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Publication numberUS20100106706 A1
Publication typeApplication
Application numberUS 12/653,926
Publication dateApr 29, 2010
Filing dateDec 17, 2009
Priority dateMay 22, 2000
Also published asCA2409642A1, CA2409642C, CN1430751A, CN1430751B, DE10196212T0, DE10196212T1, DE60141904D1, EP1297453A1, EP1297453A4, EP1297453B1, US6876997, US7657555, US20050240557, WO2001090947A1
Publication number12653926, 653926, US 2010/0106706 A1, US 2010/106706 A1, US 20100106706 A1, US 20100106706A1, US 2010106706 A1, US 2010106706A1, US-A1-20100106706, US-A1-2010106706, US2010/0106706A1, US2010/106706A1, US20100106706 A1, US20100106706A1, US2010106706 A1, US2010106706A1
InventorsPhillip G. Rorex, Thomas A. Soulanille, Bradley R. Haugaard
Original AssigneeYahoo! Inc.
Export CitationBiBTeX, EndNote, RefMan
External Links: USPTO, USPTO Assignment, Espacenet
Method and apparatus for identifying related searches in a database search system
US 20100106706 A1
Abstract
A method of generating a search result list also provides related searches for use by a searcher. Search listings which generate a match with a search request submitted by the searcher are identified in a pay-for-placement database which includes a plurality of search listings. Related search listings contained in a related search database generated from the pay-for-placement database are identified as relevant to the search request. A search result list is returned to the searcher including the identified search listings and one or more of the identified search listings.
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Claims(13)
1. A data processing method for a related searches database for a database search system which includes a search database storing information about a plurality of web pages searchable by a search engine, the method comprising:
at the database search system, accessing the search database and retrieving from the search database textual information from the plurality of web pages about which information is stored in the search database;
at the database search system, omitting from the retrieved textual information textual information from web pages which are determined to be similar among the plurality of web pages to produce search listing data;
at the database search system, indexing the retrieved textual information and the search listing data to create an inverted index; and
at the database search system, storing the inverted index in the related searches database at the database search system.
2. The data processing method of claim 1 wherein indexing comprises:
at the database search system, arranging data as a plurality of rows in the related searches database, each row of the plurality of rows including a key word along with all text from the search database associated with the keyword.
3. The data processing method of claim 2 further comprising:
receiving a search request at the database search system from a remotely located user device;
at a search engine web server of the database search system, locating in the search database information matching the search request;
at a related searches web server of the database search system, using the key word to identify matching related search listings in the related searches database,
combining the located information from the search database and the matching related search listings in a search results web page; and
communicating the search results web page from the database search system to the remotely located user device.
4. The data processing method of claim 1 wherein the search database stores a plurality of search listings, the method further comprising:
creating one or more additional indexes using key information associated with respective search listings of the stored plurality of search listings; and
storing the one or more additional indexes in the related searches database.
5. The data processing method of claim 4 wherein creating the one or more additional indexes comprises forming an index based on an advertiser identification associated with the respective search listings or a derived theme associated with the respective search listings.
6. The data processing method of claim 1 wherein the search database stores a plurality of search listings and wherein omitting textual information from web pages which are determined to be similar comprises:
at the database search system, retrieving from the search database uniform resource locators (URLs) included in the plurality of search listings;
at the database search system, eliminating duplicate URLs from the retrieved URLs to create a set of non-duplicate URLs; and
at the database search system, retrieving textual information stored at web pages identified by URLs of the set of non-duplicate URLs.
7. The data processing method of claim 1 wherein the search database stores a plurality of search listings and wherein omitting textual information from web pages determined to be similar comprises:
using the search database, forming a list of uniform resource locators (URLs) associated with interne web sites to be accessed;
removing duplicate URLs from the list;
if a URL on the list is similar to another URL on the list, crawling a predetermined number of potentially duplicate URLs;
comparing bodies of the other URLs on the list and the potentially duplicate URLs;
if the body of the other URLs on the list is similar to the body of the potentially duplicate URLs,
suspending crawling of the potentially duplicate URLs, and
storing the body of the URL on the list in the related searches database for subsequent search.
8. The data processing method of claim 7 further comprising:
comparing a selected URL with other URLs on the list; and
determining the URL is similar to the other URL on the list when the URL has a predetermined text portion in common with the other URL on the list.
9. The method of claim 7 wherein comparing bodies of the URL on the list and the potentially duplicate URLs comprises:
comparing text from the URL on the list and text from one potentially duplicate URL; and
determining the URL on the list is similar to the one potentially duplicate URL when the text from the URL on the list and the text from the one potentially duplicate URL have a predetermined text portion in common.
10. An apparatus for identifying related searches in a database search system, the apparatus comprising:
a search database storing an ordered collection of search listing records, each search listing record including at least a uniform resource locator (URL) of an associated web page or document and descriptive text;
a search engine web server in data communication with the search database;
a related searches database storing an inverted index for searching, the inverted index including a plurality of rows of data, each row including a keyword and text from the search database associated with the keyword, the index formed from all text on web pages identified by a URL in the search listing records of the search database after omitting text from similar web pages; and
a related searches web server in data communication with the related searches database;
wherein the related searches web server responds to a search query received from a remote device at the database search system by searching the related searches database to provide suggested, related searches to the remote device.
11. The apparatus of claim 10 wherein the inverted index stored in the related searches database comprises substantially all text on web pages having non-duplicate URLs of associated web pages.
12. A method for identifying related searches in a database search system, the method comprising:
at the database search system, retrieving from storage in a search database of the database search system a plurality of search listings which are used to generate search results in response to a search query from a remote device, each search listing including a Uniform Resource Locator (URL) of an associated web page or document and textual information;
using the URL, retrieving textual information at the database search system from the associated web page or document for the plurality of search listings;
at the database search system, determining if any web pages or documents associated with search listings in the search database are similar;
at the database search system, omitting textual information from web pages or documents determined to be similar;
at the database search system, indexing the plurality of search listings and the retrieved textual information from non-similar web pages and documents to form an index;
storing the index in a related searches database of the database search system;
in response to a received search query, searching the index for entries matching the received search query; and
proving a list of related search results to the remote device including at least some of the matching entries.
13. The method of claim 12 wherein omitting the textual information comprises:
forming a list of URLs in the plurality of search listings in the search database; and
at the database search system, deleting duplicate URLs from the list to create a list of non-duplicate URLs; and
at the database search system, retrieving the textual information only from web pages or documents associated with URLs on the list of non-duplicate URIs.
Description
RELATED APPLICATIONS

The present patent document is a continuation of application Ser. No. 11/092,182, filed Mar. 29, 2005, pending, which is a continuation of application Ser. No. 09/575,894, filed May 22, 2000, now U.S. Pat. No. 6,876,997, which applications are hereby incorporated in its entirety herein by this reference.

COPYRIGHT NOTICE

A portion of the disclosure of this patent document contains material which is subject to copyright protection. The copyright owner has no objection to the facsimile reproduction by anyone of the patent document or the patent disclosure, as it appears in the Patent and Trademark Office patent file or records, but otherwise reserves all copyright rights whatsoever.

REFERENCE TO APPENDIX ON CD ROM

A computer program listing appendix is included containing computer program code listings on a CD-Rom pursuant to 37 C.F.R.1.52(e) and is hereby incorporated by reference in its entirety. The total number of compact discs is 1 (two duplicate copies are filed herewith). Each compact disc includes a single file entitled Source Code Appendix, which is 58,304 bytes in size and was created on Jul. 7, 2005. The creation date of the compact disc is Dec. 17, 2009.

BACKGROUND

The present invention relates generally to a method and system for generating a search result list, for example, using an Internet-based search engine. More particularly, the present invention relates to a method and system for generating search results from a pay for performance database and generating a list of related searches from a related search database.

Search engines are commonly used to search the information available on computer networks such as the World Wide Web to enable users to locate information of interest that is stored within the network. To use a search engine, a user or searcher typically enters one or more search terms that the search engine uses to generate a listing of information, such as web pages, that the searcher is then able to access and utilize. The information resulting from the search is commonly identified as a result of an association that is established between the information and one or more of the search terms entered by the user. Different search engines use different techniques to associate information with search terms and to identify related information. These search engines also use different techniques to provide the identified information to the user. Accordingly, the likelihood of information being found as a result of a search varies depending upon the search engine used to perform the search.

This uncertainty is of particular concern to web page operators that make information available on the World Wide Web. In this setting, there are often several web page operators or advertisers that are competing for the same group of potential views or customers. Accordingly, a web page's ability to be identified as the result of a search is often important to the success of a web page. Therefore, web page operators often seek to increase the likelihood that their web page will be seen as the result of a search.

One type of search engine that provides web page operators with a more predictable method of being seen as the result of a search is a “pay for performance” arrangement where web pages are displayed based at least in part upon a monetary sum that the advertiser or web page operator has agreed to pay to the search engine operator. The web page operator agrees to pay an amount of money, commonly referred to as the bid amount, in exchange for a particular position in a set of search results that is generated in response to a user's input of a search term. A higher bid amount will result in a more prominent placement in a set of search results. Thus, a web page operator may attempt to place high bids on one or more search terms to increase the likelihood that their web page will be seen as a result of a search for that term. However, there are many similar search terms, and it is difficult for a web page operator to bid on every potentially relevant search term. Likewise, it is unlikely that a bid will be made on every search term. Accordingly, a search engine operator may not receive any revenue from searches performed using certain search terms for which there are no bids.

In addition, because the number of existing web pages is ever increasing, it is becoming more difficult for a user to find relevant search results. The difficulty of obtaining relevant search results is further increased because of the search engine's dependency on the search terms entered by the user. The search results that a user receives are directly dependent upon the search terms that the user enters. The entry of one search term may not result in relevant search results, while the entry of only a slightly different search term can result in relevant search results. Accordingly, the selection of search terms is often an important part of the search process. It would be of benefit to both the searcher and the advertisers to recommend related searches for the searcher to provide to the search engine. However, current search engines do not enable a search engine operator to provide related search terms, such as those that will produce relevant search results, to a user. A system that overcomes these deficiencies is needed.

SUMMARY

By way of introduction only, in accordance with one embodiment of the invention, a search request is received from a searcher and used to perform a search on a pay for performance database. In the pay for performance database there are stored search listings including web page locators and bid amounts to be paid by the operator of the listed web page. The search using the pay for performance database produces search results which are presented to the searcher. The search request is also used to perform a search on a related search database. The related search database has been formed at least in part using contents of the pay for performance database. The search of the related search database produces a list of related searches which are presented to the searcher.

In accordance with a second embodiment, a related search database is created using a pay for performance database. All text from all web pages referenced by the pay for performance database is stored and used to create an inverted index. Additional indexes are used to improve the relevancy and spread of related search results obtained using the database.

The foregoing discussion of illustrative embodiments of the invention has been provided only by way of introduction. Nothing in this section should be taken as a limitation on the following claims, which define the scope of the invention.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a block diagram illustrating a database search system in conjunction with a computer network;

FIG. 2 is a flow diagram illustrating a method for operating the database search system of FIG. 1;

FIG. 3 is a flow diagram illustrating a method for operating the database search system of FIG. 1;

FIG. 4 is a flow diagram illustrating in more detail a portion of the method shown in FIG. 2;

FIG. 5 is a flow diagram illustrating in more detail a portion of the method shown in FIG. 2;

FIG. 6 is a flow diagram illustrating a method for forming a related searches database; and

FIG. 7 is a flow diagram illustrating a method for removing similar page information from a database.

DETAILED DESCRIPTION OF THE PRESENTLY PREFERRED EMBODIMENTS

Referring now to the drawing, FIG. 1 is a block diagram of a database search system 100 shown in conjunction with a computer network 102.

The database search system 100 includes a pay for performance database 104, a related searches database 106, a search engine web server 108, a related searches web server 110 and a search engine web page 114. The servers 104, 106, 108 may be accessed over the network 102 by an advertiser web server 120 or a client computer 122.

The network 102 in the illustrated embodiment is the Internet and provides data communication according to appropriate standards, such as Internet Protocol. In other embodiments, other network systems may be used alone or in conjunction with the Internet. Communication in the network 102 is preferably according to Internet Protocol or similar data communication standard. Other data communications standards may be used as well to ensure reliable communication of data.

The database search system 100 is configured as part of a client and server architecture. In the context of a computer network such as the Internet, a client is a process such as a program, task or application that requests a service which is provided by another process such as a program, task or application that requests a service which is provided by another process, known as a server program. The client process uses the requested service without having to know any working details about the other server program or the server itself. In networked systems, a client process usually runs on a computer that accesses shared network resources provided by another computer running a corresponding server process. A server is typically a remote computer system that is accessible over a communications medium such as a network. The server acts as an information provider for a computer network. Thus, the system 100 operates as a server for access by the clients such as client computer 122 and the advertiser web server 120.

The client computers 122 can be conventional personal computers, workstations or computer systems of any size. Each client computer 112 typically includes one or more processors, memory, input and output devices and a network interface such as a modem. The advertiser web server 120, the search engine web server 108, the related searches web server 110 and the account management web server 112 can be similarly configured. However, the advertiser web server 120, the search engine web server 108, the related searches web server 110 and the account management web server 112 may each include many computers connected by a separate private network.

The client computer 112 executes a World Wide Web (“web”) browser program 124. Examples of such a program are Navigator, available from Netscape Communications Corporation and Internet Explorer, available from Microsoft Corporation. The browser program 124 is used by a user to enter addresses of specific web pages to be retrieved. These addresses are referred to as Uniform Resource Locators (URLs). In addition, once a page has been retrieved, the browser program 124 can provide access to other pages or records when the user clicks on hyperlinks to other web pages contained in the web page. Such hyperlinks provide an automated way for the user to enter the URL of another page and to retrieve that page. The pages can be data records including as content plain textual information or more complex digitally encoded multimedia content such as software programs, graphics, audio data, video data and so forth.

Client computers 122 communicate through the network 102 with various network information providers. These information providers include the advertiser web server 120, the account management server 112, the search engine server 108, and the related searches web server 110. Preferably, communication functionality is provided by HyperText Transfer Protocol (HTTP), although other communication protocols such as FTP, SNMP, Telnet and a number of other protocols known in the art may be used. Preferably, search engine server 108, related searches server 110 and account management server 112, along with advertiser servers 120 are located on the worldwide web. U.S. patent application Ser. No. 09/322,627, filed May 29, 1999 and entitled “System and Method for Influencing a Position on a Search Result List Generated by a Computer Network Search Engine,” and U.S. patent application Ser. No. 09/494,818, filed Jan. 31, 2000 and entitled “Method and System for Generating a Set of Search Terms,” are commonly assigned to the assignee of the present application and are incorporated herein by reference. These applications disclose additional aspects of search engine systems.

The account management web server 112 in the illustrated embodiment includes a computer storage medium such as a disc system and a processing system. A database is stored on the storage medium and contains advertiser account information. Conventional browser programs 124, running on client computers 122, may be used to access advertiser account information stored on the account management server 112.

The search engine web server 108 permits network users, upon navigating to the search engine web server URL or sites on other web servers capable of submitting queries to the search engine web server 108 through a browser program 124, to type keyword queries to identify pages of interest among the millions of pages available on web pages. In one embodiment of the present invention, the search engine web server 108 generates a search result list that includes, at least in part, relevant entries obtained from and formatted by the results of the bidding process conducted by the account management server 112. The search engine web server 108 generates a list of HyperText links to documents that contain information relevant to search terms entered by the user at a client computer 122. The search engine web server transmits this list, in the form of a web page 114 to the network user, where it is displayed on the browser 124 running on the client computer 122. One embodiment of the search engine web server may be found by navigating to the web page at URL http://www.goto.com/.

Search engine web server 108 is connected to the network 102. In one embodiment of the present invention, search engine web server 108 includes a pay for performance database including a plurality of search listings. The database 104 contains and ordered collection of search listing records used to generate search results in response to user queries. Each search listing record contains the URL of an associated web page or document, a title, descriptive text and a bid amount. In addition, search engine web server 108 may also be connected to the account management server 112. The account management server 112 may also be connected to the network 102.

In addition, in the illustrated embodiment of FIG. 1, the database system 100 further includes a related searches web server 110 and an associated related searches database 106. The related searches web server 110 and data base 106 operate to provide suggested, related searches for presentation to a searcher along with search results in response to his query. Users conducting searches for information using a search engine web server such as the server 108 often perform searches which are inappropriately focused as compared to the index data of the web site search engine. Users may use search terms which are either to vague and generalized, such a “music,” or too specific and focused, such as “hot jazz from New Orleans during the early 1950s.” Some users require assistance to refine their query to better obtain useful information from the search engine. The related searches web server 110 provides the user with query suggestions better suited to the abilities of the pay for performance database 104.

In the illustrated embodiment, the pay for performance database 104 is established in conjunction with advertisers who operate web servers such as advertiser web server 120. Advertiser web pages 121 are displayed on the advertiser web server 120. An advertiser or web site promoter may, through an account residing on the account management server 112, participate in a competitive bidding process with other advertisers. An advertiser may bid on any number of search terms relevant to the content of the advertiser's web site.

The bids submitted by the web site promoters are used to control presentation of search results to a searcher using client computer 122. Higher bids receive more advantageous placement on a search result list generated by the search engine web server 108 when a search using the search term bid on by the advertiser is executed. In one embodiment, the amount bid by an advertiser comprises a money amount that is deducted from the account of the advertiser each time the advertiser web site is accessed via a hyperlink on the search result list page. A searcher clicks on the hyperlink with a computer input device such as a mouse to initiate a retrieval request to retrieve the information associated with the advertiser's hyperlink. Preferably, each access or click on a search result list hyperlink is redirected to the search engine web server 108 to associate the click with the account identifier for an advertiser. This redirection action, which is not apparent to the searcher, will access account information coded into the search result page before accessing the advertiser's URL using the search result list hyperlink clicked on by the searcher. In the illustrated embodiment, the advertiser's web site description and hyperlink on the search result list page is accompanied by an indication that the advertiser's listing is a paid listing. Each paid listing displays an amount corresponding to a price per click paid by the advertiser for each of referral to the advertiser site through this search result list.

The searcher may click on HyperText links associated with each listing in that search result page to access the corresponding web pages. The HyperText links may access web pages anywhere on the Internet, and include paid listings to advertiser web pages 121 located on the advertiser web server 120. In one embodiment of the present invention, the search result list also includes non-paid listings that are not priced as a result of advertiser's bids and are generated by a conventional search engine, such as the Inktomi, Lycos, or Yahoo! search engines. The non-paid HyperText links may also include links manually indexed into the pay for performance database 104 by an editorial team. Preferably, the non-paid listings follow the paid advertiser listings on the search results page.

Related searches web server 110 receives the search request from the searcher at client computer 122 as entered using the search engine web page 114. In the related searches database 106, which includes related search listings generated from the pay for performance database 104, the related searches web server 110 identifies related search listings relevant to the search request. In conjunction with the search engine web server 108, the related searches web server 110 returns a search result list to the searcher including the identified search listings located in the pay for performance database and one or more identified related search listings located in the related searches database 106. Operation of the related searches web server 110 in conjunction with the related searches database 106 will be described below in conjunction with FIGS. 2-5. The formation of the related searches database 106 will be described below in conjunction with FIG. 6.

FIG. 2 is a flow diagram illustrating a method for operating the database search system 100 of FIG. 1. The method begins at block 200. Java source code for implementing the method of FIG. 2 and other method steps described herein is included as an appendix.

At block 202, a search request is received. The search request may be received in any suitable manner. It is envisioned that a search request will originate with a searcher using a client computer to access the search engine web page of the database system implementing the method illustrated in FIG. 2. A search request may be typed in as input text in a hyperlink click to initiate the search request and search process.

After block 202, two parallel processes are initiated. At block 204, the search engine web server of the database search system identifies matching search listings in the pay for performance database of the system. In addition, the search engine web server may further identify non-paid search listings.

Similarly, at block 206, a related searches web server initiates a search to identify matching related search listings in the related search database. By matching search listings, it is meant that the respective search engine identifies search listings contained in the respective database which generate a match with the search request. A match may be generated if an exact, letter for letter textual match occurs between a bid on keyword and a search term. In other embodiments, a match may be generated if a bidded keyword has a predetermined relationship with a search term. For example, the predetermined relationship may include matching the root of a word which has been stripped of suffixes; in a multiple word query, matching several but not all of the words; or locating the multiple words of the query with a predetermined number of words of proximity.

After the search results have been located, the search results from the pay for performance database are combined with search results from the related search database, block 208. At block 210, a search result list is returned to the searcher, for example by displaying identified search listings on the search engine web page and conveying the web page data over the network to the client computer. The search results and related search results may be displayed in any convenient fashion.

An example of a search result list display used in one embodiment of the present invention is shown in FIG. 3, which is a display of the first several entries resulting from the search for the term “CD burners.” The exemplary display of FIG. 3 shows a portion of a search result list including a plurality of entries 310 a, 310 b, 310 c, 310 d, 310 e, 310 f, 310 g, 310 h, 310 i, a listing 312 of other search categories and a related searches listing 314.

As shown in FIG. 3, a single entry, such as entry 310 a in the search result list consists of a description 320 of the web site, preferably comprising a title and a short textual description, and a hyperlink 330 which, when clicked by a searcher, directs the searcher browser to the URL where the described web site is located. The URL 340 may also be displayed in the search result list entry 310 a, as shown in FIG. 3. The “click through” of a search result item occurs when the remote searcher viewing the search result item display 310 of FIG. 3 selects or clicks on the hyperlink 330 of the search result item display 310.

Search result list entries 310 a-310 h may also show the rank value 360 a, 360 b, 360 c, 360 d, 360 e, 360 f, 360 g, 360 h, 360 i of the advertisers' search listing. The rank value 360 a-360 i is an ordinal value, preferably a number, generated and assigned to the search listing by the processing system of the search engine web server. Preferably, the rank value 360 a-360 i is assigned in a process, implemented in software, that establishes an association between the bid amount, the rank, and the search term of a search listing. The process gathers all search listings that match a particular search term, sorts the search listings in order from highest to lowest bid amount, and assigns a rank value to each search listing in order. The highest bid amount receives the highest rank value, the next highest bid amount receives the next highest rank value, proceeding to the lowest bid amount, which receives the lowest rank value. The correlation between rank value and bid amount is illustrated in FIG. 3, where each of the paid search list entries 310 a-310 h display the advertiser's bid amount 350 a, 350 b, 350 c, 350 d, 350 e, 350 f, 350 g, 350 h, 350 i for that entry. If two search listings having the same search term also have the same bid amount, the bid that was received earlier in time will be assigned the higher rank of value.

The search result list of FIG. 3 does not include unpaid listings. In the preferred embodiment, unpaid listings do not display a bid amount and are displayed following the lowest ranked paid listing. Unpaid listings are generated by a search engine utilizing object distributed database and text searching algorithms as known in the art. An example of such a search engine is the search engine operated by Inktomi Corporation. The original search query entered by the remote searcher is used to generate unpaid listings through the conventional search engine.

The listing 312 of other search categories shows other possible categories for searching that may be related to the searcher's input search term 316. The other search categories are selected for display by identifying a group such as computer hardware containing the input search term 316. Categories within the group are then displayed as hyperlinks which may be clicked through by the searcher for additional searches. This enhances the user's convenience in cases where the user's input search did not turn up suitable search results.

The related searches listing 314 displays six entries 318 of related searches determined using the related searches database as described herein. In other embodiments, other numbers of related search entries may be show. In addition, a link 320 labeled “more” allows the user to display additional related search entries. In the illustrated embodiment, the displayed entries 318 are the top six most relevant and most bidded-on terms in the related searches database.

Referring now to FIG. 4, the act of identifying matching related search listings in a related search database (act 206, FIG. 2) in one embodiment comprises the following acts. At block 400, an inverted index containing all data from all web pages contained in the pay for performance database of the database search system is searched. The inverted index is stored in the related searches database. In an inverted index, a single index entry is used to reference many database records. Searching for multiple matches per index entry is generally faster when using inverted indexes, since each index entry may reference many database records. The inverted index lists the words which can be searched in, for example, alphabetical order and accompanying each word are pointers which identify the particular documents which contain the word as well as the locations within each document at which the word occurs. To perform a search, instead of searching through the documents in word order, the computer locates the pointers for the particular words identified in a search query and processes them. The computer identifies the documents which have the required order and proximity relationship for the search query terms.

At block 402, meta-information is also searched for the received search term. Meta-information is abstracted, once-removed information about the collected data itself and forms a description of the data. Meta-information is derived information and relational information. Meta-information for a listing describes the relation of the listing to other listings, and meta-information for a listing describes the relation of the advertisers sponsoring a listing to other advertisers.

Meta-information is obtained using a script of command to analyze the pay for performance data base and determine information and relationships present in the data. The meta-information is collected for each row of data in the database and attached to that row. In one embodiment, the script is run one time as a batch process after the data is collected in the database. In other embodiments, the script is periodically re-run to update the meta-information.

Meta-information about the web pages and key words contained in the pay for performance database includes information such as the frequency of occurrence of similar key words among different web site domains and the number of different key words associated with a single web site. The meta-information may further include fielded advertiser data which is the information contained in each search listing provided by web site promoters who have bid upon search terms in the pay for performance database; advertiser identification information; web site themes, such as gambling or adult content; and derived themes. Preferably, the meta-information is combined in a common inverted index with the stored web page data searched at block 400.

The result of the searches of block 400 and block 402 is a listing of rows of the inverted index or indexes containing the searched information. Each row contains the information associated with a search listing of the pay for performance database along with all the text of the web page associated with the search listing. In the illustrated embodiment, the search listing includes the advertiser's search terms, the URL of the web page, a title and descriptive text.

At block 404, the returned related search results are sorted by relevancy. Any suitable sorting routine may be used. A preferred process of sorting the search results by relevancy, block 404, is illustrated in greater detail in FIG. 5.

At block 406, the six most relevant related search results are selected. It is to be noted that any suitable number of search results may be provided. The choice of providing six related searches as suggestions to a searcher is arbitrary. After block 406, control proceeds at block 208, FIG. 2.

FIG. 5 is a flow diagram illustrating a method for sorting by relevancy search results obtained from a related searches database, corresponding to block 404 of FIG. 4. In the embodiment illustrated in FIG. 5, a relevancy value is maintained for each returned listing. The relevancy value is adjusted according to specific relevancy factors, some of which are defined in FIG. 5. Other relevancy factors may be used as well. After adjusting the relevancy value, a final sorting occurs and the highest valued listings are returned.

At block 500, the relevancy value for individual records located during the search (block 400, block 402, FIG. 4) are increased according to the frequency of occurrence of a queried search term in each respective record. For example, if the queried search term occurs frequently in the text associated with the search listing, the relevancy of that listing is increased. If the queried search term occurs rarely or not at all in the listing, the relevancy value of that list is not increased or is decreased.

At block 502, it is determined if there are multiple search terms in the search queries submitted by the searcher. If not, control proceeds to block 506. If there are multiple search terms, at block 504, the relevancy of individual search results is increased according to proximity of the searched terms in a located record. Thus, if two search terms are immediately proximate, the relevancy score value for the record may be substantially increased, suggesting that the identified search listing is highly relevant to the search query submitted by the searcher. On the other hand, if the two search terms occur, for example, in the same sentence but not in close proximity, the relevancy of the record may be slightly increased to indicate the lesser relevancy suggested by the reduced proximity of the search terms.

At block 506, it is determined if the located record contains a bidded search term. Search terms are bidded on by advertisers, the bids being used for display of search results by the search engine web server using the pay for performance database. If the search result does include a bidded-on search term, the relevancy of the record is adjusted, block 508. If the query does not include one or more bidded on search terms, control proceeds to block 510.

At block 510, it is determined if there are search terms in the description of the search listing. As illustrated in FIG. 3, each such listing includes a textural description of the contents of the web site associated with the search listing. If the search terms are not included in the description, control proceeds to block 514. If the search terms are included in the description, at block 512, the relevancy of the located record is adjusted accordingly.

At block 514, it is determined if the search terms are located in the title of the search listing. As illustrated in FIG. 3, each search listing includes a title 360. If the search terms are included in the title of a record, the relevancy of the record is adjusted accordingly, block 516. If the search terms are not included in the title, control proceeds to block 518.

At block 518, it is determined if the search terms are included in the metatags of the search listing. Metatags are textual information included in a web site which is not displayed for user use. However, the search listing contained in the pay-for-placement database includes the metatags for searching and other purposes. If, at block 518, the search terms are not included in the search listing, control proceeds to block 522. On the other hand, if the search terms are included in one or more metatags of the search listing, at block 520 the relevancy of the record is adjusted accordingly.

At block 522 it is determined if the user's search terms are included in the text of the bidded web page. If not, control proceeds to block 406, FIG. 4. However, if the search terms are included in the web page text, at block 524 the relevancy of the search listing record is adjusted accordingly.

Following the steps illustrated in FIG. 5, one or more and preferably six most relevant related search listings are returned and presented to the searcher along with the search results from the pay-for-placement database.

FIG. 6 illustrates a method for forming a related searches database for use in the database search system of FIG. 1. The method begins at block 600.

At block 602, all text for all web pages in the pay-for-placement database is fetched. This includes metatags and other non-displayed textual information contained in the web page referenced by a URL contained in the pay for performance database. At block 604, text from similar pages is omitted. This reduces the amount of data which must be processed to form the related searches database. One embodiment of a method for performing this act will be described below in conjunction with FIG. 7. In addition, this greatly increases the speed at which the related searches database may be produced. At block 606, the text is stored in the related searches database.

At block 608, an inverted index is created, indexing the search listing data stored at block 606 along with the text fetched at block 602. The resulting inverted index includes a plurality of rows of data, each row including a key word along with all text from the database associated with that key word.

One illustrative example of a configuration for the contents of the related search database follows. Each row of the database includes the following elements:

canon_cnt integer # Number of different search listings bidded
on this related result
advertiser_cnt integer # Number of different advertisers bidding on
this related result
related_result varchar(50) # related result (bidded search term),
canonicalized and depluralized
raw_search_text varchar(50) # original raw bidded search term
advertiser_ids varchar(4096) # explicit list of all advertisers bidding on this
related result
words varchar(65536+) # full text of all web pages crawled,
including hand-coded descriptions
theme varchar(50)
directory_taxonomy varchar(200)

The count canon_cnt differs from the count advertiser cnt because many different web pages in the same domain could be bidded against the same bidded search term, or many different advertisers may bid on only 1 search term. Special themed keys are embedded into the database with ‘flags’ inserted in the advertiser_cnt field. If ‘advertiser_cnt ==999999999’, the query being presented is an adult-oriented query. In this implementation, an optional enhancement is to disable related results in this case. The counts canon_cnt and advertiser_cnt are the current derived-data fields. Additional fields such as theme and directory_taxonomy_category can optionally be added to give even more enhanced relevance to related results matches, though they are not used in the illustrated embodiment.

In one embodiment, the inverted index which is queried against to obtain the related results is created with the following Java command:

SQL>Create metamorph inverted index mm_index02 on line_ad02(words);

This is the vendor-specific method (using the Texis relational database management system provide by Thunderstone-EPI, Inc.) for creating a free-text search index (mm_index02) on a document (here contained in a database column (words) which will be searched (from RelatedSearcherCore.java) by the Texis Thunderstone SQL command:

“SELECT”
+ “$rank, ”    //Num getRow( ) arg position 0
+ “canon_cnt, ”   //Int getRow( ) arg position 1
+ “raw_search_text, ”  //Stri getRow( ) arg position 2
+ “cannon_search_text, ”   //Stri getRow( ) arg position 3
+ “advertiser_ids, ”  //Stri getRow( ) arg position 4
+ “advertiser_cnt ”  //Int getRow( ) arg position 5
+ “FROM line_ad02 ”
+ “WHERE words ”
+ “LIKEP $query ORDER BY 1 desc, advertiser_cnt desc;”;

The $rank is a vendor-supplied virtual data field which programmatically contains the “relevancy” of the search result, based on the frequency of occurrence of the queried phrase ($query) in the “words” field, the proximity of the queried phrase elements to each other within the indexed words field, and the word order (if >1 query phrase word) as compared to the ordering of words within the “words” field.

The “rank” is vendor-specific, and derived by various differing algorithms by different Free Text Search Engine suppliers, though is similar enough in practice that any vendor's Free Text Search Engine works to implement the Related Searches Functionality.

The “ORDER BY 1 desc[ending], advertiser_cnt desc[ending]” controls ranking the results of the query by relevance primarily (field “1”==$rank), and secondarily by the derived field “advertiser_cnt”, which is the count of advertisers bidding on this particular related_search_result. Thus, “relevance” is the primary selection criteria, and “popularity” is the secondary selection criteria.

At block 610, additional indexes are created and stored with the inverted index created at block 608. The additional indexes are created using key information associated with each search listing. The key information includes, for example, fielded advertiser data such as an advertiser's identification and derived themes such as gambling and so forth. The method then ends at block 612.

FIG. 7 is a flow diagram illustrating a method for removing similar page information from a database. The method in the illustrated implementation follows performance of act 602 of FIG. 6.

At block 702, the pay for performance database (also referred to as a bidded search listing data base) is examined for URL data and all URLs are extracted from the database and formed into a list. The list is sorted and any exact duplicates are removed, block 704

At block 706, a URL in the list is selected and it is determined if the selected URL bears similarity to a preceding URL in the list. Similarity may be determined by any suitable method, such as a number of identical characters or fields within the URL or a percentage of identical characters, or a common root or string or field.

At block 708, if the selected URL is similar to the preceding URL, the selected URL is added to a list of candidate duplicate URLs. At block 710, a predetermined number of each potentially duplicate URL are crawled. In the illustrated embodiment, the predetermined number is the first two potentially duplicate URLs. Crawling is preferably accomplished using a program code referred to as a crawler. A crawler is a program that visits Web sites and reads their pages and other information. Such programs are will known and are also known as a “spiders” or “bots.” Entire sites or specific pages can be selectively visited and indexed by a crawler. In alternative embodiments, subsets of each site referenced by a URL, rather than an entire site, may be crawled and compared for similarity.

At block 712, the data returned by the crawler is examined. The data may be referred to as the body of the URL and includes data from the site identified by the URL and all accessible pages of the site. It is determined if the data including text and other information contained in the body of the URL is sufficiently similar to the data contained in the body of the previous URL. Again, similarity may be determined by any suitable method, such as a statistical comparison of the textual content of each page. If there is sufficient similarity, control proceeds to block 714 and it is assumed that the URL is the same as the previous URL. The body of text and other information is assigned to the rest of the similar URLs.

If, at block 706, it was determined that the selected URL was not similar to the preceding URL, or if at block 712 it was determined that the body of the URL was not similar enough to the body of the previous URL, control proceeds to block 718. At block 718, the URL is added to a list of URLs to be crawled. At block 720, all URLs on the list are crawled to retrieve and store information contained at the sites indicated by each URL.

At block 716, the information from each crawled URL is loaded into the related searches database (also referred to as the free text database). The information is joined with search listing data already included in the related searches database. Thus, the method steps illustrated in FIG. 7 reduce the total amount of data contained in the related searches database by reducing the number of URLs that are crawled and stored. Duplicate URLs are eliminated from the process and near-duplicate URLs are checked for similarity of content. The result is reduced storage requirements for the resulting database and faster, more efficient searching on the database. This enhances user convenience by improving performance.

From the foregoing, it can be seen that the present invention provides an improved method and apparatus for producing related searches for presentation to a searcher searching in a pay for performance database. Related searches are performed in a related searches database which has been formed using the pay for performance database. The search results from the related searcher's database are ordered by relevancy for presentation to the user. Thus, if a user's initial search was too narrow or too broad, the user has available related searches which may be used to produce more usable results. In addition, the related searches have been produced using search listings referenced by bidded search terms. This provides a benefit to advertisers who pay for advertising in the database search system. This increases the likelihood that an advertiser's web site will be visited by a searcher using the database system.

While a particular embodiment of the present invention has been shown and described, modifications may be made. It is therefore intended in the appended claims to cover all such changes and modifications which fall within the true spirit and scope of the invention.

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Classifications
U.S. Classification707/709, 707/E17.108, 707/706, 707/E17.11, 707/742
International ClassificationG06Q50/00, G06Q10/00, G06F17/30
Cooperative ClassificationY10S707/99933, Y10S707/99943, Y10S707/99942, G06Q40/04, G06Q30/0275, G06F17/30864, G06Q30/0277
European ClassificationG06Q40/04, G06Q30/0275, G06Q30/0277, G06F17/30W1