the target task terminal in response to the arrival instruction being triggered. Optionally, the arrival instruction is located in a task interface of the target task terminal in a control form. Optionally, in response to the arrival instruction being triggered, determining a beacon signal set according to at least one beacon signal scanned by the target task terminal within a predetermined time before the arrival instruction is triggered and/or within a predetermined time after the arrival instruction is triggered. That is, after the arrival instruction is triggered, the target task terminal acquires the beacon signal that is continuously scanned within a predetermined time (for example, within 5 s) before the arrival instruction is triggered to determine the beacon signal set. Or after the arrival instruction is triggered, the target task terminal acquires the beacon signals scanned within a continuous preset time (for example, within 5 s) after the arrival instruction is triggered so as to determine the beacon signal set. Or after the arrival instruction is triggered, the target task terminal acquires the beacon signals continuously scanned within a preset time (for example, within 5 s) before the arrival instruction is triggered and within a continuous preset time (for example, within 5 s) after the arrival instruction is triggered so as to determine the beacon signal set. For example, when the target task terminal receives the message that the arrival instruction is triggered at 12:00:00, the target task terminal determines the beacon signal set according to the continuously scanned beacon signals of 11:59:55-12:00:00, or determines the beacon signal set according to the continuously scanned beacon signals of 12:00:00-12:00:05, or determines the beacon signal set according to the continuously scanned beacon signals of 11:59:55-12:00: 05. It should be understood that the present embodiment does not limit the predetermined time before the arrival instruction is triggered and the predetermined time after the arrival instruction is triggered, and may be the same or different.

In another alternative implementation, step S120 includes: and controlling the target task terminal to scan the obtained beacon signals in the target beacon list, and determining a corresponding beacon signal set according to the beacon signals in the target beacon list scanned by the target task terminal. Optionally, after the server receives the arrival instruction and is triggered, the server issues a target beacon list to the target task terminal, and the target task terminal scans beacon signals in the target beacon list and adds the scanned beacon signals into the beacon signal set. Therefore, in the embodiment, the target task terminal scans according to the beacon signals in the target beacon list and labels the scanned beacon signals, so that the matching state of the beacon signal set and the target beacon list can be quickly determined, and the positioning accuracy and the prompting information accuracy of the target task terminal are further improved. For example, the target beacon list includes three beacon signals, i.e., a beacon signal a, b, and c, the target task terminal scans the beacon signals a, b, and c after receiving the target beacon list, and if the target task terminal can scan the beacon signals a, b, and c, that is, after scanning is finished, if the beacon signal set includes the beacon signals a, b, and c, it is determined that the beacon signals and the target beacon list are completely matched, and then it can be determined that the target task terminal is currently located at the target task address according to the matching state, and prompt information of legal arrival is generated.

And step S130, generating prompt information according to the matching state of the beacon signal set and the target beacon list. In an optional implementation manner, after the target task terminal uploads the message bound with the target task, a target beacon list corresponding to a target task address is obtained, a beacon signal set is periodically scanned, the beacon signal set is matched with the target beacon list, a matching state is determined until the beacon signal set and the target beacon list are matched, and prompt information of legal arrival is generated. Therefore, the embodiment can realize more accurate automatic arrival by periodically matching the scanned beacon signal set and the target beacon list after the target task terminal receives the task, and improves the efficiency of uploading the information of the arrival node.

In another optional implementation manner, in response to the arrival instruction being triggered, a beacon signal set scanned by the target terminal is determined, the beacon signal set is matched with the target beacon list, a corresponding matching state is obtained, and prompt information is generated according to the matching state. The prompt message comprises prompt message of legal arrival and prompt message of illegal arrival. Therefore, the arrival information is determined through the beacon signal, the positioning accuracy and the arrival information accuracy are improved, the target task terminal beacon equipment is started only when the arrival instruction is triggered, and the terminal energy consumption is saved.

In an optional implementation manner, if the target task address is not set with a beacon device, or if the beacon device set with the target task address is not turned on or is damaged, the target task terminal may be located by the beacon devices around the target task address. Step S130 may specifically include: and generating legal arrival information in response to the fact that the proportion of the beacon signals in the beacon signal set to the same beacon signals in the target beacon list is larger than or equal to a preset value. And the legal arrival information is used for representing that the target task terminal is positioned at the target task address. Optionally, the ratio may be a ratio of the number of the same beacon signal to the number of beacon signals in the target beacon list, and it should be understood that the ratio may also be a ratio of the number of the same beacon signal to the number of beacon signals in the beacon signal set, which is not limited in this embodiment. Optionally, the preset value may be set to be 60% to 100%. For example, the target beacon list includes beacon signals a, b, c, and d, and the acquired beacon signal set includes beacon signals a, b, c, f, and g, then the ratio of the beacon signal in the beacon signal set to the same beacon signal in the target beacon list is 3/4 × 100% — 75%, and assuming that the preset value is 70%, it may be determined that the target task terminal is located at the target task address, that is, the message uploaded by the target task terminal to reach the target task address at this time is legal.

In another optional implementation manner, the target task address is provided with a beacon device, and the beacon device works normally, so that the target task terminal can be located through the beacon device of the target task address. Step S130 may specifically include: and responding to the target beacon signals in the target beacon list in the beacon signal set, and generating legal arrival information, namely determining that the target task terminal is located at the target task address. The target beacon signal is a signal of a beacon device arranged at the target task address. That is, if the target task terminal scans the target beacon signal, it may be determined that the target task terminal is located at the target task address. In other optional implementation manners, when the beacon device is set at the target task address and the beacon device works normally, the beacon device signals around the beacon device may also be used as a reference to determine the location of the target task terminal, which is not limited in this embodiment.

In an optional implementation manner, step S130 may further include: illegal arrival information is generated in response to the set of beacon signals not matching the target beacon list. Optionally, when the ratio of the beacon signal in the beacon signal set to the same beacon signal in the target beacon list is smaller than a preset value, or the beacon signal set does not include the target beacon signal in the target beacon list, it is determined that the target task terminal is not at the target task address, and illegal arrival information is generated. For example, the illegal arrival information may be "the currently sent message arriving at the target task address is an illegal action" or the like.

Fig. 2 is a schematic application scenario diagram of a beacon data processing method according to an embodiment of the present invention. Taking a take-away application scenario as an example, after a delivery resource receives a take-away delivery task through a delivery resource terminal (that is, a target task terminal), or after the delivery resource uploads store information through the delivery resource terminal, a target beacon list corresponding to a merchant to which the delivery task belongs is received. The distribution resource clicks to the store (namely, an arrival instruction is triggered), and the distribution resource terminal is triggered to acquire the scanned beacon signal set in response to the arrival instruction. As described above, the beacon signal set may be a set of beacon signals that are continuously scanned within a predetermined time before the arrival instruction is triggered and/or within a predetermined time after the arrival instruction is triggered. And the distribution resource terminal (or a network platform APP installed on the distribution resource terminal) matches the target beacon list with the scanned beacon signal set so as to determine the arrival state of the distribution resource. If the merchant is provided with the beacon device and the beacon device is normally used, determining a target beacon signal from a target beacon list, determining whether the scanned beacon signal set comprises the target beacon signal, if so, determining that the delivery resource is in a store-arrived state, namely that the store-arrived message uploaded by the delivery resource terminal is legal, and if not, determining that the delivery resource does not arrive at the store, namely that the store-arrived message uploaded by the delivery resource terminal is illegal. If the beacon device is not set in the merchant or the set beacon device is not normally used, determining whether the ratio of the beacon signal set to the same beacon signal in the target beacon list is greater than or equal to a preset value, if not, determining that the distribution resource is in a store-arrived state, namely that the store-arrived message uploaded by the distribution resource terminal is legal, and if the ratio is less than the preset value, determining that the distribution resource does not arrive at the store, namely that the store-arrived message uploaded by the distribution resource terminal is illegal.

As shown in fig. 2, in the merchant A, B, C, D, E, F, a beacon device a, a beacon device B, a beacon device C, a beacon device D, and a beacon device F are provided in the merchant a, the merchant B, the merchant C, the merchant D, and the merchant F, respectively, and the merchant E is not provided with a beacon device. The target merchant corresponding to the target distribution task of the distribution resource q1 is merchant E, the target beacon list corresponding to merchant E is [ b, d, f ], and the preset value is assumed to be 70%. Alternatively, the beacon symbol "b" in the target beacon list may be an array or vector, including the beacon identifier of the corresponding beacon device, the corresponding merchant identifier, and the like. And if the distribution resource q1 is clicked to the store through the distribution resource terminal at the current position, acquiring a current corresponding beacon signal set as [ b, c, f ]. The ratio of the beacon signal set corresponding to the distribution resource q1 to the same beacon signal in the target beacon list is 2/3 × 100% — 66.67%, which is less than 70%, and it is determined that the distribution resource q1 has not reached the target merchant E, it is determined that the distribution resource q1 has clicked to the store falsely. Optionally, when it is determined that the delivery resource is clicked to the store falsely, prompt information such as store sign-in failure and the like can be displayed through an APP display interface of the delivery resource terminal.

The target merchant corresponding to the target distribution task of the distribution resource q2 is merchant B, the beacon device B is arranged in the merchant B and is normally used at present, and the target beacon list corresponding to the merchant B is [ a, B, c, e ]. Because each beacon symbol in the target beacon list includes a beacon identifier and a corresponding merchant identifier, when determining the location of the distribution resource, the target beacon list of the target merchant may be traversed first to determine whether the target merchant is provided with a beacon device. In this embodiment, the target beacon list [ a, B, c, e ] of the merchant B is traversed to obtain the target beacon signal B of the merchant B. And if the distribution resource q2 is clicked to the store through the distribution resource terminal at the current position, acquiring a current corresponding beacon signal set as [ a, b, c, e ]. As can be seen, the beacon signal set corresponding to the delivery resource q2 includes the target beacon signal B, and therefore, it can be determined that the delivery resource q2 has arrived at the merchant B, and the click-to-store behavior thereof is legal. Optionally, when determining that the delivered resource is legally clicked to the store, prompt information such as successful sign-in of the store can be displayed through an APP display interface of the delivered resource terminal. Therefore, the position of the distribution resource is determined through at least one beacon of the surrounding merchants, the positioning accuracy is improved, and the situation that the distribution resource is falsely clicked to a store or the distribution resource is falsely clicked to the store due to misjudgment caused by inaccurate positioning is avoided.

Fig. 3 is a schematic interface display diagram of a target task terminal according to an embodiment of the present invention. FIG. 4 is a schematic diagram of an interface display of another target task terminal according to an embodiment of the present invention. In this embodiment, a selling application scenario is described as an example, and as shown in fig. 3, the resource distribution terminal interface 31 includes a current task 1 and a task 2, and store-to controls 311 and 312 corresponding to the tasks. Wherein, the resource distribution can carry out the action of checking in the store by clicking the space of the store. Assuming that the delivery resource currently triggers the to-store widget 311 of task 1, the currently scanned beacon signal set is acquired by the delivery resource terminal, the location information of the delivery resource terminal is determined according to the beacon signal set and the acquired target beacon list, the prompt information is generated according to the location information of the delivery resource terminal and the target task address, and the prompt information is displayed on the delivery resource terminal interface 31. As shown in fig. 3, if it is determined that the current click-to-store behavior of the distributed resource is illegal, the prompt message displayed on the distributed resource terminal interface 31 is "currently illegal to-store, please click again to store". As shown in fig. 4, assuming that the current click-to-store behavior of the delivered resource is determined to be legal behavior, the prompt information displayed on the delivered resource terminal interface 31 is "legal to store". It should be understood that the resource distribution terminal interface and the prompt message in fig. 3 and fig. 4 are only exemplary, and the present embodiment is not limited thereto.

In an optional implementation manner, the beacon data processing method according to the embodiment of the present invention further includes: and uploading the scanned beacon signal set, so that the server or the corresponding network platform can periodically update the beacon list corresponding to each task address according to the acquired beacon signal set, and the accuracy of the beacon list corresponding to each task address is improved.

In the embodiment, the target beacon list corresponding to the target task address is obtained, the beacon signal set scanned by the target task terminal is determined, and the prompt information is generated according to the matching state of the beacon signal set and the target beacon list, so that the positioning accuracy of the target task terminal and the accuracy of the prompt information can be improved.

Fig. 5 is a flowchart of another beacon data processing method according to an embodiment of the present invention. As shown in fig. 5, the beacon data processing method according to the embodiment of the present invention includes the following steps:

step S210, in response to the arrival instruction being triggered, determining a beacon signal set scanned by the task terminal. In an alternative implementation, step S210 may include: and in response to the arrival instruction being triggered, determining a beacon signal set according to at least one beacon signal scanned by the target task terminal within a preset time before the arrival instruction is triggered and/or within a preset time after the arrival instruction is triggered. That is, after the arrival instruction is triggered, the target task terminal acquires the beacon signal that is continuously scanned within a predetermined time (for example, within 5 s) before the arrival instruction is triggered to determine the beacon signal set. Or after the arrival instruction is triggered, the target task terminal acquires the beacon signals scanned within a continuous preset time (for example, within 5 s) after the arrival instruction is triggered so as to determine the beacon signal set. Or after the arrival instruction is triggered, the target task terminal acquires the beacon signals continuously scanned within a preset time (for example, within 5 s) before the arrival instruction is triggered and within a continuous preset time (for example, within 5 s) after the arrival instruction is triggered so as to determine the beacon signal set. It should be understood that the present embodiment does not limit the predetermined time before the arrival instruction is triggered and the predetermined time after the arrival instruction is triggered, and may be the same or different. Optionally, the arrival instruction is located in a task interface of the target task terminal in a control form.

And step S220, uploading a beacon signal set. Optionally, the beacon signal set is uploaded to a server or a corresponding network platform, so that the server or the network platform determines a beacon list of each task address according to each beacon signal set uploaded by each task terminal.

Taking a take-away application scenario as an example, in the data accumulation stage, the resource delivery terminal is made to respond to the store-arriving instruction and upload the beacon signal set scanned in the current period. Therefore, the server or the corresponding network platform can acquire a large number of beacon signal sets scanned by the distribution resources at each merchant, aggregate a plurality of beacon signal sets scanned at one merchant, acquire the same beacon signals of each beacon signal set and form a beacon list corresponding to the merchant, and therefore, when the arrival state is judged subsequently, the arrival prompt information is generated according to the predetermined beacon list and the matching state of the beacon signal sets scanned by the distribution resources, and the positioning accuracy of the distribution resources and the accuracy of the prompt information are improved.

In the embodiment, accumulation of the beacon signal sets corresponding to the task addresses is realized through the beacon signal sets uploaded by a large number of task terminals after the arrival instruction is triggered, so that the server or the corresponding network platform can determine the beacon list corresponding to each task address according to the obtained large number of beacon signal sets, and the accuracy of positioning and arrival state judgment of the subsequent target task terminals is improved.

Fig. 6 is a flowchart of a beacon data processing method according to another embodiment of the present invention. In an optional implementation manner, the method for determining a beacon list of this embodiment includes the following steps:

step S310, at least one beacon signal set corresponding to at least one task address is obtained. Optionally, in the process of executing the task by the task terminal, at least one beacon signal set scanned when each task terminal reaches each task address is obtained. In an optional implementation manner, for a task address, beacon signals scanned by a plurality of task terminals at the task address are acquired, and the beacon signals scanned by each task terminal at the task address within a continuous preset time are screened to determine a beacon signal set of each task terminal at the task address. Therefore, the beacon signals which are accidentally scanned by the task terminal can be screened out, and the positioning accuracy is improved.

Step S320, aggregating the beacon signal sets, and determining a beacon list corresponding to each task address. In an optional implementation manner, the beacon list corresponding to a task address is determined according to the same beacon signal of each task terminal in a beacon signal set of the task address. For example, for the historical task record in a continuous week, the set of beacon signals scanned by the task terminal a at the task address is [ a, B, C ], the set of beacon signals scanned by the task terminal B at the task address is [ a, B, C ], the set of beacon signals scanned by the task terminal C at the task address is [ a, B ], and then the set of beacon signals scanned by each task terminal at the task address is aggregated to obtain the beacon list of the task address as [ a, B ].

Fig. 7 is a schematic diagram of a distribution of beacon devices according to an embodiment of the present invention. Taking a take-away application scenario as an example, a server or a network platform acquires beacon information of each merchant provided with a beacon device, acquires a beacon signal set scanned when each distribution resource terminal (target task terminal) clicks a store, and determines a beacon list corresponding to the merchant according to the beacon signal set of each distribution resource terminal corresponding to the merchant. As shown in fig. 7, in the merchant A, B, C, D, E, F, a beacon device a, a beacon device B, a beacon device C, a beacon device d, and a beacon device F are provided in the merchant a, the merchant B, the merchant C, the merchant E, and the merchant F, respectively, and the merchant B is not provided with a beacon device. Taking the beacon list of the confirmed merchant E as an example, acquiring a beacon signal set uploaded when each distribution resource terminal corresponding to the merchant E clicks to reach the merchant E, and determining the beacon list of the merchant E according to the same beacon signal in the beacon signal set corresponding to each distribution resource terminal. For example, for the merchant E, the beacon signal set uploaded by the resource distribution terminal q1 is [ b, d, f ], the beacon signal set uploaded by the resource distribution terminal q2 is [ a, b, d, f ], the beacon signal set uploaded by the resource distribution terminal q3 is [ b, c, d, f ], the beacon signal set uploaded by the resource distribution terminal q4 is [ a, b, c, d, f ], and the beacon list of the merchant E is determined as [ b, d, f ].

In the embodiment, the beacon signals scanned by each task terminal at the task address within the continuous preset time are screened to determine the beacon signal set of each task terminal at the task address, and the beacon list corresponding to the task address is determined according to the same beacon signal of each task terminal in the beacon signal set of the task address, so that the beacon signals scanned by the task terminal accidentally can be screened out, all or most of the beacon signals in the target task list can be ensured to be scanned when the task terminal reaches the target task address, and the positioning accuracy is improved.

Fig. 8 is a flowchart of a beacon data processing method according to another embodiment of the present invention. As shown in fig. 8, the beacon data processing method according to the embodiment of the present invention includes the following steps:

step S410, a beacon signal set corresponding to the target task address is obtained. Optionally, the beacon signal set is a beacon signal set continuously scanned by the target task terminal in the current period.

Step S420, determine a target beacon list corresponding to the target task address. And determining a target beacon list in each predetermined beacon list according to the identification of the target task address.

In an optional implementation manner, a beacon signal set corresponding to each task address of a plurality of task terminals is obtained, the beacon signal sets are aggregated, a beacon list corresponding to each task address is determined, and a beacon association map between the task addresses is determined according to each beacon signal set. And beacon equipment or non-equipment beacon equipment is arranged in each task address.

And step S430, generating and sending prompt information according to the matching state of the beacon signal set and the target beacon list.

In an optional implementation manner, if the target task address is not set with a beacon device, or if the beacon device set with the target task address is not turned on or is damaged, the target task terminal may be located by the beacon devices around the target task address. The step S430 includes: and generating and sending legal arrival information in response to the fact that the proportion of the beacon signals in the beacon signal set to the same beacon signals in the target beacon list is larger than or equal to a preset value. Wherein, the legal arrival information represents that the target task terminal is located at the target task address. Optionally, the ratio may be a ratio of the number of the same beacon signal to the number of beacon signals in the target beacon list, and it should be understood that the ratio may also be a ratio of the number of the same beacon signal to the number of beacon signals in the beacon signal set, which is not limited in this embodiment. Optionally, the preset value may be set to be 60% to 100%.

In another optional mode, the target task address is provided with a beacon device, and the beacon device works normally, so that the target task terminal can be located through the beacon device of the target task address. Step S330 includes: and responding to the target beacon signals in the beacon signal set, wherein the target beacon signals comprise the target beacon list, and generating and sending legal arrival information. And the target beacon signal is a signal of a beacon device arranged at the target task address. That is, if the target task terminal scans the target beacon signal, it may be determined that the target task terminal is located at the target task address. In other optional implementation manners, when the beacon device is set at the target task address and the beacon device works normally, the beacon device signals around the beacon device may also be used as a reference to determine the location of the target task terminal, which is not limited in this embodiment.

In an optional implementation manner, step S330 further includes: in response to the set of beacon signals not matching the target beacon list, generating and transmitting illegal arrival information. In an optional implementation manner, the beacon data processing method of this embodiment further includes: in response to the beacon signal set not matching the target beacon list, illegal arrival information is generated and transmitted. Optionally, when the ratio of the beacon signal in the beacon signal set to the same beacon signal in the target beacon list is smaller than a preset value, or the beacon signal set does not include the target beacon signal in the target beacon list, it is determined that the target task terminal is not at the target task address, and illegal arrival information is generated. For example, the illegal arrival information may be "the currently sent message arriving at the target task address is an illegal action" or the like.

In the embodiment, the beacon signal set corresponding to the target task address is obtained, the target beacon list corresponding to the target task address is determined, and the prompt message is generated and sent according to the matching state of the beacon signal set and the target beacon list, so that whether the target task terminal legally reaches the target task address can be determined according to the beacon association map of the target task address and the peripheral task addresses, and the positioning accuracy of the target task terminal and the accuracy of the generated prompt message are improved.

Fig. 9 is a flowchart of a beacon data processing method according to another embodiment of the present invention. As shown in fig. 9, the beacon data processing method according to the embodiment of the present invention includes the following steps:

step S1: in response to the arrival instruction being triggered, the target task terminal 91 determines the set of beacon signals that the target task address terminal scans. In an alternative implementation, step S1 may include: in response to the arrival instruction being triggered, the beacon signal set is determined according to at least one beacon signal scanned by the target task terminal 91 within a predetermined time before the arrival instruction is triggered and/or within a predetermined time after the arrival instruction is triggered.

Step S2: the target task terminal 91 transmits a beacon signal set to the server 92.

Step S3: the server 92 determines a target beacon list corresponding to the target task terminal. Optionally, the identifier of the target task address is determined according to the target task corresponding to the target task terminal 91, and the target beacon list is determined in each predetermined beacon list according to the identifier of the target task address.

Step S4: the server 92 generates the prompt message according to the matching state of the beacon signal set and the target beacon list. In an optional implementation manner, if the target task address is not set with a beacon device, or if the beacon device set with the target task address is not turned on or is damaged, the target task terminal may be located by the beacon devices around the target task address. Step S4 includes: and generating and sending legal arrival information in response to the fact that the proportion of the beacon signals in the beacon signal set to the same beacon signals in the target beacon list is larger than or equal to a preset value. Wherein, the legal arrival information represents that the target task terminal is located at the target task address. In another optional mode, the target task address is provided with a beacon device, and the beacon device works normally, so that the target task terminal can be located through the beacon device of the target task address. Step S4 includes: and responding to the target beacon signals in the beacon signal set, wherein the target beacon signals comprise the target beacon list, and generating and sending legal arrival information. And the target beacon signal is a signal of a beacon device arranged at the target task address. In another alternative implementation, illegal arrival information is generated and transmitted in response to the set of beacon signals not matching the target beacon list.

In step S5, the server 92 sends a prompt message to the target task terminal 91. In an alternative implementation, the prompt message is a legal arrival message or an illegal arrival message.

Step S6: the target task terminal 91 displays a prompt message on its display interface. As shown in fig. 3 and fig. 4, this embodiment is not described again. In other alternative implementations, the prompt may also be performed according to a voice message, which is not limited in this embodiment.

In the embodiment, the beacon signal set corresponding to the target task address is determined through the target task terminal, the target beacon list corresponding to the target task address is determined through the server, and the prompt message is generated and sent to the target task terminal according to the matching state of the beacon signal set and the target beacon list, so that whether the target task terminal legally reaches the target task address can be determined according to the beacon association map of the target task address and the surrounding task addresses, and the positioning accuracy of the target task terminal and the accuracy of the generated prompt message are improved.

Fig. 10 is a schematic diagram of a beacon data processing apparatus according to an embodiment of the present invention. As shown in fig. 10, the beacon data processing device 10 of the embodiment of the present invention includes a list acquisition unit 101, a set determination unit 102, and an information generation unit 103.

The list acquisition unit 101 is configured to acquire a target beacon list corresponding to a target task address. In an optional implementation manner, the target beacon list is determined according to a set of beacon signals scanned by a plurality of task terminals at the target task address. Optionally, the beacon signal in the target beacon list is a beacon signal scanned by a plurality of task terminals at the target task address for a continuous preset time.

The set determining unit 102 is configured to determine a set of beacon signals scanned by the target task terminal. In an optional implementation manner, the set determining unit 102 is further configured to determine a set of beacon signals scanned by the target task terminal in response to the arrival instruction being triggered. In an alternative implementation, the set determination unit 102 comprises a first set determination subunit 1021. The first set determining subunit 1021 is configured to determine the beacon signal set according to at least one beacon signal scanned by the target task terminal within a predetermined time before the arrival instruction is triggered and/or within a predetermined time after the arrival instruction is triggered. In another alternative implementation, the set determination unit 102 includes a scanning subunit and a second set determination subunit. The scanning subunit is configured to control the target task terminal to scan the beacon signals in the target beacon list. The second set determining subunit is configured to determine the beacon signal set according to the beacon signals in the target beacon list scanned by the target task terminal.

The information generating unit 103 is configured to generate the prompt information according to a matching state of the beacon signal set and the target beacon list.

In an alternative implementation, the information generating unit 103 includes a first information generating sub-unit 1031. The first information generating subunit 1031 is configured to generate legal arrival information, in response to a ratio of a beacon signal in the beacon signal set to the same beacon signal in the target beacon list being greater than or equal to a preset value, where the legal arrival information is used to represent that the target task terminal is located at the target task address.

In an alternative implementation, the information generating unit 103 includes a second information generating subunit 1032. The second information generating subunit 1032 is configured to generate the legal arrival information in response to a target beacon signal included in the target beacon list in the beacon signal set, where the target beacon signal is a signal of a beacon device set at the target task address.

In an alternative implementation, the information generating unit 103 comprises a third information determining subunit 1033. The third information determining subunit 1033 is configured to generate illegal arrival information in response to the set of beacon signals not matching the target beacon list.

In an optional implementation manner, the beacon data processing apparatus 10 of the present embodiment further includes a first uploading unit 104. The first uploading unit 104 is configured to upload the beacon signal set so that the server or the corresponding network platform can periodically update the beacon list corresponding to each task address according to the acquired beacon signal set, thereby improving the accuracy of the beacon list corresponding to each task address.

In the embodiment, the target beacon list corresponding to the target task address is obtained, the beacon signal set scanned by the target task terminal is determined, and the prompt information is generated according to the matching state of the beacon signal set and the target beacon list, so that the positioning accuracy of the target task terminal and the accuracy of the prompt information can be improved.

Fig. 11 is a schematic diagram of another beacon data processing apparatus according to an embodiment of the present invention. As shown in fig. 11, the beacon data processing apparatus 11 of the embodiment of the present invention includes a set determination unit 111 and a second upload unit 112.

The set determination unit 111 is configured to determine a set of beacon signals scanned by the task terminal in response to the arrival instruction being triggered. In an alternative implementation, set determination unit 111 includes set determination subunit 1111. Set determination subunit 1111 is configured to determine the set of beacon signals according to at least one beacon signal that the task terminal scanned within a predetermined time before the arrival instruction was triggered and/or within a predetermined time after the arrival instruction was triggered.

The second uploading unit 112 is configured to upload the set of beacon signals.

In the embodiment, accumulation of the beacon signal sets corresponding to the task addresses is realized through the beacon signal sets uploaded by a large number of task terminals after the arrival instruction is triggered, so that the server or the corresponding network platform can determine the beacon list corresponding to each task address according to the obtained large number of beacon signal sets, and the accuracy of positioning and arrival state judgment of the subsequent target task terminals is improved.

Fig. 12 is a schematic diagram of a beacon data processing apparatus according to another embodiment of the present invention. As shown in fig. 12, the beacon data processing unit 12 of the present embodiment includes a set acquisition unit 121 and an aggregation unit 122. The set acquiring unit 121 is configured to acquire at least one beacon signal set corresponding to at least one task address. The aggregation unit 122 is configured to aggregate the beacon signal sets, and determine a beacon list corresponding to each task address.

In an alternative implementation, the set acquisition unit 121 includes a signal acquisition subunit 1211 and a cleaning subunit 1212. The signal acquisition subunit 1211 is configured to, for a task address, acquire a beacon signal that a plurality of task terminals scan at the task address. The cleaning subunit 1212 is configured to filter the beacon signals scanned by each of the task terminals at the task address for a preset time to determine a set of beacon signals of each of the task terminals at the task address.

In an alternative implementation, the aggregation unit 122 includes an aggregation subunit 1221. The aggregation sub-unit 1221 is configured to, for a task address, determine a beacon list corresponding to the task address according to the same beacon signal of each of the task terminals in the beacon signal set of the task address.

In an optional implementation manner, the beacon data processing unit 12 of the present embodiment further includes a target set acquiring unit 123, a target list determining unit 124, an information generating unit 125, and an information transmitting unit 126.

The target set acquiring unit 123 is configured to acquire a beacon signal set corresponding to the target task address. The target list determining unit 124 is configured to determine a target beacon list corresponding to the target task address. The information generating unit 125 is configured to generate the prompt information according to a matching state of the beacon signal set and the target beacon list. The information transmitting unit 126 is configured to transmit the prompt information.

In an alternative implementation, the information generating unit 125 includes a first information generating sub-unit 1251.

The first information generating subunit 1251 is configured to generate, in response to that a ratio of a beacon signal in the beacon signal set to an identical beacon signal in the target beacon list is greater than or equal to a preset value, legal arrival information, where the legal arrival information is used to represent that the target task terminal is located at the target task address.

In an alternative implementation, the information generating unit 125 includes a second information generating sub-unit 1252. The second information generating subunit 1252 is configured to generate the legal arrival information in response to a target beacon signal included in the target beacon list in the beacon signal set, the target beacon signal being a signal of a beacon device set at the target task address.

In an alternative implementation, the information generating unit 125 includes a third information generating sub-unit 1253. The third information generating subunit 1253 is configured to generate illegal arrival information in response to the set of beacon signals not matching the target beacon list.

In the embodiment, the beacon signals scanned by each task terminal at the task address within the continuous preset time are screened to determine the beacon signal set of each task terminal at the task address, and the beacon list corresponding to the task address is determined according to the same beacon signal of each task terminal in the beacon signal set of the task address, so that the beacon signals scanned by the task terminal accidentally can be screened out, all or most of the beacon signals in the target task list can be ensured to be scanned when the task terminal reaches the target task address, and the positioning accuracy is improved.

Fig. 13 is a schematic diagram of an electronic device of an embodiment of the invention. In the present embodiment, the electronic device 13 includes a server, a terminal, and the like. As shown in fig. 13, the electronic device 13: at least one processor 131; and a memory 132 communicatively coupled to the at least one processor 131; and a communication component 133 communicatively coupled to the scanning device, the communication component 133 receiving and transmitting data under control of the processor 131; the memory 132 stores instructions executable by the at least one processor 131, and the instructions are executed by the at least one processor 131 to implement the beacon data processing method.

Specifically, the electronic device includes: one or more processors 131 and a memory 132, with one processor 131 being an example in fig. 13. The processor 131 and the memory 132 may be connected by a bus or other means, and fig. 13 illustrates the connection by a bus as an example. Memory 132, which is a non-volatile computer-readable storage medium, may be used to store non-volatile software programs, non-volatile computer-executable programs, and modules. The processor 131 executes various functional applications and data processing of the device, that is, implements the above-described beacon data processing method, by executing nonvolatile software programs, instructions, and modules stored in the memory 132.

The memory 132 may include a storage program area and a storage data area, wherein the storage program area may store an operating system, an application program required for at least one function; the storage data area may store a list of options, etc. Further, the memory 132 may include high speed random access memory, and may also include non-volatile memory, such as at least one magnetic disk storage device, flash memory device, or other non-volatile solid state storage device. In some embodiments, memory 132 may optionally include memory located remotely from processor 131, which may be connected to an external device via a network. Examples of such networks include, but are not limited to, the internet, intranets, local area networks, mobile communication networks, and combinations thereof.

One or more modules are stored in the memory 132, and when executed by the one or more processors 131, perform the beacon data processing method in any of the method embodiments described above.

The product can execute the method provided by the embodiment of the application, has corresponding functional modules and beneficial effects of the execution method, and can refer to the method provided by the embodiment of the application without detailed technical details in the embodiment.

According to the embodiment of the invention, the target beacon list corresponding to the target task address is obtained, the beacon signal set scanned by the target task terminal is determined, and the prompt information is generated according to the matching state of the beacon signal set and the target beacon list, so that the positioning accuracy of the target task terminal and the accuracy of the prompt information can be improved.

Another embodiment of the invention is directed to a non-transitory storage medium storing a computer-readable program for causing a computer to perform some or all of the above-described method embodiments.

That is, as can be understood by those skilled in the art, all or part of the steps in the method for implementing the embodiments described above may be accomplished by specifying the relevant hardware through a program, where the program is stored in a storage medium and includes several instructions to enable a device (which may be a single chip, a chip, or the like) or a processor (processor) to execute all or part of the steps of the method described in the embodiments of the present application. And the aforementioned storage medium includes: a U-disk, a removable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk, and other various media capable of storing program codes.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

The embodiment of the invention discloses A1 and a beacon data processing method, wherein the method comprises the following steps:

acquiring a target beacon list corresponding to a target task address;

determining a beacon signal set scanned by a target task terminal;

and generating prompt information according to the matching state of the beacon signal set and the target beacon list.

A2, the method according to A1, wherein determining the set of beacon signals scanned by the target task terminal includes:

and determining the beacon signal set scanned by the target task terminal in response to the arrival instruction being triggered.

A3, the method according to A2, wherein determining the set of beacon signals scanned by the target task terminal includes:

and determining the beacon signal set according to at least one beacon signal scanned by the target task terminal within a preset time before the arrival instruction is triggered and/or within a preset time after the arrival instruction is triggered.

A4, the method according to a1 or a2, wherein determining the set of beacon signals scanned by the target task terminal comprises:

controlling the target task terminal to scan the beacon signals in the target beacon list;

and determining the beacon signal set according to the beacon signals in the target beacon list scanned by the target task terminal.

A5, the method of A1, wherein generating hint information based on the match status of the set of beacon signals with the list of target beacons includes:

and generating legal arrival information in response to the fact that the proportion of the beacon signals in the beacon signal set to the same beacon signals in the target beacon list is larger than or equal to a preset value, wherein the legal arrival information is used for representing that the target task terminal is located at the target task address.

A6, the method of A1, wherein generating hint information based on the match status of the set of beacon signals with the list of target beacons includes:

and responding to a target beacon signal in the beacon signal set, wherein the target beacon signal comprises a target beacon signal in the target beacon list, and legal arrival information is generated, and the target beacon signal is a signal of a beacon device arranged at the target task address.

A7, the method of A1, wherein generating hint information based on the match status of the set of beacon signals with the list of target beacons further comprises:

in response to the set of beacon signals not matching the target beacon list, generating illegal arrival information.

A8, the method according to A1, wherein the target beacon list is determined according to the set of beacon signals scanned by a plurality of task terminals at the target task address.

A9, the method according to A1, wherein the beacon signals in the target beacon list are the beacon signals scanned by a plurality of task terminals at the target task address for a preset time continuously.

A10, the method according to A1, wherein the method further comprises:

and uploading the beacon signal set.

The embodiment of the invention also discloses B1 and a beacon data processing method, wherein the method comprises the following steps:

in response to the arrival instruction being triggered, determining a beacon signal set scanned by the task terminal;

and uploading the beacon signal set.

B2, the method according to B1, wherein determining the set of beacon signals scanned by the task terminal comprises:

and determining the beacon signal set according to at least one beacon signal scanned by the task terminal within a preset time before the arrival instruction is triggered and/or within a preset time after the arrival instruction is triggered.

The embodiment of the invention also discloses C1 and a beacon data processing method, wherein the method comprises the following steps:

acquiring at least one beacon signal set corresponding to at least one task address;

and aggregating each beacon signal set, and determining a beacon list corresponding to each task address.

C2, the method according to C1, wherein the obtaining at least one beacon signal set corresponding to at least one task address includes:

for a task address, acquiring beacon signals scanned by a plurality of task terminals at the task address;

and screening beacon signals scanned by each task terminal at the task address for a continuous preset time to determine a beacon signal set of each task terminal at the task address.

C3, the method according to C1, wherein the aggregating the beacon signal sets and determining the beacon list corresponding to each task address includes:

and for a task address, determining a beacon list corresponding to the task address according to the same beacon signal of each task terminal in the beacon signal set of the task address.

C4, the method of C1, wherein the method further comprises:

acquiring a beacon signal set corresponding to a target task address;

determining a target beacon list corresponding to the target task address;

and generating and sending prompt information according to the matching state of the beacon signal set and the target beacon list.

C5, the method according to C4, wherein the generating and sending prompt information according to the matching state of the beacon signal set and the target beacon list comprises:

and generating and sending legal arrival information in response to the fact that the proportion of the beacon signals in the beacon signal set to the same beacon signals in the target beacon list is larger than or equal to a preset value, wherein the legal arrival information is used for representing that the target task terminal is located at the target task address.

C6, the method according to C4, wherein the generating and sending prompt information according to the matching state of the beacon signal set and the target beacon list comprises:

and responding to a target beacon signal in the beacon signal set, wherein the target beacon signal comprises a target beacon signal in the target beacon list, and generating and sending legal arrival information, and the target beacon signal is a signal of a beacon device arranged at the target task address.

C7, the method according to C4, wherein the generating and sending prompt information according to the matching state of the beacon signal set and the target beacon list comprises:

in response to the set of beacon signals not matching the target beacon list, generating and transmitting illegal arrival information.

The embodiment of the invention also discloses D1 and a beacon data processing device, wherein the device comprises:

the list acquisition unit is configured to acquire a target beacon list corresponding to the target task address;

a set determination unit configured to determine a set of beacon signals scanned by a target task terminal;

an information generating unit configured to generate prompt information according to a matching state of the beacon signal set and the target beacon list.

The apparatus of D2, the apparatus of D1, wherein the set determination unit is further configured to determine a set of beacon signals that a target task terminal scans for in response to an arrival instruction being triggered.

D3, the apparatus of D1, wherein the set determination unit includes:

a first set determination subunit configured to determine the beacon signal set according to at least one beacon signal scanned by the target task terminal within a predetermined time before the arrival instruction is triggered and/or within a predetermined time after the arrival instruction is triggered.

D4, the apparatus according to D1 or D2, wherein the set determining unit includes:

a scanning subunit configured to control the target task terminal to scan the beacon signals in the target beacon list;

a second set determination subunit configured to determine the beacon signal set according to the beacon signal in the target beacon list scanned by the target task terminal.

D5, the apparatus of D1, wherein the information generating unit comprises:

and the first information generation subunit is configured to generate legal arrival information in response to that the ratio of the beacon signal in the beacon signal set to the same beacon signal in the target beacon list is greater than or equal to a preset value, wherein the legal arrival information is used for representing that the target task terminal is located at the target task address.

D6, the apparatus of D1, wherein the information generating unit comprises:

a second information generating subunit configured to generate legal arrival information in response to a target beacon signal included in the target beacon list in the beacon signal set, the target beacon signal being a signal of a beacon device set at the target task address.

D7, the apparatus of D1, wherein the information generating unit further comprises:

a third information determination subunit configured to generate illegal arrival information in response to the set of beacon signals not matching the target beacon list.

D8, the apparatus according to D1, wherein the target beacon list is determined according to a set of beacon signals scanned by a plurality of task terminals at the target task address.

D9, the device according to D1, wherein the beacon signals in the target beacon list are the beacon signals scanned by a plurality of task terminals at the target task address for a preset time continuously.

D10, the apparatus of D1, wherein the apparatus further comprises:

a first uploading unit configured to upload the set of beacon signals.

The embodiment of the invention also discloses E1 and a beacon data processing device, wherein the device comprises:

a set determination unit configured to determine a set of beacon signals scanned by the task terminal in response to the arrival instruction being triggered;

a second uploading unit configured to upload the set of beacon signals.

E2, the apparatus of E1, wherein the set determination unit includes:

a set determining subunit configured to determine the beacon signal set according to at least one beacon signal scanned by the task terminal within a predetermined time before the arrival instruction is triggered and/or within a predetermined time after the arrival instruction is triggered.

The embodiment of the invention also discloses F1 and a beacon data processing device, wherein the device comprises:

the device comprises a set acquisition unit, a task address acquisition unit and a task processing unit, wherein the set acquisition unit is configured to acquire at least one beacon signal set corresponding to at least one task address;

and the aggregation unit is configured to aggregate the beacon signal sets and determine a beacon list corresponding to each task address.

F2, the apparatus according to F1, wherein the set obtaining unit includes:

the signal acquisition subunit is configured to acquire, for a task address, beacon signals scanned by a plurality of task terminals at the task address;

and the signal cleaning subunit is configured to screen the beacon signals scanned by each task terminal at the task address for a continuous preset time so as to determine a beacon signal set of each task terminal at the task address.

F3, the device of F1, wherein the polymerization unit comprises:

and the aggregation subunit is configured to determine, for a task address, a beacon list corresponding to the task address according to the same beacon signal of each task terminal in the beacon signal set of the task address.

F4, the device according to F1, wherein the device further comprises:

the target set acquisition unit is configured to acquire a beacon signal set corresponding to a target task address;

a target list determining unit configured to determine a target beacon list corresponding to the target task address;

an information generating unit configured to generate prompt information according to a matching state of the beacon signal set and the target beacon list;

an information transmitting unit configured to transmit the prompt information.

F5, the device according to F4, wherein the information generating unit includes:

and the first information generation subunit is configured to generate legal arrival information in response to that the ratio of the beacon signal in the beacon signal set to the same beacon signal in the target beacon list is greater than or equal to a preset value, wherein the legal arrival information is used for representing that the target task terminal is located at the target task address.

F6, the device according to F4, wherein the information generating unit includes:

a second information generating subunit configured to generate legal arrival information in response to a target beacon signal included in the target beacon list in the beacon signal set, the target beacon signal being a signal of a beacon device set at the target task address.

F7, the device according to F4, wherein the information generating unit includes:

a third information generating subunit configured to generate illegal arrival information in response to the beacon signal set not matching the target beacon list.

The embodiment of the invention also discloses G1, an electronic device, comprising a memory and a processor, wherein the memory is used for storing one or more computer program instructions, the one or more computer program instructions are executed by the processor to realize the method according to any one of A1-A10 and/or the method according to any one of B1-B2 and/or the method according to any one of C1-C7.

H1, a computer readable storage medium having stored thereon computer program instructions, wherein the computer program instructions, when executed by a processor, implement a method as defined in any of a1-a10 and/or a method as defined in any of B1-B2 and/or a method as defined in any of C1-C7.

Claims (10)

1. A method for beacon data processing, the method comprising:

acquiring a target beacon list corresponding to a target task address;

determining a beacon signal set scanned by a target task terminal;

and generating prompt information according to the matching state of the beacon signal set and the target beacon list.

2. The method of claim 1, wherein determining a set of beacon signals scanned by a target task terminal comprises:

and determining the beacon signal set scanned by the target task terminal in response to the arrival instruction being triggered.

3. The method of claim 2, wherein determining the set of beacon signals scanned by the target task terminal comprises:

and determining the beacon signal set according to at least one beacon signal scanned by the target task terminal within a preset time before the arrival instruction is triggered and/or within a preset time after the arrival instruction is triggered.

4. A method for beacon data processing, the method comprising:

in response to the arrival instruction being triggered, determining a beacon signal set scanned by the task terminal;

and uploading the beacon signal set.

5. A method for beacon data processing, the method comprising:

acquiring at least one beacon signal set corresponding to at least one task address;

and aggregating each beacon signal set, and determining a beacon list corresponding to each task address.

6. A beacon data processing apparatus, characterized in that the apparatus comprises:

the list acquisition unit is configured to acquire a target beacon list corresponding to the target task address;

a set determination unit configured to determine a set of beacon signals scanned by a target task terminal;

an information generating unit configured to generate prompt information according to a matching state of the beacon signal set and the target beacon list.

7. A beacon data processing apparatus, characterized in that the apparatus comprises:

a set determination unit configured to determine a set of beacon signals scanned by the task terminal in response to the arrival instruction being triggered;

a second uploading unit configured to upload the set of beacon signals.

8. A beacon data processing apparatus, characterized in that the apparatus comprises:

the device comprises a set acquisition unit, a task address acquisition unit and a task processing unit, wherein the set acquisition unit is configured to acquire at least one beacon signal set corresponding to at least one task address;

and the aggregation unit is configured to aggregate the beacon signal sets and determine a beacon list corresponding to each task address.

9. An electronic device comprising a memory and a processor, wherein the memory is configured to store one or more computer program instructions, wherein the one or more computer program instructions are executed by the processor to implement the method of any of claims 1-5.

10. A computer-readable storage medium on which computer program instructions are stored, which computer program instructions, when executed by a processor, are to implement a method according to any one of claims 1-5.

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