CN115605899A - Sorting and transaction method, computer device and storage medium - Google Patents

Abstract

A method of sorting, comprising: acquiring search terms of a target commodity to be searched and life circle range parameters to be searched; searching a supplier providing target commodities in a life circle range determined according to life circle range parameters to be searched, and calculating the acquirability of each target commodity, wherein the acquirability is calculated and obtained according to the total correlation and the reaction correlation of the target commodities, the total correlation comprises a display correlation which is used for reflecting the matching similarity of search words of the target commodities to be searched and key words of the target commodities provided by the supplier, and the reaction correlation is used for reflecting the speed of the searcher obtaining the target commodities provided by the supplier; and sequencing all target commodities or suppliers providing the target commodities according to the acquirability.

Description

Sorting and transaction method, computer device and storage medium Technical Field

The present disclosure relates to the field of computers, and more particularly, to a sorting method, a transaction method, a computer device and a storage medium.

Background

In reality, a consumer often encounters a problem of how to accurately and quickly obtain a required commodity so as to solve the instant needs, such as water finding and dining in a journey, medicine finding in the middle of the night, and purchasing a certain daily necessity in a home-going way.

Summary of The Invention

The following is a summary of the subject matter described in detail herein. This summary is not intended to limit the scope of the claims.

In a first aspect, an embodiment of the present disclosure provides a sorting method, including:

acquiring search terms of a target commodity to be searched and life circle range parameters to be searched;

searching a supplier providing target commodities in a life circle range determined according to life circle range parameters to be searched, calculating the acquirability of each target commodity, wherein the acquirability is calculated and obtained according to the total relevancy and the reaction relevancy of the target commodities, the total relevancy comprises presentation relevancy, the presentation relevancy is used for reflecting the matching similarity between search words of the target commodities to be searched and key words of the target commodities provided by the supplier, and the reaction relevancy is used for reflecting the speed of the searcher obtaining the target commodities provided by the supplier;

and sequencing all target commodities or suppliers providing the target commodities according to the acquirability.

In another aspect, an embodiment of the present disclosure further provides a transaction method, including:

receiving a search request sent by a searcher, and sequencing and displaying suppliers by adopting any one sequencing method;

receiving a searcher-initiated transaction with a vendor in the ranking; the transaction comprises an online transaction or an offline transaction.

In yet another aspect, embodiments of the present disclosure further provide a computer device, which includes a memory, a processor, and a computer program stored in the memory and executable on the processor, where the processor can implement the foregoing ordering method or transaction method when executing the program.

In still another aspect, embodiments of the present disclosure further provide a computer-readable storage medium, which stores program instructions, and when the program instructions are executed, the foregoing sorting method or transaction method may be implemented.

Other aspects will be apparent upon reading and understanding the attached drawings and detailed description.

Brief description of the drawings

FIG. 1 is a schematic illustration of the degree of accessibility of the disclosed embodiments;

FIG. 2 is a schematic interface diagram of a live circle search engine and transaction system according to an embodiment of the present disclosure;

FIG. 3 is a schematic workflow diagram of a live reminder mode according to an embodiment of the present disclosure;

FIG. 4 is a system architecture diagram of an embodiment of the present disclosure;

FIG. 5 is a schematic diagram of a method for determining a geographic location according to an embodiment of the present disclosure;

FIG. 6 is a diagram illustrating user permissions according to an embodiment of the disclosure;

fig. 7 is a schematic main page diagram of a user end advanced user uploading and publishing real-time service and commodity information according to an embodiment of the present disclosure;

fig. 8 is a schematic diagram of a search result display page at a user side according to an embodiment of the disclosure;

FIG. 9 is a page illustration intent seen by a searcher clicking on a merchant from a search results page in an embodiment of the present disclosure;

FIG. 10 is a diagram illustrating a merchandise information processing page after an advanced user clicks merchandise release according to an embodiment of the disclosure;

FIG. 11 is a page view of a senior user after clicking on the merchandise edit on the merchandise information processing page in accordance with an embodiment of the present disclosure;

FIG. 12 is a flow chart of a ranking method of an embodiment of the present disclosure;

FIG. 13 is a flow chart of a transaction method of an embodiment of the present disclosure;

FIG. 14 is a schematic diagram of a computer apparatus according to an embodiment of the disclosure.

Detailed description of the invention

In the present application, the embodiments and features of the embodiments may be arbitrarily combined with each other without conflict.

The steps illustrated in the flow charts of the figures may be performed in a computer system such as a set of computer-executable instructions. Also, while a logical order is shown in the flow diagrams, in some cases, the steps shown or described may be performed in an order different than here.

The terms "first," "second," and the like in the description and in the figures above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order.

Some electronic commerce transactions are mainly in an online transaction mode, although a transaction platform can accommodate various commodities or services of multiple merchants so as to be convenient for consumers to select, in the system, the consumers and the merchants are often far away from each other in geographic positions, the time spent on commodity sending is counted by days, the merchants and the consumers are often carelessly communicated, the electronic commerce transaction platform cannot serve daily transactions in a real life circle, and the real-time requirements of the consumers in a live state cannot be met.

Some search engines capture external links of websites by using a web spider program, then establish a database to store information of all websites which are extracted from the internet and mainly comprise web characters, retrieve records matched with user query conditions, and return results according to a certain sequencing sequence.

In some combined online and offline (or O2O) models, merchants attempt to go from online to offline, or to provide online services on an offline basis. Although such an O2O model provides relatively convenient for consumers, it is limited to a few powerful merchants to perform respective business services, and thus, it is completely unable to satisfy the requirements of the actual life for multi-merchant, cross-platform, cross-industry, multi-commodity, high-timeliness, high-interaction, diversified, regionalized and three-dimensional competitive business service systems.

In reality, a consumer often encounters a problem of how to accurately and quickly obtain a required commodity so as to solve the needs of the consumer on time, such as water supply during a journey, dining, medicine finding during the middle of the night, and purchasing a certain daily necessity in the process of going home, and the like. Meanwhile, merchants near the consumers are worried about the time cost and the labor cost of advertising investment, and the merchants spend a large amount of labor and financial resources for committing business hours to live on the storefront without knowing whether the customers exist or not.

At present, no electronic commerce transaction system can specially provide a scheme for ordering according to the commodity acquirability under the real-time condition of a life circle for consumers, different commodities or services of different merchants in the life circle can not be selected through time-saving and labor-saving comparison in daily life, and the instant requirements of the consumers such as medicine buying at night, water finding in a journey, shopping in a hurry and the like can not be met. The existing search engine searches website information, and no on-line communication tool is used, so that a user can conveniently and timely communicate with related merchants in a life circle only by clicking a telephone, an address, chatting or other communication tools, the instant requirement of quickly solving problems in the actual life circle of the consumer cannot be met, and daily transactions in real life cannot be served. On the other hand, the main electronic commerce purchasing system at present is a service system of a pure online merchant or a so-called O2O or online and offline combination realized by a small number of powerful merchants, which are respectively administrative, but what is actually needed is a three-dimensional O2O covering all the commodity circulation in the life circle, which is popular: there is a need for a trading system that covers all life circle real-time situations, can quickly search for comprehensive life circle commodity information on-line, and can perform screening according to user requirements, and guide users to complete off-line trading through screening results. The full-coverage three-dimensional O2O search engine service platform is not only suitable for a few powerful merchants to obtain exclusive share of commercial profits, does not need to specially change the transaction modes of different shapes and colors in real life, but also provides a convenient platform for the multi-dimensional real transactions, and highlights the quality and professional level of the service, so that the merchants capable of providing quick response and high-level service for consumers are distinguished. Such a search engine service system is a transaction service system that provides great convenience for life circle consumers and merchants, which is really needed by future markets.

The internet in the information age brings revolutionary leap to human information processing because search engines are continuously innovated in the method for processing continuously accumulated mass information, and the sequencing basis of the search engines is the foundation of internet information search. Search engines are continually improving in their ranking grounds, thereby providing human beings with increasingly greater processing power on demand for information. Fig. 1 is a schematic diagram illustrating the acquirability of the embodiment of the present disclosure.

The acquirability, that is, the degree to which the target object may be acquired by the searcher in the embodiments of the present disclosure includes a reaction correlation degree and a total correlation degree, where:

the reaction relevancy is used for representing the reaction capability of the provider or the merchant, and as an important consideration factor for the ranking basis of the new search engine, the parameters for calculating the reaction relevancy can include but are not limited to: parameters that can affect the speed or ability of the information provider or merchant to react to a user search request may include, for example, but are not limited to, one or more of the following: the conventional business hours of the merchant, the reaction time (or called service response time) of the merchant to the search request, the time of the user's demand (indicating when the user needs to obtain the goods, namely the live time of the search), the stock quantity of the goods, the geographical location of the goods supply and demand, the coverage of the home service or delivery, the delivery mode or method, the traffic condition or road condition in the live, the level of the merchant, the historical supply credit of the merchant, and the like. The parameters can be quantized, namely converted into calculated values which can be calculated uniformly, and the calculation of the reaction correlation degree is realized. In an exemplary embodiment, a weight value may be set for each calculated value to embody the importance of the corresponding parameter.

The total relevance is a ranking basis of the search engine, and includes presentation relevance and feedback relevance, wherein the presentation relevance is used for representing a matching degree between a search request presented on the internet and a target object, and parameters for calculating the presentation relevance include, but are not limited to: matching similarity between the search word and the keywords in the target information, attributes of the matching keywords, and positions of the keywords in the target information. The feedback relevancy is used for representing feedback statistical data (commonly called heat) of a user after browsing target information, and parameters for calculating the feedback relevancy include but are not limited to: click-through rate, volume of enquiries, attention, volume of collections, volume of sales, ratings, etc. Likewise, the above parameters may be quantified to enable computation of the exhibit correlation and the feedback correlation. In an exemplary embodiment, a weight value may be set for each calculated value to embody the importance of the corresponding parameter.

The search engine of the embodiment can be provided with the capability of directly serving real life through the acquirability information, so that the search engine can show unprecedented vitality in daily transactions in live life circle!

In other embodiments, a plurality of marginal factor (edge information) set considerations can be introduced into the acquirability, and the big data is processed based on super computing power, so that the real requirements of a searcher can be fully understood, information can be summarized, absorbed, understood and thought, and corresponding judgment can be made, so that the ranking basis of a search engine can be evaluated in an all-round and dynamic manner, and a search result can be presented more accurately;

in an exemplary embodiment, the disclosed embodiment provides a sorting method, as shown in fig. 12, including the following steps 11-13:

step 11, obtaining search terms of a target commodity to be searched and life circle range parameters to be searched;

the life circle range parameter to be searched is a parameter for determining the life circle range.

Step 12, searching suppliers providing target commodities in a life circle range determined according to the life circle range parameters to be searched, and calculating the acquirability of each target commodity;

the acquirable degree is obtained by calculation according to the total correlation degree and the reaction correlation degree of the target commodity, wherein the total correlation degree comprises a display correlation degree, the display correlation degree is used for reflecting the matching similarity between the search word of the target commodity to be searched and the keyword of the target commodity provided by the supplier, and the reaction correlation degree is used for reflecting the speed of obtaining the target commodity provided by the supplier by a searcher;

and step 13, sequencing all target commodities or suppliers providing the target commodities according to the acquirable degree.

In an exemplary embodiment, the total relevancy may further include a feedback relevancy reflecting a degree of heat of each target item. And the total correlation is obtained by calculation according to the display correlation and the feedback correlation. For example, for each target item: different first weight values can be set for different presentation relevancy, different second weight values can be set for different feedback relevancy, different third weight values can be set for different reflection relevancy, and the first weight value, the second weight value and the third weight value are calculated according to a preset calculation formula (for example, a summation calculation formula, an averaging calculation formula, a mean square deviation calculation formula and the like), so that a value of the acquirable degree corresponding to the target commodity is obtained. For a plurality of target commodities, the values of the acquirability degrees corresponding to the target commodities can be sorted, so that all the target commodities or suppliers providing the target commodities are sorted.

In an exemplary embodiment, the reaction correlation is calculated from one or more of the following parameters: business hours of the supplier, listing state, service response duration, goods delivery mode, delivery or home service range, search live time, goods state, stock quantity of goods, geographical position of goods provided by the supplier, geographical position of the request of the searcher, transportation, road conditions, credibility of the supplier and grade of the supplier.

When calculating the reaction correlation, for the merchants who are in business hours in the search live time and can provide the same target commodity, different reaction correlations can be obtained according to the difference of information such as the listing state, the service response duration, the commodity delivery mode, the service range, the stock of the spot goods, the geographic position of the target commodity, the speed of the transportation means, the credit of the merchant, the merchant level and the like, for example:

the reaction correlation degree of the target commodity provided by the merchant in the listing state is higher than that of the target commodity provided by the merchant not in the listing state;

the reaction correlation degree of the target commodity provided by the long and short merchants in the service response time is higher than that of the target commodity provided by the long merchants in the service response time;

the influence of the goods delivery mode on the reaction correlation degree depends on the influence of the delivery mode on the speed of obtaining the goods by the searcher, the reaction correlation degree of the delivery mode with high delivery speed is higher than that of the delivery mode with low delivery speed, for example, a merchant has a self distributor and does not need to wait for the distribution of a professional distributor, the reaction correlation degree of the target goods provided by the merchant with the self distributor is higher, and for example, the reaction correlation degree of the target goods provided by the merchant capable of providing home service is higher;

the reaction correlation of the target goods provided by the merchants whose distribution or home service range is within the life circle range (for example, a predetermined travel time range) is higher than the reaction correlation of the target goods provided by the merchants whose distribution or home service range is outside the life circle range. When the merchants capable of providing target commodities cannot be searched in the set travel time range, the merchants with enlarged life circle geographical range outside the original life circle range can be provided for the user to select after the travel time for showing the distribution or home service range is increased, and the merchants can be sorted from short to long according to the required travel time or can be intuitively understood as the merchants with the distance from near to far in some cases; the reaction correlation degree of the target commodity with high stock in stock is higher than that of the target commodity with low stock in stock;

the closer the geographic location of the target item provided by the supplier is to the geographic location requested by the searcher, the shorter the travel time may be, the higher the reaction correlation of the target item. The faster the vehicle, the higher the reaction correlation, and the better the road conditions. The higher the reputation of the merchant, the higher the reaction correlation. The higher the rank of the merchant the higher the reaction correlation.

In an exemplary embodiment, the life circle may refer to a geographical range determined according to a preset number of suppliers that can provide a target commodity to be searched, centering on a geographical location requested by a searcher; or, the life circle refers to a geographical range determined according to a preset travel time by taking the geographical position requested by the searcher as a center. The preset travel time can be calculated according to the transportation means requested by the searcher and the current road condition.

The geographic position requested by the searcher comprises the geographic position of the searcher sending the search request, or the geographic position specified by the searcher, or the real-time geographic position of the searcher.

In an exemplary embodiment, the size of the life circle may ultimately vary depending on whether the number of search results meets the requirements of a given number of page impressions.

In an exemplary embodiment, when a life circle is defined according to travel time, two locations that are close together are not necessarily within the life circle because the travel time of the two locations may be long, for example: the river is separated between the A place and the B place although the A place and the B place are close, so that the traffic is inconvenient; although there is a bridge, the two places belong to two different countries or administrative districts with customs or toll stations in between, and these factors lengthen the travel time, so that two places which are close to each other may belong to two different life circles in many cases.

In an exemplary embodiment, the method further comprises:

when the search terms of the target commodity to be searched and the life circle range parameters to be searched are obtained, the live time of the search is obtained;

when searching for a supplier providing a target commodity, searching for the supplier providing the target commodity in a live time range of the search and a life circle range determined according to the life circle range parameter to be searched.

In an exemplary embodiment, the searching for a supplier offering a target commodity within the life circle includes:

the life circle range may include a plurality of stages of search blocks, and when searching for a supplier providing a target commodity, the supplier providing the target commodity is searched according to the first stage of search block, and when the number of suppliers is less than a preset value, the supplier providing the target commodity is searched according to the second stage of search block (if the number of suppliers acquired by the second stage of search block is still less than the preset value, the system may start the third stage of search block, or start more search blocks according to whether the preset value is satisfied, and automatically stop searching until a search result is greater than or equal to the preset value).

Wherein the preset values are one or more; when the number of the preset values is multiple, the second search blocks with different numbers can be started according to the number requirement of each different preset value; and, the rank of the second level search block may include a plurality of ranks; different preset values correspond to second-level search blocks with different levels, and the level of the adopted second-level search block is correspondingly adjusted according to the condition that the number of the suppliers meets the different preset values; and the grades of the adopted second-stage search blocks are sequentially increased as the preset values met by the number of the suppliers are sequentially reduced. That is, the level of the search block may be continuously added to perform the search so as to satisfy the requirement of the preset value.

In an exemplary embodiment, the method further comprises: updating the life circle range to be searched, searching suppliers providing target commodities in the updated life circle range, recalculating the acquirability of each target commodity, and sequencing all the target commodities or the suppliers providing the target commodities according to the recalculated acquirability.

In an exemplary embodiment, the method further comprises: entering a real-time reminding working mode in response to an instruction for starting the real-time reminding mode sent by a searcher;

the life circle range parameter to be searched is the travel time set by a searcher;

the searching for suppliers providing target commodities in the life circle range determined according to the life circle range parameters to be searched and calculating the acquirability of each target commodity comprises the following steps:

the method comprises the steps of monitoring the geographic position of a searcher in real time, determining a life circle range in real time according to the moving speed of the searcher and the travel time set by the searcher, searching suppliers providing target commodities in the life circle range determined in real time, calculating the acquirability of each target commodity, and sending a prompt to the searcher when the suppliers meeting the prompt conditions set by the searcher are screened out. For example, the reminder condition may be an acquirable threshold.

In an exemplary embodiment, after the sorting all the target commodities or the suppliers providing the target commodities according to the acquirability, the method further includes: the target items with the same acquirability or the suppliers offering the target items with the same acquirability are ranked (i.e., secondary ranking) according to a second factor, which includes price, distance, supplier reputation, supplier rank, or whether to go home.

In an exemplary embodiment, after the sorting all the target commodities or the suppliers providing the target commodities according to the acquirability, the method further includes: and providing the communication tool and/or the map path service of the supplier of the target commodity for the searcher.

In an exemplary embodiment, the target commodity includes any one of: goods, objects, services, methods, patterns, information, intellectual property, intangible assets, and concepts.

In an exemplary embodiment, the embodiment of the present disclosure further provides a transaction method, as shown in fig. 13, including the following steps 21 to 22:

step 21, receiving a search request sent by a searcher, and sequencing and displaying suppliers by adopting any one of the sequencing methods in the embodiments;

a searcher initiated transaction with a supplier in the ranking is received, step 22.

In an exemplary embodiment, the receiving searcher initiated transactions with the suppliers in the ranking includes online transactions or offline transactions.

In an exemplary embodiment, the method further comprises: recording one or more of the following information: the number of times that suppliers providing target commodities are ranked and displayed, the number of times that a supplier information link of the supplier is clicked, the order volume of the supplier, and the number of times that the searcher starts a real-time reminding mode.

In an exemplary embodiment, the present disclosure provides a live search engine and a transaction system sorted according to the availability of commodities in a life circle, where after a user inputs required commodity information, that is, query conditions, at a user terminal, a result of a search is that certain life circle is specified live, some merchants operating the commodities and information of the commodities issued by the merchants are operated, and the method may further include: the searcher clicks the relevant link of the merchant to further browse the required goods, or directly communicate with the merchant on line, or enter the map path service. If the user is satisfied and needs to ensure that the commodity can be obtained within the required time, the user can place the order immediately and can select online or offline payment, and if online payment is selected, the order is handed to the server side of the settlement payment system for settlement payment. The transaction system can help consumers to quickly and accurately acquire required commodities in life circles, and can be used for immediately and accurately docking merchants with relatively higher service levels and quick response. The live circle search engine and trading system interface may be as shown in fig. 2, for example. The interface can provide more detailed information about the merchant and the goods, such as merchant address, telephone or other chat communication tools, online chat buttons and the like, if the searcher clicks the chat button, the online chat communication can be carried out by connecting to the merchant through the server side of the chat system, and if the searcher clicks other chat tools, the communication tool management server can be used for connecting with the merchant by the means of the tools.

In an exemplary embodiment, the present disclosure further provides a transaction method demanded by a life circle, which is characterized by a full-coverage three-dimensional O2O transaction mode, and this transaction method avoids the defects of poor timeliness of the traditional e-commerce, such as the problems of transportation cost, timeliness and after-sale caused by a distant merchant, and avoids the inconvenience caused by the consumer to shop and shop online, such as the waste of a lot of time in the process of finding a shop, and further such as the specialty and uncertainty of the merchant service may delay a lot of time in the process of finding and selecting a commodity. The method disclosed by the embodiment of the disclosure helps the consumer to realize the really needed convenience, quick response and service level, so that the original consumption and transaction habits of the consumer and the merchant are kept to the greatest extent. By sequencing the commodities according to the acquirability, as the level and the timeliness of the service are introduced and emphasized, all merchants capable of providing high level and convenient service in a life circle have an opportunity to participate in competitive sequencing and take the lead, not only merchants capable of building barriers are limited to those with strength, and the merchants on the original line are not attacked by price war of pure electric commerce any more, pay more attention to the quality of the commodities and the timeliness of the service, reflect the due commercial value thereof from the original line, and finally improve the life quality of people from the aspect of the quality of the service of the merchants.

For example, the user inputs "cold and fever reducing medicine", and the searched result is information of merchants who operate cold medicines (such as information of drugstores, including operating addresses, contact communication ways and the like) and cold and fever reducing medicines issued by the merchants, wherein the merchants are in a specified life circle, that is, in a certain geographical range and do not stop working at that time. The user can select interested merchants and click links to browse detailed information; the merchant information can also comprise a merchant address, and the user can start the map path service by clicking the merchant address, select the best vehicle and complete the route planning, and directly go to the medicine taking; or the user can start a real-time reminding mode so as to buy the medicines in sequence on the way of working or going home; the merchant information can also comprise a communication mode, if the user has a question, the user can click a communication mode (such as telephone or video and the like) supported by both the user and the merchant to directly communicate with the merchant so as to know more detailed conditions; if the user is to ensure that a trip is not made or that delivery (e.g., medication) is required to go to the gate, the user may directly place an order to leave evidence of a purchase on the web, the order including other information such as a pickup plan (e.g., whether to pick up or deliver to the gate), a payment plan (e.g., whether to pay online or offline), etc., in addition to conventional information such as the name, price, quantity, etc., of the item. Although the user can directly go to get the medicine without placing the order, the advantage of placing the order is that besides the reduction of misunderstanding to ensure the goods taking, the user can obtain the right to evaluate the merchant through the order record, thereby playing the role of monitoring the service of the merchant, welcoming the order certificate for the merchant so as to reduce unnecessary disputes caused by misunderstanding, and the sales volume of the order record is beneficial to the grade evaluation of the merchant.

Fig. 3 is a schematic view illustrating a work flow of the live reminder mode according to the embodiment of the disclosure. The method comprises the following steps: step 1, a supplier registers and issues commodity information through a supplier user terminal; step 2, a user inputs a search request or starts a reminding mode at the position 1, wherein the search request carries relevant information of a commodity to be searched; step 3, adding a search block, wherein the search block refers to the travel time (such as 10 minutes) calculated by taking the address requested by the user (namely, the searcher) as the center and the requested transportation means and road conditions under the selected live condition, and the selected live condition can be the time for sending the search request by the searcher by default or the time specified by the searcher; step 4, the user terminal acquires and uploads the position information of the current position 1; step 5, searching the to-be-searched commodities according to the position 1 and the searching block, for example, not searching related commodities; step 6, if the user starts the reminding mode in the step 2, obtaining the position information of the current position 2 of the user terminal after the relevant commodities are not searched in the step 5; step 7, searching the to-be-searched commodities according to the position 2 and the search block, for example, searching to provide related commodities at the position 3; step 8, feeding back a search result to the user terminal; step 9, sending the merchandise request information to the supplier at the position 3.

As shown in fig. 4, the architecture of the live search engine and transaction system based on commodity acquirability provided by the embodiment of the present disclosure may include a user terminal 01, a search engine server terminal 02, a chat system server terminal 03, a distributed database cluster (or distributed storage network) 04, an order system server terminal 05, a settlement payment system server terminal 06, an after-sale system server terminal 07, an exchange tool management server terminal 08, a user management server terminal 09, a merchant management server terminal 10, and a commodity management server terminal 11, where all data of users in these server terminals may be stored in the distributed database cluster 04.

In an exemplary embodiment, the functions of the search engine server side 02 of the live circle search engine and transaction system are: after receiving the query condition sent by the searcher from the user end 01, some merchant information and commodity information with highest acquirability of commodities around the life circle of the searcher related to the query condition are matched, wherein the merchant information includes but is not limited to one or more of the following: a user name of a merchant, a user ID, an IP of a user terminal, a port number of the user terminal, a contact mode, a commodity operation address and a merchant level; the queried merchandise information includes, but is not limited to, one or more of the following: the product name, the product description, the product price, the product remaining amount, and the like, and returns the information to the user terminal 01 of the searcher.

The data required to be stored by the live circle search engine server 02 comprises two types: one type is the query record of the user, when a user inputs a certain query condition for searching, the query record is also stored in a vertical database cluster (vertical database cluster) 025 of the search engine server 02, and the other type is the commodity information and response information issued by the merchant or advanced user, where the response information may include business hours, service response duration, delivery or home service range, and the like, for example, the information about the goods put on shelf and put off shelf sent by the merchant from the mobile phone user terminal. The information directly participates in and influences the calculation of the commodity availability, for example, the commodity availability calculation value of a closed merchant is zero when the business time is over live, the commodity availability calculation value of an off-shelf merchant is zero, the commodities are not listed in the sorting result, and the commodity with the availability approaching zero infinitely is automatically off-shelf due to the fact that the reputation evaluation is reduced due to default of the merchant. The number of the commodities which are automatically off-shelf participates in the evaluation of the credit degree and the grade of the merchants, so that the acquirability degree of the commodities is finally influenced, for example, the calculated value of the acquirability degree is not 0 due to the fact that the inventory is exhausted and the merchants unconsciously maintain and update the information of the commodities on-shelf and off-shelf, so that the corresponding commodities are normally sequenced and are in lost credit supply, if the condition reaches a certain evaluation number threshold value, the corresponding commodities are judged to be lost credit commodities, and the lost credit commodities can be automatically off-shelf. And the merchants with the number or the proportion of the commodities automatically off the shelf reaching a certain threshold are judged as distrusted merchants, and the distrusted degree of the merchants participates in the evaluation of the credit degree and the level of the merchants. The information issued by the merchants and the user evaluation information are processed by a full-time server (for example, after-sales system server 07), and then classified and stored in the vertical database cluster 024 of the user management server 09, the merchant management server 10, and the commodity management server 11. 024 refers to a data store under the direct jurisdiction of servers, i.e., a central data store. Fig. 7 is a schematic main page view illustrating that a high-level user at a user end uploads and publishes real-time service and commodity information according to an embodiment of the present disclosure.

The data (for example, the commodity information) stored in the life circle scene search engine server side 02 may be associated with the commodity acquirability calculated in the life circle scene where the searcher is located, and only in this way, the result obtained by the search may be some merchants with the highest commodity acquirability screened according to the life circle scene searched by the searcher. For example, the search engine server 02 may search the stored data for the commodities that match the commodity information provided by the searcher according to the commodity information provided by the searcher, sort the commodities according to the commodity acquirability, and display the commodities to the searcher in the order from top to bottom according to the acquirability values.

The commodity availability in the live life circle search engine and the transaction system is calculated according to relevant important information of merchants and searchers, and the important information is summarized and classified into three aspects: the display relevance of the commodity, the market feedback (or feedback relevance) of the commodity and the merchant responsiveness (or reaction relevance) of the commodity. The acquirability of the goods can be determined by the values of the three aspects. In other embodiments, the correlation may be determined based on the merchandise display and merchant responsiveness. The display relevance of the commodity refers to the similarity between the search term and the target information, and the market feedback of the commodity refers to the statistical data of the target information, such as one or more of the following: click-through rate, volume of enquiries, attention, volume of collections, volume of sales, ratings, etc. The display relevance and the market feedback of the commodity can be calculated by using a relevant e-commerce platform, and details are not repeated here. Merchant responsiveness of a good plays a key or determining factor in the calculation of a good's acquirability value, important considerations including, but not limited to, one or more of the following parameters: business hours of the merchant, listing state, service response duration, delivery mode of the goods, delivery or on-door service range, live time of the search request, state of the goods (on-shelf or off-shelf), stock of the goods, geographical position of the searcher request, traffic and road conditions, credibility of the merchant, merchant level and the like. The business hours of the merchants refer to the daily opening time periods of the merchants, the geographic position information of the commodities refers to the commodity supply addresses, and the information is provided by the merchants and can be obtained by being grabbed from the websites of the merchants or is actively edited or modified and uploaded by the merchants from the advanced user client terminal 01 (namely, the user terminal used by the merchants). The geographical location information of the searcher may be latitude and longitude data automatically collected by a navigation service of a user terminal used by the searcher, such as the global positioning device 012, or may be address information actively input by the searcher through the user terminal, such as directly inputting an address by the searcher or marking a location on an electronic map. The service response time duration refers to the reaction time duration of the business to the search request, or the waiting time of the business from receiving the service request to providing the service for the searcher. For example, if the item is a processed meal, the item offer time may be the time from the time the order is received by the merchant until the meal is ready, for example, if the item is in stock, the item offer time may be the time from the time the order is received by the merchant until the time the order is taken by the merchant until the meal is ready for shipment, which may be provided by the merchant or may be calculated from historical service response times. The card hanging means that the merchant can not only provide conventional service, but also respond at any time and immediately provide all-round service without waiting in a queue. The home service means that the service can be realized within the geographical range specified by the merchant; due to the limitation of service power, the business merchant who is in business may not provide the immediate service state of ready-to-use without queuing, and the business merchant who provides the delivery service usually may not be able to serve the business or provide other normal services immediately because the delivery personnel are already on the way or all the service power is in the full load state, and these situations may not be listed, which requires the business to provide accurate information, the unreal information will result in over-commitment exceeding the actual service capability, and the evaluation of user dissatisfaction will be obtained finally, thereby affecting the historical supply credit of the business and being unfavorable for the calculation of the commodity acquirability value; the live time of the search request may be time corresponding to the search request, including time of sending the search request or live time carried in the search request. For example: the seeker plans to send the child to an unfamiliar university in the city 10 days later, and since the seeker bought the round-trip ticket and only bought one afternoon, the seeker wanted to search for a store that knows that no quilt was sold near that afternoon, and if so, the seeker was only required to carry a quilt without carrying a bulky quilt, so that the live time of the search request was the afternoon 10 days later, i.e., the time period of the search request, and not the time period of the search. The live time of the search request may be within 2 hours after the default search time, or may be a time period selected by the searcher, and the merchant in the business hours in the live time is the merchant source with the acquirability calculation value different from 0. The reputation of the merchant may be calculated by the merchant management server 10 from the consumer evaluation information collected by the after-sales system server 07, for example: the consumer can be scored according to the satisfaction evaluation of the service, or the consumer can select the pre-divided grades for the shopping experience by dividing different grades, and the like, and the quantitative information is collected and different weight operations are carried out, so that the credit value of the merchant in the historical transaction is obtained. The rank evaluation of the merchant can also consider the sales volume of the merchant besides the user reputation and the standardized test level, wherein the sales volume can comprise the sales volume of the searched commodities, the sales volume and the total sales volume of the same kind of commodities, and different sales volumes can be distributed with different weights to participate in the calculation. For example: the searchers want to eat the noodles at midnight, a lot of merchants can obtain the noodles at ordinary times, at this time, even the merchants selling the noodles are next door, but no business time is covered when the business time passes, the acquirable calculation value of the noodles is 0, only sporadic restaurants or 24-hour restaurants far away from the searchers still operate at the moment, even in a listing state, or are about to operate in the actual time range of searching, so the acquirable calculation value of the shops is the highest, the finally obtained searching result is not the next door noodle shop of the searchers but several other restaurants or 24-hour noodle shops, which is the real meaning of the acquirable value in the actual time range, namely the acquirable degree of a certain commodity of the life circle in the actual time range; if the searcher is interested in the price, because a great number of users pay attention to the price at the same time in reality, the search engine can provide secondary price overlapping sequencing according to the requirements of the users on the basis of the acquirable degree sequencing, namely sequencing according to the acquirable degree and then sequencing according to the price in the same acquirable degree value range.

As shown in fig. 5, in the case where the user terminal has a positioning system, the geographic position may be automatically acquired by a global positioning device such as a Global Positioning System (GPS) or a beidou satellite navigation system (BDS) by default, or the geographic position may be directly anchored by an electronic map, or the address information may be manually input by the user, and in the case where the other user terminal does not have a positioning system, an address information list may be provided for the user to select, or the user may input the address information at the user terminal 01 by himself. There are two methods for the user to determine the live time period at the user terminal 01, one is to default the time period after the current search time of the user is later than a preset time (for example, two hours), and the other is to determine any time period to be searched at the user terminal 01 by the user. These pieces of information are necessary parameters for calculating the commodity availability, and are transmitted to the search engine server 02 together with other search criteria, as one of the necessary criteria for calculating, matching, and ranking the commodity availability in the live environment.

The consumer and the merchant of the live circle search engine and the transaction system can be distinguished by setting the authority of a common user and a senior user. For example, as shown in fig. 6, the permissions of the ordinary user and the advanced user are only an example in fig. 6, which shows that the ordinary user permission is different from the advanced user permission, but does not exhaust all user permissions, and the ordinary user permission and the advanced user permission may be set as needed. The consumer corresponds to the authority of the common user, and can have any multiple of the following authorities: searching, communicating (chatting), selecting different communication tools, starting a live reminding service, pushing commodity demand information to a specified merchant, and placing, modifying or withdrawing orders and other basic rights. The merchant corresponds to a high-level user authority and can have one or more of the following functions: the method includes the steps of releasing, editing and modifying product information of the user, putting goods on shelves and taking goods off shelves according to changes of goods inventory, providing information of shop listing business and business stopping, namely real-time service states of merchants, for consumers according to real-time changes of service capacity of the user, providing reaction time of the merchants, providing a distribution service range of going to the home or getting the customers, order accepting, confirming and executing states and the like. In an exemplary embodiment, the merchant may also have the authority of the ordinary user, i.e., the merchant may also have the ability to shop like the ordinary consumer. In an exemplary embodiment, the advanced users may be further subdivided into different levels, and the different levels of the advanced users determine different authority values, thereby determining different data types (e.g., text, voice, pictures, video, etc.) and data quantity sizes of the product information which can be distributed.

In an exemplary embodiment, the search engine server 02 of the life circle live search engine and transaction system may include a search preprocessing module 021, a time management module 022, a geocoding index module 023, a vertical database cluster 024, a matching module 025, a goods availability calculation module 026, an ordering module 027, a recommendation module 028, and a real-time reminder module 029, wherein the search preprocessing module 021 may include, but is not limited to, performing one or more of the following processes: a duplication removal function module, a classification function module, a word segmentation function module and an index function module, as shown in fig. 4. Vertical database clusters include, but are not limited to, storing one or more of the following information: the system comprises search keyword data, a commodity shelving state, a merchant reaction time length issuing state, and a merchant door-to-door service or distribution range and state.

The workflow of the live circle search engine and the search engine server 02 of the trading system for serving the search of the general user may include steps S111 to S115.

Step S111, the searcher inputs the query condition to be searched at the user terminal and sends the query condition to the search engine server 02;

the query conditions to be searched comprise search terms of target commodities to be searched. The query conditions may also include live information of the searcher, including, for example: seeker determined geographic location information and/or live time information; the seeker's live information can be used to determine the range of life circles to be searched.

Step S112, the search preprocessing module 021 extracts keywords after preprocessing such as duplicate removal, classification, word segmentation, indexing and the like on the query conditions (such as search words) according to the data dictionary table, and stores the search keywords in a vertical database cluster;

step S113, the matching module 025 matches the preprocessed search keywords and the live information of the searcher with the commodity index information stored in a full-time server database (database in a vertical database cluster), and acquires the matched commodity information;

for example, selecting the information of the goods matching the search keyword, and also providing the information of the merchant supplying the goods, such as one or more of the following information: information which influences the calculation of the commodity acquirability degree, such as a merchant user ID, a user terminal IP, a port number, a commodity supply address, a commodity shelf loading state, a merchant listing state, a merchant credit degree, a merchant grade and the like;

in step S114, the product acquirability degree calculation module 026 calculates and acquires parameter values of three aspects matching the search condition using the product information and the merchant information acquired from the matching module 025: the commodity display correlation degree, the market feedback degree (namely the feedback correlation degree) of the commodity and the merchant responsiveness (namely the reaction correlation degree) of the commodity, and the acquirability degree of the commodity is calculated on the basis; in this example, the acquirability includes a commodity display correlation, a feedback correlation, and a reaction correlation, and in other embodiments, the acquirability may include a display correlation and a reaction correlation. Or it is not excluded that only the reaction correlation may be included.

In step S115, the sorting module 027 sorts the merchants providing the commodities or the commodities provided by the merchants according to the commodity availability value, and then sends the sorted result, that is, a list of some merchants with higher commodity availability, to the user terminal 01 for display, as shown in fig. 8. Fig. 8 is only an example of presentation, and presentation may be performed in a list manner, in addition to presentation in a map manner.

In an exemplary embodiment, the life circle of the live search engine and transaction system may be a geographic range centered on the searcher address defined according to the number of businesses exhibited by the searched commodities on the search page, wherein the number of businesses exhibited on the search page may be a system default number or a searcher-defined number, and the searcher address may be a default searcher address when a search request is sent by the searcher, or may be another address alternative to the searcher, or may be a real-time searcher address. When searching, the search block is used as a unit to execute hierarchical search, wherein the search block is a search module which is formed by taking an address requested by a searcher as a center and calculating travel time (such as 10 minutes) according to the requested transportation means and road conditions under a selected live condition, the selected live condition can be the time when a default searcher sends a search request, or can be any time specified by the searcher, and the requested transportation means can be normal transportation means of the default searcher, such as walking or driving, or can be transportation means selected by the searcher; the first-level search block is the first-level travel time from the search address to the supply address of some merchants of the searcher executed firstly, and the larger the number of the series of the search blocks is, the later the execution sequence is. For example: after the first-level search block is executed, the obtained search results are sorted according to the commodity acquirability, the record number of the search results can be calculated, if the record number exceeds the record number displayed on the first page, the search can be stopped, and the geographic range of the search is a life circle taking the geographic position requested by a searcher as the center and the first-level travel time as the radius of the searched commodity; if the number of records is less than the number of records that can be displayed on the first page, that is, after the first-level search block is executed, the number of records of the search result is not enough to display the predetermined number (for example, the maximum number of displayed records) on the first page, the system can automatically execute the second-level search block, if the travel time of each-level search module is set to 10 minutes, the life circle of the second-level search block is the geographical range of the travel time with the radius of 20 minutes, the system can gradually start the third-level or higher-level search blocks as required, the search is stopped until the number of records of the search result exceeds the predetermined number of records displayed on the first page, and the search range with the maximum travel time for stopping the search as the radius is the life circle of the search. If the searcher clicks on the second page, more business entries are required, which means an increase in travel time, i.e., an increase in geographic scope, i.e., an increase in the defined circle of life. Fig. 8 is a schematic diagram of a search result display page at a user end according to an embodiment of the disclosure.

In an exemplary embodiment, the search scope of the live circle search engine and the transaction system is automatically expanded or reduced according to the number of returned results by the search, without the need of user input from the user terminal or manual definition, and the size of the search scope is centered on the commodity demand position of the user or the geographic position of the user. If the system defaults that 10 pieces of merchant information are displayed on each page, a user can set the number of the displayed merchant information pieces on each page, when the search result of the system meets the number of the page information pieces, the system considers that the search range is enough to meet the user requirement, and the search is automatically stopped; when the user clicks the next page without meeting the information amount of the first page, if the reserve amount of the previous search result is not enough to fill up the number of information pieces required to be displayed by the page requested by the user, the system can automatically execute the next level search block to expand the search range. Therefore, the size of the actual search range depends on the search request and the live of the user. For example, due to different business hours of merchants, the same amount of search results are required to be obtained and displayed, the search range is automatically narrowed because the number of merchants meeting the conditions is large in normal working time in the day, and the search range is automatically enlarged because the number of merchants closing the doors is large in the middle of the night; in the same business hours, the searching range of the common articles is correspondingly smaller due to the large number of operating merchants, and the searching range of the cold products which are not frequently used is correspondingly enlarged due to the fact that the number of operating merchants is relatively small and the same searching results are required to be displayed. FIG. 9 is a page illustration intent as seen by a searcher clicking on a merchant from a search results page in an embodiment of the disclosure.

In an exemplary embodiment, the workflow of the live circle search engine and transaction system for serving the commodity distribution of the senior user or the merchant by the search engine server may include: the basic information of the merchant and the commodity information operated by the merchant can be obtained by capturing the website information of the merchant by using a web crawler, performing standard formatting processing and extracting, and the information (the basic information of the merchant and the commodity information operated by the merchant) can be collected by a full-time server, stored in a vertical database cluster and stored in a distributed manner. Because the information from the website is often incomplete and lack of dynamic state, the website can only be used as basic information and cannot meet the rapidly changing live requirements, for example, when a certain commodity is suddenly broken, the commodity needs to be put off the shelf to avoid that the commodity cannot be supplied in time after placing an order and thus the consumer can report bad comment on the credit of a merchant, when a new commodity arrives at the commodity, the commodity needs to be put on the shelf in time to avoid the delay of sales, and the merchant can process the information at any time in a mobile terminal such as a mobile phone, such as business hours, listing states, merchant response time, distribution or home service ranges, even instant changes of contact ways and the like; the merchant who does not provide commodity information on the website can obtain the attention and query of consumers near a life circle by uploading and publishing the basic information of the commodities, the instant or sudden commodity supply of the merchant or advanced users needs the transaction of the consumers and other frequently occurring transaction situations in the life circle, and the information of listing and closing, distribution and self-fetching submitted by the merchant due to the real-time change of service capacity caused by the real-time change of hands needs to be collected, classified, sorted and stored in a full-time server database and a distributed network cluster by the search engine server 02 and the corresponding full-time server. The method is an important prerequisite for ensuring effective service of life circle live condition, such as editing, modifying and releasing commodities submitted by advanced users, and timely processing and storing information of putting on and off shelves, listing, distribution and the like. Fig. 10 is a schematic diagram of a commodity information processing page after a senior user clicks commodity release according to the embodiment of the disclosure. Fig. 11 is a page diagram after the advanced user clicks the product edit on the product information processing page according to the embodiment of the present disclosure. The real-time change information of the merchants and the commodities is collected in real time and preprocessed, and the real-time change information can be respectively delivered to full-time servers such as a merchant management server end 10 and a commodity management server end 11 for classification, arrangement and storage.

In an exemplary embodiment, the search engine server 02 of the live circle search engine and transaction system can intelligently pre-process the search condition input by the searcher, for example, the user searches for "cold and fever reducing medicine", and the content returned by the search is the supplier who operates various medicines with therapeutic effect on cold and fever. The function is realized by data mining on some common search categories, counting common search term categories, and setting a certain rule for association query.

In an exemplary embodiment, the recommendation algorithm in the recommendation module 28 of the search engine server side 02 of the live circle search engine and transaction system may be various, for example, matching products related to commodities searched by the user may be recommended, or products hot sold live in the live circle may be recommended, or the user's preference may be guessed and recommended by referring to the search records of the user.

In an exemplary embodiment, the time management module 022 of the search engine server 02 of the life circle live search engine and transaction system mainly divides time into time slices, updates the vertical database cluster and the full-time management server cluster (including the merchant management server 10, the goods management server 11, and the like) according to the time slices, and the time management module 022 can be configured to perform functions of setting a timer, synchronizing data, maintaining logs, and the like.

In an exemplary embodiment, the workflow of the real-time reminding module 029 in the search engine server side 02 of the live circle live search engine and transaction system for starting the live real-time reminding mode may be that a user (i.e. a searcher) clicks a button for starting the real-time reminding mode from a user terminal, and sets reminding conditions in the mode, where the reminding conditions include, but are not limited to, one or more of the following: the method includes inputting the required commodity, setting the travel time and setting or defaulting a threshold value of the commodity acquirability value, for example, the default commodity acquirability value is not 0 or selecting a grade of the commodity acquirability value of which one is greater than 0. In the alert mode, the user may enter query conditions including, but not limited to, one or more of the following: the method includes the steps of selecting a desired good, determining a travel time, and determining or defaulting a good acquirability threshold, such as a default good acquirability value other than 0, or selecting a range of values for which different grades of good acquirability values are greater than 0. After the operation is finished, the user clicks a starting instruction, the instruction and inquiry information input by the user are sent to the search engine server side 02, the preprocessed information is sent to the real-time reminding module 029 to start a real-time reminding mode, in the mode, the system (the real-time reminding module 029) automatically retrieves a merchant which operates the commodity and simultaneously meets the commodity acquirability value and the travel time under the condition of a new position in real time according to the change of position data caused by the movement of the user, namely, the system can calculate the commodity acquirability according to a set method on the one hand, on the other hand, the travel time of the merchant meeting the commodity acquirability can be calculated and predicted according to the real-time condition including the current transportation means and road traffic conditions of the user, the merchant can provide alarm reminding service once the merchant meeting the condition is found, and the inquiry result is fed back to the user terminal in a conventional or electronic map labeling mode. For example: when the shopping time of the user is limited and a certain commodity needs to be purchased in real time, for example, the user needs to purchase a detergent for clothes washing at home on the way of going to work, if the vehicle used by the user is an electric bicycle, the user only needs to input the needed commodity as the detergent at the user terminal 01 and sets the system as real-time reminding, the available time is 10 minutes, the real-time reminding module 029 starts a real-time reminding working mode according to the information uploaded by the user, and the system executes the following tasks in the mode: 1) Monitoring the change of the geographic position of the user in real time, and acquiring dynamic data of longitude and latitude of the user; 2) Starting a map path service: namely, the travel distance which can be reached by the user in 10 minutes is calculated at any time according to the speed of the user vehicle and the current road condition; 3) Starting a real-time search service: according to the calculated change of the travel distance, searching stores with the commodity availability reaching a certain threshold value in real time, namely searching merchants who are running the commodities such as detergent and do not melt within a distance range of 10 minutes; 4) Starting an alarm service: once the merchant is found to meet the search requirement, the system sends an alarm signal and returns the search result to the user terminal 01 of the searcher, wherein the search result comprises the name, the address, the telephone and other contact ways of the merchant for the user to make decisions. The information can be presented on the user end 01 in a traditional list mode or in a mode of direct marking of an electronic map.

In an exemplary embodiment, after the search engine server 02 of the life circle live search engine and transaction system returns the retrieved merchant information, such as the user ID, the IP of the user terminal, the port number, the contact way, the goods supply address, etc., to the user terminal of the searcher, the user terminal may not directly display the information, as shown in fig. 2, the searcher may see the name and/or the head portrait of the merchant, the goods information that the merchant manages or issues and contains the query conditions of the searcher, the merchant level, the goods supply address of the merchant, the contact way (including different communication tools, online chat buttons, etc.) from the UI interface, and the information may be presented in the form of hyperlinks, the consumer clicks the hyperlinks, and the system records the number of times that the hyperlinks are clicked, which may be used as the basis for collecting the corresponding fees for the merchant. If the searcher clicks the chat button associated with a certain merchant, the user terminal 01 of the searcher connects to the chat system server 03 according to the searched user ID of the merchant, the IP of the user terminal and the port number, and establishes an online session with the merchant. If the searcher clicks other communication tools such as telephone, weChat or QQ, etc., the communication tool management server 08 will designate the full-time server to process and connect the telephone of the business, or connect WeChat, or open QQ, or other communication channel preferred by the searcher, and establish direct conversation with the business according to the user's selection. Similarly, if the searcher clicks the address link of the merchant, the server 085 for the full-time map routing service will be started.

In the exemplary embodiment, the communication tool management server side 08 includes a communication tool management server 081, a cache server 082, a primary server 083, a backup server 084, and a communication tool full-time server cluster 085. Wherein the communication tool full-time server cluster 085 is configured to include one or more of the following functions: and (4) connecting the telephone, connecting the WeChat, opening the QQ and starting the map path server. Further, the communication tool full-time server cluster 085 may include full-time server clusters of other communication tools.

In an exemplary embodiment, the information interacted between the user terminal 01 of the live circle search engine and transaction system and the chat system server 03 and the communication tool management server 08 includes, but is not limited to, various formats such as text, pictures, maps, voice, video, and the like.

In the life circle live search engine and transaction system, the merchants retrieved by the searcher can perform secondary stacking ordering according to single factors such as commodity price, merchant distance, merchant reputation, whether to go to home or not or other factors of attention of consumers and the like on the premise of ordering the commodity availability.

The communication between the users of the live circle search engine and the transaction system (including the communication between the common users, the advanced users, or the communication between the common users and the advanced users) can be performed by using local custom or most convenient communication tools at will, such as online chatting, which can be one-to-one, one-to-many, or many-to-many discussion groups.

In an exemplary embodiment, the user terminal 01 of the live circle search engine and transaction system mainly includes: the system comprises a search transceiver module 011, a latitude and longitude determination module 012, a merchant information issuing module 013 and an order transceiver module 014, wherein the search transceiver module 011 mainly takes charge of one or more of the following: initiating a user search request, which comprises inputting search conditions, determining and uploading longitude and latitude of a geographic position of a searcher, determining and sending search live time, determining all operations in other common user permission ranges, including chatting and communication tools, initiating a real-time reminding mode, determining live time, determining life circle, editing and uploading orders, evaluating commodities or merchants and the like; the latitude and longitude determination module 012 is responsible for content including, but not limited to, one or more of the following: searching request or commodity supply geographic position or searcher longitude and latitude positioning, automatic acquisition of navigation tool (such as Beidou or GPS), address input of common user or merchant, address anchoring of user on map path service; the merchant information issuing module 013 is primarily responsible for content including, but not limited to, one or more of the following: advanced functions of an advanced user or merchant, including but not limited to, primarily one or more of: uploading commodity information, editing, releasing, putting on and off a shelf, determining the response time of a merchant, releasing and analyzing historical records, determining the condition of the merchant (such as listing/melting), determining the range of distribution or door-to-door service of the merchant, releasing by the merchant through a better communication tool in time and the like; the content for which order transceiver module 014 is primarily responsible includes, but is not limited to, one or more of the following: and processing the order, including editing and uploading the user order, confirming the order by a merchant to be received and processed, maintaining the order state, confirming the transaction, evaluating by an after-sale merchant, evaluating the commodity after sale and the like.

In an exemplary embodiment, the user management server 09 of the live circle search engine and transaction system includes, but is not limited to, one or more of the following modules: the system comprises a user registration management module, a user position maintenance module, a user evaluation management module, a user reputation management module, a user level management module and a user authority management module, wherein the user management server end also comprises a user information storage database cluster. The user registration management module is used for auditing, filtering and managing registration information sent by the user terminal according to a preset standard; the user position maintenance module is configured to maintain the position of the user and perform necessary real-time updating according to different requests of the user side; the user reputation management module is configured to evaluate the reputation of the user according to historical transaction behaviors; the user credit management module and the user evaluation management module can be combined; the user rating management module is configured to evaluate a weight that the user should enjoy as a consumer for the rating of the goods or merchants based on the historical rating records, and the factors measuring the confidence level of the consumer rating may include one or more of the following factors: the method comprises the following steps that scores of a plurality of merchants, poor scores or poor score rates generated by transaction disputes between the consumers and the merchants, the ratio of transaction times to evaluation times (the speaking weight of the consumers with more transactions and less evaluations can be higher than that of the consumers with less transactions and more evaluations), the grade of the consumers, the professional level, the contra-oral degree and the like are obtained by the consumers, the weights are set through evaluation, on one hand, the evaluators are expected to be evaluated randomly, and only the cautious and intermediate evaluations can win higher weights, and on the other hand, poor evaluation professional users and professional billing can be inhibited; the user level management module and the user authority management module can be combined, and can divide users into different levels according to the evaluation criteria of the established users, such as examination level, credit degree, transaction amount, service state and the like, so that the authorities with different levels are distributed according to the levels of the users, for example, a common user only has the authority to search and use different chat tools, and a senior user (such as a merchant) not only can search and chat, but also can issue commodity information. The authority values of the advanced users at different levels are different, and the data types (including text, voice, pictures and video, for example) and the data lengths and the data amounts of the information which can be distributed are different. The user information processed by these modules may be stored in a database cluster.

In an exemplary embodiment, the merchant management server 10 of the live circle search engine and transaction system may include one or more of the following modules: the system comprises a merchant information management module, a merchant credit management module, a merchant level management module, a merchant authority management module, a merchant response time management module, a merchant order management module, a merchant on-door service or distribution management module, a merchant business time management module and the like. The merchant information management module is configured to audit a registration request sent by the seller terminal according to a preset audit standard, process and respond to a login request and an operation instruction, and manage and transmit basic merchant information, wherein the basic merchant information may include a detailed commodity supply address, business hours, a real-time response state, a listing state, whether to serve or deliver, and the like. The merchant reputation management module is configured to perform a reputation evaluation of the merchant's performance in historical transactions and the user ratings. The merchant level management module is set to comprehensively evaluate according to the historical transaction times and sales volume of merchants, the credit of merchants and the like so as to judge the level of the merchants which should be enjoyed. The merchant authority management module, the merchant response time management module, the merchant order management module, the merchant on-site service or distribution management module and the merchant business time management module belong to full-time management modules, and the full-time management modules have the same functions and name contents and are not detailed one by one.

In an exemplary embodiment, the commodity management server 11 of the live circle search engine and transaction system is configured to respond to a commodity access request sent by a seller terminal, audit commodity information reported by the seller terminal according to a preset audit standard, process requests of the seller to issue, edit, put on shelf, put off shelf, and the like of the commodities, and store and maintain commodity information including a commodity name, a commodity barcode, and a commodity official name, description, price, and the like corresponding to the commodity barcode. Examples may include: the system comprises a commodity name management module, a commodity bar code management module, a commodity credit degree management module, a commodity information storage database cluster and the like. The commodity name management module is configured to store and maintain commodity names. The commodity bar code management module is set to store and maintain the commodity bar codes. The goods credibility management module is configured to store and modify goods credibility, and the goods credibility is a comprehensive evaluation and can include, but is not limited to, one or more of the following: whether the actual function or appearance of the good is consistent with that described, the quality and durability of the good, the brand effect of the good, etc. The commodity information management module can be set to respond to a commodity access request sent by the seller terminal, audit the commodity information reported by the seller terminal according to a preset audit standard, and process the request of the seller for issuing, editing, putting on shelf, putting off shelf and the like of the commodities. The commodity information storage database cluster module is arranged to store information processed by other modules.

In an exemplary embodiment, the chat system server 03 of the live circle search engine and transaction system includes, but is not limited to: switch 031, chat server cluster 032, chat management server 033, cache server 034, primary server 035, and backup server 036, among others.

In an exemplary embodiment, the work flow of the chat system server 03 of the live circle search engine and transaction system may be: when a user A inputs information to be searched from a user terminal 01, and obtains a user ID, a terminal IP, a port number and the like of a user B or a merchant from a search engine server side 02, the user A can select to click a chat button to carry out window direct chat, taking communication between the user A and the user B as an example, a chat system server side 03 can arrange a chat task to one server in a chat server cluster according to the information of the user terminal IP, the port number and the like of the user A and the user B to process, the server completes session building of the chat process of the user A and the user B, interactive data of the user A and the user B are temporarily stored on a cache server, and a chat record can be backed up to a backup server. The chat mode of the user A and the user B can be private chat or group chat, namely other people are allowed to join, if the user A initiates the group chat, the chat management server sends the request to the main server, the main server sends a broadcast packet to a user group which is provided by the user A and wants to carry out the group chat, and the user who receives the broadcast packet can join the group chat after sending a permission response. The server side of the chat system includes but is not limited to one or more of the following modules: the system comprises a switch, a chat server cluster, a chat management server, a cache server, a main server and a backup server.

In an exemplary embodiment, the communication tool management server 08 of the live circle search engine and transaction system includes a communication tool management server 081, a cache server 082, a main server 083, a backup server 084 and a communication tool full-time server cluster 085. The interaction between the user terminal 01 and the communication tool management server end 08 is selective instruction information, and the working process of the communication tool management server end 08 of the live circle search engine and transaction system is as follows: when the user a inputs information to be searched from the user terminal 01 and obtains information such as user ID, terminal IP, port number, communication tool information (e.g. telephone number, micro signal, qq number or other common communication tool number) or address of the user B (business) from the search engine server 02, the user a can select and click the favorite communication tool according to the information. The communication tool management server 08 arranges the communication tool command selected by the user to the full-time servers in the communication tool full-time server cluster 085 for processing according to the information of the user terminals IP, the port numbers and the like of the users a and B, and the full-time servers assigned with tasks complete the session establishment of the specified communication tool between the user a and the user B. If the user A clicks the address of the user B, the full-time map path server responds to the request of the user A, the map path service is started, and the construction of the map route planning requested by the user A is completed; if the user a selects a phone call, the user a can directly click the phone number of the user B, and the communication tool management server 081 connects the servers of the professional telephone service in the server cluster to connect the phone call of the user B according to the user request. If the user A clicks the WeChat of the user B, the communication tool management server is responsible for sending the request of the user A to a corresponding communication tool, namely a WeChat full-time server, the corresponding WeChat full-time server completes normal communication, the processing flows of other different communication tools can be analogized, and the communication can be completed under the assistance of other communication tool full-time servers.

In an exemplary embodiment, the chat system server 03 and the communication tool management server 08 of the live search engine and transaction system of the life circle are limited to different levels of authority control in the communication between the ordinary users and the advanced users or merchants of different levels, for example, the merchant initiates a broadcast, the chat management server 033 sends the request to the main server 035, and the main server 035 sends the broadcast packet to a range of target user groups in the life circle. Whether the user can transmit the broadcast packet, and the size, form (e.g., text, picture, voice, video, etc.), transmission range, etc. of the content information amount of the broadcast packet, will be given different rights according to the level of the user.

In an exemplary embodiment, the advanced user of the user terminal of the life circle live search engine and transaction system can not only search, browse, chat, collect, place orders and push commodity demand information to a designated merchant, but also immediately issue commodity information on sale and sale, edit the commodity information managed by the merchant, and change the information on listing service status of the merchant or the commodity (for example, the empty service status of a taxi or the state of disappearing and going to the public), the real-time commodity supply location (for example, a shared single car can be uploaded to the empty location by an internet of things chip in real time), whether the merchant provides distribution or sale service, and the like at any time, and can include immediately uploading recorded characters, recorded voice, photographed pictures, recorded videos and the like, such as freely uploading, leaving, editing, collecting and the like on a mobile device such as a mobile phone.

In an exemplary embodiment, in the live search engine and transaction system of life circle, a counter may be triggered by a broadcast packet sent by a merchant to a user, and a system operator may set a charging node to charge a corresponding fee according to the number of broadcast packets sent by the merchant.

In the exemplary embodiment, there may be two sources of the merchant and the merchandise information in the life circle live search engine and transaction system, one is the basic information edited and input from the merchant user end or captured by the web crawler stored in the search engine server side 02, the other is the propaganda and introduction information such as the text, audio image or video of the merchant website or each kind of space associated with the hyperlink, the merchant App or other application tools, etc., the consumer can place an order after necessary understanding of the searched merchant and merchandise information and determining to purchase the merchandise provided by a certain merchant, and the order is sent to the order system server side 05.

In an exemplary embodiment, the main functions of the order system server 05 of the live circle search engine and transaction system include processing order information interaction between a user and a merchant, and dividing the processing result into three order states for maintenance. Correspondingly, the order system server 05 may include: 1) The draft order module is used for processing draft orders, wherein the draft orders refer to orders which are not finished with actual payment when a user puts in a shopping cart and comprise online or offline payment in any form; 2) The formal order module is used for processing a formal order, wherein the formal order refers to an order which is determined to be purchased by a user and is subjected to actual payment, and can be online direct payment or offline payment in any form; 3) And the finished order module is used for processing a finished order, wherein the finished order refers to an order of finished goods delivery and payment, and comprises an order of finishing partial returned goods to realize payment and payment. The main work flow comprises the following steps: the user inputs the searched content as a commodity, the searched result is merchant information which operates the commodity within a specified life circle range and has higher commodity acquirability in a live state, the user communicates with the merchant by selecting different communication tools and grasps commodity supply and other more detailed conditions, if satisfied, the user can place an order, the order is sent to an order system server end 05, and the maintenance is carried out in three states: draft orders, official orders, and finalized orders. In the formal order state, the user may unsubscribe. The information of order confirmation, order withdrawal of the user, order confirmation of the merchant and the like is sent from the user terminal 01 to the order system server terminal 05, and the state setting of the order is changed. When the settlement payment system server 06 settles and pays the order, information is also sent from the settlement payment system server 06 to the order system server 05, changing the status setting of the user order. Different order states determine the evaluation authority and effectiveness of the user on the credibility of the commodity and the merchant. For example, a user of a draft order may be allowed to participate in the evaluation but the user's weight in calculating reputation is lowest, and the user's evaluation of a completed order, which is the second order of a formal order, has the highest reputation calculation weight.

In an exemplary embodiment, the settlement payment system server 06 of the live search engine and transaction system provides diversified payment methods, including an online bank transfer module, a credit card payment module, a wire transfer or unionpay payment module, a third party payment (such as WeChat, payment treasure, etc.) module, or other payment system (such as various payment methods of off-line cash or other transaction forms). Because the search results of the live search engine and the transaction system are ranked higher based on the availability of the commodities, especially the merchants who are in business in the live situation with close geographic positions (i.e. near the life circle), the online payment in multiple ways may be the more common payment way. Confirmation of the offline payment may eventually be automatically synchronized by the merchant when a receipt voucher or receipt is issued after receipt. The confirmation that the merchant completes payment is beneficial to accumulating and promoting the transaction amount, thereby being beneficial to calculating the commodity acquirability and promoting the merchant level, and the more the transaction amount is, the more the merchant level is promoted.

In an exemplary embodiment, all published information should have commodity transaction attributes no matter the authority of advanced users of the live circle search engine and transaction system, for example, no matter advertisements, interesting activities or services and the like should be packaged into commodities which can be traded, such as tickets, coupons and the like.

In an exemplary embodiment, in the live circle search engine and the transaction system, the query condition input by the user may be signed as a key value < key, value > data pair, and stored in the network node of the distributed storage network 04, where the key value is a result of the query condition being subjected to a signature operation, and the value is the query condition.

In an exemplary embodiment, the search engine server 02 of the live circle search engine and transaction system decomposes the search condition of the searcher into keywords after search preprocessing, performs signature operation on each keyword, calculates an obtained key value, and stores each pair of < key, value > values in the network nodes of the distributed storage network 04.

In an exemplary embodiment, in the live life circle search engine and the transaction system, commodity information issued by a merchant may be signed as a key value < key, value > data pair, which is used as search keyword index data and stored in the network nodes of the vertical database cluster 024 and the distributed storage network 04, wherein the key value is a result obtained by signature operation on the merchant commodity and is mainly responsible for identifying the merchant commodity, and the value is text information of the commodity and is mainly used for describing important information of the commodity. The signature calculation of the commodity information issued by the merchant is the same as the signature operation of the query condition input by the user.

In an exemplary embodiment, the live circle search engine and the transaction system adopt the distributed storage network 04, so that a server cluster required by the server side 02 of the search engine for backing up data is saved, and cost is saved. The adoption of the distributed storage scheme also creates conditions for edge calculation, and when the workload of central calculation is too large to bear, when the data exchange is too large to exceed the upper limit of 5G network speed, and when the reliable connection with the central server is caused by accident, the edge calculation can be adopted.

The live search engine and the transaction system of the life circle based on the commodity acquirability, which are provided by the embodiment of the disclosure, can comprise a user terminal, a search engine system server terminal, a user management server terminal, a merchant management server terminal, a commodity management server terminal, an exchange tool management server terminal, an order system server terminal, a payment settlement system server terminal, an after-sale system server terminal and a distributed storage network. The user inputs commodity information from the terminal, the information is sent to the server end of the search engine system, and the server analyzes and calculates the acquirability of the commodity according to the data information sent by the user and stored by the user and presents search results according to the acquirability of the commodity as a sequencing basis. The commodity information includes the supplier or merchant of the commodity, the conventional external business time of the merchant, the home service/distribution range, the service response time, the historical supply credit, the geographical position of the commodity supply, the commodity position required by the user, the default or designated transportation means or delivery mode of the user, the live time of the search request and the delivery time calculated according to the traffic condition under the live time, such as the road condition, and the like. Based on the information, the search engine server analyzes and calculates the acquirability of the searched commodities and important information related to the commodities, wherein the important information can comprise any one or more of the following: the information of the name, the ID, the contact way, the common communication tool, the commodity supply address, the commodity content, the main characteristics and the like of the merchant. The server returns some merchant lists with highest commodity availability in live environment to the user search end after sorting according to the commodity availability, after the user browses the information, the most intentioned merchant can be selected to communicate with the merchant according to the favorite mode, such as telephone, weChat, QQ or chat window, and the communication is realized by connecting with the communication tool management server end, and the user can decide whether to directly place an order or select online payment or offline payment according to the communication condition or satisfaction with the merchant; if the order is the order of online payment, the order is handed to a payment settlement system server for settlement payment, and after the user confirms the receipt, the service of the commodity or the merchant can be evaluated according to the shopping experience and the satisfaction degree of the commodity, so that data of commodity score and merchant historical supply credit evaluation are accumulated at the after-sale system server; if the payment is offline, the user can directly click the commodity supply address of the merchant, and the communication tool management server processes the interaction with the map path service provider such as servers of a Baidu map, a Google map and the like, so that the map path service is provided at the client; all the related information is transmitted to a distributed network for backup storage while being interacted; the user may also initiate a live real-time reminder mode, such as: the system can continuously search merchants meeting the set commodity conditions at a new position and/or a new live time according to the default or set commodity acquirability critical value and delivery duration and the real-time moving condition of the user, and provide reminding alarm service once found.

Due to the adoption of the concept and the structure of commodity acquirability, the system provides unprecedented shopping and high-efficiency transaction experience for consumers and merchants in live life circle, and improves life quality of the life circle. It also creates the necessary conditions for timely enablement of edge calculations. After the user inputs the information or query conditions of the commodity to be searched at the user terminal, the searched result is the merchants providing the commodity with the maximum reliability (commodity acquirability) in a certain life circle, the information of the commodity issued by the merchants, and the information of the merchants and related products recommended according to the search conditions or consumption habits, the user can exchange with the merchants by clicking the online chat button, telephone or other timely communication tools of interested merchants, if the online chat button, telephone or other timely communication tools are satisfied, the user can place the order and can select online payment or offline payment, if online payment is selected, the order is handed to the settlement payment system server end 06 for settlement payment, the sold commodity and merchant are evaluated by the user through the sold system server end 07, if online payment is selected, the user can pay the order by adopting any offline payment mode, the confirmation of the online payment of the order is completed by the merchant through issuing a receipt or the customer is requested by the merchant to complete order, and the user can receive the commodity and merchant for evaluation and can be used as the basis for evaluation of the commodity and merchant by the system. The live search and shopping mode of the life circle has strong timeliness, is convenient for the communication and interaction between the consumer and the merchant, reduces the time cost of the consumer for selecting the commodity to visit the store, also reduces the advertisement investment of the merchant, and simultaneously provides convenience for the merchant to provide more comprehensive and timely service for the consumer in the life circle, such as delivery to the home, on-site guidance correct use method and the like.

In conclusion, the embodiment of the disclosure can help consumers to accurately and quickly acquire the required goods or services in real life, thereby directly helping to solve the problems encountered in real life.

It should be noted that since the commodities described in the present disclosure are broad, i.e., besides physical articles in general, all services having tradable attributes, intellectual property, intangible assets, methods, concepts, etc. solving problems in any particular field may be included, as long as all of the existence of trade behaviors is included in the commodities defined in the present disclosure. Thus, even if the implementation case is only for the implementation of certain specific goods of a certain industry, it should not be considered as a limitation of the protection scope of the present disclosure. The main significance of the present disclosure lies in proposing the acquirability of a commodity in the live of a life circle, that is, the most convenient and most likely acquirable assessment of a specific commodity under certain time, place and ecological conditions, and any method for measuring the degree of easy acquirability of a commodity in a certain practical condition, regardless of which factors are actually used for the assessments, belongs to the concept of the commodity acquirability, and therefore, all examples implemented by using all search engines for ranking the acquirability of live commodities without departing from the concept of the commodity acquirability of the present disclosure are considered as the protection scope of the present disclosure.

An exemplary embodiment of the present disclosure also provides a computer storage medium having computer-executable instructions stored thereon; the computer-executable instructions, when executed, enable the methods, e.g., the ranking methods or the trading methods, provided by one or more of the foregoing exemplary embodiments. Including 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. Computer storage media includes, but is not limited to, RAM, ROM, EEPROM, flash memory or other memory technology, CD-ROM, digital Versatile Disks (DVD) or other optical disk storage, magnetic cassettes, magnetic tape, magnetic disk storage or other magnetic storage devices, or any other medium which can be used to store the desired information and which can accessed by a computer.

An exemplary embodiment of the present disclosure also provides a computer apparatus (or computer device). The computer device may include a processor, a memory, and a computer program stored on the memory and executable on the processor, which when executed by the processor may implement the ranking method or the transaction method of the present disclosure. The structure of the above-described computer apparatus is explained below by way of an example.

As shown in fig. 14, in one example, a computer device may include: a processor 101, a memory 102, a bus system 103 and a transceiver 104, wherein the processor 101, the memory 102 and the transceiver 104 are connected via the bus system 103, the memory 10 is used for storing instructions, and the processor 101 is used for executing the instructions stored in the memory 102 to control the transceiver 104 to transmit signals.

It should be understood that the processor 101 may be a Central Processing Unit (CPU), and that the processor 101 may be other general-purpose processor, a Digital Signal Processor (DSP), an Application Specific Integrated Circuit (ASIC), an off-the-shelf programmable gate array (FPGA) or other programmable logic device, discrete gate or transistor logic, discrete hardware components, etc. A general purpose processor may be a microprocessor or the processor may be any conventional processor or the like.

Memory 102 may include both read-only memory and random access memory and provides instructions and data to processor 101. A portion of the memory 102 may also include non-volatile random access memory. For example, the memory 102 may also store device type information.

The bus system 103 may include a power bus, a control bus, a status signal bus, and the like, in addition to the data bus. For clarity of illustration, however, all buses are labeled as bus system 103 in fig. 14.

In implementation, the processing performed by the computer device may be performed by instructions in the form of hardware, integrated logic circuits, or software in the processor 101. That is, the steps of the method disclosed in the embodiments of the present disclosure may be implemented by a hardware processor, or implemented by a combination of hardware and software modules in a processor. The software modules may be located in storage media such as ram, flash, rom, prom, or eprom, registers, etc. The storage medium is located in the memory 102, and the processor 101 reads the information in the memory 102 and completes the steps of the method in combination with the hardware thereof. To avoid repetition, it is not described in detail here.

It will be understood by those of ordinary skill in the art that all or some of the steps of the methods, systems, functional modules/units in the devices disclosed above may be implemented as software, firmware, hardware, and suitable combinations thereof. In a hardware implementation, the division between functional modules/units mentioned in the above description does not necessarily correspond to the division of physical components; for example, one physical component may have multiple functions, or one function or step may be performed by one or more physical components in cooperation. Some or all of the components may be implemented as software executed by a processor, such as a digital signal processor or microprocessor, or as hardware, or as an integrated circuit, such as an application specific integrated circuit. Such software may be distributed on computer readable media, which may include computer storage media (or non-transitory media) and communication media (or transitory media). The term computer storage media includes 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, as is well known to those of ordinary skill in the art. Computer storage media includes, but is not limited to, RAM, ROM, EEPROM, flash memory or other memory technology, CD-ROM, digital Versatile Disks (DVD) or other optical disk storage, magnetic cassettes, magnetic tape, magnetic disk storage or other magnetic storage devices, or any other medium which can be used to store the desired information and which can accessed by a computer. In addition, communication media typically embodies computer readable instructions, data structures, program modules or other data in a modulated data signal such as a carrier wave or other transport mechanism and includes any information delivery media as is well known to those skilled in the art.

The foregoing shows and describes the principles and features of the present application, together with the advantages thereof. The present application is not limited to the above-mentioned embodiments, and the above-mentioned embodiments and the description only illustrate the principle of the present application, and those skilled in the art should understand that the technical solutions of the embodiments of the present application can be modified or substituted equivalently, and that these changes and modifications should be covered by the scope of the claims of the present application without departing from the spirit and scope of the present application.

Claims (15)

1. A method of sorting, comprising:

   acquiring search terms of a target commodity to be searched and life circle range parameters to be searched;

   searching a supplier providing target commodities in a life circle range determined according to life circle range parameters to be searched, calculating the acquirability of each target commodity, wherein the acquirability is calculated and obtained according to the total relevancy and the reaction relevancy of the target commodities, the total relevancy comprises presentation relevancy, the presentation relevancy is used for reflecting the matching similarity between search words of the target commodities to be searched and key words of the target commodities provided by the supplier, and the reaction relevancy is used for reflecting the speed of the searcher obtaining the target commodities provided by the supplier;

   and sequencing all target commodities or suppliers providing the target commodities according to the acquirability.
2. The ranking method according to claim 1, wherein the reaction relevance is calculated from one or more of the following parameters: business hours of the supplier, hang-up status, service response duration, goods delivery method, delivery or home service range, search live time, goods status, stock quantity, geographical location of goods provided by the supplier, geographical location of the searcher's request, transportation, road conditions, credibility of the supplier, and supplier rank.
3. The sorting method according to claim 1 or 2, the method further comprising:

   when the search terms of the target commodity to be searched and the life circle range parameters to be searched are obtained, the live time of the search is obtained;

   when searching for a supplier providing a target commodity, searching for the supplier providing the target commodity in a live time range of the search and a life circle range determined according to the life circle range parameter to be searched.
4. The sorting method according to claim 1 or 3, wherein the searching for a supplier providing a target commodity within the life circle comprises:

   the life circle range comprises a multi-level search block, when searching for a supplier providing target commodities, the supplier providing the target commodities is searched according to a first-level search block, and when the number of the suppliers is less than a preset value, the supplier providing the target commodities is searched according to a second-level search block;

   wherein the preset values are one or more; when the preset values are multiple, according to the quantity requirement of each different preset value, starting different quantities of second search blocks, and continuously adding the levels of the search blocks for searching to meet the requirement of the preset values.
5. The ranking method according to claim 1 or 3 or 4, the method further comprising: updating the life circle range to be searched, searching suppliers providing target commodities in the updated life circle range, recalculating the acquirability of each target commodity, and sequencing all the target commodities or the suppliers providing the target commodities according to the recalculated acquirability.
6. The ranking method according to claim 1 or 2, the method further comprising: entering a real-time reminding working mode in response to an instruction for starting the real-time reminding mode sent by a searcher;

   the life circle range parameter to be searched is the travel time set by a searcher;

   the step of searching suppliers providing target commodities in a life circle range determined according to the life circle range parameter to be searched and calculating the acquirability of each target commodity comprises the following steps:

   the method comprises the steps of monitoring the geographic position of a searcher in real time, determining a life circle range in real time according to the moving speed of the searcher and the travel time set by the searcher, searching suppliers providing target commodities in the life circle range determined in real time, calculating the acquirability of each target commodity, and sending a prompt to the searcher when the suppliers meeting the prompt conditions set by the searcher are screened out.
7. The sorting method according to claim 1, 3, 4, 5 or 6, after said sorting all target commodities or suppliers providing the target commodities according to the acquirability, further comprising: and sorting the target commodities with the same acquirability or the suppliers providing the target commodities with the same acquirability according to second factors, wherein the second factors comprise price, distance, supplier credit, supplier level or whether to go to the gate.
8. The sorting method according to claim 1, 3, 4, 5 or 6, after said sorting all target commodities or suppliers providing the target commodities according to the acquirability, further comprising: the searcher is provided with communication tools of the supplier of the target goods and/or a map path service.
9. The sorting method according to claim 1,

   the commodity includes any one of: goods, objects, services, methods, patterns, information, intellectual property, intangible assets, and concepts.
10. The sorting method according to claim 1,

    the life circle is a geographical range which is determined by taking the geographical position requested by the searcher as a center and according to the preset number of suppliers capable of providing the target commodities to be searched; or the life circle refers to a geographical range which is determined according to preset travel time by taking the geographical position requested by the searcher as a center;

    the geographic position requested by the searcher comprises the geographic position of the searcher sending the search request, or the geographic position specified by the searcher, or the real-time geographic position of the searcher.
11. The sorting method according to claim 10, wherein,

    when the life circle refers to a geographical range determined according to preset travel time by taking the geographical position requested by the searcher as a center, the life circle range comprises a multi-level search block, and the multi-level search block comprises: when the first-stage search block and the second-stage search block are used, the preset travel time of different-stage search blocks is different, and the preset travel time of the first-stage search block is smaller than that of the second-stage search block.
12. A method of trading, comprising:

    receiving a search request sent by a searcher, and sorting and displaying suppliers by adopting a sorting method according to any one of claims 1-11;

    receiving a searcher-initiated transaction with a vendor in the ranking; the transaction comprises an online transaction or an offline transaction.
13. The transaction method according to claim 12, the method further comprising: recording one or more of the following information: the number of times that a supplier providing a target commodity is ranked and displayed, the number of times that the supplier information link and start communication tool service and map path service of the supplier are clicked, the supplier order volume, and the number of times that the searcher starts a real-time reminding mode.
14. A computer arrangement comprising a processor and a memory storing a computer program operable on the processor, wherein the steps of the ordering method of any one of claims 1-11 or the transaction method of any one of claims 12-13 are implemented when the program is executed by the processor.
15. A computer-readable storage medium storing computer-executable instructions for performing the method of ordering of any one of claims 1-11 or the method of trading of any one of claims 12-13.

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