CN109815265B - Method and equipment for social contact based on alarm clock - Google Patents

Abstract

The application aims to provide a method for social interaction based on an alarm clock, wherein the method comprises the following steps: acquiring alarm clock setting information of a first user, wherein the alarm clock setting information of the first user comprises first alarm time and a first event to be handled of the first user; determining one or more social objects according to matching inquiry in a user alarm clock information base according to the alarm clock setting information of the first user, wherein the second alarm time and the second to-be-handled event of each social object are respectively matched with the first alarm time and the corresponding first to-be-handled event of the first user; at least one of the one or more social objects is provided to the first user. According to the method and the device, matching inquiry is conducted on the basis of alarm clock setting information of the first user, and matched social objects are provided for the first user; the user is supported to conduct downlink social contact or online social contact based on the alarm clock, the social contact range of the user is enlarged, and the viscosity of the user to the alarm clock is improved.

Description

Method and equipment for social contact based on alarm clock

Technical Field

The application relates to the field of communication, in particular to a technology for social contact based on an alarm clock.

Background

With the development of society and technology, more and more transactions are required to be processed by people in life or work. When more transactions need to be processed, people usually remind themselves by setting an alarm clock.

In the prior art, the alarm clock only plays a role in reminding people to process the transaction to be done at fixed time. The function of social contact based on the alarm clock cannot be realized, the viscosity of the application of the alarm clock by a user is not high, and the function of the alarm clock cannot be fully exerted.

Disclosure of Invention

An object of the application is to provide a method and equipment for social interaction based on an alarm clock.

According to one aspect of the application, there is provided a method of social networking at a network device based on an alarm clock, the method comprising:

acquiring alarm clock setting information of a first user, wherein the alarm clock setting information of the first user comprises first alarm time and a first event to be handled of the first user, and the first alarm time corresponds to the first event to be handled;

searching one or more social objects corresponding to alarm clock setting information of the first user, wherein the second alarm time and the second to-do event of each social object are respectively matched with the first alarm time and the first to-do event of the first user, and the second alarm time corresponds to the second to-do event;

At least one of the one or more social objects is provided to the first user.

According to another aspect of the application, there is provided a method of social interaction at a user device based on an alarm clock, the method comprising:

sending alarm clock setting information of a first user to corresponding network equipment, wherein the alarm clock setting information comprises first alarm time and a first event to be handled of the first user, and the first alarm time corresponds to the first event to be handled;

and receiving one or more social objects returned by the network equipment, wherein the second alarm time and the second to-do event of each social object are respectively matched with the first alarm time and the first to-do event of the first user, and the second alarm time corresponds to the second to-do event.

According to one aspect of the present application, there is provided a network device for social networking based on an alarm clock, the device comprising:

the alarm clock setting module is used for acquiring alarm clock setting information of a first user, wherein the alarm clock setting information of the first user comprises first alarm time and a first event to be handled of the first user, and the first alarm time corresponds to the first event to be handled;

The first module is used for searching one or more social objects corresponding to the alarm clock setting information of the first user, wherein the second alarm time and the second to-do event of each social object are respectively matched with the first alarm time and the first to-do event of the first user, and the second alarm time corresponds to the second to-do event;

and a third module for providing at least one of the one or more social objects to the first user.

According to another aspect of the present application, there is provided a user device for social networking based on an alarm clock, the device comprising:

the second module is used for sending alarm clock setting information of a first user to corresponding network equipment, wherein the alarm clock setting information comprises first alarm time and a first event to be handled of the first user, and the first alarm time corresponds to the first event to be handled;

and the second module is used for receiving one or more social objects returned by the network equipment, wherein the second alarm time and the second to-be-handled event of each social object are respectively matched with the first alarm time and the first to-be-handled event of the first user, and the second alarm time corresponds to the second to-be-handled event.

According to one aspect of the application, there is provided a method of social networking based on an alarm clock, wherein the method comprises:

the method comprises the steps that user equipment sends alarm clock setting information of a first user to corresponding network equipment, wherein the alarm clock setting information comprises first alarm time and a first event to be handled of the first user, and the first alarm time corresponds to the first event to be handled;

the network equipment acquires alarm clock setting information of a first user, searches one or more social objects corresponding to the alarm clock setting information of the first user, wherein second alarm time and second to-do event of each social object are respectively matched with first alarm time and first to-do event of the first user, the second alarm time corresponds to the second to-do event, and at least one of the one or more social objects is provided for the first user;

the user equipment receives one or more social objects returned by the network equipment.

According to one aspect of the present application, there is provided an alarm clock based social networking device, comprising:

a processor; and

a memory arranged to store computer executable instructions that, when executed, cause the processor to perform the operations of any of the methods described above.

According to another aspect of the present application, there is provided a computer readable medium comprising instructions which, when executed, cause a system to perform the operations of any of the methods described above.

Compared with the prior art, the method and the device have the advantages that matching inquiry is carried out on the basis of the alarm clock setting information of the first user, and matched social objects are provided for the first user, wherein the second alarm time and the second event to be handled of each social object are respectively matched with the first alarm time and the first event to be handled; therefore, the user is supported to conduct downlink social contact or online social contact based on the alarm clock, the social contact range of the user is enlarged, the viscosity of the user to the alarm clock is improved, and the user experience is improved.

Moreover, the method and the device perform matching query through the alarm clock setting information of the first user and/or the current position information of the first user, and query nearby matched social objects for the first user, wherein the second alarm time, the second event to be handled and the current position information of each social object are respectively matched with the first alarm time, the first event to be handled and the current position information of the first user; thereby facilitating the user to conduct social connection with the social object in a line, improving the practicability of the application, improving the viscosity of the alarm clock of the user and improving the user experience.

Further, the candidate social objects or the social objects are determined according to the time matching degree information, the event matching degree information and the position matching degree information; the method and the device have the advantages that social objects can be accurately found for the first user, the matching degree between the first user and the social objects is improved, the viscosity of the user to the alarm clock is also improved, and the user experience is improved.

Drawings

Other features, objects and advantages of the present application will become more apparent upon reading of the detailed description of non-limiting embodiments, made with reference to the following drawings, in which:

FIG. 1 illustrates a system topology for social networking based on an alarm clock in accordance with one embodiment of the present application;

FIG. 2 illustrates a flow chart of a method of social networking based on an alarm clock in accordance with one embodiment of the present application;

FIG. 3 illustrates a flow chart of a method of social networking based on an alarm at a network device in accordance with one embodiment of the present application;

FIG. 4 shows a sub-flowchart of step S12 in a method of social networking at a network device based on an alarm clock in accordance with one embodiment of the present application;

FIG. 5 shows a sub-flowchart of step S12 in a method of social networking at a network device based on an alarm clock in accordance with another embodiment of the present application;

FIG. 6 illustrates a flow chart of a method for social networking based on an alarm at a user device according to one embodiment of the present application;

FIG. 7 shows a block diagram of a network device social based on an alarm clock according to one embodiment of the present application;

FIG. 8 is a schematic diagram of a two-module configuration in an alarm clock based social networking device according to one embodiment of the present application;

FIG. 9 is a schematic diagram of a two-module configuration in a network device for social networking based on an alarm clock according to another embodiment of the present application;

FIG. 10 shows a block diagram of a user device social based on an alarm clock according to one embodiment of the present application;

FIG. 11 illustrates an exemplary system that may be used to implement various embodiments described herein.

The same or similar reference numbers in the drawings refer to the same or similar parts.

Detailed Description

The present application is described in further detail below with reference to the accompanying drawings.

In one typical configuration of the present application, the terminal, the devices of the services network, and the trusted party each include one or more processors (e.g., central processing units (Central Processing Unit, CPU)), input/output interfaces, network interfaces, and memory.

The Memory may include non-volatile Memory in a computer readable medium, random access Memory (Random Access Memory, RAM) and/or non-volatile Memory, etc., such as Read Only Memory (ROM) or Flash Memory (Flash Memory). Memory is an example of computer-readable media.

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 (PCM), programmable Random Access Memory (Programmable Random Access Memory, PRAM), static Random Access Memory (SRAM), dynamic Random Access Memory (Dynamic Random Access Memory, DRAM), other types of Random Access Memory (RAM), read-Only Memory (ROM), electrically erasable programmable read-Only Memory (EEPROM), flash Memory or other Memory technology, read-Only Memory (Compact Disc Read-Only Memory, CD-ROM), digital versatile disks (Digital Versatile Disc, DVD) or other optical storage, magnetic cassettes, magnetic tape storage or other magnetic storage devices, or any other non-transmission medium, which can be used to store information that can be accessed by the computing device.

The device referred to in the present application includes, but is not limited to, a user device, a network device, or a device formed by integrating a user device and a network device through a network. The user equipment includes, but is not limited to, any mobile electronic product which can perform man-machine interaction with a user (such as man-machine interaction through a touch pad), for example, a smart phone, a tablet computer and the like, and the mobile electronic product can adopt any operating system, for example, an android operating system, an iOS operating system and the like. The network device includes an electronic device capable of automatically performing numerical calculation and information processing according to a preset or stored instruction, and the hardware includes, but is not limited to, a microprocessor, an application specific integrated circuit (Application Specific Integrated Circuit, ASIC), a programmable logic device (Programmable Logic Device, PLD), a field programmable gate array (Field Programmable Gate Array, FPGA), a digital signal processor (Digital Signal Processor, DSP), an embedded device, and the like. The network device includes, but is not limited to, a computer, a network host, a single network server, a plurality of network server sets, or a cloud of servers; here, the Cloud is composed of a large number of computers or network servers based on Cloud Computing (Cloud Computing), which is a kind of distributed Computing, a virtual supercomputer composed of a group of loosely coupled computer sets. Including but not limited to the internet, wide area networks, metropolitan area networks, local area networks, VPN networks, wireless Ad Hoc networks (Ad Hoc networks), and the like. Preferably, the device may be a program running on the user device, the network device, or a device formed by integrating the user device and the network device, the touch terminal, or the network device and the touch terminal through a network.

Of course, those skilled in the art will appreciate that the above-described devices are merely examples, and that other devices now existing or hereafter may be present as may be appropriate for the application, are also included within the scope of the present application and are hereby incorporated by reference.

In the description of the present application, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

In some embodiments of the present application, communication is performed between a user device and a network device corresponding to the user device by means of a wireless network. For example, communication may be over a traffic network or over a wifi network. Referring to the system topology shown in fig. 1 and the system method shown in fig. 2, in some embodiments, the user equipment 1 comprises a user equipment corresponding to a first user; the user equipment 2 comprises user equipment corresponding to the social object; the user equipment 3 comprises user equipment corresponding to the social object. The method comprises the following steps: the method comprises the steps that user equipment sends alarm clock setting information of a first user to corresponding network equipment, wherein the alarm clock setting information comprises first alarm time and a first event to be handled of the first user, and the first alarm time corresponds to the first event to be handled; the network equipment acquires alarm clock setting information of a first user, searches one or more social objects corresponding to the alarm clock setting information of the first user, wherein second alarm time and second to-do event of each social object are respectively matched with first alarm time and first to-do event of the first user, the second alarm time corresponds to the second to-do event, and at least one of the one or more social objects is provided for the first user; the user equipment receives one or more social objects returned by the network equipment. In some embodiments, the user device includes, but is not limited to, a computing device such as a cell phone, tablet, notebook, or the like; in other embodiments, the user device comprises an alarm clock device with a communication module mounted thereto. Information transmission is performed by direct communication (such as establishing a connection in a wired or wireless manner) between the user equipment and the network equipment, or by establishing a communication connection through the network equipment.

The present application is mainly described above with reference to the system topology diagram shown in fig. 1 and the system method shown in fig. 2, and the following specific examples are described with reference to fig. 3 from the perspective of the network device.

Referring to fig. 3, according to one aspect of the present application, a method of social networking at a network device based on an alarm clock is provided. The method comprises the steps of S11, S12 and S13. In step S11, the network device obtains alarm clock setting information of a first user, where the alarm clock setting information of the first user includes a first alarm time of the first user and a first to-do event, and the first alarm time corresponds to the first to-do event. In step S12, the network device searches one or more social objects corresponding to the alarm clock setting information of the first user, where a second alarm time and a second to-do event of each social object are respectively matched with a first alarm time and a first to-do event of the first user, and the second alarm time corresponds to the second to-do event. In step S13, the network device provides at least one of the one or more social objects to the first user. In this embodiment, the network device queries, according to the first alarm time and the first to-be-handled event of the first user, the second alarm time and the second to-be-handled event that are respectively matched with the first alarm time and the first to-be-handled event in the user alarm clock information base, so as to obtain a social object that is matched with the first user's schedule, for example, the network device searches, in the user alarm clock information base, for a social object that is the same as or similar to the first user's schedule, and provides the social object to the first user, and the first user selects whether to perform the schedule with the social object at the same time (for example, the first user and the social object together collude to the airport), thereby promoting offline social between the first user and the social object. The viscosity of the alarm clock application by the user is improved.

Specifically, in step S11, the network device obtains alarm clock setting information of the first user, where the alarm clock setting information of the first user includes a first alarm time of the first user and a first to-do event, and the first alarm time corresponds to the first to-do event. In some embodiments, the alarm clock setting information is generated based on a setting operation of the first user, for example, the first user a sets the alarm clock setting information "00:00 robbery cell phone" on the alarm clock application through its corresponding user device. In some embodiments, the first alarm time includes an alarm start time for reminding the first user that the first user needs to process the first event to be handled at this time, for example, the first user a sets alarm setting information "00:00 to purchase the mobile phone" on the alarm clock application through the corresponding user device, where "00:00" is the first alarm time, and at the time of 00:00, the alarm is started to remind the first user a to purchase the mobile phone. In some embodiments, the first to-be-transacted event includes a to-do item set by the first user on the alarm application through its corresponding user device, for example, the first user a sets alarm setting information "00:00 to purchase a mobile phone" on the alarm application through its corresponding user device, where "to purchase a mobile phone" is the first to-do event; in other embodiments, the first to-do event includes to-do matters in other applications on the user device corresponding to the first user, for example, to-do matters in which "09:00 to XX airport" is recorded in applications such as memos or notes in the user device, where "to XX airport" is the first to-do event. In some embodiments, the first alarm time corresponds to a first to-be-transacted event, for example, the first user A sets alarm clock setting information "00:00 to purchase a mobile phone" on an alarm clock application through corresponding user equipment, wherein the first alarm time "00:00" and the first to-be-transacted event "purchase the mobile phone" are in a corresponding relationship, that is, the first user A needs to perform corresponding operation of the mobile phone to be purchased at 00:00.

Of course, it should be understood by those skilled in the art that the alarm clock setting information described above is only an example, and other user setting information that may be present in the present application or in the future are included in the scope of the present application and are incorporated herein by reference.

In step S12, the network device searches one or more social objects corresponding to the alarm clock setting information of the first user, where a second alarm time and a second to-do event of each social object are respectively matched with a first alarm time and a first to-do event of the first user, and the second alarm time corresponds to the second to-do event. In some embodiments, a user alarm clock information base is provided in the network device, where the user alarm clock information base includes one or more users (for example, ID of the user or identification information of the user device corresponding to the user) and alarm clock setting information corresponding to each user in the one or more users, where each alarm clock setting information includes an alarm time and an event to be handled. The network equipment inquires alarm clock setting information matched with the alarm clock setting information of the first user in the alarm clock information base of the user according to the alarm clock setting information of the first user, and provides the user corresponding to the matched alarm clock setting information as a social object for the first user. The alarm clock setting information corresponding to the social object comprises a second alarm time and a second event to be handled. In some embodiments, the alarm clock setting information of the first user includes a first alarm time and a first event to be handled, and the network device queries the user alarm clock information base for the matched alarm time and event to be handled according to the first alarm time and the first event to be handled, for example, when the alarm time same as the first alarm time exists in the user alarm clock information base, the alarm time is determined to be a second alarm time matched with the first alarm time; and when the user alarm clock information base has a to-be-handled event similar to the first to-be-handled event (for example, the coincidence degree of the to-be-handled event and the first to-be-handled event is larger than or equal to a coincidence degree threshold), taking the to-be-handled event as a second to-be-handled event matched with the first to-be-handled event. In some embodiments, the network device determines whether the second to-do event matches the first to-do event based on a degree of overlap with the first to-do event; in other embodiments, the network device determines whether the second to-be-handled event is matched with the first to-be-handled event according to the feature words in the first to-be-handled event, for example, the network device performs word segmentation on the second to-be-handled event based on a word segmentation algorithm, and when feature words (for example, feature words preset by the network device are "first order and mobile phone") occur in the second to-be-handled event, the network device determines that the second to-be-handled event is matched with the first to-be-handled event. In some embodiments, the network device performs query matching in the user alarm clock information base based on the first alarm time and then performs query matching based on the first event to be transacted; in other embodiments, the network device performs query matching based on the first to-be-transacted event in the user alarm clock information base, and then performs query matching based on the first alarm time; in still other embodiments, the network device performs query matching in the user alarm clock information base based on the first alarm time and the first to-be-transacted event simultaneously. The network device queries that the matched second alarm time and the second to-be-handled event are corresponding relations, for example, the second alarm time and the second to-be-handled event are second to-be-handled events which are set by the same user and need to be processed at the second alarm time.

In step S13, the network device provides at least one of the one or more social objects to the first user. In some embodiments, the network device sends the identification information (e.g., user name, head portrait) of the matched one or more social objects and the second to-do event corresponding to each social object to the user device corresponding to the first user, so that the first user selects whether to conduct offline social interaction with the social objects therein; in other embodiments, the network device sends the identification information (e.g., user name, avatar) of the matched social object or objects and a prompt to the user device corresponding to the first user, e.g., "at this time, the following user also sets an alarm clock as you do, hopefully does you know? ".

For example, the first user a sets alarm clock setting information "00:00 robbery cell phone" on the alarm clock application through its corresponding user device. The alarm clock setting information comprises a first alarm time of '00:00' and a first event to be handled of 'robbery mobile phone'. The network equipment acquires alarm clock setting information set by the first user A, and queries matched social objects in a user alarm clock information base based on the alarm clock setting information. For example, the network device queries the user alarm clock information base for the same alarm time as the first alarm time according to the first alarm time '00:00', and determines the user corresponding to the alarm time as a candidate social object. Further, the network device queries the candidate social objects similar to the "robbery mobile phone" in the one or more candidate social objects according to the first candidate event "robbery mobile phone", and determines the candidate social object corresponding to the candidate event as the social object. For example, the network device determines a to-be-handled event with a field of "preempt" or "preempt" in the to-be-handled events as a to-be-handled event matched with a first to-be-handled event of the "preempt mobile phone", and further determines a candidate social object corresponding to the to-be-handled event as a social object; for another example, when the coincidence ratio of the event to be handled and the first event to be handled is greater than or equal to a coincidence ratio threshold, the network device determines a candidate social object corresponding to the event to be handled as a social object. Further, the network device sends the identification information of the one or more social objects obtained by matching to the user device corresponding to the first user A. For example, a user alarm clock information base is set in the network device, where the user alarm clock information base includes one or more users (for example, ID of the user or identification information of the user device corresponding to the user) and alarm clock setting information corresponding to each user in the one or more users, where each alarm clock setting information includes alarm time and to-do event. The network equipment inquires alarm clock setting information matched with the alarm clock setting information of the first user in the alarm clock information base of the first user according to the alarm clock setting information of the first user, and provides the user corresponding to the matched alarm clock setting information as a social object for the first user, and then the network equipment sends identification information of one or more social objects obtained by matching to user equipment corresponding to the first user so that the first user selects the social object from the one or more social objects to conduct social downlink.

In some embodiments, as shown in fig. 4, the step S12 includes a step S121 and a step S122. In step S121, the network device searches for one or more candidate social objects in a user alarm clock information base according to the first alarm time of the first user, where the second alarm time of each candidate social object is matched with the first alarm time of the first user. In step S122, the network device determines the one or more social objects from the one or more candidate social objects according to the first to-do event of the first user, where the second to-do event of each social object matches the first to-do event of the first user. In some embodiments, in the process of inquiring a social object in a user alarm information base, the network device firstly inquires candidate social objects with events to be handled in the same or similar time as the first user based on the first alarm time, and then inquires social objects with events to be handled which are the same as or similar to the first user from the candidate social objects according to the first events to be handled. So that the network device makes a query determination of the social object on the same or similar basis as the first alarm time. For example, when the first user performs a first event to be handled with a relatively high time requirement, such as a first purchase, the first alarm time has a more important matching reference value relative to the first event to be handled, and the network device can perform matching of candidate social objects based on the first alarm time preferentially; further, searching the social object which is the same as or similar to the first to-be-handled event in the candidate social object according to the first to-be-handled event. I.e. the network device first filters out the user corresponding to the alarm time that matches the first alarm time. For example, the alarm clock setting information of the first user is '00:00 robbery mobile phone', on the premise of inquiring candidate social objects based on the first alarm time, even the events to be handled, which are also "robbery cell phones", can be screened out. The importance of the first alarm time in this scenario is highlighted.

Specifically, in step S121, the network device searches for one or more candidate social objects in a user alarm clock information base according to the first alarm time of the first user, where the second alarm time of each candidate social object matches the first alarm time of the first user. In some embodiments, the network device first queries a user alarm clock information base for an alarm time that matches a first alarm time (e.g., the alarm time is the same as the first alarm time) according to the first alarm time, and determines a user corresponding to the alarm time as a candidate social object; in some embodiments, the network device locates a second alarm time that is the same as or similar to the first alarm time in a second alarm time set to the same time zone.

For example, the first alarm time set by the first user A is "9:00", the network device queries the user alarm clock information base according to the first alarm time, and also sets the alarm time to be "9:00" or the alarm time similar to the first alarm time (for example, within the period of 8:45-9:15), and determines the user corresponding to the alarm time as the candidate social object.

In step S122, the network device determines the one or more social objects from the one or more candidate social objects according to the first to-do event of the first user, where the second to-do event of each social object matches the first to-do event of the first user. In some embodiments, after the network device queries the candidate social object in the user alarm clock information base according to the first alarm time, further, the network device queries the candidate social object corresponding to the to-be-handled event matched with the first to-be-handled event in the candidate social object according to the first to-be-handled event (for example, the overlap ratio of the to-be-handled event and the first to-be-handled event is greater than or equal to the overlap ratio threshold value), and determines the candidate social object as the social object.

For example, the first alarm time set by the first user A is "9:00"; the first event to be handled is "robbery cell phone". The network equipment firstly inquires candidate social objects in a user alarm clock information base according to the first alarm time. For example, the network device determines users corresponding to alarm clock times that differ by 5 minutes around the first alarm time "9:00" as candidate social objects (e.g., user b and user c). Further, the network device queries the to-be-handled event with the coincidence degree of the to-be-handled event equal to or greater than 75% in the user alarm clock information base according to the first to-be-handled event, and provides the user corresponding to the to-be-handled event as a social object to the first user A. For example, the event to be handled set by the user b is "robbery phone"; the event to be handled set by the user C is "sell mobile phone". The coincidence degree of the to-be-handled event of the user B and the first to-be-handled event of the first user A is equal to 75%. The network equipment recommends the user B to the first user A as a social object. So that the first user a and the user b go offline for discussion related to the robbery of the mobile phone.

In some embodiments, the step S121 includes a step S1211 (not shown) and a step S1222 (not shown). In step S1211, according to the first to-do event of the first user, alarm time interval threshold information corresponding to the first alarm time is determined; in step S1222, according to the first alarm time and the alarm time interval threshold information corresponding to the first alarm time, one or more candidate social objects are searched in the user alarm clock information base, where the second alarm time of each candidate social object is matched with the first alarm time and the alarm time interval threshold information corresponding to the first alarm time. In some embodiments, the alarm time interval threshold information comprises alarm time interval threshold information having a time interval before and after the first alarm time, the alarm time interval threshold information being used to determine a time range matching the first alarm time. The network device determines alarm time interval threshold information corresponding in different scenes (e.g., emergency scenes, non-emergency scenes) according to the first to-be-transacted event. For example, when the first event to be handled is a first commodity, the network device determines that alarm time interval threshold information corresponding to the first alarm time is 5 minutes; for another example, when the first to-do event is to a certain place, the network device determines that alarm time interval threshold information corresponding to the first alarm time is 15 minutes. In some embodiments, the network device may preset a mapping relationship between a field appearing in the first to-be-handled event and alarm time interval threshold information to determine alarm time interval threshold information corresponding to the first alarm time according to the first to-be-handled event, for example, when a "robbery" field appears in the first to-be-handled event, determine that alarm time interval threshold information corresponding to the first alarm time is 5 minutes. Further, the network equipment inquires a second alarm time matched with the alarm time interval threshold information in the user alarm clock information base, and takes a user corresponding to the second alarm time as a candidate social object. For example, the network device queries the user's alarm clock information base for an alarm time that differs from the first alarm time by 5 minutes, e.g. "9:00", the network device looks up an alarm time that is within the range of "8:55-9:05" (in some embodiments, including endpoint values 8:55 and 9:05), and determines the user to which the alarm time corresponds as a candidate social object.

In some embodiments, the step S1211 includes: and determining the time information required by the first user from the current position information to the position information corresponding to the first to-be-transacted event according to the position information corresponding to the first to-be-transacted event of the first user and the current position information of the first user, and taking the time information as alarm time interval threshold value information corresponding to the first alarm time.

The network equipment acquires the position information of the first to-be-handled event of the first user. In some embodiments, the first to-do event includes location information of a destination to which the first user is to go, e.g., the first to-do event "go to XX airport"; in other embodiments, the network device obtains location information corresponding to the first to-be-handled event of the first user from other applications, e.g., the network device obtains the first to-be-handled event of the first user to the XX destination from an application portal of other applications (e.g., scheduling application, ticketing application) of the user device corresponding to the first user; in some embodiments, the network device obtains location information corresponding to the first to-be-handled event by accessing a server of another application based on the first to-be-handled event, for example, the first to-be-handled event is "XX reading meeting of XX application", and the network device obtains location information of the XX reading meeting from the server of XX application or through a search engine based on the first to-be-handled event. In some embodiments, the network device obtains current location information of the first user while obtaining location information corresponding to a first to-be-transacted event of the first user. For example, the network device determines the current location information of the first user based on the GPS or the identification information of the wireless access point to which the user device corresponding to the first user is currently connected. Of course, it should be understood by those skilled in the art that the above operation of obtaining the current location information of the first user is merely exemplary, and other operations that may be present or may occur in the future are applicable to the present application, and are also included in the scope of the present application and are incorporated herein by reference. Further, the network device determines the time required by the first user from the current position information to the position information corresponding to the first to-be-processed event according to the position information corresponding to the first to-be-processed event and the current position information of the first user. For example, the network device obtains current location information of the first user a as the a location based on GPS. The network equipment obtains the position information corresponding to the first to-be-processed event as a site B based on the first to-be-processed event of the first user A. Further, the network device acquires the time length information required from the A site to the B site based on the application portal of the map application or the navigation application, or, the network device calculates the time length information required from the a site to the B site based on the longitude and latitude algorithm. Further, the network device takes the required length information as alarm time interval threshold information corresponding to the first alarm time. The network device is used for matching the second alarm time based on the alarm time interval threshold information, and the user corresponding to the second alarm time is determined to be a candidate social object. For example, the alarm clock setting information corresponding to the first user a is "4 a.m. to XX airport". The first alarm time corresponding to the first user A is 4 am; the first to-do event is "go to XX airport". And the network equipment acquires the position information corresponding to the first to-be-transacted event as an XX airport according to the first to-be-transacted event. The network device obtains the current position information of the first user A as 'A location' based on GPS. The network device obtains from the application portal of the XX map application the time length information required to reach the XX airport from the a location as "1 hour". Further, the network device uses the 1 hour as alarm time interval threshold information corresponding to the first alarm time of 4 am as the candidate social object matched by the first user A. For example, the network device looks for alarm times within a time interval [ 4 a.m., 5 a.m. ] and/or a time interval [ 3 a.m., 4 a.m. ].

In some embodiments, the second alarm time of each candidate social object matches the first alarm time and alarm time interval threshold information corresponding to the first alarm time, including at least one of: the interval between the second alarm time and the first alarm time of each candidate social object is smaller than or equal to alarm time interval threshold information corresponding to the first alarm time; a time interval formed by the second alarm time of each candidate social object and corresponding alarm time interval information has a non-empty intersection with a time interval formed by the first alarm time and alarm time interval threshold information corresponding to the first alarm time; and the intersection time length of a time interval formed by the second alarm time of each candidate social object and the corresponding alarm time interval information and a time interval formed by the first alarm time and the alarm time interval threshold value information corresponding to the first alarm time is larger than or equal to the intersection time length threshold value information. In some embodiments, the network device matches candidate social objects for the first user based on the first alarm time and the alarm time interval threshold information, which may include, in particular, the following. Of course, it should be understood by those skilled in the art that the operations described below for matching the first user with the candidate social object based on the first alarm time and the alarm time interval threshold information are only examples, and other operations that may occur in the present application or in the future are included in the scope of the present application and are incorporated herein by reference.

(1) The interval between the second alarm time and the first alarm time of each candidate social object is smaller than or equal to alarm time interval threshold information corresponding to the first alarm time. In some embodiments, the network device looks up a second alarm time within alarm time interval threshold information from the first alarm time in a user alarm clock information base. For example, the first alarm time is "4 a.m.. The alarm time interval threshold information is "5 minutes". The network device searches one or more second alarm times set in the range of '3 am point 55 to 4 am point 5 minutes' (including 3 am point 55 and 5 am point 5 minutes).

(2) And a time interval formed by the second alarm time of each candidate social object and the corresponding alarm time interval information has a non-empty intersection with a time interval formed by the first alarm time and the alarm time interval threshold value information corresponding to the first alarm time. In some embodiments, the network device searches for a second alarm time from the first alarm time and the alarm time interval threshold information based on an algorithm that searches for non-empty intersections. For example, the first alarm time is "4 am"; the alarm time interval threshold information is "5 minutes". Wherein, there is a time interval "3:55-4:05" between the first alarm time and the alarm time interval threshold information. The user alarm clock information base comprises a plurality of alarm times, wherein a corresponding time interval can be formed between each alarm time and the alarm time interval threshold information. The network equipment searches a time interval with an intersection with a time interval of '3:55-4:05' in the user alarm clock information base, determines alarm time corresponding to the time interval as second alarm time, and further determines a user corresponding to the second alarm time as a candidate social object.

(3) And the intersection time length of a time interval formed by the second alarm time of each candidate social object and the corresponding alarm time interval information and a time interval formed by the first alarm time and the alarm time interval threshold value information corresponding to the first alarm time is larger than or equal to the intersection time length threshold value information. In some embodiments, the network device searches for candidate social objects corresponding to the second alarm time according to the intersection duration threshold information. For example, the user alarm clock information base includes alarm times set by a plurality of users. In some embodiments, the network device determines alarm time interval information corresponding to each alarm time according to the to-be-handled event corresponding to each alarm time. For example, when the event to be handled is a commodity to be purchased, the alarm time interval information corresponding to the event to be handled is "5 minutes"; when the event to be handled is destined to the XX destination, the alarm time interval information corresponding to the event to be handled is 15 minutes. The corresponding relation between the event to be handled and the alarm time can be determined through a mapping relation preset by the network equipment, so that the network equipment can determine corresponding alarm time interval information based on alarm clock setting information. The alarm time and the alarm time interval information form a time interval, for example, the alarm time of 4 am and the alarm time interval information of 5 min form a time interval of 3:55-4:05. The first alarm time of the first user and its corresponding alarm time interval information constitute a time interval (e.g. "3:55-4:05"). And the network equipment searches a time interval with the intersection time length greater than or equal to the intersection time length threshold value information in the user alarm clock information base according to the time interval. For example, the intersection duration threshold information is 5 minutes, and the network device searches the user alarm clock information base for a time interval (for example, time interval "3:55-4:00", "3:57-4:05") with the intersection duration of the time interval being greater than or equal to 5 minutes according to the time interval "3:55-4:05". And determining the alarm time corresponding to the time interval as a second alarm time, and determining candidate social objects corresponding to the second alarm time by the user.

In some embodiments, the step S121 includes: searching one or more candidate social objects in the user alarm clock information base according to the first alarm time and the current position information of the first user, wherein the second alarm time of each candidate social object is matched with the first alarm time of the first user, and the distance between the current position information of the candidate social object and the current position information of the first user is smaller than or equal to alarm distance threshold information. In some embodiments, the alarm distance threshold information is used to distinguish distance threshold information between current location information of the candidate social object and current location information of the first user. In some embodiments, to match a first user to a candidate social object located near the first user that is provided with the same or similar alarm time, the network device matches the first user with a candidate social object that is less than or equal to the alarm distance threshold information from the current location information of the first user according to the current location information of the first user. For example, the network device determines current location information for each user based on information about the wireless access point to which the user device corresponding to the user is currently connected. The network device searches for a user with a distance smaller than or equal to alarm distance threshold information according to the current position information of the first user, and searches for a second alarm time matched with the first alarm time in a user alarm clock information base. For the description of searching the second alarm time based on the first alarm time, refer to the corresponding embodiments of fig. 3 and fig. 4, and are not described herein. In some embodiments, the network device searches for a user corresponding to the second alarm time based on the first alarm time, and further searches for a candidate social object matched with the current position information of the first user in the user corresponding to the second alarm time according to the current position information of the first user; in other embodiments, the network device searches for a user matching the current location information of the first user based on the current location information of the first user, and further searches for candidate social objects matching the first alarm time in the matched user according to the first alarm time; in other embodiments, the network device searches for candidate social objects based on both the first alarm time and the current location information of the first user. For example, when the alarm clock setting information of the first user is "4 am to XX airport", the first alarm time is "4 am". The network device searches for candidate social objects in the vicinity for the first user based on the first alarm time and the current location information of the first user, so that the first user and the candidate social objects can arrive at the XX airport while being similar in operation through a carpool or the like.

In some embodiments, the step S121 includes: searching one or more candidate social objects in the user alarm clock information base according to the first alarm time and the current position information of the first user, wherein the time matching degree information of the second alarm time of each candidate social object and the first alarm time of the first user and the position matching degree information of the current position information of the candidate social object and the current position information of the first user respectively meet preset matching condition information. In some embodiments, the network device determines candidate social objects according to time matching degree information with the first alarm time and position matching degree information with current position information of the first user, for example, the time matching degree information is determined according to a time difference value between the second alarm time and the first alarm time, for example, the time matching degree information of the second alarm time which is closer to the 4 early morning point is larger than the time matching degree information of the first alarm time is larger; the position matching degree information is determined according to the distance difference between the current position information of the candidate social object and the current position information of the first user, for example, the current position information of the first user is "A location", and the closer the current position information of the candidate social object is to the "A location", the greater the position matching degree information corresponding to the candidate social object. In some embodiments, the matching condition information includes matching degree threshold information; in other embodiments, the matching condition information includes first N items arranged in descending order of time matching degree information or position matching degree information. And determining the candidate social object according to the matching condition information matching query can more accurately find the candidate social object which is closer to the first alarm time and the current position information of the first user so as to improve the social rate.

In some embodiments, the step S122 includes: and determining one or more social objects from the one or more candidate social objects according to the first to-do event and the current position information of the first user, wherein the second to-do event of each social object is matched with the first to-do event of the first user, and the distance between the current position information of the social object and the current position information of the first user is smaller than or equal to event distance threshold information. In some embodiments, the event distance threshold information is used to distinguish distance threshold information between current location information of the social object and current location information of the first user. In some embodiments, to find social objects located near the first user that have the same or similar to-do event from among the candidate social objects. The network equipment searches candidate social objects with the distance smaller than or equal to the distance threshold information from the current position information of the first user according to the current position information of the first user, and provides the candidate social objects as social objects for the first user.

For example, the network device obtains current location information of the first user. In some embodiments, the network device obtains the current location information of the first user based on the related information of the wireless access point to which the user device corresponding to the first user is currently connected. The network device may obtain current location information for a plurality of users based on information about a wireless access point to which the user device is currently connected (e.g., wireless access point identification information). And the network equipment determines one or more candidate social objects according to the matching inquiry in the user alarm clock information base according to the first alarm time of the first user. Further, the network device searches the social objects from the one or more candidate social objects according to the first to-do event of the first user and the current position information of the first user. For example, the network device searches for a second to-do event with the coincidence degree of the first to-do event being greater than or equal to a coincidence degree threshold value from candidate social objects based on the first to-do event, and searches for a social object with the current position information of the first user being less than or equal to an event distance threshold value information based on the current position information of the first user. Therefore, the first user can find the nearby social objects so as to be convenient for the first user to deal with the event to be handled by contracting with the social objects.

In some embodiments, the step S122 includes: determining one or more social objects from the one or more candidate social objects according to the first to-do event and the current position information of the first user, wherein the event matching degree information of the second to-do event of each social object and the first to-do event of the first user, and the position matching degree information between the current position information of the social object and the current position information of the first user respectively meet preset matching condition information. In some embodiments, the event matching degree information includes matching degree of the coincidence degree of the first to-be-handled event and the second to-be-handled event, for example, event matching degree information of the first to-be-handled event and the second to-be-handled event is determined according to the magnitude of the coincidence degree of the first to-be-handled event and the second to-be-handled event. In some embodiments, the location matching degree information includes a matching degree of a distance between the current location information of the first user and the current location information of the social object, for example, the location matching degree information is determined according to a distance between the current location information of the first user and the current location information of the social object, for example, the closer the current location information of the first user is a location "the current location information of the candidate social object is to the location" a ", the greater the location matching degree information corresponding to the candidate social object is. In some embodiments, the matching condition information includes matching degree threshold information, e.g., specific thresholds of 80%, 90%, etc.; in other embodiments, the matching condition information includes first N items in descending order of event matching degree information or position matching degree information. And determining the candidate social object according to the matching condition information matching query can more accurately find the candidate social object which is closer to the first to-be-handled event and the current position information of the first user so as to improve the social rate.

In some embodiments, the step S122 includes: determining matching degree information of the candidate social object and the first user according to the first to-do event and the current position information of the first user, wherein the matching degree information of the candidate social object and the first user is determined based on event matching degree information of the second to-do event of the candidate social object and the first to-do event of the first user and position matching degree information between the current position information of the candidate social object and the current position information of the first user; and determining one or more social objects from the one or more candidate social objects according to the matching degree information of the candidate social objects and the first user, wherein the matching degree information of each social object and the first user meets preset matching condition information. In some embodiments, to more accurately match a first user to social objects corresponding to different scenes, down-line social interaction between the first user and the social objects is facilitated. And the network equipment determines the matching degree information of the candidate social object and the first user according to the first event to be handled and the current position information of the first user. In some embodiments, the matching degree information is determined according to event matching degree information and position matching degree information weighting. For example, when the first to-do event of the first user is to catch up to the XX destination, the weight of the location matching degree information may be higher relative to the event matching degree information. So that the first user and the social object can together arrive at the destination through a car sharing mode and the like. For example, the first to-do event of the first user A is "arrive at XX airport", and the current location information of the first user A is "A site". The network equipment determines event matching degree information according to the coincidence degree between the first to-be-handled event and the second to-be-handled event; and determining the position matching degree information according to the distance between the current position information of the candidate social object and the current position information of the first user A. The weight of the event matching degree information is 0.4, and the weight of the position matching degree information is 0.6. And the network equipment determines the matching degree information of the candidate social object and the first user according to the event matching degree information and the position matching degree information. For example, the time matching degree information of the second to-be-handled event and the first to-be-handled event of the candidate social object b is 80%, and the position matching degree information of the current position information of the candidate social object b and the current position information of the first user a is 80%. The matching degree information of the candidate social object b and the first user a is: 80% ×0.6+80% ×0.4=0.8. And determining matching degree information between the plurality of candidate social objects and the first user A according to the weighting algorithm. Further, the network device searches the social objects from the one or more candidate social objects according to the matching degree information of the candidate social objects and the first user. In some embodiments, the matching condition information includes matching degree threshold information, based on which the network device looks up social objects from the one or more candidate social objects; in other embodiments, the matching condition information includes first N items arranged in descending order of matching degree information, for example, the first user is arranged in descending order according to the size of matching degree information of the candidate social objects and the first user, and candidate social objects corresponding to the matching degree information of the first N items are taken as social objects to be provided to the first user.

In some embodiments, the step S121 includes: searching one or more primary selected social objects in the user alarm clock information base according to the first alarm time of the first user, wherein the second alarm time of each primary selected social object is matched with the first alarm time of the first user; and screening one or more candidate social objects from the one or more primary social objects according to the time interval information of the second alarm time of the primary social object and the first alarm time of the first user. In some embodiments, to find a candidate social object from the user alarm clock information base according to a first alarm time, the network device finds a matching second alarm time in the user alarm clock information base according to the first alarm time of the first user, e.g., the network device finds a second alarm time in the user alarm clock information base that is the same as or similar to the first alarm time (e.g., the time interval from the first alarm time is less than or equal to a certain time interval threshold information) according to the first alarm time. Further, the network device screens one or more candidate social objects from the one or more candidate social objects according to the searched time interval information (for example, interval of 5 minutes and interval of 10 minutes) between the second alarm time and the first alarm time, for example, the network device takes the candidate social object corresponding to the second alarm time with the time interval threshold information less than or equal to 5 minutes as the candidate social object.

In some embodiments, as shown in fig. 5, the step S12 includes a step S121 'and a step S122'. In step S121', one or more candidate social objects are searched in a user alarm clock information base according to a first to-be-transacted event of the first user, where a second to-be-transacted event of each candidate social object is matched with the first to-be-transacted event of the first user; in step S122', the one or more social objects are determined from the one or more candidate social objects according to the first alarm time and the current location information of the first user, wherein the second alarm time of each social object matches the first alarm time of the first user. In some embodiments, the network device first screens out candidate social objects according to the first to-be-transacted event, and further determines social objects from the candidate social objects according to the first alarm time. For example, when a first user needs to go to a certain destination (e.g., a XX activity site), the importance of a first to-do event may be high in order to match the first user with users who are also going to the same destination. Thus, the network device first determines a candidate social object that is the same as or similar to the first to-be-transacted event of the first user based on the first to-be-transacted event. For example, determining a to-be-second event which is the same as or similar to the first to-be-handled event in a user alarm clock information base according to the coincidence degree of the first to-be-handled event, and determining a user corresponding to the second to-be-handled event as a candidate social object. Further, the network device determines the social object in the second alarm time corresponding to the candidate social object according to the first alarm time. For the process of matching the second alarm time according to the first alarm time, please refer to the corresponding embodiment of fig. 4, and the description thereof is omitted herein. In some embodiments, the step S122' includes: and determining one or more social objects from the one or more candidate social objects according to the first alarm time and the current position information of the first user, wherein the second alarm time of each social object is matched with the first alarm time of the first user, and the distance between the current position information of the social object and the current position information of the first user is smaller than or equal to event distance threshold information. In some embodiments, to find a nearby social object for a first user, the network device finds a social object that is less than or equal to the event distance threshold information from the current location information of the first user based on the current location information of the first user. The second alarm time of the social object is matched with the first alarm time of the first user, and reference is made to the corresponding embodiment of fig. 4 for the process of matching the second alarm time according to the first alarm time, which is not described herein.

In some embodiments, the step S122' includes: determining matching degree information of the candidate social object and the first user according to the first alarm time and the current position information of the first user, wherein the matching degree information of the candidate social object and the first user is determined based on time matching degree information of the second alarm time of the candidate social object and the first alarm time of the first user and position matching degree information between the current position information of the social object and the current position information of the first user; and determining one or more social objects from the one or more candidate social objects according to the matching degree information of the candidate social objects and the first user, wherein the matching degree information of each social object and the first user meets preset matching condition information. In some embodiments, to more accurately match the first user to social objects that may be social offline. And the network equipment searches the social object from the candidate social objects according to the matching degree information. For example, the network device determines the matching degree information of the candidate social object and the first user according to the time matching degree information between the second alarm time and the first alarm time and the position matching degree information between the current position information of the candidate social object and the current position information of the first user respectively. For example, if the first alarm time is the same as the second alarm time, the time matching degree information between the first alarm time and the second alarm time is 100%; the current position information of the first user is the same as the current position information of the candidate social object, and the position matching degree information of the first user and the candidate social object is 100%. In some embodiments, the network device determines, according to the sum of the time matching degree information and the position matching degree information, matching degree information of the candidate social object and the first user, for example, the time matching degree information is 80%, the position matching degree information is 70%, and then the matching degree information of the candidate social object and the first user is 0.8+0.7=1.5; in other embodiments, the network device determines the matching degree information of the candidate social object and the first user according to the time matching degree information and the weighting of the location matching degree information, for example, the time matching degree information is 80%, the location matching degree information is 70%, wherein the weight of the time matching degree information is 0.8, and the weight of the location matching degree information is 0.7, and then the matching degree information of the candidate social object and the first user is 0.8×0.8+0.7×0.7=1.13, for example, when the first to-do event is to preempt a certain commodity, the importance of time is higher than that of location, and therefore, in some embodiments, a relatively high weight needs to be attached to the time matching degree information. To find social objects for the first user that meet their social needs.

In some embodiments, the matching degree information of the candidate social object and the first user is determined based on time matching degree information of the second alarm time of the candidate social object and the first alarm time of the first user and position matching degree information between current position information of the social object and the current position information of the first user in a weighting mode. In some embodiments, to match a first user to a social object that meets his social needs. The network device determines matching degree information of the candidate social object and the first user according to the weighting of the time matching degree information and the position matching degree information, for example, the time matching degree information is 80%, the position matching degree information is 70%, wherein the weight of the time matching degree information is 0.8, the weight of the position matching degree information is 0.7, the matching degree information of the candidate social object and the first user is 0.8×0.8+0.7×0.7=1.13, for example, when the first event to be handled is a first commodity, the importance of time is higher than the importance of position, and therefore in some embodiments, a relatively high weight is attached to the time matching degree information to find the social object meeting the social requirement of the first user; in other embodiments, the importance of time may be lower relative to the importance of location, for example, when a certain location needs to be reached, the weight of the location matching information may be higher than the weight of the time matching information, so as to match the first user to a social object that can be shared or that is going to. According to the embodiment, the matching degree information between the candidate social object and the first user is determined by weighting the time matching degree information and the position matching degree information, so that the first user can be matched with the corresponding candidate social object according to different scenes.

In some embodiments, the step S12 includes: searching one or more social objects in a user alarm clock information base according to the alarm clock setting information of the first user and the current position information of the first user, wherein the second alarm time and the second to-do event of each social object are respectively matched with the first alarm time and the first to-do event of the first user, the current position information of the social object is matched with the current position information of the first user, and the second alarm time corresponds to the second to-do event. In some embodiments, the network device may search the user alarm clock information base for the social object according to the first alarm time, the first to-do event, and the current location information of the first user at the same time. For example, searching for a second alarm time which is the same as or similar to the first alarm time according to the first alarm time; searching a second to-be-handled event which is the same as or similar to the first to-be-handled event according to the first to-be-handled event; and searching the current position information of the social object which is the same as or similar to the current position information of the first user according to the current position information of the first user. The network device can determine the matching between the second alarm time and the first alarm time according to the time interval threshold information; determining whether the second to-do event is matched with the first to-do event according to the second event matching degree (for example, the coincidence degree); and determining the matching between the current position information of the first user and the current position information of the social object according to the distance threshold information.

As shown in fig. 6, according to another aspect of the present application, there is provided a method of social networking based on an alarm clock at a user equipment, the method including step S21 and step S22. In step S21, the user device sends alarm clock setting information of a first user to a corresponding network device, where the alarm clock setting information includes a first alarm time of the first user and a first event to be handled, and the first alarm time corresponds to the first event to be handled; in step S22, the user device receives one or more social objects returned by the network device, where a second alarm time and a second to-do event of each social object are respectively matched with a first alarm time and a first to-do event of the first user, and the second alarm time corresponds to the second to-do event. The user equipment includes, but is not limited to, mobile phones, tablets, notebook computers, and other computing devices. In some embodiments, the first alarm time is a time set by the first user through the alarm clock application to remind the first user to process a first to-do event, where the first to-do event is a to-do event that the first user needs to process at the first alarm time.

For example, an alarm clock application is installed on the user device of the first user a. The first user a sets alarm setting information "4 a.m. to XX airport" through the alarm application. The first alarm time is '4 am' and the first event to be handled is 'to XX airport'. Further, the user equipment sends the alarm clock setting information to the corresponding network equipment, and the network equipment receives the alarm clock setting information and matches the social object for the first user A based on the alarm clock setting information. The network device provides the matched social objects (e.g., names, avatars, IDs of the social objects) to the user device corresponding to the first user A. The user device receives one or more social objects returned by the network device. Each social object corresponds to alarm clock setting information, and the alarm clock setting information comprises second alarm time and second events to be handled. The second alarm time and the second event to be handled are respectively obtained according to the first alarm time and the first event to be handled. For example, the second alarm time is the same as or similar to the first alarm time, and the second to-do event is the same as or similar to the first to-do event. Therefore, the social object which needs to process the same or similar backlog in the same time or similar time is searched for the first user, and the purpose that the first user and the social object can conduct offline social connection is achieved. The more similar the second alarm time and the second to-do event of the social object are to the first alarm time and the first to-do event, the more likely the first user is to conduct downlink social connection with the social object.

In some embodiments, the method further comprises step S23 (not shown). In step S23, the user equipment acquires the first to-do event, where the first to-do event corresponds to the first alarm time, and the acquiring the first to-do event includes any one of the following: acquiring a first event to be handled based on alarm clock setting operation of the first user; setting the travel information of the first user as a first event to be handled corresponding to the first alarm time, wherein the travel time of the travel information is matched with the first alarm time; and determining backlog information of other applications on the user equipment as a first backlog event corresponding to the first alarm time, wherein the backlog information is matched with the first alarm time. In some embodiments, the first to-Do event is entered by the first user through their corresponding user device, e.g., the first user enters the first to-Do event as to XX airport on an alarm clock application of the user device; in other embodiments, the first user may forget or not fill in the first to-do event, the user device may obtain the first to-do event from an application portal of the other application based on the first alarm time, e.g., the first alarm time is "4 early morning", the user device obtains the to-do event about the first user from the other application based on the first alarm time, and sends the to-do event as the first to-do event to the network device, e.g., the first user first subscribes to a ticket from 4 early morning to XX airport on the xxxxxx application, and the network device obtains the first to-do event from the xxxxxx application based on the first alarm time "4 early morning" set by the first user first. In some embodiments, the acquiring the first to-be-transacted event includes any one of: acquiring a first event to be handled based on alarm clock setting operation of the first user; setting the travel information of the first user as a first event to be handled which is identical to the first alarm time, wherein the travel time of the travel information is matched with the first alarm time; and determining backlog information of other applications on the user equipment as a first backlog event corresponding to the first alarm time, wherein the backlog information is matched with the first alarm time.

Specifically, (1) acquiring a first to-do event based on an alarm clock setting operation of the first user. In some embodiments, the alarm setting operation includes an input filling operation of the first user, for example, an alarm application is installed on a user device corresponding to the first user, and a filling item of the first to-do event is set on the alarm application. The first user performs alarm clock setting operation for inputting a first to-be-handled event, and the user equipment obtains the first to-be-handled event based on the alarm clock setting operation.

(2) Setting the travel information of the first user as a first event to be handled corresponding to the first alarm time, wherein the travel time of the travel information is matched with the first alarm time. In some embodiments, the first user's corresponding user device has travel information for the first user recorded thereon (e.g., 9:00 for participating in XX conference; 10:00 to XX airport). The user equipment determines a first to-do event corresponding to the first alarm time according to the journey information, for example, the first user is provided with a first alarm time '9:00' through an alarm clock application, and the user equipment determines that the first to-do event is 'participating in XX conference' based on the first alarm time and the journey information of the first user.

(3) And determining backlog information of other applications on the user equipment as a first backlog event corresponding to the first alarm time, wherein the backlog information is matched with the first alarm time. In some embodiments, the first user may forget or not arrive at the time of filling in the first to-do event, or there is no filling item of the first to-do event in the alarm clock application. The user equipment may acquire a corresponding first to-do event from an application portal of the other application based on the first alarm time, for example, the first alarm time is "4 early morning", the user equipment acquires a to-do item about the first user at 4 early morning from the other application based on the first alarm time, and sends the to-do item as the first to-do event to the network equipment, for example, the first user a subscribes to an air ticket from 4 early morning to an XX airport on the xxxxxx application, and the network equipment acquires the first to-do event from the XX application to the XX airport based on the first alarm time "4 early morning" set by the first user a.

The foregoing mainly describes the method provided by the embodiments of the present application by way of example, and correspondingly, the present application also provides apparatuses capable of executing the corresponding methods, where the apparatuses are capable of executing units or modules of each step in the examples of the methods, and the units or modules may be implemented by hardware, software, or a combination of hardware and software, and the present application is not limited thereto. The following description is made with reference to fig. 7 to 10.

Referring to fig. 7, in accordance with an aspect of the present application, a network device for social networking based on an alarm clock is provided. The device comprises a one-to-one module, a two-to-one module and a three-to-one module. The alarm clock setting module is used for acquiring alarm clock setting information of a first user, wherein the alarm clock setting information of the first user comprises first alarm time and a first event to be handled of the first user, and the first alarm time corresponds to the first event to be handled. And the second module is used for searching one or more social objects corresponding to the alarm clock setting information of the first user, wherein the second alarm time and the second to-do event of each social object are respectively matched with the first alarm time and the first to-do event of the first user, and the second alarm time corresponds to the second to-do event. And a third module for providing at least one of the one or more social objects to the first user. In this embodiment, the network device queries, according to the first alarm time and the first to-be-handled event of the first user, the second alarm time and the second to-be-handled event that are respectively matched with the first alarm time and the first to-be-handled event in the user alarm clock information base, so as to obtain a social object that is matched with the first user's schedule, for example, the network device searches, in the user alarm clock information base, for a social object that is the same as or similar to the first user's schedule, and provides the social object to the first user, and the first user selects whether to perform the schedule with the social object at the same time (for example, the first user and the social object together collude to the airport), thereby promoting offline social between the first user and the social object. The viscosity of the alarm clock application by the user is improved.

Specifically, the one-to-one module is used for acquiring alarm clock setting information of a first user, wherein the alarm clock setting information of the first user comprises first alarm time and a first event to be handled of the first user, and the first alarm time corresponds to the first event to be handled. In some embodiments, the alarm clock setting information is generated based on a setting operation of the first user, for example, the first user a sets the alarm clock setting information "00:00 robbery cell phone" on the alarm clock application through its corresponding user device. In some embodiments, the first alarm time includes an alarm start time for reminding the first user that the first user needs to process the first event to be handled at this time, for example, the first user a sets alarm setting information "00:00 to purchase the mobile phone" on the alarm clock application through the corresponding user device, where "00:00" is the first alarm time, and at the time of 00:00, the alarm is started to remind the first user a to purchase the mobile phone. In some embodiments, the first to-be-transacted event includes a to-do item set by the first user on the alarm application through its corresponding user device, for example, the first user a sets alarm setting information "00:00 to purchase a mobile phone" on the alarm application through its corresponding user device, where "to purchase a mobile phone" is the first to-do event; in other embodiments, the first to-do event includes to-do matters in other applications on the user device corresponding to the first user, for example, to-do matters in which "09:00 to XX airport" is recorded in applications such as memos or notes in the user device, where "to XX airport" is the first to-do event. In some embodiments, the first alarm time corresponds to a first to-be-transacted event, for example, the first user A sets alarm clock setting information "00:00 to purchase a mobile phone" on an alarm clock application through corresponding user equipment, wherein the first alarm time "00:00" and the first to-be-transacted event "purchase the mobile phone" are in a corresponding relationship, that is, the first user A needs to perform corresponding operation of the mobile phone to be purchased at 00:00.

Of course, it should be understood by those skilled in the art that the alarm clock setting information described above is only an example, and other user setting information that may be present in the present application or in the future are included in the scope of the present application and are incorporated herein by reference.

And the second module is used for searching one or more social objects corresponding to the alarm clock setting information of the first user, wherein the second alarm time and the second to-do event of each social object are respectively matched with the first alarm time and the first to-do event of the first user, and the second alarm time corresponds to the second to-do event. In some embodiments, a user alarm clock information base is provided in the network device, where the user alarm clock information base includes one or more users (for example, ID of the user or identification information of the user device corresponding to the user) and alarm clock setting information corresponding to each user in the one or more users, where each alarm clock setting information includes an alarm time and an event to be handled. The network equipment inquires alarm clock setting information matched with the alarm clock setting information of the first user in the alarm clock information base of the user according to the alarm clock setting information of the first user, and provides the user corresponding to the matched alarm clock setting information as a social object for the first user. The alarm clock setting information corresponding to the social object comprises a second alarm time and a second event to be handled. In some embodiments, the alarm clock setting information of the first user includes a first alarm time and a first event to be handled, and the network device queries the user alarm clock information base for the matched alarm time and event to be handled according to the first alarm time and the first event to be handled, for example, when the alarm time same as the first alarm time exists in the user alarm clock information base, the alarm time is determined to be a second alarm time matched with the first alarm time; and when the user alarm clock information base has a to-be-handled event similar to the first to-be-handled event (for example, the coincidence degree of the to-be-handled event and the first to-be-handled event is larger than or equal to a coincidence degree threshold), taking the to-be-handled event as a second to-be-handled event matched with the first to-be-handled event. In some embodiments, the network device performs query matching in the user alarm clock information base based on the first alarm time and then performs query matching based on the first event to be transacted; in other embodiments, the network device performs query matching based on the first to-be-transacted event in the user alarm clock information base, and then performs query matching based on the first alarm time; in still other embodiments, the network device performs query matching in the user alarm clock information base based on the first alarm time and the first to-be-transacted event simultaneously. The network device queries that the matched second alarm time and the second to-be-handled event are corresponding relations, for example, the second alarm time and the second to-be-handled event are second to-be-handled events which are set by the same user and need to be processed at the second alarm time.

And a third module for providing at least one of the one or more social objects to the first user. In some embodiments, the network device sends the identification information (e.g., user name, head portrait) of the matched one or more social objects and the second to-do event corresponding to each social object to the user device corresponding to the first user, so that the first user selects whether to conduct offline social interaction with the social objects therein; in other embodiments, the network device sends the identification information (e.g., user name, avatar) of the matched social object or objects and a prompt to the user device corresponding to the first user, e.g., "at this time, the following user also sets an alarm clock as you do, hopefully does you know? ".

Here, regarding an example of determining a social object according to alarm clock setting information, which corresponds to an example in the method shown in fig. 3, reference may be made to the detailed description in fig. 3, and details thereof will not be repeated herein.

In some embodiments, as shown in fig. 8, the two modules include two sub-modules and two sub-modules. The first alarm time of the first user is matched with the second alarm time of the first user, and the second alarm time of each candidate social object is matched with the first alarm time of the first user. And the two-in-one sub-module is used for determining the one or more social objects from the one or more candidate social objects according to the first to-do event of the first user, wherein the second to-do event of each social object is matched with the first to-do event of the first user. In some embodiments, in the process of inquiring a social object in a user alarm information base, the network device firstly inquires candidate social objects with events to be handled in the same or similar time as the first user based on the first alarm time, and then inquires social objects with events to be handled which are the same as or similar to the first user from the candidate social objects according to the first events to be handled. So that the network device makes a query determination of the social object on the same or similar basis as the first alarm time. For example, when the first user performs a first event to be handled with a relatively high time requirement, such as a first purchase, the first alarm time has a more important matching reference value relative to the first event to be handled, and the network device can perform matching of candidate social objects based on the first alarm time preferentially; further, searching the social object which is the same as or similar to the first to-be-handled event in the candidate social object according to the first to-be-handled event. I.e. the network device first filters out the user corresponding to the alarm time that matches the first alarm time. For example, the alarm clock setting information of the first user is "00:00 for mobile phone robbery", and even if the event to be handled is also "mobile phone robbery" on the premise of inquiring the candidate social objects based on the first alarm time, the event to be handled is also screened. The importance of the first alarm time in this scenario is highlighted.

Specifically, a first sub-module and a second sub-module are used for determining one or more candidate social objects according to a matching query in a user alarm clock information base of the first user, wherein the second alarm time of each candidate social object is matched with the first alarm time of the first user. In some embodiments, the network device first queries a user alarm clock information base for an alarm time that matches a first alarm time (e.g., the alarm time is the same as the first alarm time) according to the first alarm time, and determines a user corresponding to the alarm time as a candidate social object. For example, the first alarm time set by the first user A is "9:00", the network device queries the user alarm clock information base according to the first alarm time, and also sets the alarm time to be "9:00" or the alarm time similar to the first alarm time (for example, within the period of 8:45-9:15), and determines the user corresponding to the alarm time as the candidate social object.

And the two-in-one sub-module is used for determining one or more social objects from the one or more candidate social objects according to a first to-do event of the first user, wherein a second to-do event of each social object is matched with the first to-do event of the first user, the first alarm time corresponds to the first to-do event, and the second alarm time corresponds to the second to-do event. In some embodiments, after the network device queries the candidate social object in the user alarm clock information base according to the first alarm time, further, the network device queries the candidate social object corresponding to the to-be-handled event matched with the first to-be-handled event in the candidate social object according to the first to-be-handled event (for example, the overlap ratio of the to-be-handled event and the first to-be-handled event is greater than or equal to the overlap ratio threshold value), and determines the candidate social object as the social object.

Here, regarding an example of determining a social object from candidate social objects, which corresponds to an example in the method shown in fig. 4, reference may be made to the detailed description in fig. 4, and details thereof will not be repeated herein.

In some embodiments, the two-in-one sub-module includes a two-in-one sub-module (not shown) and a two-in-two sub-module (not shown). A two-in-one sub-module, configured to determine alarm time interval threshold information corresponding to the first alarm time according to a first to-be-handled event of the first user; and the two-in-two sub-module is used for searching one or more candidate social objects in the user alarm clock information base according to the first alarm time and alarm time interval threshold information corresponding to the first alarm time, wherein the second alarm time of each candidate social object is matched with the first alarm time and the alarm time interval threshold information corresponding to the first alarm time. In some embodiments, the alarm time interval threshold information comprises alarm time interval threshold information having a time interval before and after the first alarm time, the alarm time interval threshold information being used to determine a time range matching the first alarm time. The network device determines alarm time interval threshold information corresponding in different scenes (e.g., emergency scenes, non-emergency scenes) according to the first to-be-transacted event. For example, when the first event to be handled is a first commodity, the network device determines that alarm time interval threshold information corresponding to the first alarm time is 5 minutes; for another example, when the first to-do event is to a certain place, the network device determines that alarm time interval threshold information corresponding to the first alarm time is 15 minutes. In some embodiments, the network device may preset a mapping relationship between a field appearing in the first to-be-handled event and alarm time interval threshold information to determine alarm time interval threshold information corresponding to the first alarm time according to the first to-be-handled event, for example, when a "robbery" field appears in the first to-be-handled event, determine that alarm time interval threshold information corresponding to the first alarm time is 5 minutes. Further, the network equipment inquires a second alarm time matched with the alarm time interval threshold information in the user alarm clock information base, and takes a user corresponding to the second alarm time as a candidate social object. For example, the network device queries a user alarm clock information base for an alarm time that differs from the first alarm time by 5 minutes, e.g., the first alarm time is "9:00", the network device looks for alarm times in the range of "8:55-9:05" (in some embodiments, including endpoint values 8:55 and 9:05), and determines the user to which the alarm time corresponds as a candidate social object.

In some embodiments, the two-in-one sub-module is configured to determine, according to the location information corresponding to the first to-be-transacted event of the first user and the current location information of the first user, length information required by the first user from the current location information to the location information corresponding to the first to-be-transacted event, as alarm time interval threshold information corresponding to the first alarm time.

The network equipment acquires the position information of the first to-be-handled event of the first user. In some embodiments, the first to-do event includes location information of a destination to which the first user is to go, e.g., the first to-do event "go to XX airport"; in other embodiments, the network device obtains location information corresponding to the first to-be-handled event of the first user from other applications, e.g., the network device obtains the first to-be-handled event of the first user to the XX destination from an application portal of other applications (e.g., scheduling application, ticketing application) of the user device corresponding to the first user; in some embodiments, the network device obtains location information corresponding to the first to-be-handled event by accessing a server of another application based on the first to-be-handled event, for example, the first to-be-handled event is "XX reading meeting of XX application", and the network device obtains location information of the XX reading meeting from the server of XX application or through a search engine based on the first to-be-handled event. In some embodiments, the network device obtains current location information of the first user while obtaining location information corresponding to a first to-be-transacted event of the first user. For example, the network device determines the current location information of the first user based on the GPS or the identification information of the wireless access point to which the user device corresponding to the first user is currently connected. Of course, it should be understood by those skilled in the art that the above operation of obtaining the current location information of the first user is merely exemplary, and other operations that may be present or may occur in the future are applicable to the present application, and are also included in the scope of the present application and are incorporated herein by reference. Further, the network device determines the time required by the first user from the current position information to the position information corresponding to the first to-be-processed event according to the position information corresponding to the first to-be-processed event and the current position information of the first user. For example, the network device obtains current location information of the first user a as the a location based on GPS. The network equipment obtains the position information corresponding to the first to-be-processed event as a site B based on the first to-be-processed event of the first user A. Further, the network device acquires the time length information required from the a site to the B site based on an application portal of the map application or the navigation application, or calculates the time length information required from the a site to the B site based on an algorithm such as longitude and latitude. Further, the network device takes the required length information as alarm time interval threshold information corresponding to the first alarm time. The network device is used for matching the second alarm time based on the alarm time interval threshold information, and the user corresponding to the second alarm time is determined to be a candidate social object. For example, the alarm clock setting information corresponding to the first user a is "4 a.m. to XX airport". The first alarm time corresponding to the first user A is 4 am; the first to-do event is "go to XX airport". And the network equipment acquires the position information corresponding to the first to-be-transacted event as an XX airport according to the first to-be-transacted event. The network device obtains the current position information of the first user A as 'A location' based on GPS. The network device obtains from the application portal of the XX map application the time length information required to reach the XX airport from the a location as "1 hour". Further, the network device uses the 1 hour as alarm time interval threshold information corresponding to the first alarm time of 4 am as the candidate social object matched by the first user A. For example, the network device looks for alarm times within a time interval [ 4 a.m., 5 a.m. ] and/or a time interval [ 3 a.m., 4 a.m. ].

In some embodiments, the second alarm time of each candidate social object matches the first alarm time and alarm time interval threshold information corresponding to the first alarm time, including at least one of: the interval between the second alarm time and the first alarm time of each candidate social object is smaller than or equal to alarm time interval threshold information corresponding to the first alarm time; a time interval formed by the second alarm time of each candidate social object and corresponding alarm time interval information has a non-empty intersection with a time interval formed by the first alarm time and alarm time interval threshold information corresponding to the first alarm time; and the intersection time length of a time interval formed by the second alarm time of each candidate social object and the corresponding alarm time interval information and a time interval formed by the first alarm time and the alarm time interval threshold value information corresponding to the first alarm time is larger than or equal to the intersection time length threshold value information. In some embodiments, the network device matches candidate social objects for the first user based on the first alarm time and the alarm time interval threshold information, which may include, in particular, the following. Of course, it should be understood by those skilled in the art that the operations described below for matching the first user with the candidate social object based on the first alarm time and the alarm time interval threshold information are only examples, and other operations that may occur in the present application or in the future are included in the scope of the present application and are incorporated herein by reference.

(1) The interval between the second alarm time and the first alarm time of each candidate social object is smaller than or equal to alarm time interval threshold information corresponding to the first alarm time. In some embodiments, the network device looks up a second alarm time within alarm time interval threshold information from the first alarm time in a user alarm clock information base. For example, the first alarm time is "4 a.m.. The alarm time interval threshold information is "5 minutes". The network device searches one or more second alarm times set in the range of '3 am point 55 to 4 am point 5 minutes' (including 3 am point 55 and 5 am point 5 minutes).

(2) And a time interval formed by the second alarm time of each candidate social object and the corresponding alarm time interval information has a non-empty intersection with a time interval formed by the first alarm time and the alarm time interval threshold value information corresponding to the first alarm time. In some embodiments, the network device searches for a second alarm time from the first alarm time and the alarm time interval threshold information based on an algorithm that searches for non-empty intersections. For example, the first alarm time is "4 am"; the alarm time interval threshold information is "5 minutes". Wherein, there is a time interval "3:55-4:05" between the first alarm time and the alarm time interval threshold information. The user alarm clock information base comprises a plurality of alarm times, wherein a corresponding time interval can be formed between each alarm time and the alarm time interval threshold information. The network equipment searches a time interval with an intersection with a time interval of '3:55-4:05' in the user alarm clock information base, determines alarm time corresponding to the time interval as second alarm time, and further determines a user corresponding to the second alarm time as a candidate social object.

(3) And the intersection time length of a time interval formed by the second alarm time of each candidate social object and the corresponding alarm time interval information and a time interval formed by the first alarm time and the alarm time interval threshold value information corresponding to the first alarm time is larger than or equal to the intersection time length threshold value information. In some embodiments, the network device searches for candidate social objects corresponding to the second alarm time according to the intersection duration threshold information. For example, the user alarm clock information base includes alarm times set by a plurality of users. In some embodiments, the network device determines alarm time interval information corresponding to each alarm time according to the to-be-handled event corresponding to each alarm time. For example, when the event to be handled is a commodity to be purchased, the alarm time interval information corresponding to the event to be handled is "5 minutes"; when the event to be handled is destined to the XX destination, the alarm time interval information corresponding to the event to be handled is 15 minutes. The corresponding relation between the event to be handled and the alarm time can be determined through a mapping relation preset by the network equipment, so that the network equipment can determine corresponding alarm time interval information based on alarm clock setting information. The alarm time and the alarm time interval information form a time interval, for example, the alarm time of 4 am and the alarm time interval information of 5 min form a time interval of 3:55-4:05. The first alarm time of the first user and its corresponding alarm time interval information constitute a time interval (e.g. "3:55-4:05"). And the network equipment searches a time interval with the intersection time length greater than or equal to the intersection time length threshold value information in the user alarm clock information base according to the time interval. For example, the intersection duration threshold information is 5 minutes, and the network device searches the user alarm clock information base for a time interval (for example, time interval "3:55-4:00", "3:57-4:05") with the intersection duration of the time interval being greater than or equal to 5 minutes according to the time interval "3:55-4:05". And determining the alarm time corresponding to the time interval as a second alarm time, and determining candidate social objects corresponding to the second alarm time by the user.

In some embodiments, the second sub-module is configured to search for one or more candidate social objects in a user alarm clock information base according to the first alarm time and the current location information of the first user, where the second alarm time of each candidate social object is matched with the first alarm time of the first user, and a distance between the current location information of the candidate social object and the current location information of the first user is less than or equal to alarm distance threshold information. In some embodiments, the alarm distance threshold information is used to distinguish distance threshold information between current location information of the candidate social object and current location information of the first user. In some embodiments, to match a first user to a candidate social object located near the first user that is provided with the same or similar alarm time, the network device matches the first user with a candidate social object that is less than or equal to the alarm distance threshold information from the current location information of the first user according to the current location information of the first user. For example, the network device determines current location information for each user based on information about the wireless access point to which the user device corresponding to the user is currently connected. The network device searches for a user with a distance smaller than or equal to alarm distance threshold information according to the current position information of the first user, and searches for a second alarm time matched with the first alarm time in a user alarm clock information base. For the description of searching the second alarm time based on the first alarm time, refer to the corresponding embodiments of fig. 3 and fig. 4, and are not described herein. In some embodiments, the network device searches for a user corresponding to the second alarm time based on the first alarm time, and further searches for a candidate social object matched with the current position information of the first user in the user corresponding to the second alarm time according to the current position information of the first user; in other embodiments, the network device searches for a user matching the current location information of the first user based on the current location information of the first user, and further searches for candidate social objects matching the first alarm time in the matched user according to the first alarm time; in other embodiments, the network device searches for candidate social objects based on both the first alarm time and the current location information of the first user. For example, when the alarm clock setting information of the first user is "4 am to XX airport", the first alarm time is "4 am". The network device searches for candidate social objects in the vicinity for the first user based on the first alarm time and the current location information of the first user, so that the first user and the candidate social objects can arrive at the XX airport while being similar in operation through a carpool or the like.

In some embodiments, the first alarm time and the current location information of the first user are used for searching the one or more candidate social objects in the user alarm clock information base according to the first alarm time and the current location information of the first user, wherein the time matching degree information of the second alarm time of each candidate social object and the first alarm time of the first user, and the location matching degree information of the current location information of the candidate social object and the current location information of the first user respectively meet preset matching condition information. In some embodiments, the network device determines candidate social objects according to time matching degree information with the first alarm time and position matching degree information with current position information of the first user, for example, the time matching degree information is determined according to a time difference value between the second alarm time and the first alarm time, for example, the time matching degree information of the second alarm time which is closer to the 4 early morning point is larger than the time matching degree information of the first alarm time is larger; the position matching degree information is determined according to the distance difference between the current position information of the candidate social object and the current position information of the first user, for example, the current position information of the first user is "A location", and the closer the current position information of the candidate social object is to the "A location", the greater the position matching degree information corresponding to the candidate social object. In some embodiments, the matching condition information includes matching degree threshold information; in other embodiments, the matching condition information includes first N items arranged in descending order of time matching degree information or position matching degree information. And determining the candidate social object according to the matching condition information matching query can more accurately find the candidate social object which is closer to the first alarm time and the current position information of the first user so as to improve the social rate.

In some embodiments, the second sub-module is configured to determine the one or more social objects from the one or more candidate social objects according to the first to-do event and the current location information of the first user, where the second to-do event of each social object matches the first to-do event of the first user, and a distance between the current location information of the social object and the current location information of the first user is less than or equal to an event distance threshold information. In some embodiments, the event distance threshold information is used to distinguish distance threshold information between current location information of the social object and current location information of the first user. In some embodiments, to find social objects located near the first user that have the same or similar to-do event from among the candidate social objects. The network equipment searches candidate social objects with the distance smaller than or equal to the distance threshold information from the current position information of the first user according to the current position information of the first user, and provides the candidate social objects as social objects for the first user.

Here, an example of determining the social object according to the first to-Do event and the current location information of the first user corresponds to an example in the method shown in fig. 4, and reference may be made to a detailed description in fig. 4, which is not repeated herein.

In some embodiments, the second sub-module is configured to determine the one or more social objects from the one or more candidate social objects according to the first to-do event and the current location information of the first user, where the event matching degree information of the second to-do event of each social object and the first to-do event of the first user, and the location matching degree information between the current location information of the social object and the current location information of the first user respectively satisfy predetermined matching condition information. In some embodiments, the event matching degree information includes matching degree of the coincidence degree of the first to-be-handled event and the second to-be-handled event, for example, event matching degree information of the first to-be-handled event and the second to-be-handled event is determined according to the magnitude of the coincidence degree of the first to-be-handled event and the second to-be-handled event. In some embodiments, the location matching degree information includes a matching degree of a distance between the current location information of the first user and the current location information of the social object, for example, the location matching degree information is determined according to a distance between the current location information of the first user and the current location information of the social object, for example, the closer the current location information of the first user is a location "the current location information of the candidate social object is to the location" a ", the greater the location matching degree information corresponding to the candidate social object is. In some embodiments, the matching condition information includes matching degree threshold information, e.g., specific thresholds of 80%, 90%, etc.; in other embodiments, the matching condition information includes first N items in descending order of event matching degree information or position matching degree information. And determining the candidate social object according to the matching condition information matching query can more accurately find the candidate social object which is closer to the first to-be-handled event and the current position information of the first user so as to improve the social rate.

In some embodiments, the second sub-module is configured to determine, according to the first to-do event and the current location information of the first user, matching degree information of the candidate social object and the first user, where the matching degree information of the candidate social object and the first user is determined based on event matching degree information of the second to-do event of the candidate social object and the first to-do event of the first user and location matching degree information between the current location information of the candidate social object and the current location information of the first user; and determining one or more social objects from the one or more candidate social objects according to the matching degree information of the candidate social objects and the first user, wherein the matching degree information of each social object and the first user meets preset matching condition information. In some embodiments, to more accurately match a first user to social objects corresponding to different scenes, down-line social interaction between the first user and the social objects is facilitated. And the network equipment determines the matching degree information of the candidate social object and the first user according to the first event to be handled and the current position information of the first user. In some embodiments, the matching degree information is determined according to event matching degree information and position matching degree information weighting. For example, when the first to-do event of the first user is to catch up to the XX destination, the weight of the location matching degree information may be higher relative to the event matching degree information. So that the first user and the social object can together arrive at the destination through a car sharing mode and the like. For example, the first to-do event of the first user A is "arrive at XX airport", and the current location information of the first user A is "A site". The network equipment determines event matching degree information according to the coincidence degree between the first to-be-handled event and the second to-be-handled event; and determining the position matching degree information according to the distance between the current position information of the candidate social object and the current position information of the first user A. The weight of the event matching degree information is 0.4, and the weight of the position matching degree information is 0.6. And the network equipment determines the matching degree information of the candidate social object and the first user according to the event matching degree information and the position matching degree information. For example, the time matching degree information of the second to-be-handled event and the first to-be-handled event of the candidate social object b is 80%, and the position matching degree information of the current position information of the candidate social object b and the current position information of the first user a is 80%. The matching degree information of the candidate social object b and the first user a is: 80% ×0.6+80% ×0.4=0.8. And determining matching degree information between the plurality of candidate social objects and the first user A according to the weighting algorithm. Further, the network device searches the social objects from the one or more candidate social objects according to the matching degree information of the candidate social objects and the first user. In some embodiments, the matching condition information includes matching degree threshold information, based on which the network device looks up social objects from the one or more candidate social objects; in other embodiments, the matching condition information includes first N items arranged in descending order of matching degree information, for example, the first user is arranged in descending order according to the size of matching degree information of the candidate social objects and the first user, and candidate social objects corresponding to the matching degree information of the first N items are taken as social objects to be provided to the first user.

In some embodiments, the first alarm time of the first user is set to be equal to the first alarm time of the first user; and screening one or more candidate social objects from the one or more primary social objects according to the time interval information of the second alarm time of the primary social object and the first alarm time of the first user. In some embodiments, to find a candidate social object from the user alarm clock information base according to a first alarm time, the network device finds a matching second alarm time in the user alarm clock information base according to the first alarm time of the first user, e.g., the network device finds a second alarm time in the user alarm clock information base that is the same as or similar to the first alarm time (e.g., the time interval from the first alarm time is less than or equal to a certain time interval threshold information) according to the first alarm time. Further, the network device screens one or more candidate social objects from the one or more candidate social objects according to the searched time interval information (for example, interval of 5 minutes and interval of 10 minutes) between the second alarm time and the first alarm time, for example, the network device takes the candidate social object corresponding to the second alarm time with the time interval threshold information less than or equal to 5 minutes as the candidate social object.

In some embodiments, as shown in fig. 9, the two modules include a two-two sub-module and a two-two sub-module. The first user is provided with a first waiting event, a second waiting event and a first waiting event, wherein the first waiting event is used for searching one or more candidate social objects in a user alarm clock information base according to a first waiting event of the first user, and the second waiting event of each candidate social object is matched with the first waiting event of the first user; and the two-in-two sub-module is used for determining one or more social objects from the one or more candidate social objects according to the first alarm time and the current position information of the first user, wherein the second alarm time of each social object is matched with the first alarm time of the first user. In some embodiments, the network device first screens out candidate social objects according to the first to-be-transacted event, and further determines social objects from the candidate social objects according to the first alarm time. For example, when a first user needs to go to a certain destination (e.g., a XX activity site), the importance of a first to-do event may be high in order to match the first user with users who are also going to the same destination. Thus, the network device first determines a candidate social object that is the same as or similar to the first to-be-transacted event of the first user based on the first to-be-transacted event. For example, determining a to-be-second event which is the same as or similar to the first to-be-handled event in a user alarm clock information base according to the coincidence degree of the first to-be-handled event, and determining a user corresponding to the second to-be-handled event as a candidate social object. Further, the network device determines the social object in the second alarm time corresponding to the candidate social object according to the first alarm time. For the process of matching the second alarm time according to the first alarm time, please refer to the corresponding embodiment of fig. 4, and the description thereof is omitted herein. In some embodiments, the two-in-one module is configured to determine the one or more social objects from the one or more candidate social objects according to the first alarm time and the current location information of the first user, where the second alarm time of each social object matches the first alarm time of the first user, and a distance between the current location information of the social object and the current location information of the first user is less than or equal to event distance threshold information. In some embodiments, to find a nearby social object for a first user, the network device finds a social object that is less than or equal to the event distance threshold information from the current location information of the first user based on the current location information of the first user. The second alarm time of the social object is matched with the first alarm time of the first user, and reference is made to the corresponding embodiment of fig. 4 for the process of matching the second alarm time according to the first alarm time, which is not described herein.

In some embodiments, the two-child module is configured to determine, according to a first alarm time and current location information of the first user, matching degree information of the candidate social object and the first user, where the matching degree information of the candidate social object and the first user is determined based on time matching degree information of a second alarm time of the candidate social object and the first alarm time of the first user, and location matching degree information between the current location information of the social object and the current location information of the first user, where the first alarm time corresponds to the first event to be handled, and the second alarm time corresponds to the second event to be handled; and determining one or more social objects from the one or more candidate social objects according to the matching degree information of the candidate social objects and the first user, wherein the matching degree information of each social object and the first user meets preset matching condition information. In some embodiments, to more accurately match the first user to social objects that may be social offline. And the network equipment searches the social object from the candidate social objects according to the matching degree information. For example, the network device determines the matching degree information of the candidate social object and the first user according to the time matching degree information between the second alarm time and the first alarm time and the position matching degree information between the current position information of the candidate social object and the current position information of the first user respectively. For example, if the first alarm time is the same as the second alarm time, the time matching degree information between the first alarm time and the second alarm time is 100%; the current position information of the first user is the same as the current position information of the candidate social object, and the position matching degree information of the first user and the candidate social object is 100%. In some embodiments, the network device determines, according to the sum of the time matching degree information and the position matching degree information, matching degree information of the candidate social object and the first user, for example, the time matching degree information is 80%, the position matching degree information is 70%, and then the matching degree information of the candidate social object and the first user is 0.8+0.7=1.5; in other embodiments, the network device determines the matching degree information of the candidate social object and the first user according to the time matching degree information and the weighting of the location matching degree information, for example, the time matching degree information is 80%, the location matching degree information is 70%, wherein the weight of the time matching degree information is 0.8, and the weight of the location matching degree information is 0.7, and then the matching degree information of the candidate social object and the first user is 0.8×0.8+0.7×0.7=1.13, for example, when the first to-do event is to preempt a certain commodity, the importance of time is higher than that of location, and therefore, in some embodiments, a relatively high weight needs to be attached to the time matching degree information. To find social objects for the first user that meet their social needs.

In some embodiments, the matching degree information of the candidate social object and the first user is determined based on time matching degree information of the second alarm time of the candidate social object and the first alarm time of the first user and position matching degree information between current position information of the social object and the current position information of the first user in a weighting mode. In some embodiments, to match a first user to a social object that meets his social needs. The network device determines matching degree information of the candidate social object and the first user according to the weighting of the time matching degree information and the position matching degree information, for example, the time matching degree information is 80%, the position matching degree information is 70%, wherein the weight of the time matching degree information is 0.8, the weight of the position matching degree information is 0.7, the matching degree information of the candidate social object and the first user is 0.8×0.8+0.7×0.7=1.13, for example, when the first event to be handled is a first commodity, the importance of time is higher than the importance of position, and therefore in some embodiments, a relatively high weight is attached to the time matching degree information to find the social object meeting the social requirement of the first user; in other embodiments, the importance of time may be lower relative to the importance of location, for example, when a certain location needs to be reached, the weight of the location matching information may be higher than the weight of the time matching information, so as to match the first user to a social object that can be shared or that is going to. According to the embodiment, the matching degree information between the candidate social object and the first user is determined by weighting the time matching degree information and the position matching degree information, so that the first user can be matched with the corresponding candidate social object according to different scenes.

In some embodiments, the two modules are configured to determine one or more social objects according to the alarm clock setting information of the first user and the current location information of the first user by matching and querying in a user alarm clock information base, where a second alarm time and a second to-do event of each social object are respectively matched with the first alarm time and the first to-do event of the first user, and the current location information of the social object is matched with the current location information of the first user, and the second alarm time corresponds to the second to-do event. In some embodiments, the network device may search the user alarm clock information base for the social object according to the first alarm time, the first to-do event, and the current location information of the first user at the same time. For example, searching for a second alarm time which is the same as or similar to the first alarm time according to the first alarm time; searching a second to-be-handled event which is the same as or similar to the first to-be-handled event according to the first to-be-handled event; and searching the current position information of the social object which is the same as or similar to the current position information of the first user according to the current position information of the first user. The network device can determine the matching between the second alarm time and the first alarm time according to the time interval threshold information; determining whether the second to-do event is matched with the first to-do event according to the second event matching degree (for example, the coincidence degree); and determining the matching between the current position information of the first user and the current position information of the social object according to the distance threshold information.

As shown in fig. 10, according to another aspect of the present application, there is provided a user device for social interaction based on an alarm clock, where the device includes two modules. The system comprises two modules, wherein the two modules are used for sending alarm clock setting information of a first user to corresponding network equipment, the alarm clock setting information comprises first alarm time and a first event to be handled of the first user, and the first alarm time corresponds to the first event to be handled; and the second module is used for receiving one or more social objects returned by the network equipment, wherein the second alarm time and the second to-do event of each social object are respectively matched with the first alarm time and the first to-do event of the first user, and the second alarm time corresponds to the second to-do event. The user equipment includes, but is not limited to, mobile phones, tablets, notebook computers, and other computing devices. In some embodiments, the first alarm time is a time set by the first user through the alarm clock application to remind the first user to process a first to-do event, where the first to-do event is a to-do event that the first user needs to process at the first alarm time.

Here, examples of the alarm clock setting information correspond to examples of the method shown in fig. 6, and reference may be made to the detailed description in fig. 6, which is not repeated here.

In some embodiments, the apparatus further comprises a third module (not shown). A third module, configured to obtain the first to-do event, where the first to-do event corresponds to the first alarm time, and the obtaining the first to-do event includes any one of: acquiring a first event to be handled based on alarm clock setting operation of the first user; setting the travel information of the first user as a first event to be handled corresponding to the first alarm time, wherein the travel time of the travel information is matched with the first alarm time; and determining backlog information of other applications on the user equipment as a first backlog event corresponding to the first alarm time, wherein the backlog information is matched with the first alarm time. In some embodiments, the first to-Do event is entered by the first user through their corresponding user device, e.g., the first user enters the first to-Do event as to XX airport on an alarm clock application of the user device; in other embodiments, the first user may forget or not fill in the first to-do event, the user device may obtain the first to-do event from an application portal of the other application based on the first alarm time, e.g., the first alarm time is "4 early morning", the user device obtains the to-do event about the first user from the other application based on the first alarm time, and sends the to-do event as the first to-do event to the network device, e.g., the first user first subscribes to a ticket from 4 early morning to XX airport on the xxxxxx application, and the network device obtains the first to-do event from the xxxxxx application based on the first alarm time "4 early morning" set by the first user first. In some embodiments, the acquiring the first to-be-transacted event includes any one of: acquiring a first event to be handled based on alarm clock setting operation of the first user; setting the travel information of the first user as a first event to be handled corresponding to the first alarm time, wherein the travel time of the travel information is matched with the first alarm time; and determining backlog information of other applications on the user equipment as a first backlog event corresponding to the first alarm time, wherein the backlog information is matched with the first alarm time.

Specifically, (1) acquiring a first to-do event based on an alarm clock setting operation of the first user. In some embodiments, the alarm setting operation includes an input filling operation of the first user, for example, an alarm application is installed on a user device corresponding to the first user, and a filling item of the first to-do event is set on the alarm application. The first user performs alarm clock setting operation for inputting a first to-be-handled event, and the user equipment obtains the first to-be-handled event based on the alarm clock setting operation.

(2) Setting the travel information of the first user as a first event to be handled corresponding to the first alarm time, wherein the travel time of the travel information is matched with the first alarm time. In some embodiments, the first user's corresponding user device has travel information for the first user recorded thereon (e.g., 9:00 for participating in XX conference; 10:00 to XX airport). The user equipment determines a first to-do event corresponding to the first alarm time according to the journey information, for example, the first user is provided with a first alarm time '9:00' through an alarm clock application, and the user equipment determines that the first to-do event is 'participating in XX conference' based on the first alarm time and the journey information of the first user.

(3) And determining backlog information of other applications on the user equipment as a first backlog event corresponding to the first alarm time, wherein the backlog information is matched with the first alarm time. In some embodiments, the first user may forget or not arrive at the time of filling in the first to-do event, or there is no filling item of the first to-do event in the alarm clock application. The user equipment may acquire a corresponding first to-do event from an application portal of the other application based on the first alarm time, for example, the first alarm time is "4 early morning", the user equipment acquires a to-do item about the first user at 4 early morning from the other application based on the first alarm time, and sends the to-do item as the first to-do event to the network equipment, for example, the first user a subscribes to an air ticket from 4 early morning to an XX airport on the xxxxxx application, and the network equipment acquires the first to-do event from the XX application to the XX airport based on the first alarm time "4 early morning" set by the first user a.

The present application also provides a computer readable storage medium storing computer code which, when executed, performs a method as claimed in any preceding claim.

The present application also provides a computer program product which, when executed by a computer device, performs a method as claimed in any preceding claim.

The present application also provides a computer device comprising:

one or more processors;

a memory for storing one or more computer programs;

the one or more computer programs, when executed by the one or more processors, cause the one or more processors to implement the method of any preceding claim.

FIG. 11 illustrates an exemplary system that may be used to implement various embodiments described herein;

in some embodiments, as shown in fig. 11, the system 300 can function as any of the devices of the various described embodiments. In some embodiments, system 300 can include one or more computer-readable media (e.g., system memory or NVM/storage 320) having instructions and one or more processors (e.g., processor(s) 305) coupled with the one or more computer-readable media and configured to execute the instructions to implement the modules to perform the actions described herein.

For one embodiment, the system control module 310 may include any suitable interface controller to provide any suitable interface to at least one of the processor(s) 305 and/or any suitable device or component in communication with the system control module 310.

The system control module 310 may include a memory controller module 330 to provide an interface to the system memory 315. Memory controller module 330 may be a hardware module, a software module, and/or a firmware module.

The system memory 315 may be used, for example, to load and store data and/or instructions for the system 300. For one embodiment, system memory 315 may include any suitable volatile memory, such as, for example, a suitable DRAM. In some embodiments, the system memory 315 may comprise a double data rate type four synchronous dynamic random access memory (DDR 4 SDRAM).

For one embodiment, system control module 310 may include one or more input/output (I/O) controllers to provide an interface to NVM/storage 320 and communication interface(s) 325.

For example, NVM/storage 320 may be used to store data and/or instructions. NVM/storage 320 may include any suitable nonvolatile memory (e.g., flash memory) and/or may include any suitable nonvolatile storage device(s) (e.g., one or more Hard Disk Drives (HDDs), one or more Compact Disc (CD) drives, and/or one or more Digital Versatile Disc (DVD) drives).

NVM/storage 320 may include storage resources that are physically part of the device on which system 300 is installed or which may be accessed by the device without being part of the device. For example, NVM/storage 320 may be accessed over a network via communication interface(s) 325.

Communication interface(s) 325 may provide an interface for system 300 to communicate over one or more networks and/or with any other suitable device. The system 300 may wirelessly communicate with one or more components of a wireless network in accordance with any of one or more wireless network standards and/or protocols.

For one embodiment, at least one of the processor(s) 305 may be packaged together with logic of one or more controllers (e.g., memory controller module 330) of the system control module 310. For one embodiment, at least one of the processor(s) 305 may be packaged together with logic of one or more controllers of the system control module 310 to form a System In Package (SiP). For one embodiment, at least one of the processor(s) 305 may be integrated on the same die as logic of one or more controllers of the system control module 310. For one embodiment, at least one of the processor(s) 305 may be integrated on the same die with logic of one or more controllers of the system control module 310 to form a system on chip (SoC).

In various embodiments, the system 300 may be, but is not limited to being: a server, workstation, desktop computing device, or mobile computing device (e.g., laptop computing device, handheld computing device, tablet, netbook, etc.). In various embodiments, system 300 may have more or fewer components and/or different architectures. For example, in some embodiments, system 300 includes one or more cameras, keyboards, liquid Crystal Display (LCD) screens (including touch screen displays), non-volatile memory ports, multiple antennas, graphics chips, application Specific Integrated Circuits (ASICs), and speakers.

It should be noted that the present application may be implemented in software and/or a combination of software and hardware, for example, using Application Specific Integrated Circuits (ASIC), a general purpose computer or any other similar hardware device. In one embodiment, the software programs of the present application may be executed by a processor to implement the steps or functions as described above. Likewise, the software programs of the present application (including associated data structures) may be stored on a computer readable recording medium, such as RAM memory, magnetic or optical drive or diskette and the like. In addition, some steps or functions of the present application may be implemented in hardware, for example, as circuitry that cooperates with the processor to perform various steps or functions.

Furthermore, portions of the present application may be implemented as a computer program product, such as computer program instructions, which when executed by a computer, may invoke or provide methods and/or techniques in accordance with the present application by way of operation of the computer. Those skilled in the art will appreciate that the form of computer program instructions present in a computer readable medium includes, but is not limited to, source files, executable files, installation package files, etc., and accordingly, the manner in which the computer program instructions are executed by a computer includes, but is not limited to: the computer directly executes the instruction, or the computer compiles the instruction and then executes the corresponding compiled program, or the computer reads and executes the instruction, or the computer reads and installs the instruction and then executes the corresponding installed program. Herein, a computer-readable medium may be any available computer-readable storage medium or communication medium that can be accessed by a computer.

Communication media includes media whereby a communication signal containing, for example, computer readable instructions, data structures, program modules, or other data, is transferred from one system to another. Communication media may include conductive transmission media such as electrical cables and wires (e.g., optical fibers, coaxial, etc.) and wireless (non-conductive transmission) media capable of transmitting energy waves, such as acoustic, electromagnetic, RF, microwave, and infrared. Computer readable instructions, data structures, program modules, or other data may be embodied as a modulated data signal, for example, in a wireless medium, such as a carrier wave or similar mechanism, such as that embodied as part of spread spectrum technology. The term "modulated data signal" means a signal that has one or more of its characteristics set or changed in such a manner as to encode information in the signal. The modulation may be analog, digital or hybrid modulation techniques.

By way of example, and not limitation, computer-readable storage media may include volatile and nonvolatile, removable and non-removable media implemented in any method or technology for storage of information such as computer-readable instructions, data structures, program modules or other data. For example, computer-readable storage media include, but are not limited to, volatile memory, such as random access memory (RAM, DRAM, SRAM); and nonvolatile memory such as flash memory, various read only memory (ROM, PROM, EPROM, EEPROM), magnetic and ferromagnetic/ferroelectric memory (MRAM, feRAM); and magnetic and optical storage devices (hard disk, tape, CD, DVD); or other now known media or later developed computer-readable information/data that can be stored for use by a computer system.

An embodiment according to the present application comprises an apparatus comprising a memory for storing computer program instructions and a processor for executing the program instructions, wherein the computer program instructions, when executed by the processor, trigger the apparatus to operate a method and/or a solution according to the embodiments of the present application as described above.

It will be evident to those skilled in the art that the present application is not limited to the details of the foregoing illustrative embodiments, and that the present application may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the application being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned. Furthermore, it is evident that the word "comprising" does not exclude other elements or steps, and that the singular does not exclude a plurality. A plurality of units or means recited in the apparatus claims can also be implemented by means of one unit or means in software or hardware. The terms first, second, etc. are used to denote a name, and does not represent any particular order.

Claims (20)

1. A method of social networking at a network device based on an alarm clock, the method comprising:

acquiring alarm clock setting information of a first user, wherein the alarm clock setting information of the first user comprises first alarm time and a first event to be handled of the first user, and the first alarm time corresponds to the first event to be handled;

searching one or more social objects corresponding to alarm clock setting information of the first user, wherein a second alarm time and a second to-do event of each social object are respectively matched with a first alarm time and a first to-do event of the first user, the second alarm time corresponds to the second to-do event, and a time interval between the second alarm time and the first alarm time is smaller than or equal to alarm time interval threshold information corresponding to the first alarm time, wherein the alarm time interval threshold information is determined according to the first to-be-transacted event;

at least one of the one or more social objects is provided to the first user.

2. The method of claim 1, wherein the searching for one or more social objects corresponding to the alarm setting information of the first user, wherein a second alarm time and a second to-do event of each social object match a first alarm time and a first to-do event of the first user, respectively, the second alarm time corresponding to the second to-do event, comprises:

Searching one or more candidate social objects in a user alarm clock information base according to the first alarm time of the first user, wherein the second alarm time of each candidate social object is matched with the first alarm time of the first user;

and determining the one or more social objects from the one or more candidate social objects according to the first to-do event of the first user, wherein the second to-do event of each social object is matched with the first to-do event of the first user.

3. The method of claim 2, wherein the looking up one or more candidate social objects in a user alarm clock information base according to the first alarm time of the first user, wherein the second alarm time of each candidate social object matches the first alarm time of the first user, comprises:

determining alarm time interval threshold information corresponding to the first alarm time according to a first to-be-handled event of the first user;

searching the one or more candidate social objects in the user alarm clock information base according to the first alarm time and alarm time interval threshold information corresponding to the first alarm time, wherein the second alarm time of each candidate social object is matched with the first alarm time and the alarm time interval threshold information corresponding to the first alarm time.

4. The method of claim 3, wherein the determining alarm time interval threshold information corresponding to the first alarm time based on the first to-do event of the first user comprises:

and determining the time information required by the first user from the current position information to the position information corresponding to the first to-be-transacted event according to the position information corresponding to the first to-be-transacted event of the first user and the current position information of the first user, and taking the time information as alarm time interval threshold value information corresponding to the first alarm time.

5. The method of claim 3 or 4, wherein the second alarm time of each candidate social object matches the first alarm time and alarm time interval threshold information corresponding to the first alarm time, comprising at least one of:

the interval between the second alarm time and the first alarm time of each candidate social object is smaller than or equal to alarm time interval threshold information corresponding to the first alarm time;

a time interval formed by the second alarm time of each candidate social object and corresponding alarm time interval information has a non-empty intersection with a time interval formed by the first alarm time and alarm time interval threshold information corresponding to the first alarm time;

And the intersection time length of a time interval formed by the second alarm time of each candidate social object and the corresponding alarm time interval information and a time interval formed by the first alarm time and the alarm time interval threshold value information corresponding to the first alarm time is larger than or equal to the intersection time length threshold value information.

6. The method of claim 2, wherein the looking up one or more candidate social objects in a user alarm clock information base according to the first alarm time of the first user, wherein the second alarm time of each candidate social object matches the first alarm time of the first user, comprises:

searching the one or more candidate social objects in the user alarm clock information base according to the first alarm time and the current position information of the first user, wherein the second alarm time of each candidate social object is matched with the first alarm time of the first user, and the distance between the current position information of the candidate social object and the current position information of the first user is smaller than or equal to alarm distance threshold information.

7. The method of claim 6, wherein the searching the user alarm clock information base for the one or more candidate social objects according to the first alarm time and the current location information of the first user, wherein the second alarm time of each candidate social object matches the first alarm time of the first user, and wherein a distance between the current location information of the candidate social object and the current location information of the first user is less than or equal to alarm distance threshold information, comprises:

Searching one or more candidate social objects in the user alarm clock information base according to the first alarm time and the current position information of the first user, wherein the time matching degree information of the second alarm time of each candidate social object and the first alarm time of the first user and the position matching degree information of the current position information of the candidate social object and the current position information of the first user respectively meet preset matching condition information.

8. The method of claim 2, wherein the determining the one or more social objects from the one or more candidate social objects based on the first to-do event of the first user, wherein the second to-do event of each social object matches the first to-do event of the first user, comprises:

determining one or more social objects from the one or more candidate social objects according to the first to-do event and the current position information of the first user, wherein, the second to-do event of each social object is matched with the first to-do event of the first user, and the distance between the current position information of the social object and the current position information of the first user is smaller than or equal to event distance threshold information.

9. The method of claim 8, wherein determining the one or more social objects from the one or more candidate social objects according to the first to-do event and the current location information of the first user, wherein the second to-do event of each social object matches the first to-do event of the first user, and wherein a distance between the current location information of the social object and the current location information of the first user is less than or equal to event distance threshold information, comprises:

determining one or more social objects from the one or more candidate social objects according to the first to-do event and the current position information of the first user, wherein the event matching degree information of the second to-do event of each social object and the first to-do event of the first user, and the position matching degree information between the current position information of the social object and the current position information of the first user respectively meet preset matching condition information.

10. The method of claim 9, wherein determining the one or more social objects from the one or more candidate social objects according to the first to-do event and the current location information of the first user, wherein the event matching degree information of the second to-do event of each social object and the first to-do event of the first user, and the location matching degree information between the current location information of the social object and the current location information of the first user respectively satisfy predetermined matching condition information, comprises:

Determining matching degree information of the candidate social object and the first user according to the first to-do event and the current position information of the first user, wherein the matching degree information of the candidate social object and the first user is determined based on event matching degree information of the second to-do event of the candidate social object and the first to-do event of the first user and position matching degree information between the current position information of the candidate social object and the current position information of the first user;

and determining one or more social objects from the one or more candidate social objects according to the matching degree information of the candidate social objects and the first user, wherein the matching degree information of each social object and the first user meets preset matching condition information.

11. The method of claim 2, wherein the looking up one or more candidate social objects in a user alarm clock information base according to the first alarm time of the first user, wherein the second alarm time of each candidate social object matches the first alarm time of the first user, comprises:

searching one or more primary selected social objects in the user alarm clock information base according to the first alarm time of the first user, wherein the second alarm time of each primary selected social object is matched with the first alarm time of the first user;

And screening one or more candidate social objects from the one or more primary social objects according to the time interval information of the second alarm time of the primary social object and the first alarm time of the first user.

12. The method of claim 1, wherein the searching for one or more social objects corresponding to the alarm setting information of the first user, wherein a second alarm time and a second to-do event of each social object match a first alarm time and a first to-do event of the first user, respectively, the second alarm time corresponding to the second to-do event, comprises:

searching one or more candidate social objects in a user alarm clock information base according to a first to-be-handled event of the first user, wherein a second to-be-handled event of each candidate social object is matched with the first to-be-handled event of the first user;

and determining one or more social objects from the one or more candidate social objects according to the first alarm time and the current position information of the first user, wherein the second alarm time of each social object is matched with the first alarm time of the first user, and the distance between the current position information of the social object and the current position information of the first user is smaller than or equal to event distance threshold information.

13. The method of claim 12, wherein the determining the one or more social objects from the one or more candidate social objects based on the first alarm time and the current location information of the first user, wherein the second alarm time of each social object matches the first alarm time of the first user and the distance between the current location information of the social object and the current location information of the first user is less than or equal to event distance threshold information comprises:

determining matching degree information of the candidate social object and the first user according to the first alarm time and the current position information of the first user, wherein the matching degree information of the candidate social object and the first user is determined based on time matching degree information of the second alarm time of the candidate social object and the first alarm time of the first user and position matching degree information between the current position information of the social object and the current position information of the first user;

and determining one or more social objects from the one or more candidate social objects according to the matching degree information of the candidate social objects and the first user, wherein the matching degree information of each social object and the first user meets preset matching condition information.

14. The method of claim 13, wherein the matching degree information of the candidate social object and the first user is based on time matching degree information of a second alarm time of the candidate social object and a first alarm time of the first user and the time matching degree information of the candidate social object and the first alarm time of the first user

And the position matching degree information between the current position information of the social object and the current position information of the first user is determined in a weighting mode.

15. The method of claim 1, wherein the searching for one or more social objects corresponding to the alarm setting information of the first user, wherein a second alarm time and a second to-do event of each social object match a first alarm time and a first to-do event of the first user, respectively, the second alarm time corresponding to the second to-do event, comprises:

searching one or more social objects in a user alarm clock information base according to the alarm clock setting information of the first user and the current position information of the first user, wherein the second alarm time and the second to-do event of each social object are respectively matched with the first alarm time and the first to-do event of the first user, the current position information of the social object is matched with the current position information of the first user, and the second alarm time corresponds to the second to-do event.

16. A method of social networking at a user device terminal based on an alarm clock, the method comprising:

sending alarm clock setting information of a first user to corresponding network equipment, wherein the alarm clock setting information comprises first alarm time and a first event to be handled of the first user, and the first alarm time corresponds to the first event to be handled;

and receiving one or more social objects returned by the network equipment, wherein the second alarm time and the second to-be-handled event of each social object are respectively matched with the first alarm time and the first to-be-handled event of the first user, the second alarm time corresponds to the second to-be-handled event, and the time interval between the second alarm time and the first alarm time is smaller than or equal to alarm time interval threshold information corresponding to the first alarm time, and the alarm time interval threshold information is determined according to the first to-be-handled event.

17. The method of claim 16, wherein the method further comprises:

acquiring the first to-do event, wherein the first to-do event corresponds to the first alarm time, and the acquiring the first to-do event comprises any one of the following steps:

Acquiring a first event to be handled based on alarm clock setting operation of the first user;

setting the travel information of the first user as a first event to be handled corresponding to the first alarm time, wherein the travel time of the travel information is matched with the first alarm time;

and determining backlog information of other applications on the user equipment as a first backlog event corresponding to the first alarm time, wherein the backlog information is matched with the first alarm time.

18. A method for social networking based on an alarm clock, the method comprising:

the method comprises the steps that user equipment sends alarm clock setting information of a first user to corresponding network equipment, wherein the alarm clock setting information comprises first alarm time and a first event to be handled of the first user, and the first alarm time corresponds to the first event to be handled;

the network equipment acquires alarm clock setting information of a first user, and searches one or more social objects corresponding to the alarm clock setting information of the first user, wherein second alarm time and second to-do event of each social object are respectively matched with first alarm time and first to-do event of the first user, and the second alarm time corresponds to the second to-do event; providing at least one of the one or more social objects to the first user, wherein a time interval between the second alarm time and the first alarm time is less than or equal to alarm time interval threshold information corresponding to the first alarm time, and the alarm time interval threshold information is determined according to the first to-be-transacted event;

The user equipment receives one or more social objects returned by the network equipment.

19. An alarm clock based social networking device, the device comprising:

a processor; and

a memory arranged to store computer executable instructions which, when executed, cause the processor to perform the operations of the method of any one of claims 1 to 17.

20. A computer readable medium storing instructions that, when executed, cause a system to perform the operations of the method of any one of claims 1 to 17.

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