CN110942527B - Sign-in and information sending method, client, electronic device and storage medium - Google Patents

Abstract

The specification provides a check-in and information transmission method, a client, an electronic device, and a storage medium. The method may include: generating position information through a position information generating module; under the condition that the position information generating module does not successfully generate the position information, the position information acquiring module is used for sending a position information acquiring request to a second client; under the condition of receiving the position information fed back by the second client, sending a check-in request to a server; wherein the location information is attached to the check-in request.

Description

Sign-in and information sending method, client, electronic device and storage medium

Technical Field

The present disclosure relates to the field of computer internet, and in particular, to a check-in and information sending method, a client, an electronic device, and a storage medium.

Background

In real life, people are used to go to a brick and mortar store for shopping. For example, to some supermarkets, daily food and commodities are purchased.

Currently, a presentity store provides a delivery service to consumers. The consumer can purchase the commodity through the APP of the mobile phone or through shopping in the physical store, and the commodity can be distributed to a place designated by the consumer through a distribution server provided by the physical store. In the prior art, after a distributor arrives at a physical store, a manager is found to sign in, and then a distribution task is obtained.

Disclosure of Invention

The embodiment of the specification provides a sign-in and information sending method, a client, electronic equipment and a storage medium. The client can be effectively positioned, and the sign-in convenience is improved.

The implementation mode of the specification provides a sign-in method which is applied to a first client; the method comprises the following steps: generating position information through a position information generating module; under the condition that the position information generating module does not successfully generate the position information, the position information acquiring module is used for sending a position information acquiring request to a second client; under the condition that the position information fed back by the second client is received, a sign-in request is sent to a server; wherein the location information is attached to the check-in request.

An embodiment of the present specification provides a client, including: the device comprises a generating module, an obtaining module and a sending module; the generating module is used for generating the position information through the position information generating module; the obtaining module is used for sending a position information obtaining request to a second client by using the position information obtaining module under the condition that the position information generating module does not successfully generate the position information; the sending module is used for sending a sign-in request to a server under the condition of receiving the position information fed back by the second client; wherein the location information is attached to the check-in request.

An embodiment of the present specification provides an electronic device, including: the system comprises a network communication unit, a positioning module and a short-distance communication module; the positioning module is used for generating position information of the electronic equipment; the short-distance communication module is used for sending a position information acquisition request to the target electronic equipment under the condition that the positioning module does not successfully generate the position information; the position information sent by the target electronic equipment can be received; the network communication unit is used for sending a check-in request to the server; wherein the check-in request is accompanied by the location information.

The present specification embodiments provide a computer storage medium having computer program instructions stored thereon that, when executed, implement: generating position information through a position information generating module; under the condition that the position information generating module does not successfully generate the position information, the position information acquiring module is used for sending a position information acquiring request to a second client; under the condition that the position information fed back by the second client is received, a sign-in request is sent to a server; wherein the location information is attached to the check-in request.

An embodiment of the present specification provides a location information sending method, which is applied to a second client, and the method includes: receiving a position information acquisition request sent by a first client; generating location information using a location information generation module; the position information is used for representing the position of the second client; sending the position information generated by the position information generation module to the first client for the first client to send a sign-in request to a server; wherein the location information is attached to the check-in request.

An embodiment of the present specification provides a location information sending method, which is applied to a second client, and the method includes: receiving a position information acquisition request sent by a first client; generating location information using a location information generation module; under the condition that the position information generating module does not successfully generate the position information, the position information acquiring module is used for sending a position information acquiring request to a third client; under the condition of receiving the position information fed back by the third client, sending the position information to the first client for the first client to send a check-in request to a server; wherein the location information is attached to the check-in request.

An embodiment of the present specification provides a client, including: the device comprises a receiving module, a generating module, a sending module and a receiving and sending module; the receiving module is used for receiving a position information acquisition request sent by a request client; the generating module is used for generating the position information by using the position information generating module; the sending module is used for sending a position information acquisition request to the target client by using the position information acquisition module under the condition that the position information generation module does not successfully generate the position information; the receiving and sending module is used for sending the position information to the request client under the condition of receiving the position information fed back by the target client, so that the request client sends a sign-in request to a server; wherein the location information is attached to the check-in request.

An embodiment of the present specification provides an electronic device, including: a positioning module and a short-range communication module; the positioning module is used for generating position information of the electronic equipment; the short-distance communication module is used for receiving a position information acquisition request of the electronic equipment; under the condition that the positioning module does not successfully generate the position information, sending a position information acquisition request to the target electronic equipment; under the condition that position information fed back by the target electronic equipment is received, the position information is sent to the request electronic equipment so that the request electronic equipment can send a sign-in request to a server; wherein the location information is attached to the check-in request.

The present specification embodiments provide a computer storage medium storing computer program instructions that, when executed, implement: receiving a position information acquisition request sent by a request client; generating location information using a location information generation module; under the condition that the position information generating module does not successfully generate the position information, a position information acquiring module is used for sending a position information acquiring request to a target client; under the condition of receiving the position information fed back by the target client, sending the position information to the request client for sending a check-in request to a server by the request client; wherein the location information is attached to the check-in request.

The embodiment of the specification provides a check-in method, which comprises the following steps: receiving a check-in request sent by a first client; wherein the check-in request is accompanied by location information; the position information is the position information of a second client acquired by the first client; and under the condition that the position information is located in a specified area, the first client is considered to be successfully checked in.

The implementation mode of the specification provides a check-in method which is applied to a first client; the method comprises the following steps: sending a position information acquisition request to a second client; under the condition of receiving the position information fed back by the second client, sending a check-in request to a server; wherein the location information is attached to the check-in request.

The embodiment of the specification provides a check-in method, which is applied to a second client side and comprises the following steps: generating position information; wherein the location information is used for representing the location of the second client; sending the position information to a first client for the first client to send a sign-in request to a server; wherein the location information is attached to the check-in request.

In the embodiment of the present specification, when the location information generation module of the client itself does not successfully generate the location information, by acquiring the location information of another client, the location of the client itself can be represented by the acquired location information. Therefore, the mode that the client obtains the position information representing the position of the client is enriched, and the client can be effectively positioned. Moreover, in the scene of using the position information to sign in, great convenience is brought to the staff for signing in.

Drawings

The accompanying drawings, which are included to provide a further understanding of embodiments of the specification, are incorporated in and constitute a part of this specification, illustrate embodiments of the specification and together with the description serve to explain the principles of the specification. It is obvious that the drawings in the following description are only some embodiments of the present description, and that for a person skilled in the art, other drawings can be derived from them without inventive exercise. In the drawings:

FIG. 1 is a schematic diagram of a scene interaction of a check-in method provided in an embodiment of the present specification;

fig. 2 is an interaction diagram of a mobile terminal and a server of a check-in method provided in an embodiment of the present specification;

FIG. 3 is a flow chart of a check-in method provided by embodiments of the present description;

fig. 4 is a functional block diagram of a client provided in an embodiment of the present specification;

fig. 5 is a flowchart of location information transmission provided in an embodiment of the present specification;

fig. 6 is a functional block diagram of a client according to an embodiment of the present disclosure;

fig. 7 is a flowchart of a method for sending location information according to an embodiment of the present disclosure;

fig. 8 is a functional block diagram of a client provided in an embodiment of the present specification;

fig. 9 is a flowchart of a check-in method provided in an embodiment of the present specification.

Detailed Description

In order to make the technical solutions in the present specification better understood, the technical solutions in the embodiments of the present specification will be clearly and completely described below with reference to the drawings in the embodiments of the present specification, and it is obvious that the described embodiments are only a part of the embodiments of the present specification, but not all embodiments. All other embodiments obtained by a person of ordinary skill in the art without any inventive work based on the embodiments in the present specification shall fall within the protection scope of the present specification.

Please refer to fig. 1 and fig. 2. In one example scenario, after the dispatcher arrives at the store, the first mobile terminal may be operated to check in and receive the assigned dispatch task.

In this scenario example, the first mobile terminal may be a smartphone. And the distributor operates the smart phone and starts a satellite positioning module of the smart phone. For example, the positioning is performed according to GPS satellite signals, or according to signals of a beidou satellite system, so as to generate position information.

In this scenario example, the first mobile station may consider that the first mobile station has not successfully generated the position information in a case where the first mobile station receives a weak satellite signal or does not receive a satellite signal because of the position where the first mobile station is located, or where the position information generated according to the received satellite signal is wrong.

In this scenario example, the dispatcher may further operate the first mobile terminal to activate the short-range wireless communication module of the first mobile terminal. Specifically, for example, a first mobile terminal is provided with a Wi-Fi module, and can establish communication with a second mobile terminal in a Wi-Fi signal range according to the Wi-Fi Peer to Peer function of the Wi-Fi module through the Wi-Fi Peer to Peer function. The first mobile terminal of the dispenser may obtain location information of other mobile terminals in accordance with the communication. In this way, the obtained position information can be used as the position information of itself.

In this scenario example, the first mobile terminal of the distributor may send the obtained location information to the server for check-in, and then queue to pick up the distribution task. Specifically, the first mobile terminal of the distributor may transmit the location information to the server based on the network communication unit. The server may compare the received location information with the specified location information. To determine whether the delivery person has reached the specified area indicated by the specified position information.

In the present scenario example, the location indicated by the designated location information of the server may be a location where the delivery person actually picks up the delivery package. Further, the server may form the designated area with the position indicated by the designated position information as a center of a circle and the distance from the designated distance as a radius. In this way, if the distance between the position information of the delivery person and the designated position information is smaller than the designated distance, the delivery person can be considered to be in the designated area, and the delivery person can be considered to have reached the area where the delivery package is taken. Furthermore, the identity information of the dispatchers can be added to the task getting queue, so that the dispatchers can be allocated with dispatching tasks according to the sequence of the task getting queue.

Please refer to fig. 3. The implementation mode of the specification provides a check-in method which is applied to a first client. The first client may be an electronic device having an arithmetic function. Specifically, for example, the first client may be a smartphone, a smart digital assistant, or a tablet computer. The check-in method may include the following steps.

Step S10: and generating the position information through a position information generating module.

In this embodiment, the position information generation module may generate the position information using the satellite signal. Specifically, for example, the location information generating module may generate the location information according to a GPS satellite, or may generate the location information according to a beidou satellite system.

In this embodiment, the starting position information generating module may include: inputting a starting instruction to the position information generating module, for example, forming an electric signal through high and low level jumping and inputting the electric signal to the position information generating module to activate the module; or the position information generating module is in operation, and the software program acquires the output of the position information generating module.

In the present embodiment, the location information is used to indicate a geographical location in real life. Specifically, the location information may be data information recorded in a latitude and longitude manner. It may be data information defined for facility naming in real life. Specifically, for example, the location information may be "26 street views".

Step S12: and under the condition that the position information generating module does not successfully generate the position information, the position information acquiring module is used for sending a position information acquiring request to a second client.

In this embodiment, the location information generation module does not successfully generate the location information, and it may be considered that the location information generation module fails to perform positioning with respect to the current geographic location. Thus, the first client does not obtain specific location information. At this time, the first client may further acquire the location information through the location information acquisition module.

In the present embodiment, the position information acquisition module may be an integrated module that performs communication using a short-range radio communication technology. Specifically, the technologies that the position information acquisition module can integrally adopt include: bluetooth, NFC technology (Near Field Communication), wi-Fi, etc. Specifically, for example, the location information obtaining module may communicate with the second client by using a Wi-Fi peer to obtain the location information of the second client. Of course, the location information obtaining module may not be limited to the short-range radio communication technology, but may also directly use network communication to send a location information obtaining request to a specific client to obtain the location information of the specific client. Specifically, the first client may connect to the internet through Wi-Fi or mobile communication, and send a location information acquisition request to another client through the internet. For example, after a distributor fails to generate location information at its own client, another distributor may be found to be nearby, and a location information acquisition request may be sent to the other distributor.

In the present embodiment, the location information acquisition request may be a request transmitted in compliance with a network communication protocol. By attaching a parameter to the request, it is indicated that the request requires the content of the second client response. Specifically, the parameter attached to the location information obtaining request may indicate that the second client needs to provide the location information. Of course, the location information obtaining request may also be an agreed character string, after the first client and the second client establish communication, the character string is sent to the second client through the location information obtaining module, and after the second client receives the character string, it may be considered that location information is to be provided to the first client.

Step S14: under the condition of receiving the position information fed back by the second client, sending a check-in request to a server; wherein the location information is attached to the check-in request.

In the present embodiment, the received position information may be used as the position information of the mobile terminal itself. As such, a check-in request may be sent to the server based on the location information. In this embodiment, the first client acquires the location information of the second client when the location information generation module does not successfully generate the location information. Therefore, the user of the first client can further adopt the acquired position information to indicate the position of the user, and the situation that the user cannot use the function based on the position information because the position information generating module does not successfully generate the position information is avoided. Specifically, for example, the deliverer returns to the location where the delivery package is picked up, but the first client used by the deliverer does not successfully generate the location information, and if the function provided by the embodiment is not available, the deliverer may need to wait until the location information generating module of the first client successfully generates the location information to be able to check in, queue, pick up and dispatch the task to the server. In contrast, in the present embodiment, by obtaining the location information of the second client, the deliverer may perform location determination with respect to the location of the deliverer when the location information generation module does not successfully generate the location information, that is, the location indicated by the obtained location information is used as the location of the deliverer. In this way, a queue pick-up task can be checked in at the server based on the acquired location information. Furthermore, the first client and the second client communicate with each other through a short-distance wireless communication technology, so that the first client and the second client communicate with each other only when the first client and the user of the second client are closer to each other, and the position information of the second client, which is acquired by the first client, can accurately represent the position of the user of the first client.

In this embodiment, the server may be provided with a check-in mechanism, and may perform a task assignment for the first client that has checked in. After receiving the check-in request, the server may determine whether the location of the client sending the check-in request is at the designated location, or may directly queue without determining. Specifically, for example, after the server receives the check-in request, it may be determined whether the location indicated by the location information is within the specified area. The designated area may be a real geographic area, and the designated area may be represented by latitude and longitude, for example, a square area formed by four latitude and longitude values, or a triangular area formed by 3 latitude and longitude values. Of course, the designated area is not limited to the above list.

In the embodiment of the present specification, when the location information generation module of the client itself has not successfully generated the location information, by acquiring the location information of another client, the location of the client itself can be represented by the acquired location information. Therefore, the mode that the client obtains the position information representing the position of the client is enriched, and the client can be effectively positioned. Moreover, in the scene of using the position information to sign in, great convenience is brought to the staff for signing in.

In one embodiment, sending a location information obtaining request to the second client by using the location information obtaining module may include: sending client detection information; receiving client detection information sent by a second client; establishing communication with the second client; and sending a position information acquisition request to the second client.

In this embodiment, the first client may send client probe information. Specifically, the client detection information may be an electrical signal, and is sent in an electric field manner; or, the signal may be a sound wave signal, which is transmitted by means of sound wave transmission. Specifically, for example, the first client sends the client probe information in a Wi-Fi Peer-to-Peer manner, and receives the client probe information of the second client, so that the two establish communication. Further, a location information acquisition request is sent to the second client based on the established communication.

In this embodiment, the first client may send the client probe information and receive the client probe information of the second client to establish communication. The method and the device can realize that more stable communication is established between the clients, and data can be transmitted between the communication established by the clients, so that the data transmission can be more reliable.

In one embodiment, the distance between the first client and the second client is less than a specified distance.

In this embodiment, the specified distance between the first client and the second client may be different according to the communication technology used between the two clients. Specifically, for example, when the first client and the second client communicate using the NFC technology, the specified distance may be 20 centimeters. When the first client and the second client communicate by using the bluetooth technology, the specified distance may be 10 meters.

In this embodiment, the distance between the first client and the second client is smaller than the specified distance, so that the location information of the second client obtained by the first client can also be used to indicate the location of the first client.

In one embodiment, sending the location information obtaining request to the second client by using the location information obtaining module may include: establishing communication with the second client using a short-range radio communication technology; and sending a position information acquisition request to the second client based on the communication.

In the present embodiment, the communication is established using a short-range radio communication technique such that the distance between the first client and the second client is relatively close. As such, the location information of the second client may also be used to represent the location of the first client. Therefore, under the condition that the first client side does not successfully generate the position information, the position information of the second client side is obtained, and the position information of the second client side is used for representing the position of the first client side. In this embodiment, the short-range radio communication technology may include, but is not limited to: bluetooth, NFC technology (Near Field Communication), wi-Fi, or the like. And will not be described in detail.

Please refer to fig. 4. An embodiment of the present specification provides a client, including: the device comprises a generating module, an obtaining module and a sending module.

And the generating module is used for generating the position information through the position information generating module.

The obtaining module is configured to send a location information obtaining request to a second client by using the location information obtaining module under the condition that the location information generating module does not successfully generate the location information.

The sending module is used for sending a sign-in request to a server under the condition of receiving the position information fed back by the second client; wherein the location information is attached to the check-in request.

In this embodiment, the functions and effects realized by the client may be explained by referring to other embodiments in this specification, and are not described herein again.

An embodiment of the present specification provides an electronic device, including: the device comprises a network communication unit, a positioning module and a short-distance communication module.

The positioning module is used for generating position information of the electronic equipment.

The short-distance communication module is used for sending a position information acquisition request to the target electronic equipment under the condition that the positioning module does not successfully generate the position information; and receiving the position information sent by the target electronic equipment.

The network communication unit is used for sending a check-in request to the server; wherein the check-in request is accompanied by the location information.

In this embodiment, the positioning module may be a positioning device that generates position information using satellite signals. Specifically, for example, the positioning module may use a GPS satellite system for positioning or a beidou satellite system for positioning.

In the present embodiment, the short-range communication module may be an integrated module that performs communication by an electric field or a sound wave. The network communication unit may be a device that performs network data communication in compliance with a network communication protocol. The target electronic device may be a client with certain computing capabilities. Specifically, for example, the target electronic device may be a smart phone, a smart digital assistant, a tablet computer, or the like. Of course, the target electronic device is not limited to the foregoing list and is not described in detail.

In this embodiment, specific functions and effects implemented by the electronic device may refer to other embodiments for comparison and explanation, which are not described in detail.

The present specification embodiments provide a computer storage medium having computer program instructions stored thereon that, when executed, implement: generating position information through a position information generating module; under the condition that the position information generating module does not successfully generate the position information, the position information acquiring module is used for sending a position information acquiring request to a second client; under the condition of receiving the position information fed back by the second client, sending a check-in request to a server; wherein the location information is attached to the check-in request.

In this embodiment, the computer storage medium includes, but is not limited to, a Random Access Memory (RAM), a Read-Only Memory (ROM), a Cache (Cache), a Hard Disk Drive (HDD), or a Memory Card (Memory Card).

In this embodiment, specific functions implemented by the computer storage medium can be explained with reference to other embodiments.

Please refer to fig. 5. The embodiment of the present specification provides a location information sending method, which is applied to a second client and may include the following steps.

Step S21: and receiving a position information acquisition request sent by a first client.

Step S23: generating location information using a location information generation module; the location information is used to represent the location of the second client.

Step S25: sending the position information generated by the position information generation module to the first client for the first client to send a sign-in request to a server; wherein the location information is attached to the check-in request.

In this embodiment, after receiving the location information acquisition request, the second client may generate location information using the location information generation module, and send the generated location information to the first client. So that the first client can use the location information provided by the second client to represent its own geographical location without successfully generating the location information. Therefore, the method for positioning the first client is enriched, and the method can be more suitable for complex use scenes.

In this embodiment, the technical features can be explained with reference to other embodiments, and are not described herein again.

Please refer to fig. 6. The embodiment of the specification provides a client. The client can comprise a receiving module, a generating module and a sending module.

The receiving module is used for receiving a position information obtaining request sent by a first client.

The generating module is used for generating the position information by using the position information generating module; the location information is used to represent the location of the second client.

The sending module is used for sending the position information generated by the position information generating module to the first client so that the first client sends a sign-in request to a server; wherein the location information is attached to the check-in request.

In this embodiment, the functions and effects realized by the client may be explained with reference to other embodiments in this specification, and are not described herein again.

An embodiment of the present specification provides an electronic device, including: a positioning module and a short-range communication module.

The positioning module is used for generating position information of the electronic equipment; the location information is used for representing the location of the electronic equipment.

The short-distance communication module is used for receiving a position information acquisition request sent by target electronic equipment; sending the position information to the target electronic equipment so that the target electronic equipment sends a sign-in request to a server; wherein the location information is attached to the check-in request.

In this embodiment, the electronic device may establish communication with the target electronic device using the short-range communication module, and may provide the location information generated by the positioning module to the target electronic device. Therefore, the positioning mode of the target electronic equipment is enriched, and convenience is brought to a user.

In this embodiment, specific functions and effects implemented by the electronic device may refer to other embodiments for comparison and explanation, which are not described in detail.

The present specification embodiments provide a computer storage medium having computer program instructions stored thereon that, when executed, implement: receiving a position information acquisition request sent by a first client; generating location information using a location information generation module; the position information is used for representing the position of the second client; sending the position information generated by the position information generation module to the first client for the first client to send a sign-in request to a server; wherein the location information is attached to the check-in request.

In this embodiment, specific functions implemented by the computer storage medium can be explained with reference to other embodiments.

Please refer to fig. 7. The embodiment of the specification provides a position information sending method. Applied to the second client, the method may comprise the following steps.

Step S31: and receiving a position information acquisition request sent by a first client.

Step S33: location information is generated using a location information generation module.

Step S35: and under the condition that the position information generating module does not successfully generate the position information, the position information acquiring module is used for sending a position information acquiring request to the third client.

Step S37: under the condition that the position information fed back by the third client is received, the position information is sent to the first client, so that the first client sends a sign-in request to a server; wherein the location information is attached to the check-in request.

In this embodiment, after the second client receives the location information acquisition request of the first client, the second client does not successfully generate the location information. At this time, the second client may acquire the location information from the third client. Thus, the position information obtained from the third client can be fed back to the first client. Therefore, linkage is formed among the clients, in one area, part of the clients successfully generate the position information, and the rest of the clients which do not successfully generate the position information can finish positioning in a mode of acquiring the position information.

In one embodiment, sending a location information obtaining request to a third client by using the location information obtaining module may include: sending client detection information; receiving client detection information sent by a third client; establishing communication with the third client; and sending a position information acquisition request to the third client.

The functions and effects achieved by the present embodiment can be explained by referring to other embodiments.

In one embodiment, the distance between the first client, the second client and the third client is less than a specified distance.

In this embodiment, a plurality of clients may exist in one area, and when one client fails to generate location information, location information may be acquired to another client. Further, in the case that the another client has not successfully generated the location information, the location information may be further acquired to the third client. Therefore, as long as the client capable of successfully generating the position information exists in the area, the successfully generated position information can be shared as the position information of the client which does not successfully generate the position information in the designated area through communication between the clients. Therefore, the method for the client to obtain the position information can be enriched, and the phenomenon that the method for the client to obtain the position information is too single is avoided.

In one embodiment, sending a location information obtaining request to a third client by using the location information obtaining module may include: the position information acquisition module establishes communication with the third client by adopting a short-distance radio communication technology; and sending a position information acquisition request to the third client based on the communication.

The functions and effects achieved by the present embodiment can be explained with reference to other embodiments.

Please refer to fig. 8. An embodiment of the present specification further provides a client, including: the device comprises a receiving module, a generating module, a sending module and a receiving and sending module.

The receiving module is used for receiving a position information acquisition request sent by a request client.

The generating module is used for generating the position information by using the position information generating module.

The sending module is used for sending a position information obtaining request to the target client by using the position information obtaining module under the condition that the position information generating module does not successfully generate the position information.

The receiving and sending module is used for sending the position information to the request client under the condition of receiving the position information fed back by the target client, so that the request client sends a sign-in request to a server; wherein the location information is attached to the check-in request.

In this embodiment, the requesting client may refer to the first client, and the target client may refer to the third client. The functions and effects realized by the embodiment can be explained by referring to other embodiments, and are not described in detail.

An embodiment of the present specification provides an electronic device, including: a positioning module and a short-range communication module; the positioning module is used for generating position information of the electronic equipment; the short-distance communication module is used for receiving a position information acquisition request of the electronic equipment; under the condition that the positioning module does not successfully generate the position information, sending a position information acquisition request to the target electronic equipment; under the condition that the position information fed back by the target electronic equipment is received, the position information is sent to the request electronic equipment so that the request electronic equipment can send a check-in request to a server; wherein the location information is attached to the check-in request.

In this embodiment, the requesting electronic device may be a smart phone, a smart digital assistant, a tablet computer, or the like. Of course, the requesting electronic device is not limited to the foregoing list and is not described in detail.

In this embodiment, the functions and effects implemented by the electronic device may be explained with reference to other embodiments, and are not described herein again.

Embodiments of the present description also provide a computer storage medium storing computer program instructions that, when executed, implement: receiving a position information acquisition request sent by a request client; generating location information using a location information generation module; under the condition that the position information generating module does not successfully generate the position information, a position information acquiring module is used for sending a position information acquiring request to a target client; under the condition of receiving the position information fed back by the target client, sending the position information to the request client for sending a check-in request to a server by the request client; wherein the location information is attached to the check-in request.

In this embodiment, specific functions implemented by the computer storage medium can be explained with reference to other embodiments.

Please refer to fig. 9. The implementation mode of the specification provides a check-in method. The check-in method may be performed by a server. In the present embodiment, the server may include an electronic device having a certain arithmetic processing capability, which may have a network communication unit, a processor, a memory, and the like. Of course, the server may also refer to software running in the electronic device. The server may also be a distributed server, may be a system having a plurality of processors, detection devices, network communication modules, and the like that cooperate, or may also be a server cluster formed by a plurality of servers. Of course, the server may also use cloud technology, so as to implement the functions of the server in a cloud computing manner. The method may include the following steps.

Step S41: receiving a check-in request sent by a first client; wherein the check-in request is accompanied by location information; the location information is the location information of the second client acquired by the first client.

Step S43: and under the condition that the position information is located in a specified area, the first client is considered to be successfully checked in.

In this embodiment, the server may process the received check-in request and determine whether or not the position indicated by the position information attached to the check-in request is located in the designated area. When the location represented by the location information is within the designated area, the user of the first client may be considered to be already within the designated area such that the user of the first client is in a state in which it may receive new task assignments. If the location indicated by the location information is not within the specified area, the user of the first client is deemed to have not been able to receive task assignments. Specifically, for example, the designated area may be set according to the location of the brick-and-mortar store, and a certain area surrounding the brick-and-mortar store may be set as the designated area. For example, the designated area may be divided by latitude and longitude to cover the brick and mortar store. Alternatively, the designated area may be divided by street, encompassing the brick and mortar store.

In this embodiment, after the server determines that the first client signs in successfully, the server may queue up the pick-up task in a task pick-up queue set in advance with the identity information of the user corresponding to the first client. Specifically, for example, a brick-and-mortar store provides a commodity distribution service. Specifically, the consumer places an order through the APP or makes a purchase in a physical store. The delivery service provided by the brick and mortar store can be used to deliver the goods to the place designated by the customer. The delivery person can take the delivery package from the delivery task assigned by the receiving server to the brick-and-mortar store. When the dispenser arrives at the brick-and-mortar store, the first client may be operated to send a check-in request to the server to indicate that the dispenser has arrived at the brick-and-mortar store. The server may determine whether the location indicated by the location information is located at the brick-and-mortar store or in the vicinity of the brick-and-mortar store, based on the location information of the check-in request. Thereby confirming whether the deliverer is in a state where it can receive the delivery task. After confirming that the distributor is near the physical store, the identity information of the distributor is added into the task picking queue. The task getting queue can queue the identity information of the distributors according to the sequence of check-in, and distribute the distribution tasks to the distributors in sequence. And after the deliverer receives the delivery task, the corresponding delivery package is received by the physical store for delivery.

The implementation mode of the specification provides a check-in method which is applied to a first client; the check-in method may include: sending a position information acquisition request to a second client; under the condition of receiving the position information fed back by the second client, sending a check-in request to a server; wherein the location information is attached to the check-in request.

In this embodiment, the first client may directly obtain the location information from the second client, and use the location information of the second client as its own location information. Thereby signing in to the server according to the acquired position information. Therefore, the first client can save the calculation amount of self positioning, or the first client does not need to be provided with a satellite positioning module.

In this embodiment, the functions and effects of the technical means can be explained in comparison with other embodiments.

The embodiment of the present specification further provides a check-in method, which is applied to a second client, and the method may include: generating position information; wherein the location information is used for representing the location of the second client; sending the position information to a first client for the first client to send a sign-in request to a server; wherein the location information is attached to the check-in request.

In this embodiment, the second client may generate location information and provide the location information to the first client for the first client to sign in to the server. The manner in which the second client generates the location information may be explained with reference to other embodiments.

In this embodiment, the second client may provide the location information to the first client after receiving the location information acquisition request. The second client may actively generate the location information and perform external broadcasting, and the first client receives the location information broadcasted by the first client and signs in to the server based on the location information.

The functions and effects achieved by this embodiment can be explained in comparison with other embodiments.

The foregoing description of various embodiments of the present specification is provided for the purpose of illustration to those skilled in the art. It is not intended to be exhaustive or to limit the invention to a single disclosed embodiment. Various alternatives and modifications of the disclosure as described above will be apparent to those skilled in the art. Thus, while some alternative embodiments have been discussed in detail, other embodiments will be apparent or relatively easy to derive by those of ordinary skill in the art. This specification is intended to embrace all alternatives, modifications, and variations of the present invention that have been discussed herein, as well as other embodiments that fall within the spirit and scope of the above-mentioned application.

The embodiments in the present specification are described in a progressive manner, and the same and similar parts among the embodiments are referred to each other, and each embodiment focuses on the differences from the other embodiments. In particular, as for the method, the service server and the computer storage medium embodiments, since they are basically similar to the embodiments of the resource management system, the description is relatively simple, and the relevant points can be referred to the partial description of the embodiments of the resource management system.

The description is operational with numerous general purpose or special purpose computing system environments or configurations. For example: personal computers, server computers, hand-held or portable devices, tablet-type devices, multiprocessor systems, microprocessor-based systems, set top boxes, programmable consumer electronics, network PCs, minicomputers, mainframe computers, distributed computing environments that include any of the above systems or devices, and the like.

While the specification has been described with respect to the embodiments, those skilled in the art will appreciate that there are numerous variations and permutations of the specification that fall within the spirit and scope of the specification, and it is intended that the appended claims include such variations and modifications as fall within the spirit and scope of the specification.

Claims (17)

1. A check-in method is applied to a first client; the method comprises the following steps:

generating position information through a position information generating module;

under the condition that the position information generating module does not successfully generate the position information, the position information acquiring module is used for sending a position information acquiring request to a second client so as to trigger the second client to generate the position information by using the position information generating module of the second client, and the position information is sent to the first client;

under the condition that the position information fed back by the second client is received, the position information sent by the second client is used as the position information of the second client, a sign-in request is sent to a server, the server compares the position information of the first client with the designated position information to judge whether a distributor reaches a designated area represented by the designated position information, under the condition that the distributor reaches the designated area, the identity information of the distributor is added into a task getting queue, and distribution tasks are distributed to the distributor according to the sequence of the task getting queue; wherein, the check-in request is accompanied with the position information of the first client.

2. The method of claim 1, wherein the location information generation module generates location information from satellite signals.

3. The method of claim 1, wherein a distance between the first client and the second client is less than a specified distance.

4. A client, wherein the client is a first client, comprising: the device comprises a generating module, an obtaining module and a sending module;

the generating module is used for generating the position information through the position information generating module;

the acquiring module is configured to send a location information acquiring request to a second client by using the location information acquiring module under the condition that the location information generating module does not successfully generate the location information, so as to trigger the second client to generate the location information by using the location information generating module of the second client, and send the location information of the second client to the first client, and under the condition that the location information generating module of the second client does not successfully generate the location information, the second client sends a location information acquiring request to a third client by using the location information acquiring module, and sends the location information fed back by the third client to the first client;

the sending module is used for taking the position information fed back by the second client as the position information of the second client under the condition of receiving the position information fed back by the second client, sending a sign-in request to a server, comparing the position information of the client with the specified position information by the server to judge whether a distributor reaches a specified area represented by the specified position information, adding the identity information of the distributor into a task getting queue under the condition that the distributor reaches the specified area, and distributing distribution tasks for the distributor according to the sequence of the task getting queue; the check-in request is attached with the position information of the client.

5. A computer storage medium having computer program instructions stored thereon that when executed implement: generating position information through a position information generating module; under the condition that the position information generating module does not successfully generate the position information, the position information acquiring module is used for sending a position information acquiring request to the second client so as to trigger the second client to generate the position information by using the position information generating module of the second client and feed back the generated position information, and under the condition that the position information generating module of the second client does not successfully generate the position information, the second client uses the position information acquiring module to send the position information acquiring request to the third client and feed back the position information fed back by the third client; under the condition that the position information fed back by the second client is received, the position information fed back by the second client is used as the position information of the second client, a sign-in request is sent to a server, the server compares the position information of the second client with the designated position information to judge whether a distributor reaches a designated area represented by the designated position information, under the condition that the distributor reaches the designated area, the identity information of the distributor is added into a task getting queue, and distribution tasks are distributed to the distributor according to the sequence of the task getting queue; wherein the check-in request is accompanied with the own position information.

6. A method for sending location information, which is applied to a second client, the method comprising:

receiving a position information acquisition request sent by a first client;

generating location information using a location information generation module; the position information is used for representing the position of the second client;

sending the position information generated by the position information generation module to the first client, so that the first client can use the position information sent by the second client as the position information of the first client, sending a sign-in request to a server, so that the server can compare the position information of the first client with the specified position information to judge whether a distributor reaches a specified area represented by the specified position information, adding the identity information of the distributor into a task getting queue under the condition that the distributor reaches the specified area, and distributing distribution tasks for the distributor according to the sequence of the task getting queue; the check-in request is attached with the position information of the first client;

and under the condition that the position information generating module does not successfully generate the position information, the second client sends a position information acquiring request to a third client by using a position information acquiring module, and sends the position information fed back by the third client to the first client.

7. A method for sending location information, which is applied to a second client, the method comprising:

receiving a position information acquisition request sent by a first client;

generating location information using a location information generating module;

under the condition that the position information generating module does not successfully generate the position information, the position information acquiring module is used for sending a position information acquiring request to a third client;

under the condition that the position information fed back by the third client is received, the position information fed back by the third client is sent to the first client, so that the first client can use the position information sent by the second client as the position information of the first client, a sign-in request is sent to a server, the position information of the first client and the designated position information are compared by the server, whether a distributor reaches a designated area represented by the designated position information is judged, under the condition that the distributor reaches the designated area, the identity information of the distributor is added to a task getting queue, and distribution tasks are distributed to the distributor according to the sequence of the task getting queue; wherein the check-in request is accompanied with the position information of the first client.

8. The method of claim 7, wherein the location information generation module generates location information based on satellite signals.

9. The method of claim 7, wherein sending a location information acquisition request to a third client using the location information acquisition module comprises:

sending client detection information;

receiving client detection information sent by a third client;

establishing communication with the third client;

and sending a position information acquisition request to the third client.

10. The method of claim 7, wherein a distance between the first client, the second client, and the third client is less than a specified distance.

11. The method of claim 7, wherein sending a location information acquisition request to a third client using the location information acquisition module comprises:

the position information acquisition module establishes communication with the third client by adopting a short-distance radio communication technology;

and sending a position information acquisition request to the third client based on the communication.

12. A client, comprising: the device comprises a receiving module, a generating module, a sending module and a receiving and sending module;

the receiving module is used for receiving a position information acquisition request sent by a request client;

the generating module is used for generating the position information by using the position information generating module;

the sending module is used for sending a position information acquisition request to the target client by using the position information acquisition module under the condition that the position information generation module does not successfully generate the position information;

the receiving and sending module is used for sending the position information sent by the target client to the request client under the condition of receiving the position information fed back by the target client, so that the request client uses the position information sent by the receiving and sending module as the position information of the request client, and sends a sign-in request to the server, so that the server compares the position information of the request client with the specified position information to judge whether a distributor reaches a specified area represented by the specified position information, and under the condition that the distributor reaches the specified area, the identity information of the distributor is added into a task getting queue, and distribution tasks are distributed to the distributor according to the sequence of the task getting queue; and the check-in request is attached with the position information of the request client.

13. An electronic device, comprising: a positioning module and a short-range communication module;

the positioning module is used for generating position information of the electronic equipment;

the short-distance communication module is used for receiving a position information acquisition request of the electronic equipment; under the condition that the positioning module does not successfully generate the position information, sending a position information acquisition request to the target electronic equipment; under the condition that position information fed back by the target electronic equipment is received, sending the position information fed back by the target electronic equipment to the request electronic equipment so that the request electronic equipment takes the position information fed back by the target electronic equipment as self position information, sending a sign-in request to a server so that the server compares the self position information of the request electronic equipment with the specified position information to judge whether a distributor reaches a specified area represented by the specified position information, adding identity information of the distributor into a task getting queue under the condition that the distributor reaches the specified area, and distributing distribution tasks to the distributor according to the sequencing of the task getting queue; wherein the check-in request is accompanied with the position information of the requesting electronic device.

14. A computer storage medium, wherein computer program instructions are stored, the computer program instructions when executed, implement: receiving a position information acquisition request sent by a request client; generating location information using a location information generation module; under the condition that the position information generating module does not successfully generate the position information, a position information acquiring module is used for sending a position information acquiring request to a target client; under the condition that the position information fed back by the target client is received, sending the position information fed back by the target client to the request client, wherein the position information fed back by the target client is used as the position information of the request client, sending a sign-in request to a server, and the position information fed back by the target client is compared with the specified position information by the server to judge whether a distributor reaches a specified area represented by the specified position information, under the condition that the distributor reaches the specified area, adding the identity information of the distributor to a task getting queue, and distributing distribution tasks to the distributor according to the sequence of the task getting queue; and the check-in request is accompanied with the position information fed back by the target client.

15. A check-in method, the method comprising:

receiving a check-in request sent by a first client; wherein, the check-in request is attached with the position information of the first client; the position information is obtained by the first client side after sending a position obtaining request to the second client side, and the position information of the second client side is used as the position information of the first client side; under the condition that the second client does not successfully generate the position information, the second client sends a position information acquisition request to a third client and sends the position information fed back by the third client to the first client;

considering that the first client sign-in is successful under the condition that the position information is located in a specified area;

and comparing the position information with the specified position information to judge whether the distributor reaches the specified area represented by the specified position information, adding the identity information of the distributor to a task getting queue under the condition that the distributor reaches the specified area, and distributing the distribution tasks for the distributor according to the sequence of the task getting queue.

16. A check-in method is applied to a first client; the method comprises the following steps:

sending a position information acquisition request to a second client to trigger the second client to generate position information by using a position information generation module of the second client, and feeding the position information back to the first client, wherein the second client sends the position information acquisition request to a third client by using the position information acquisition module and sends the position information fed back by the third client to the first client under the condition that the position information generation module of the second client does not successfully generate the position information;

under the condition that the position information fed back by the second client side is received, the position information fed back by the second client side is used as the position information of the second client side, a sign-in request is sent to a server, the server compares the position information of the first client side with the appointed position information to judge whether a distributor reaches an appointed area represented by the appointed position information or not, under the condition that the distributor reaches the appointed area, the identity information of the distributor is added into a task getting queue, and distribution tasks are distributed to the distributor according to the sequence of the task getting queue; wherein, the check-in request is accompanied with the position information of the first client.

17. A check-in method applied to a second client side, the method comprises the following steps:

generating position information; wherein the location information is used for representing the location of the second client;

responding to a position acquisition request of a first client, sending the position information to the first client, wherein the position information is used by the first client as the position information of the first client, sending a sign-in request to a server, the server is used for comparing the position information of the first client with the specified position information to judge whether a distributor reaches a specified area represented by the specified position information, adding the identity information of the distributor into a task getting queue under the condition that the distributor reaches the specified area, and distributing distribution tasks for the distributor according to the sequence of the task getting queue; the check-in request is attached with the position information of the first client;

and under the condition that the second client side does not successfully generate the position information, the second client side sends a position information acquisition request to a third client side and sends the position information fed back by the third client side to the first client side.

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