CN117676476A

CN117676476A - Information processing system, method, apparatus, electronic device, and computer storage medium

Info

Publication number: CN117676476A
Application number: CN202311492059.2A
Authority: CN
Inventors: 麦志望; 郑海波; 孙抗; 施杰
Original assignee: Shanghai Hummingbird Instant Information Technology Co ltd
Current assignee: Shanghai Hummingbird Instant Information Technology Co ltd
Priority date: 2023-11-09
Filing date: 2023-11-09
Publication date: 2024-03-08

Abstract

The information sending end takes the broadcast information packet as an information carrier of first target information and sends the broadcast information packet to the air in a preset information transmission mode, so that when the information receiving end needs to acquire the first target information, the broadcast information packet sent by the information sending end in a target preset distance range can be acquired in the preset information transmission mode, the broadcast information packet is analyzed to acquire the first target information, the information receiving end can acquire the first target information to be shared in time, and when the information is transmitted in the preset information transmission mode, the information sending end and the information receiving end are not in a communication connection state, connection is not required to be established between the information sending end and the information receiving end in advance, the information sending and receiving process is simplified, the information transmission efficiency is improved, and meanwhile, the application range is wider.

Description

Information processing system, method, apparatus, electronic device, and computer storage medium

Technical Field

The present invention relates to the field of computer technology, and in particular, to an information processing system, an information processing method, an information processing apparatus, an electronic device, and a computer storage medium.

Background

With the rapid development of the order distribution industry, it is becoming increasingly important to share information about distribution riders and merchants during the distribution of orders. Such as: it is becoming increasingly important to share information between the rider and the merchant, such as the location information of the rider, the location information of the merchant, the transfer information from the rider, or the help information.

In the existing information sharing mode, a communication link layer between multiple parties needing information sharing is established, and then the information needing sharing can be transmitted between the multiple parties. For example, the terminal corresponding to the merchant may send the location information of the merchant to the terminal of each distribution rider; the terminal of the delivery rider may also send its own positioning information to another terminal of the delivery rider. However, in this information sharing method, multiple communication link layers are required to be always connected during information sharing, so that the requirement on the information transmission method is high, and it is difficult to realize information sharing for weak terminals that are difficult to establish connection between the communication link layers and other terminals. Therefore, how to provide an information sharing method with high applicability is a technical problem to be solved.

Disclosure of Invention

The application provides an information processing system for improving the applicability of information sharing and the information transmission efficiency; the application also provides an information processing method, an information processing device, an electronic device and a computer storage medium.

The application provides an information processing system, comprising: an information sending end and an information receiving end;

the information sending end is used for obtaining first target information and obtaining a broadcast information packet to be sent according to the first target information; transmitting the broadcast information packet by adopting a preset information transmission mode; the first target information is information to be shared corresponding to the information sending end;

the information receiving end is used for obtaining the broadcast information packet by adopting the preset information transmission mode; analyzing the broadcast information packet to obtain the first target information;

the distance between the information sending end and the position of the information receiving end is within a target preset distance range; when the preset information transmission mode is adopted for information transmission, a communication link layer between the information sending end and the information receiving end is not in a communication connection state.

Optionally, the first target information includes first positioning information corresponding to a position where the information sending end is located;

The information receiving end is specifically used for judging whether current positioning information corresponding to the position of the information receiving end can be obtained within a preset time length; if not, the broadcast information packet is obtained by adopting the preset information transmission mode; and analyzing the broadcast information packet to obtain the first positioning information, and taking the first positioning information as the current positioning information.

Optionally, the information sending end includes: a merchant terminal deployed by a merchant; the information receiving terminal comprises: a second distribution terminal corresponding to the second distribution resource; the first positioning information comprises positioning information corresponding to the position of the merchant;

the merchant terminal is used for obtaining the first positioning information and obtaining a broadcast information packet to be sent according to the first positioning information; transmitting the broadcast information packet by adopting a preset information transmission mode;

the second distribution terminal is configured to obtain the broadcast information packet by adopting the preset information transmission manner; and analyzing the broadcast information packet to obtain the first positioning information.

Optionally, the information sending end includes: a first distribution terminal corresponding to the first distribution resource; the information receiving terminal comprises: a second distribution terminal corresponding to the second distribution resource; the first positioning information comprises positioning information corresponding to the position of the first distribution resource;

The first distribution terminal is used for obtaining the first positioning information and obtaining a broadcast information packet to be sent according to the first positioning information; transmitting the broadcast information packet by adopting a preset information transmission mode;

Optionally, the method further comprises: a positioning information checking module;

the positioning information verification module is used for obtaining target range information of a second target order and the first positioning information provided by the second distribution terminal; checking whether the position of the second distribution resource is in a target range corresponding to the target range information according to the target range information and the first positioning information; the second target order is an order of the second delivery resource currently delivered.

Optionally, the target range corresponding to the target range information of the second target order includes: a first circular area taking the position of the commodity for receiving the second target order as a circle center and taking a first preset distance as a radius;

the verifying, according to the target range information and the first positioning information, whether the position where the second distribution resource is located is in a target range corresponding to the target range information, includes: and judging whether the positioning point corresponding to the first positioning information is in the first circular area or not.

Optionally, the target range corresponding to the target range information of the second target order includes: a second circular area taking the position of the commodity delivered to the second target order as a circle center and taking a second preset distance as a radius;

the verifying, according to the target range information and the first positioning information, whether the position where the second distribution resource is located is in a target range corresponding to the target range information, includes: and judging whether the positioning point corresponding to the first positioning information is in the second circular area.

Optionally, the information sending end includes: a first distribution terminal corresponding to the first distribution resource; the information receiving terminal comprises: a second distribution terminal corresponding to the second distribution resource;

the first target information comprises assistance information which needs assistance in the delivery process of the first delivery resource or assistance information which needs assistance for a first target order delivered currently;

the second distribution terminal is further configured to obtain a reply message input by the second distribution resource and replying to the assistance information, and provide the reply message to the first distribution terminal.

Optionally, the information sending end includes: a merchant terminal deployed by a merchant; the information receiving terminal comprises: distribution terminals corresponding to distribution resources;

The first target information comprises use state information of the merchant terminal;

the distribution terminal is also used for providing the using state information to a merchant terminal maintenance platform.

the distribution terminal is further configured to obtain information transmission rate information of the merchant terminal according to the broadcast information packet, and obtain location ordering information of each merchant at the location where the distribution terminal is located according to the information transmission rate information.

Optionally, the protocol structure of the broadcast packet includes a message header and a message body; the message header and the message body have a corresponding relation;

the message header comprises at least one of protocol version information, message body type, message body encryption mode and message body length information;

the message body comprises at least one of shared positioning information, delivery assistance information sent by delivery resources and using state information of merchant terminals.

Optionally, the information receiving end is specifically configured to obtain a target message body type corresponding to the broadcast information packet, and parse the broadcast information packet according to the target message body type to obtain the first target information.

The application provides an information processing method, which is applied to an information sending end, and comprises the following steps:

acquiring first target information, and acquiring a broadcast information packet to be transmitted according to the first target information;

transmitting the broadcast information packet by adopting a preset information transmission mode; the first target information is information to be shared corresponding to the information sending end; the broadcast information packet is used for analyzing after the information receiving end obtains the first target information by adopting the preset information transmission mode;

The application provides an information processing method, which is applied to an information receiving end, and comprises the following steps:

acquiring a broadcast information packet by adopting a preset information transmission mode; the broadcast information packet is obtained by the information sending terminal according to the first target information and sent by adopting the preset information transmission mode; the first target information is information to be shared corresponding to the information sending end;

Analyzing the broadcast information packet to obtain the first target information;

the method further comprises the steps of: judging whether current positioning information corresponding to the current position can be obtained within a preset time length;

the method for obtaining the broadcast information packet by adopting the preset information transmission mode comprises the following steps: if the current positioning information corresponding to the current position cannot be obtained within the preset time length, the broadcast information packet is obtained by adopting the preset information transmission mode.

The application provides an information processing device, is applied to the information sender, the device includes:

the first information processing unit is used for obtaining first target information and obtaining a broadcast information packet to be transmitted according to the first target information;

a transmitting unit, configured to transmit the broadcast information packet by using a preset information transmission manner; the first target information is information to be shared corresponding to the information sending end; the broadcast information packet is used for analyzing after the information receiving end obtains the first target information by adopting the preset information transmission mode;

The application provides an information processing device, is applied to the information receiving terminal, the device includes:

a broadcast information packet obtaining unit, configured to obtain a broadcast information packet by using a preset information transmission manner; the broadcast information packet is obtained by the information sending terminal according to the first target information and sent by adopting the preset information transmission mode; the first target information is information to be shared corresponding to the information sending end;

the analysis unit is used for analyzing the broadcast information packet to obtain the first target information;

The application provides an electronic device, comprising:

a processor;

and a memory for storing a computer program that is executed by the processor to execute the information processing method.

The present application provides a computer storage medium storing a computer program to be executed by a processor to perform the above-described information processing method.

Compared with the prior art, the embodiment of the application has the following advantages:

the application provides an information processing system, comprising: an information sending end and an information receiving end; the information sending terminal is used for obtaining first target information and obtaining a broadcast information packet to be sent according to the first target information; transmitting a broadcast information packet by adopting a preset information transmission mode; the first target information is information to be shared corresponding to the information sending end; the information receiving terminal is used for obtaining a broadcast information packet by adopting a preset information transmission mode; analyzing the broadcast information packet to obtain first target information; the distance between the information sending end and the position of the information receiving end is within a target preset distance range; when the preset information transmission mode is adopted for information transmission, a communication link layer between the information sending end and the information receiving end is not in a communication connection state. In the system, the information transmitting end takes the broadcast information packet as an information carrier of the first target information and transmits the broadcast information packet to the air in a preset information transmission mode, so that when the information receiving end needs to acquire the first target information, the information transmitting end can acquire the broadcast information packet transmitted by the information transmitting end within a target preset distance range in the preset information transmission mode, and analyze the broadcast information packet to acquire the first target information, and further, the information receiving end can acquire the first target information needing to be shared in time.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the following description will briefly introduce the drawings that are required to be used in the embodiments or the description of the prior art, and it is obvious that the drawings in the following description are only some embodiments described in the present application, and other drawings may also be obtained according to these drawings for a person having ordinary skill in the art.

FIG. 1 is a schematic view of an information handling system provided herein;

FIG. 2 is a schematic diagram of an information processing system according to a first embodiment of the present application;

fig. 3 is a flowchart of an information processing method according to a second embodiment of the present application;

fig. 4 is a flowchart of an information processing method according to a third embodiment of the present application;

fig. 5 is a schematic diagram of an information processing apparatus according to a fourth embodiment of the present application;

fig. 6 is a schematic diagram of an information processing method according to a fifth embodiment of the present application;

fig. 7 is a schematic diagram of an electronic device according to a sixth embodiment of the present application.

Detailed Description

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present application. This application is, however, susceptible of embodiment in many other ways than those herein described and similar generalizations can be made by those skilled in the art without departing from the spirit of the application and, therefore, the application is not limited to the specific embodiments disclosed below.

The application provides an information processing system, an information processing method, an information processing apparatus, an electronic device, and a computer storage medium. The information processing system, the information processing method, the information processing apparatus, the electronic device, and the computer storage medium are described below by way of specific embodiments, respectively. The information processing method, the information processing apparatus, the electronic device, and the computer storage medium may be implemented based on an information processing system, and in order to more clearly illustrate the information processing system provided in the embodiments of the present application, an application scenario of the information processing system provided in the embodiments of the present application is first introduced.

The information processing system of the present application can be applied to various scenarios in which information or data is shared among a plurality of terminals. Taking the positioning of the position of the delivery rider as an example, the positioning of some key position points, such as: in the scene of arriving at a store and taking a meal, the delivery rider needs to be positioned, and whether the delivery rider is near the position of a merchant at the moment is checked. For another example, in a scenario where an order item is delivered, it is necessary to locate the delivery rider and verify that the delivery rider is now in the vicinity of the delivery location. When positioning a delivery rider, in the existing positioning manner, a GPS (Global Positioning System ) is generally adopted for positioning, however, when the delivery rider is in a room, the delivery terminal cannot acquire GPS positioning information or the acquired GPS positioning information is inaccurate, so that the delivery rider cannot click on a store-to-store function or a delivery function of the delivery terminal, or the delivery position of the delivery rider is inaccurate.

For example, in a delivery scenario where delivery of delivery rider a takes a take-out, delivery rider a needs to drive to the vicinity of the position of merchant B when taking a meal, then click "to store" on a delivery terminal, and in the process of clicking "to store", verification of the position of delivery rider a needs to be performed, which involves determining whether the position of delivery rider a is in the vicinity of the position of merchant B, and in the process, the delivery terminal needs to position the position of delivery rider a, that is, obtain positioning information of delivery rider a, and further determine whether the position of delivery rider a is in the vicinity of the position of merchant B.

Assuming that the delivery rider a is currently in the store of the merchant B, the delivery rider a cannot click "to store" due to inaccurate or non-acquirable positioning information of the delivery rider a acquired in the indoor environment.

In order to solve the above-described problem, in the information processing system of the present embodiment, the delivery terminal corresponding to the delivery rider a may acquire positioning information sent by other nearby terminals before the current time, such as positioning information sent by a nearby merchant terminal or other nearby delivery terminals before the current time, and use the acquired positioning information as positioning information corresponding to the delivery rider a at the current time.

In the embodiment of the present scenario, taking the case where other nearby delivery terminals send out positioning information before the current time, it is assumed that the other delivery terminals are delivery terminals corresponding to the delivery rider C. The delivery terminal corresponding to the delivery rider C may locate the position of the delivery rider C to obtain location information of the delivery rider C, and then the delivery terminal corresponding to the delivery rider C may obtain a broadcast information packet to be transmitted according to the location information of the delivery rider C, as an example, the broadcast information packet may be a BLE (Bluetooth Low Energy ) broadcast packet, the BLE broadcast packet includes location information of the delivery rider C, and the delivery terminal corresponding to the delivery rider C may transmit the BLE broadcast packet into the air in a bluetooth broadcast manner.

When the delivery terminal corresponding to the delivery rider a locates the position of the delivery rider a, if the location information of the delivery rider a still cannot be acquired within a period of time, for example, may be 10 seconds, the BLE broadcast packet sent before the delivery terminal corresponding to the delivery rider C may be acquired in a bluetooth broadcast manner.

After the distribution terminal corresponding to the distribution rider A obtains the BLE broadcast packet, the BLE broadcast packet needs to be analyzed to obtain the positioning information in the BLE broadcast packet, and the positioning information in the BLE broadcast packet can be used as the positioning information of the distribution rider A.

In the above example, the distance between the delivery rider C and the position where the delivery rider a is located is within the target preset distance range, such as: the distance between the rider C and the position where the delivery rider a is located is not more than 3 meters. It should be noted that, in the process that the distribution terminal corresponding to the distribution rider a acquires the BLE broadcast packet, it is not necessary to establish a connection between the distribution terminal corresponding to the distribution rider a and the distribution terminal corresponding to the distribution rider C, the distribution terminal corresponding to the distribution rider C is used as an example of an information transmitting end, the BLE broadcast packet is broadcast into the air by using a bluetooth broadcast manner, the distribution terminal corresponding to the distribution rider a is used as an example of an information receiving end, and when the distribution terminal corresponding to the distribution rider a cannot acquire positioning information of the distribution rider a, the distribution terminal corresponding to the distribution rider a can directly acquire the BLE broadcast packet in a bluetooth broadcast manner and analyze the BLE broadcast packet so as to acquire the positioning information in the BLE broadcast packet.

In order to facilitate understanding of the information processing system of the present application, please refer to fig. 1, which is a schematic diagram of a scenario of the information processing system provided in the present application.

Firstly, a delivery terminal corresponding to a delivery rider C sends a BLE broadcast packet containing positioning information of the delivery rider C to the air in a Bluetooth broadcast mode, such as a delivery rider C broadcast id (identity document, namely code) in fig. 1, longitude and latitude; then, when the positioning information of the delivery rider a cannot be acquired by the delivery terminal corresponding to the delivery rider a, acquiring an aerial BLE broadcast packet in a bluetooth broadcast manner, wherein the positioning of the delivery rider C is not successfully performed by using peripheral shared positioning in fig. 1, and the use of the peripheral shared positioning may actually refer to the use of longitude and latitude of the delivery rider C.

The delivery rider a may use the positioning information of the delivery rider C in the arrival scene, or may use the positioning information of the delivery rider C when the position thereof is not located in the transfer order scene as illustrated in fig. 1. The above-mentioned delivery rider C broadcasts an id, and the longitude and latitude may refer to broadcasting a BLE broadcast packet containing the id of the delivery rider C itself and longitude and latitude information.

The above description has been made with an example in which the delivery terminal corresponding to the delivery rider C is taken as an information transmitting terminal, and in practice, a terminal deployed by the merchant B may be taken as an example of an information transmitting terminal.

For example, in a store corresponding to the merchant B, various terminal devices, such as beacon devices (beacon), order printing devices, etc., may be deployed, and these terminal devices may also acquire positioning information of the merchant B, acquire BLE broadcast packets based on the positioning information of the merchant B, and transmit the BLE broadcast packets to the air in a bluetooth broadcast manner, because they have information transmission and information reception capabilities and bluetooth broadcast capabilities. Similarly, the distribution terminal corresponding to the distribution rider a may acquire and parse BLE broadcast packets sent by the terminal devices to the air, so as to obtain positioning information of the merchant B, and the positioning information of the merchant B may be used as current positioning information of the distribution rider a.

With continued reference to fig. 1, the terminal devices in the merchant B may also broadcast their own ids and longitudes (including the ids and longitudes of the merchant B), so that the distribution terminal corresponding to the distribution rider a may also obtain and parse BLE broadcast packets sent to the air by the terminal devices, so as to obtain positioning information of the merchant B. In fig. 1, various information to be broadcast is actually broadcast in the form of BLE broadcast packets.

The above-described example is given as an example of sharing positioning information among a plurality of terminals, and in the information processing system of the present embodiment, other types of information may be actually shared.

In fact, the information processing system of the embodiment may also be applied to other scenarios, for example, a distribution rider C in fig. 1 has a merchant B and a merchant D around the distribution rider C, terminal devices are disposed in the merchant B and the merchant D, the terminal devices disposed in the merchant B and the merchant D may each include a BLE broadcast packet with a broadcast id and a longitude and latitude, when the disposed terminal device fails or the electric quantity is too low, fault code or electric quantity information together with the broadcast id and longitude and latitude may be broadcast, so that the distribution terminal of the distribution rider C may obtain fault code information or electric quantity information of the terminal device disposed in the merchant B and the merchant D by analyzing the BLE broadcast packet, and provide the fault code information or electric quantity information to a maintenance platform of the merchant terminal device, so that professional maintenance equipment personnel may maintain or replace a new battery with the terminal device.

In addition, the terminal devices deployed by merchants B and D can also accumulate the peripheral store data and the peripheral distribution riders by acquiring positioning information broadcast by the terminal devices deployed by the peripheral stores and the distribution terminals of the peripheral distribution riders. For example, the terminal device deployed by the merchant B obtains the BLE broadcast packet sent by the delivery terminal of the delivery rider C, thereby determining that the delivery rider C is near the merchant B.

The distribution terminal of the distribution rider C can accumulate the surrounding store data and the surrounding distribution rider by acquiring the positioning information broadcast by the terminal devices disposed in the surrounding store and the distribution terminal of the surrounding distribution rider. For example, the distribution terminal of the distribution rider C determines that the current surrounding shops of the distribution rider C are the merchants B and D by acquiring BLE broadcast packets sent by the terminal devices deployed by the merchants B and D.

When specifically determining the object from which the BLE broadcast packet is transmitted, it can be confirmed by id information in the BLE broadcast packet.

For the delivery rider C, when the terminal devices deployed by the merchant B and the merchant D send BLE broadcast packets, the sending rates of the terminal devices deployed by the merchant B and the merchant D may be different, so that the sending rate of the terminal devices deployed by the merchant B and the merchant D may be different, or the sending signals of the terminal devices deployed by the merchant B and the merchant D may be based on the sending rates of the terminal devices deployed by the merchant B and the merchant D, or the sending signals of the terminal devices deployed by the merchant B and the merchant D may be further determined, and this ordering is for the delivery rider C, and the closer the merchant is to the delivery rider C, the faster the sending rate of the BLE broadcast packets is sent, and the stronger the sending signals are.

In fact, for delivery rider C, it may also be determined whether the location of the merchant is accurate, whether the location of the merchant has changed, etc., based on the currently transmitted BLE broadcast packet situation of the merchant-deployed terminal device and the previously accumulated surrounding store data. For example, after the relocation of the merchant B, if the delivery terminal of the delivery rider C can receive the BLE broadcast packet sent to the air by the merchant D and the merchant G at this time, the BLE broadcast packet sent to the air by the merchant B is not always received, so that it can be confirmed that the address of the merchant B has been relocated.

In an embodiment, in a scenario where the information processing system may also be used to assist each other between delivery riders, referring to fig. 1, a delivery terminal corresponding to the delivery rider E may broadcast SOS (Save Our Souls) information in BLE broadcast packets, for example, the delivery rider E may broadcast help information in unexpected situations such as falling, injury, or discomfort during riding, the delivery terminal of the nearby delivery rider F may collect the broadcast SOS information, and the delivery rider F may input reply information for replying to the SOS information at the delivery terminal of the delivery rider F, for example: "please wait a little, i am come to help you" and the reply message can be directly sent to the delivery terminal corresponding to the delivery rider E. Meanwhile, the distribution terminal of the distribution rider F can broadcast the positioning information of the distribution terminal through the BLE broadcast packet, so that the distribution terminal of the distribution rider E can acquire the BLE broadcast packet, and further the positioning information of the distribution rider F can be obtained.

In fig. 1, the information broadcast is transmitted as a BLE broadcast packet, and the side receiving the BLE broadcast packet analyzes the BLE broadcast packet after receiving the BLE broadcast packet to obtain specific information in the BLE broadcast packet.

In the above scenario example, the sending and receiving of the BLE broadcast packet is mainly performed at the distribution terminal and the merchant terminal, so as to realize information sharing, and actually, the sending and receiving of the BLE broadcast packet may also be performed at other types of terminals, such as a single user terminal.

Fig. 1 described above is a schematic view of an application scenario of an information processing system according to the present application, and the application scenario of the information processing system is merely one embodiment of the application scenario of the information processing system according to the present application, which is provided for convenience in understanding the information processing system according to the present application, and is not limited to the information processing system according to the present application. Other application scenarios of the information processing system in the embodiments of the present application are not described in detail.

First embodiment

The present embodiment provides an information processing system, and is described below with reference to fig. 2. The applicable scenario of the information processing system may refer to the above-described scenario embodiment, and for some examples of this embodiment, reference is made to the above-described scenario embodiment.

Fig. 2 is a schematic diagram of an information processing system according to a first embodiment of the present application.

The information processing system includes: an information transmitting end 201 and an information receiving end 202.

The information sending end 201 is configured to obtain first target information, and obtain a broadcast information packet to be sent according to the first target information; transmitting a broadcast information packet by adopting a preset information transmission mode; the first target information is information to be shared corresponding to the information sending end.

An information receiving end 202, configured to obtain a broadcast information packet by adopting a preset information transmission manner; and analyzing the broadcast information packet to obtain the first target information.

In this embodiment, the preset information transmission mode is a function for information transmission, which is possessed by the information sending end and the information receiving end; the preset information transmission mode may be a bluetooth broadcast mode, and of course, other information transmission modes besides the bluetooth broadcast mode may be other information transmission modes, and the broadcast information packet may be a BLE broadcast packet in the above-mentioned scene embodiment.

In this embodiment, as an example, the first target information may refer to first positioning information corresponding to a position where the information transmitting end is located; the information receiving end is specifically used for judging whether the current positioning information corresponding to the position of the information receiving end can be obtained within the preset time length; if not, a preset information transmission mode is adopted to obtain a broadcast information packet; and analyzing the broadcast information packet to obtain first positioning information, and taking the first positioning information as current positioning information. Referring specifically to the above procedure of obtaining positioning information by the distribution terminal corresponding to the distribution rider a obtaining the BLE broadcast packet sent by the distribution terminal corresponding to the distribution rider C or the BLE broadcast packet sent by the terminal device deployed by the merchant B in the embodiment of the scenario.

In this embodiment, when the first target information is first positioning information corresponding to a position where the information sending end is located, as an embodiment, the information sending end may be: a merchant terminal deployed by a merchant; the information receiving end may be: a second distribution terminal corresponding to the second distribution resource; the first positioning information may be positioning information corresponding to a location where the merchant is located; the merchant terminal is used for obtaining first positioning information and obtaining a broadcast information packet to be sent according to the first positioning information; transmitting a broadcast information packet by adopting a preset information transmission mode; the second distribution terminal is used for obtaining a broadcast information packet by adopting a preset information transmission mode; and analyzing the broadcast information packet to obtain first positioning information. For easy understanding, taking the merchant B as an example of the merchant and taking the delivery terminal corresponding to the delivery rider a as an example of the second delivery terminal corresponding to the second delivery resource, specifically refer to a procedure of obtaining, by the delivery terminal corresponding to the delivery rider a, a BLE broadcast packet sent by the terminal device of the merchant B to locate the delivery rider a in the above-mentioned scene embodiment.

In this embodiment, when the first target information is first positioning information corresponding to a position where the information sending end is located, as another embodiment, the information sending end may be: a first distribution terminal corresponding to the first distribution resource; the information receiving end may be: a second distribution terminal corresponding to the second distribution resource; the first positioning information may be positioning information corresponding to a position where the first distribution resource is located; the first distribution terminal is used for obtaining first positioning information and obtaining a broadcast information packet to be transmitted according to the first positioning information; transmitting a broadcast information packet by adopting a preset information transmission mode; the second distribution terminal is used for obtaining a broadcast information packet by adopting a preset information transmission mode; and analyzing the broadcast information packet to obtain first positioning information. For easy understanding, taking the delivery terminal corresponding to the delivery rider C as an example of the first delivery terminal corresponding to the first delivery resource and taking the delivery terminal corresponding to the delivery rider a as an example of the second delivery terminal corresponding to the second delivery resource, refer to a procedure of positioning the delivery rider a by the delivery terminal corresponding to the delivery rider a obtaining the BLE broadcast packet sent by the delivery terminal corresponding to the delivery rider C in the above-mentioned scene embodiment.

In this embodiment, the system further includes: and the positioning information checking module.

The positioning information verification module is used for obtaining target range information of the second target order and first positioning information provided by the second distribution terminal; verifying whether the position of the second distribution resource is in a target range corresponding to the target range information according to the target range information and the first positioning information; the second target order is an order for the second delivery resource to be currently delivered. In this embodiment, the positioning information verification module may be mainly used to determine whether the delivery rider arrives at a store or arrives during the delivery of the order. The arrival at the store corresponds to the arrival of the delivery rider at the merchant providing the order merchandise during the delivery process, and the arrival corresponds to the arrival of the delivery rider at the order designated receiving address during the delivery process. The second target order is employed so as to correspond to the second delivery resource, and in this embodiment, delivery rider a may be taken as an example of the second delivery resource.

Specifically, the target range corresponding to the target range information of the second target order may refer to: a first circular area taking the position of the commodity for receiving the second target order as a circle center and taking the first preset distance as a radius; as one embodiment of verifying, based on the target range information and the first positioning information, whether the location where the second distribution resource is located is within the target range corresponding to the target range information: and judging whether the locating point corresponding to the first locating information is in the first circular area. In this embodiment, in the arrival scene, it is determined whether the delivery rider arrives at the store. The location of the item for which the second target order is received may actually refer to the location of the merchant that provided the item for the second target order.

In this embodiment, the target range corresponding to the target range information of the second target order may further refer to: a second circular area with the position of the commodity delivered to the second target order as a circle center and a second preset distance as a radius; the checking whether the position of the second distribution resource is in the target range corresponding to the target range information according to the target range information and the first positioning information may be: and judging whether the locating point corresponding to the first locating information is in the second circular area. In this embodiment, in the delivery scenario, it is determined whether the delivery rider delivers the order. The location of the merchandise to the second target order may actually refer to the merchandise of the second target order being sent to the location specified by the order placing user.

In this embodiment, the information processing system may be further used for transferring orders or assisting among a plurality of distribution terminals, and specifically, the information sending end may refer to: a first distribution terminal corresponding to the first distribution resource; the information receiving end may refer to: and the second distribution terminal corresponds to the second distribution resource.

When transferring or assisting among the plurality of delivery terminals, the first target information may refer to assistance information that the first delivery resource needs to assist in the delivery process or assistance information that the first target order of current delivery needs to assist; the assistance information that requires assistance for the first target order currently being dispensed may actually refer to a transfer, e.g., delivery rider C may initiate a transfer; the assistance information that needs assistance for the currently delivered first target order may actually refer to help information, for example, the delivery rider C may initiate help, and of course, may also be help initiated by other delivery riders, specifically refer to help information sent by the delivery rider E through the BLE broadcast packet in the above scenario embodiment, where the delivery rider E is taken as an example of the first delivery resource.

In order to facilitate providing assistance to the first delivery resource, the second delivery terminal is further configured to obtain reply information of the reply assistance information input by the second delivery resource, and provide the reply information to the first delivery terminal. Referring specifically to the description process of delivering the rider E with assistance of the delivering rider F in the above-described embodiment of the scene, the delivering rider F is taken as an example of the second delivering resource.

In this embodiment, the information sending end may further refer to: a merchant terminal deployed by a merchant; the information receiving end may refer to: distribution terminals corresponding to distribution resources; correspondingly, the first target information may refer to usage status information of the merchant terminal; and the distribution terminal is also used for providing the using state information to the merchant terminal maintenance platform.

In fig. 1, a merchant B and a merchant D exist around a delivery rider C, terminal devices are disposed in the merchant B and the merchant D, the terminal devices disposed in the merchant B and the merchant D may include BLE broadcast packages for broadcasting id and longitude and latitude, when the disposed terminal device fails or has too low electric quantity (such as the terminal device fails or has too low electric quantity), the fault code or electric quantity information together with the broadcasted id and longitude and latitude may be broadcast, so that the delivery terminal of the delivery rider C may obtain the fault code information or electric quantity information of the terminal device disposed in the merchant B and the merchant D by analyzing the BLE broadcast packages, and provide the fault code information or electric quantity information to a maintenance platform of the merchant terminal device, so as to facilitate maintenance of the terminal device by professional maintenance equipment personnel or to replace a new battery.

In this embodiment, the information processing system may also be applied to location ranking information of each merchant that obtains the location where the delivery terminal is located, and specifically, the information sending end may refer to: a merchant terminal deployed by a merchant; the information receiving end may refer to: distribution terminals corresponding to distribution resources; the distribution terminal is further used for obtaining information transmission rate information of the merchant terminal according to the broadcast information packet and obtaining position ordering information of each merchant of the position of the distribution terminal according to the information transmission rate information.

In this embodiment, the protocol structure of the broadcast packet includes a message header and a message body; the message header and the message body have a corresponding relation; the message header comprises at least one of protocol version information, message body type, message body encryption mode and message body length information; the message body includes at least one of shared location information, delivery assistance information issued by the delivery resource, and usage status information of the merchant terminal.

The protocol structure consists of two parts, a fixed message header and a variable message body, the different message bodies being distinguished by the message_type of the header.

Specifically, for ease of understanding, the fixed message header is as shown in table 1:

table 1 fixed header style

In Table 1, byte is the position of the byte, e.g., byte 1 is the first bit.

The protocol version number is in the first bit (byte 1), occupies one byte, is used for distinguishing different protocol versions and versions of subsequent iterations, and can support 255 protocol types;

the message body type is in the second bit (byte 2), occupies one byte, is used for distinguishing different message body contents, and can support 255 different types of message bodies;

the encryption mode of the message body and the mark whether the message body needs to respond are in the third bit (byte 3), the encryption modes are from bit4 to bit7, and 4-bit binary representation is used for representing 16 encryption types; bit3 indicates whether the message body needs to respond or not, the response content is reflected in the message body, and the remaining bits 0 to 2 are reserved and temporarily not occupied;

the message body length is at the fourth bit (byte 4), which occupies one byte, and the maximum message body load is 255 bytes.

To facilitate understanding of protocol versions, some examples of protocol versions are shown in table 2:

Type(s)	Numerical value	Brief description of the drawings
			Intelligent cabinet	0	At present, the intelligent cabinet access device is used for intelligent cabinet access
beacon 2.0	1	For store-to-store, location sharing, and ambient store information collection

Table 2 version of protocol style

In the above example, protocol version 0 may represent, for example, accessing take-away meals or goods with the intelligent cabinet, such as, for example, depositing take-away meals or goods in or removing take-away meals or goods from the intelligent cabinet; protocol version 1 may represent that in a store-to-store scenario with beacon 2.0, location sharing and surrounding store information collection may also be performed. Of course, the protocol versions listed above are only a few examples, and the protocol versions may be of other types.

The message body encryption method can be classified into an unencrypted method or an encrypted method, wherein the encryption method uses plaintext for broadcasting when the encryption method is not used, and the encryption method can use exclusive-or encryption method, such as exclusive-or encryption of the message body by using a key (key). The message body actually refers to the first target information described above.

To facilitate understanding of message body types, some examples of message body types employ the following table 3:

type(s)	Numerical value	Brief description of the drawings
			Reservation of	0	Reserved for use
Location sharing	1	Sharing location information

Table 3 style of message body type

In the above example, for example, message body type 0 may not temporarily represent any type of message body, so that message body type 0 is used when there is a higher priority message body in the following; message body type 1 may represent shared location information, although the message body types listed above are only a few examples, and other types may be included.

To facilitate understanding of the message body, taking shared location information as an example, the message body sharing location information is shown in table 4.

In this embodiment, the message body sharing the positioning information mainly includes: longitude information, latitude information, location type, terminal type, and terminal id.

Table 4 style of sharing location information

In the above example, the longitude information is in the fifth to eighth bits (byte 5 to byte 8); latitude information is in ninth to twelfth bits (byte 9 to byte 12); positioning bits 4 to 7 of which the type is in thirteenth bit (byte 13), and keeping bits 0 to 3 temporarily unoccupied; the terminal type is in the fourteenth bit (byte 14); the terminal id is in the fifteenth to twenty-second bits (byte 15 to byte 22).

The terminal type may actually refer to a terminal type providing a broadcast packet, such as a merchant terminal, a rider terminal, an order subscriber terminal, and the like. The terminal id may refer to an encoding of a terminal providing a broadcast packet.

In this embodiment, the information receiving end is specifically configured to obtain a target message body type corresponding to the broadcast information packet, and parse the broadcast information packet according to the target message body type to obtain the first target information.

In fact, in this embodiment, different message body types have different parsing modes, so after obtaining the broadcast packet, the information receiving end first confirms the message body type from the fixed message header, that is: and the target message body type is used for analyzing the broadcast information packet according to the target message body type to obtain first target information.

The information sending end takes the broadcast information package as an information carrier of first target information and sends the broadcast information package to the air in a preset information transmission mode, so that when the information receiving end needs to acquire the first target information, the broadcast information package sent by the information sending end in a target preset distance range can be acquired in the preset information transmission mode, the broadcast information package is analyzed to acquire the first target information, the information receiving end can acquire the first target information to be shared in time, and when the information is transmitted in the preset information transmission mode, a communication link layer between the information sending end and the information receiving end is not in a communication connection state, connection is not required to be established in advance between the information sending end and the information receiving end, the information sending and receiving process is simplified, the information transmission efficiency is improved, and meanwhile, the applicability is wider.

Second embodiment

The second embodiment of the present application also provides an information processing method corresponding to the information processing system provided in the first embodiment of the present application. Since this method embodiment is substantially similar to the first embodiment, the description is relatively simple, and reference is made to the partial description of the first embodiment for the relevant points. The embodiments described below are merely illustrative.

Fig. 3 is a flowchart of an information processing method according to a second embodiment of the present application.

The method is applied to an information sending end and comprises the following steps:

step S301: and obtaining the first target information, and obtaining the broadcast information packet to be transmitted according to the first target information.

Step S302: and transmitting the broadcast information packet by adopting a preset information transmission mode.

In this embodiment, the first target information is information to be shared corresponding to the information sending end; the broadcast information packet is used for the information receiving end to obtain a first target information by analyzing after the information receiving end obtains the first target information by adopting a preset information transmission mode; the distance between the information sending end and the position of the information receiving end is within a target preset distance range; when the preset information transmission mode is adopted for information transmission, a communication link layer between the information sending end and the information receiving end is not in a communication connection state.

In the method, the information transmitting end takes the broadcast information packet as an information carrier of the first target information and transmits the broadcast information packet to the air in a preset information transmission mode, so that when the information receiving end needs to acquire the first target information, the broadcast information packet transmitted by the information transmitting end within a target preset distance range can be acquired in the preset information transmission mode, the broadcast information packet is analyzed to acquire the first target information, the information receiving end can acquire the first target information to be shared in time, and when the information transmission is carried out in the preset information transmission mode, a communication link layer between the information transmitting end and the information receiving end is not in a communication connection state, and connection is not required to be established in the communication link layer between the information transmitting end and the information receiving end in advance, so that the information transmitting and receiving process is simplified, the information transmission efficiency is improved, and meanwhile, the applicability is wider.

Third embodiment

The third embodiment of the present application also provides an information processing method corresponding to the information processing system provided in the first embodiment of the present application. Since this method embodiment is substantially similar to the first embodiment, the description is relatively simple, and reference is made to the partial description of the first embodiment for the relevant points. The embodiments described below are merely illustrative.

Fig. 4 is a flowchart of an information processing method according to a third embodiment of the present application.

The method is applied to an information receiving end and comprises the following steps:

step S401: and obtaining the broadcast information packet by adopting a preset information transmission mode.

Step S402: and analyzing the broadcast information packet to obtain the first target information.

In this embodiment, the broadcast information packet is obtained by the information sending end according to the first target information and sent by adopting a preset information transmission mode; the first target information is information to be shared corresponding to the information sending end. The distance between the information sending end and the position of the information receiving end is within a target preset distance range; when the preset information transmission mode is adopted for information transmission, a communication link layer between the information sending end and the information receiving end is not in a communication connection state.

In this embodiment, as an example, the first target information may refer to first positioning information corresponding to a position where the information transmitting end is located;

the embodiment further includes: judging whether current positioning information corresponding to the current position can be obtained within a preset time length; as a way of obtaining the broadcast packet by using a preset information transmission manner: if the current positioning information corresponding to the current position cannot be obtained within the preset time length, a preset information transmission mode is adopted to obtain the broadcast information packet.

The application provides an information processing method, wherein in the method, an information receiving end obtains a broadcast information packet by adopting a preset information transmission mode, the broadcast information packet is analyzed to obtain first target information, and the broadcast information packet is obtained by an information sending end according to the first target information and is sent by adopting the preset information transmission mode; the first target information is information to be shared corresponding to the information sending end. The distance between the information sending end and the position of the information receiving end is within a target preset distance range; when the information is transmitted by adopting a preset information transmission mode, the communication link layer between the information transmitting end and the information receiving end is not in a communication connection state, so that when the information receiving end needs to acquire first target information, the information transmitting end can acquire a broadcast information packet transmitted by the information transmitting end within a target preset distance range by adopting the preset information transmission mode, and analyze the broadcast information packet to acquire the first target information, and further, the information receiving end can acquire the first target information needing to be shared in time.

Fourth embodiment

The fourth embodiment of the present application also provides an information processing apparatus corresponding to the information processing method provided by the second embodiment of the present application. Since the device embodiment is substantially similar to the second embodiment, the description is relatively simple, and reference is made to the description of the second embodiment for relevant points. The device embodiments described below are merely illustrative.

Fig. 5 is a schematic diagram of an information processing apparatus according to a fourth embodiment of the present application.

The information processing apparatus 500 is applied to an information transmitting end, and the apparatus includes:

a first information processing unit 501, configured to obtain first target information, and obtain a broadcast information packet to be sent according to the first target information;

a sending unit 502, configured to send the broadcast information packet by using a preset information transmission manner; the first target information is information to be shared corresponding to the information sending end; the broadcast information packet is used for analyzing after the information receiving end obtains the first target information by adopting the preset information transmission mode;

Fifth embodiment

The fifth embodiment of the present application also provides an information processing apparatus corresponding to the information processing method provided by the third embodiment of the present application. Since the device embodiment is substantially similar to the third embodiment, the description is relatively simple, and reference is made to the description of the third embodiment for relevant points. The device embodiments described below are merely illustrative.

Fig. 6 is a schematic diagram of an information processing apparatus according to a fifth embodiment of the present application.

The information processing apparatus 600 is applied to an information receiving end, and the apparatus includes:

a broadcast information packet obtaining unit 601, configured to obtain a broadcast information packet by adopting a preset information transmission manner; the broadcast information packet is obtained by the information sending terminal according to the first target information and sent by adopting the preset information transmission mode; the first target information is information to be shared corresponding to the information sending end;

the parsing unit 602 is configured to parse the broadcast packet to obtain the first target information;

Sixth embodiment

The sixth embodiment of the present application further provides an electronic device corresponding to the methods of the second embodiment and the third embodiment of the present application.

Fig. 7 is a schematic diagram of an electronic device according to a sixth embodiment of the present application, as shown in fig. 7.

In this embodiment, an optional hardware structure of the electronic device 700 may be as shown in fig. 7, including: at least one processor 701, at least one memory 702, and at least one communication bus 705; the memory 702 contains a program 703 and data 704.

Bus 705 may be a communication device that transfers data between components within electronic device 700, such as an internal bus (e.g., a CPU-memory bus, processor central processing unit, CPU for short), an external bus (e.g., a universal serial bus port, a peripheral component interconnect express port), and so forth.

In addition, the electronic device further includes: at least one network interface 706, at least one peripheral interface 707. The network interface 706 to provide wired or wireless communication with an external network 708 (e.g., the Internet, an intranet, a local area network, a mobile communication network, etc.); in some embodiments, the network interface 706 may include any number of network interface controllers (English: network interface controller, NIC for short), radio Frequency (RF) modules, transponders, transceivers, modems, routers, gateways, any combination of wired network adapters, wireless network adapters, bluetooth adapters, infrared adapters, near field communication (English: near Field Communication, NFC) adapters, cellular network chips, and the like.

Peripheral interface 707 is used to connect with peripherals, such as peripheral 1 (709 in fig. 7), peripheral 2 (710 in fig. 7), and peripheral 3 (711 in fig. 7). Peripherals, i.e., peripheral devices, which may include, but are not limited to, cursor control devices (e.g., mice, touchpads, or touchscreens), keyboards, displays (e.g., cathode ray tube displays, liquid crystal displays). A display or light emitting diode display, a video input device (e.g., a video camera or an input interface communicatively coupled to a video archive), etc.

The processor 701 may be a CPU or a specific integrated circuit ASIC (Application Specific Integrated Circuit) or one or more integrated circuits configured to implement embodiments of the present application.

The memory 702 may comprise high-speed RAM (collectively: random Access Memory, i.e., random access memory) memory, and may also include non-volatile memory (non-volatile memory), such as at least one disk memory.

The processor 701 invokes programs and data stored in the memory 702 to execute the methods of the second embodiment and the third embodiment of the present application.

Seventh embodiment

The seventh embodiment of the present application also provides a computer storage medium storing a computer program corresponding to the methods of the second and third embodiments of the present application, the computer program being executed by a processor to perform the methods of the second and third embodiments of the present application.

While the preferred embodiment has been described, it is not intended to limit the invention thereto, and any person skilled in the art may make variations and modifications without departing from the spirit and scope of the present invention, so that the scope of the present invention shall be defined by the claims of the present application.

In one typical configuration, a computing device includes one or more processors (CPUs), input/output interfaces, network interfaces, and memory. The Memory may include volatile Memory, random Access Memory (RAM), and/or nonvolatile Memory in a computer-readable medium, such as Read-Only Memory (ROM) or flash RAM. Memory is an example of computer-readable media.

1. Computer readable media, including both non-transitory and non-transitory, removable and non-removable media, may implement information storage by any method or technology. The information may be computer readable instructions, data structures, modules of a program, or other data. Examples of storage media for a computer include, but are not limited to, phase change Memory (English: phase change Memory; PRAM for short), static random access Memory (English: static Random Access Memory; SRAM for short), dynamic random access Memory (English: dynamic Random Access Memory; DRAM for short), other types of Random Access Memory (RAM), read-Only Memory (ROM), electrically erasable programmable read-Only Memory (EEPROM for short), flash Memory or other Memory technology, read-Only optical disk read-Only Memory (English: compact Disc Read-Only Memory; CD-ROM for short), digital versatile disks (English: digital versatiledisc; DVD for short) or other optical storage, magnetic cassettes, magnetic tape magnetic disk storage or other magnetic storage devices or any other non-transmission medium, which can be used to store information that can be accessed by a computing device. Computer readable media, as defined herein, does not include non-transitory computer readable storage media (non-transitory computer readable storage media), such as modulated data signals and carrier waves.

2. It will be appreciated by those skilled in the art that embodiments of the present application may be provided as a method, system, or computer program product. Accordingly, the present application may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present application may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.

It should be noted that, the user information (including but not limited to user equipment information, user personal information, etc.) and the data (including but not limited to data for analysis, stored data, presented data, etc.) related to the present application are information and data authorized by the user or fully authorized by each party, and the collection, use and processing of the related data need to comply with the related laws and regulations and standards of the related country and region, and provide corresponding operation entries for the user to select authorization or rejection.

Claims

1. An information processing system, comprising: an information sending end and an information receiving end;

2. The system of claim 1, wherein the first target information includes first positioning information corresponding to a position where the information transmitting end is located;

3. The system according to claim 2, wherein the information transmitting terminal includes: a merchant terminal deployed by a merchant; the information receiving terminal comprises: a second distribution terminal corresponding to the second distribution resource; the first positioning information comprises positioning information corresponding to the position of the merchant;

4. The system according to claim 2, wherein the information transmitting terminal includes: a first distribution terminal corresponding to the first distribution resource; the information receiving terminal comprises: a second distribution terminal corresponding to the second distribution resource; the first positioning information comprises positioning information corresponding to the position of the first distribution resource;

5. The system of claim 3 or 4, further comprising: a positioning information checking module;

6. An information processing method, which is applied to an information transmitting end, the method comprising:

7. An information processing method, applied to an information receiving end, comprising:

8. The method of claim 7, wherein the first target information includes first positioning information corresponding to a position where the information transmitting end is located;

9. An electronic device, comprising:

a processor;

a memory for storing a computer program to be run by a processor for performing the method of any one of claims 6-8.

10. A computer storage medium, characterized in that the computer storage medium stores a computer program, which is executed by a processor, for performing the method of any of claims 6-8.