CROSS-REFERENCES TO RELATED APPLICATIONS

This application claims priority from the following applications, the entire disclosures of which are herein incorporated by reference for all purposes:

(1) U.S. Provisional Patent Application No. 60/206,190, entitled “SYSTEM AND METHOD FOR PROVIDING INFORMATION TO USERS IN A NETWORK ENVIRONMENT WITHOUT COMPROMISING USER PRIVACY” filed May 22, 2000; and

(2) U.S. Provisional Patent Application No. 60/205,938, entitled “SYSTEM AND METHOD FOR CREATING VIRTUAL COMMUNITIES WHILE PRESERVING THE PRIVACY OF USERS IN THE VIRTUAL COMMUNITY” filed May 18, 2000.

The present application also incorporates herein by reference for all purposes the entire disclosures of the following applications which are filed concurrently with this application:

(1) U.S. patent application Ser. No. 09/861,082 (currently pending), entitled “TECHNIQUES FOR IDENTIFYING VIRTUAL USER GROUPS IN A NETWORK ENVIRONMENT WITHOUT COMPROMISING USER PRIVACY”;

(2) U.S. patent application Ser. No. 09/861,471 (currently pending), entitled “TECHNIQUES FOR JOINING VIRTUAL USER GROUPS IN A NETWORK ENVIRONMENT AND RECEIVING INFORMATION RELATED TO THE VIRTUAL USER GROUPS WITHOUT COMPROMISING USER PRIVACY”; and

(3) U.S. patent application Ser. No. 09/861,094 (currently pending), entitled “TECHNIQUES FOR SHARING CONTENT INFORMATION WITH MEMBERS OF A VIRTUAL USER GROUP IN A NETWORK ENVIRONMENT WITHOUT COMPROMISING USER PRIVACY”.

BACKGROUND OF THE INVENTION

The present invention relates generally to identifying and accessing information stored by communication and information networks. More particularly, the present invention describes techniques for identifying and accessing information of interest to a use while preserving the privacy of the user.

With the widespread use of computers, an expanding telecommunication network, and the rising popularity of communication networks such as the Internet, an increasing amount of information is contained in documents stored by computer systems coupled to the communication networks. Users can access these documents by using computer systems coupled to the communication networks. For example, a user can browse the Internet and access web pages stored by servers coupled to the Internet.

Computer systems connected to communication networks such as the Internet can generally be classified as “clients” or “servers” depending on the role the computer systems play with respect to requesting information or storing/providing information. Computers systems which are used by users to access information are typically called “client” computers. Computer systems which store information and provide the information to client computers are usually referred to as “server” systems. Accordingly, server systems are responsible for receiving information requests from client systems, performing processing required to satisfy the requests, and for forwarding the results/information corresponding to the information requests back to the requesting client systems. The processing required to satisfy the client request may be performed by a single server system or may alternatively be delegated to other servers connected to the communication network, such as the Internet. It should be apparent that a particular computer system may function both as a server and a client.

In the World Wide Web (“Web”) environment, information resources are typically stored in the form of hypertext documents called “web pages” which can be accessed and read by users of the Web. A web page may incorporate any combination of text, graphics, audio and video content, software programs, and other data. Web pages may also contain hypertext links to other web pages. Web pages are typically stored on web servers or content servers coupled to the Internet. Each web page is uniquely identified by an address called a Uniform Resource Locator (URL) that enables users to access the web page.

Users typically access web pages using a program called a “web browser” which generally executes on a client computer coupled to the Internet. The web browser is a type of client application that enables users to select, retrieve, and perceive information contained in web pages. Examples of browsers include the Internet Explorer browser program provided by Microsoft Corporation, the Netscape Navigator browser provided by Netscape Corporation, and others. Users generally access web pages by providing URL information to the browser, either directly or indirectly, and the browser responds by retrieving the web page corresponding to the user-provided URL from the Internet. The retrieved web page is then displayed to the requesting user on the client computer.

Due to the vast volume of information available via communication networks such as the Internet, it is becoming increasingly difficult for a user to identify documents which contain information of interest to the user or documents which are relevant to the user. For example, in a Web environment, a user may be interested in locating web pages containing information on a particular topic, e.g., Thai cooking. In a Web environment, the user may locate the relevant web pages by accessing one or more web servers, and browsing through web pages stored by the one or more web servers to identify web pages containing information related to Thai cooking. However, searching for web pages in this manner is a non-trivial task because the user does not typically know which web servers store information of interest to the user. Further, since each web server may store a vast number of web pages, in order to find web pages containing information of interest to the user (e.g., web pages containing information related to Thai cooking), the user is often forced to sift through large volumes of information and web pages, most of which are irrelevant to the user. As a result, the task of identifying relevant web pages can be very time consuming and frustrating to the user, and may not yield the results desired by the user.

In order to alleviate the above problem, most users generally use programs which help identify relevant documents from a large pool of documents. These programs are commonly referred to as search engines and are generally executed by servers coupled to the communication network. Examples of search engines in the Internet environment include search engines provided by Yahoo, Google, Lycos, Excite, Altavista, and the like which enable users to identify web pages of interest to the user.

Search engines typically use a crawler or a spider to find information about documents stored by the communication network which are accessible to the search engine and which can be located and searched using the search engine. For example, in a Web environment, a crawler may access web pages and URL links to other web pages embedded in the web pages, and so on. For each web page accessed by the crawler, the crawler discovers information about the web page including the URL of the web page, the contents of the web page, the web server storing the web page, and the like. The information collected by a crawler is usually stored by the server providing the search engine in the form of an index.

An index built by a search engine generally facilitates identification of documents based on criteria related to the documents or their contents. The criteria may include words occurring in the documents, concepts or topics to which the documents relate, subject matter of the documents, and the like. The structure of an index may vary based on the search engine. For example, in a Web environment, a particular search engine may prepare an index mapping words found in a plurality of web pages to the URLs corresponding to the web pages. In another index, the information may be indexed based on titles, headings, subheadings, etc. found in the web pages, or based upon concepts and topics extracted from the web pages contents, and so on. In general, indices are built in a way that facilitates the identification of the documents and/or locations of the documents. In a Web environment, the locations of documents may be identified by URLs corresponding to the web pages.

A search engine also provides a search tool which allows users to identify documents of interest using information stored in the index generated by the search engine. In order to identify documents of interest, a user generally configures a query using a client computer. The query may contain query terms which describe, for example, a topic or concept for which the user is interested in finding more information. For example, if the user is interested in finding information on Thai cooking, the query terms may include the words “Thai” and “cooking.”

The user-configured query is then communicated from the user's client computer to a remote server system executing a search engine. Upon receiving the search query, the search engine executing on the remote server identifies documents (or locations of the documents) which match or satisfy the user query based upon information stored in the index used by the search engine. The search engine may use various techniques to determine documents which are relevant to the search query received from the user's client system. Information identifying the relevant documents or their locations determined by the search engine is then communicated from the search engine server to the user's client computer. The user may then use the information received from the search engine to access one or more of the relevant documents.

Some search engines also perform searches implicitly without receiving specific user input based on the contents of documents (e.g., web pages) viewed by the user. These search engines use the contents of the document being browsed/viewed by the user as a search query which is communicated from the user computer to the search engine server. Based on the contents of the document being viewed by the user and based upon index information used by the search engine, the search engine identifies documents of interest to the user. Information related to the documents identified by the search engine is then communicated to the user system. The information may then be presented to the user via a pop-up screen which appears on an output device of the user's computer system. For example, in a Web environment, a window may appear on the user's display device listing URLs corresponding to documents identified by the search engine to be of interest to the user based on the contents of the documents presently viewed by the user. Examples of companies which provide such implicit search engines include Nano (http://www.nano.com/), Kenjin (http://www.autonomy.com), Third Voice (http://www.thirdvoice.com/), Flyswat (http://www.flyswat.com), Gurunet (http://www.gurunet.com), Annotate (http://www.annotate.net/) and Alexa (http://www.alexa.com/).

In a Web environment, the relevant documents may be web pages which may be identified by URLs. Accordingly, the search engine may communicate a list of URLs of interest to the user to the user's client system in response to the user query. The user may then select one or more URLs from the list of URLs and access web pages corresponding to the selected URLs. When the user selects a URL, the URL request is sent to a web server storing the web page corresponding to the URL, and the web server responds by communicating the requested web page to the user's client computer system. The server executing the search engine may act as a conduit forwarding the selected web page received from the web server to the user client computer system.

While conventional search engines simplify the process of identifying documents containing information of interest to a user, they also compromise the user's privacy. This is because conventional search engine servers frequently track and/or mine the user's browsing activities and track information provided by the user to the search engine. For example, several conventional search engines mine, without the user's permission, information contained in user search queries (which may contain information of a sensitive and private nature) provided to the search engines. Several conventional search engines also track the contents of documents (e.g. web pages) accessed by the user using the search engine. For example, in a Web environment, conventional search engines track the web pages accessed by the user, the content of the web pages, transactions performed by the user using the web pages, and other like information without the user's permission.

The information mined or tracked by conventional search engines is then used to ascertain information about the user's interests, likes/dislikes, the user's shopping preferences, information related to the user's use of the Internet, and other information related to the user and the user's behavior. Since users generally have a tendency to use a particular search engine to perform searching, over a period of time, the particular search engine is capable of building a pretty detailed profile of the user and the user's behavior.

The user information collected by the search engines and the user profile information built by the search engines, which may be sensitive in nature and contain confidential information, may then be distributed or even sold by providers of search engines to entities such as advertising agencies, government agencies, insurance companies, business entities, and the like. This may result in the user being subjected to unsolicited Spam mail messages, unwelcome advertisements, credit card fraud, mail fraud, banking fraud, and other unwelcome activities. As a result, the use of a conventional search engine executing on a remote server can severely compromise a user's privacy and security. Further, since the information collected by the search engines is typically stored on a server system which is located at a remote location from the user's computer system, the user has very little control on the collection and dissemination of the information.

In light of the above, there is a need for techniques which allow a user to identify and access documents of interest to the user (e.g., web pages in a Web environment) without compromising the user's privacy and security.

SUMMARY OF THE INVENTION

According to the present invention techniques are provided which allow a user to identify and access documents (e.g., web pages) of interest to the user in a network environment without compromising the user's privacy. More particularly, according to an embodiment of the present invention, the user system receives index information which is used to identify documents of interest to the user at the user system itself without having to have to provide any user-related information to search engines executing on remote servers. The present invention preserves user privacy by controlling and minimizing the communication and collection of user-related information from user system. Merely by way of example, the present invention allows users to identify and access web pages from web servers coupled to a communication network such as the Internet without compromising user privacy.

According to an embodiment of the present invention, techniques are provided which enable a user system to access a first document from a plurality of documents stored by a plurality of web servers. In this embodiment, an index server determines index information to be communicated to the user system, the index information comprising information identifying the plurality of documents stored by the plurality of web servers and information related to the contents of the plurality of documents. The index server communicates the index information to the user system. The user system is configured to identify a first set of documents from the plurality of documents using the index information received from the index server, the first set of documents including the first document, to receive a signal indicating selection of the first document from the first set of documents, and responsive to the signal, to access the selected first document from a web server storing the first document. According to the teachings of the present invention, the user system is configured to identify the first set of documents substantially free from interaction with the index server and the plurality of web servers.

According to another embodiment, the present invention provides techniques for identifying and accessing a first document from a plurality of documents stored by a plurality of servers using a data processing system. In this embodiment, the data processing system is configured to receive index information from an index server, the index information comprising information identifying the plurality of documents stored by the plurality of servers and information related to the contents of the plurality of documents. The data processing system is configured to identify a first set of documents from the plurality of documents using the index information received from the index server, the first set of documents including the first document. According to the teachings of the present invention, the data processing system is configured to identify the first set of documents substantially free from any interaction with the plurality of servers and the index server. The data processing system is also configured to receive a signal indicating selection of the first document from the first set of documents, and to access the selected first document from a server storing the first document in response to the signal.

Various additional objects, features and advantages of the present invention can be more fully appreciated with reference to the detailed description and accompanying drawings that follow.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1

is a simplified block diagram of a distributed computer network which may incorporate an embodiment of the present invention;

FIG. 2

is a simplified block diagram of a computer system according to an embodiment of the present invention;

FIG. 3

is a simplified high-level flowchart depicting processing performed according to an embodiment of the present invention to identify and access documents of interest to a user without compromising the user's privacy;

FIG. 4

depicts a portion of index information that may be communicated from an index server to a user system according to an embodiment of the present invention; and

FIG. 5

depicts information stored by a user system and modules which are executed by the user system to provide features according to an embodiment of the present invention.

DESCRIPTION OF THE SPECIFIC EMBODIMENTS

According to the present invention techniques are provided which allow a user to identify and access documents (e.g., web pages) of interest to the user in a network environment without compromising the user's privacy. More particularly, according to an embodiment of the present invention, the user can identify and access documents of interest to the user at the user system itself without having to have to provide user-related information to search engines executing on remote servers. The present invention preserves user privacy by controlling and minimizing the tracking and communication of user-related information from the user system. Techniques according to the present invention allow the user to control the dissemination of information related to documents and their contents accessed by the user. Merely by way of example, the present invention allows a user to identify web pages of interest to the user and to access the relevant web pages from web servers coupled to a communication network such as the Internet without compromising user privacy.

The invention has been described below using a Web-based embodiment of the present invention which is used to identify and access web pages of interest to a user. It should however be apparent that the present invention is not restricted to the Web environment, and may also be used in other network environments such as an intranet, a WAN, a wireless network, and the like. Additionally, the present invention can be used to identify and access other types of documents besides web pages.

FIG. 1

is a simplified block diagram of a distributed computer network

100

which may incorporate an embodiment of the present invention. As shown, computer network

100

comprises a number of computer systems coupled to a communication network

108

via communication links

110

. The computer systems depicted in

FIG. 1

include a user computer system

102

, web server systems

104

-

1

,

104

-

2

, and

104

-

3

, and an index server

106

. Distributed computer network

100

depicted in

FIG. 1

is merely illustrative of an embodiment incorporating the present invention and does not limit the scope of the invention as recited in the claims. One of ordinary skill in the art would recognize other variations, modifications, and alternatives. For example, a plurality of user systems

102

may be coupled to communication network

108

. These user systems may be coupled directly to communication system

108

(e.g. user system

102

depicted in FIG.

1

), or may alternatively be coupled to the communication network via an access provider (not shown) or via some other server system.

Communication network

108

provides a mechanism allowing the various components of computer network

100

to communicate and exchange information with each other. Communication network

108

may itself be comprised of many interconnected computer systems and communication links. While in one embodiment, communication network

108

is the Internet, in other embodiments, communication network

108

may be any suitable communication network including a local area network (LAN), a wide area network (WAN), a wireless network, a intranet, a private network, a public network, a switched network, combinations thereof, and the like.

Communication links

110

may be hardwire links, optical links, satellite or other wireless communications links, wave propagation links, or any other mechanisms for communication of information. Various communication protocols may be used to facilitate communication between the various systems shown in FIG.

1

. These communication protocols may include TCP/IP, HTTP protocols, extensible markup language (XML), wireless application protocol (WAP), vendor-specific protocols, customized protocols, and others.

According to an embodiment of the present invention, user system

102

can be used by users to identify and access documents stored by the various computer systems coupled to communication network

108

. In a Web environment, users may use user systems

102

to access web pages and other information resources stored by servers, such as web servers

104

, coupled to communication network

108

. As described above, users generally use a browser program executing on user system

102

to identify, access, and view web pages and other information stored by computer systems coupled to communication network

108

. User system

102

generally functions as a client requesting information from the servers coupled to communication network

108

.

Web server systems

104

store information resources and documents which may be accessed by user systems

102

coupled to communication network

108

. In a Web environment, the documents may be stored in the form of web pages which can be accessed by users using user systems

102

. One or more of the web servers (e.g., servers

104

-

2

and

104

-

3

depicted in

FIG. 1

) may also provide conventional search engines

112

which allow users to identify documents of interest to users. Servers which provide search engines may also store indices

114

which are used by the search engines to identify documents relevant to the user.

Index server

106

is configured to communicate index information to user system

102

. According to an embodiment of the present invention, the index information communicated by index server

106

to user system

102

includes indices received by index server

106

from one or more web servers

104

coupled to communication network

108

. For example, for the distributed system depicted in

FIG. 1

, index server

106

may receive index information

114

-

a

from server

104

-

2

and index information

114

-

b

from web server

104

-

3

, and the index information communicated by index server

106

to user system

102

may include index information

114

-

a

and

114

-

b

. According to another embodiment of the present invention, index server

106

may process the indices information received from the web servers before communicating the information to user system

102

. In yet other embodiments of the present invention, index server

106

may itself be configured to generate an index for information stored by computer systems coupled to communication network

108

. For example, index server

106

may use spiders and crawlers to collect information related to documents accessible via communication network

108

and build an index based on the collected information. Index server

106

may then communicate the generated index to user system

102

.

In alternative embodiments of the present invention, the index information may be directly communicated from web servers

104

to user system

102

. It should be apparent that a particular computer system may function both as a web server

104

and as an index server

106

. Further information related to the functions performed by computer systems depicted in

FIG. 1

is described below in conjunction with flowchart

300

depicted in FIG.

3

.

The index information communicated to users system

102

comprises information about documents accessible via communication network

108

. For a particular document, the index information may include information identifying the document (e.g. title of the document, etc.), information identifying the location of the document (e.g. information about web servers storing the document), information related to the contents of the document (e.g. information about concepts discussed by the document, or a topic or subject to which the document relates), and other information related to the document. The index information is generally organized in a manner which facilitates identification of documents and/or locations of the documents based on criteria related to the documents and/or their contents. The criteria may include words occurring in the documents, concepts or topics discussed by the documents, contents of the documents, servers storing the documents, and other attributes of the documents.

FIG. 2

is a simplified block diagram of a computer system

200

according to an embodiment of the present invention. Computer system

200

may be used as a user system

102

, an index server system

106

, a web server

104

, and other systems coupled to communication network

108

. As shown in

FIG. 2

, computer system

200

includes at least one processor

204

, which communicates with a number of peripheral devices via bus subsystem

202

. These peripheral devices may include a storage subsystem

212

, comprising a memory subsystem

214

and a file storage subsystem

220

, user interface input devices

210

, user interface output devices

208

, and a network interface subsystem

206

. The input and output devices allow user interaction with computer system

200

. A user may be a human user, a device, a process, another computer, and the like. Network interface subsystem

206

provides an interface to communication network

108

and may be coupled via the network to corresponding interface devices in other computer systems.

User interface input devices

210

may include a keyboard, pointing devices such as a mouse, trackball, touchpad, or graphics tablet, a scanner, a barcode scanner, a touchscreen incorporated into the display, audio input devices such as voice recognition systems, microphones, and other types of input devices. In general, use of the term “input device” is intended to include all possible types of devices and ways to input information into computer system

200

or to communication networks coupled to computer system

200

.

User interface output devices

208

may include a display subsystem, a printer, a fax machine, or non-visual displays such as audio output devices. The display subsystem may be a cathode ray tube (CRT), a flat-panel device such as a liquid crystal display (LCD), or a projection device. The display subsystem may also provide non-visual display such as via audio output devices. In general, use of the term “output device” is intended to include all possible types of devices and ways to output information from computer system

200

.

Storage subsystem

212

may be configured to store the basic programming and data constructs that provide the functionality of the computer system and of the present invention. For example, according to an embodiment of the present invention, software modules implementing the functionality of the present invention may be stored in storage subsystem

212

. These software modules may be executed by processor(s)

204

of computer system

200

. In a distributed environment, the software modules may be stored on a plurality of computer systems and executed by processors of the plurality of computer systems. Storage subsystem

212

may also provide a repository for storing various databases which may be used to store information according to the teachings of the present invention. Storage subsystem

212

may comprise memory subsystem

214

and file storage subsystem

220

.

Memory subsystem

214

may include a number of memories including a main random access memory (RAM)

218

for storage of instructions and data during program execution and a read only memory (ROM)

216

in which fixed instructions are stored. File storage subsystem

220

provides persistent (non-volatile) storage for program and data files, and may include a hard disk drive, a floppy disk drive along with associated removable media, a Compact Digital Read Only Memory (CD-ROM) drive, an optical drive, removable media cartridges, and other like storage media. One or more of the drives may be located at remote locations on other connected computers at another site coupled to communication network

108

. Information stored according to the teachings of the present invention may also be stored by file storage subsystem

220

.

Bus subsystem

202

provides a mechanism for letting the various components and subsystems of computer system

200

communicate with each other as intended. The various subsystems and components of computer system

200

need not be at the same physical location but may be distributed at various locations within distributed network

100

. Although bus subsystem

202

is shown schematically as a single bus, alternative embodiments of the bus subsystem may utilize multiple busses.

Computer system

200

itself can be of varying types including a personal computer, a portable computer, a workstation, a computer terminal, a network computer, a mainframe, a kiosk, a personal data assistant (PDA), a communication device such as a cell phone, or any other data processing system. Due to the ever-changing nature of computers and networks, the description of computer system

200

depicted in

FIG. 2

is intended only as a specific example for purposes of illustrating the preferred embodiment of the computer system. Many other configurations of a computer system are possible having more or fewer components than the computer system depicted in FIG.

2

. Computer system

200

may function as a client or a server, or combinations thereof.

FIG. 3

is a simplified high-level flowchart

300

depicting processing performed according to an embodiment of the present invention to identify and access documents (e.g., web pages in a Web environment) of interest to a user without compromising the user's privacy. Although FIG.

3

and the associated description describes a process for identifying and accessing web pages of interest to the user, it should be apparent that the process can also be used to identify and access other types of documents e.g., documents created using application programs such as word processors, graphics applications, etc., accessible via a network environment. Flowchart

300

depicted in

FIG. 3

is merely illustrative of an embodiment incorporating the present invention and does not limit the scope of the invention as recited in the claims. One of ordinary skill in the art would recognize other variations, modifications, and alternatives.

As depicted in

FIG. 3

, index server

106

configures index information to be communicated to user system

102

(step

302

). Index server

106

may use various techniques to configure the index information. According to an embodiment of the present invention, index server

106

configures the index information based on indices information received from one or more web servers coupled to communication network

108

. For example, for the distributed system depicted in

FIG. 1

, index server

106

may receive index information

114

-

a

from server

104

-

2

and index information

114

-

b

from web server

104

-

3

, and index server

106

may configure or build the index information to be communicated to user system

102

based on index information

114

-

a

and

114

-

b.

According to an embodiment of the present invention, web servers

104

may communicate the indices information to index server

106

in response to requests received from index server

106

. In alternative embodiments, web servers

104

may be configured to communicate indices information to index server

106

on a periodic basis. The length of the period may be user configurable. Indices information may be communicated to index server

106

at regular time intervals to ensure that index server

106

has the latest snapshot of documents stored by the web servers. Various other techniques may also be used to ensure that index server

106

has up-to-date information.

According to an embodiment of the present invention, index server

106

may process the indices information received from the web servers before communicating the information to user system

102

. As part of the processing, index server

106

may combine information contained in the various indices received from the various web servers to form the index information to be communicated to user system

102

.

In other embodiments of the present invention, index server

106

may itself generate or configure an index for documents stored by computer systems coupled to communication network

108

. For example, index server

106

may use spiders, crawlers, etc. to collect information related to web pages accessible via communication network

108

. Index server

106

may then build an index based on the documents related information collected by the spiders, crawlers, etc.

Since the size of the index information can be quite large, according to an embodiment of the present invention, index server

106

performs processing to reduce the size of the index information to be communicated to user system

102

. As part of this processing, index server

106

may use various filters reduce the size of the index information to be communicated to user system

102

. Index server

106

may also use various data compression techniques to reduce the size of the index information communicated to user system

102

. According to an embodiment of the present invention, index server

106

may be configured to communicate index information to user system

102

in an incremental manner, such that only new or changed index information (a delta from the previously communicated index information) is communicated to user system

102

.

According to an embodiment of the present invention, index server

106

may be configured to communicate only a portion (referred to as a “partial index information”) of the index information received by or configured by index server

106

to user system

102

. Index server

106

may determine the contents of the partial index information to be communicated to user system

102

based on criteria provided to index server

106

. According to an embodiment of the present invention, the criteria is user-configurable. The user configured criteria is generally abstract and generic enough that user privacy is not compromised. For example, a particular user may only be interested in documents related to Sports, and accordingly may indicate to index server

106

that the user system used by the user should only receive index information related to “Sports” related documents. In this scenario, index server

106

may extract sports-related information from the index information received by or configured by index server

106

, and communicate only the sports-related index information to user system

102

in step

304

.

Index server

106

then communicates the index information configured in step

302

to user system

102

(step

304

). The index information comprises information about web pages accessible via communication network

108

. The index information may include information identifying the web pages, information identifying the location of the web pages (e.g. URLs corresponding to the web pages, information about servers storing the web pages, etc.), information related to the contents of the web pages (e.g. concepts/topics/subjects discussed by the web pages), and other information related to the web pages. The index information is generally organized in a manner which facilitates identification of web pages and/or locations of the web pages based on criteria related to the web pages and/or their contents. The criteria may include words occurring in the web pages, concepts or topics discussed by the web pages, contents of the web pages, servers storing the web pages, and other attributes of the web pages.

According to an embodiment of the present invention, index server

106

may communicate the index information to user system

102

on a periodic basis. The time period between transfers may be user configurable. Index information may be communicated to user system

102

at regular time intervals to ensure that the user system has the latest snapshot of the documents stored by the servers. Various other techniques may also be used to ensure that user system

102

has up-to-date information about the web pages and documents stored by web servers

104

. In an alternative embodiment, index server

106

may communicate the index information to user system

102

in response to information requests received from user system

102

. For example, user system

102

may send a signal to index server

106

requesting the index server to download the index information to the requesting user system.

In alternative embodiments of the present invention, user system

102

may also receive index information directly from web servers

104

which provide search engines (step

306

). Web servers

104

may communicate the indices information to user system

102

on a periodic basis. The time period between transfers may be user configurable. In alternative embodiments, web servers

104

may communicate the index information to user system

102

in response to requests received from user system

102

.

FIG. 4

depicts a portion of index information that may be communicated from index server

106

(or from web servers

104

which provide search engines) to user system

102

according to an embodiment of the present invention. The index information depicted in

FIG. 4

comprises information related to a plurality of documents stored by the CNNSI website. For each document, the index information indicates an URL

402

which can be used to access the document, a list of topics, subjects, concepts

404

to which the document relates, and a title

406

of the document. The topic/subject/concept information for a document comprises information related to the contents of the document. For example, URL “sportsillustrated.cnn.com/baseball/mlb/news/2001/05/07/cordova_indians_ap” can be used to access a document titled “Cordova flourishing in potent Cleveland lineup” which contains information related to concepts/topics “Cleveland Indians” and “Major League Baseball”. User system

102

can process this index information to find documents that might be of interest to the user. It should be apparent that the index information received by user system

102

may be in various other formats and may contain more or less information than the portion of the index information depicted in FIG.

4

.

Referring back to

FIG. 3

, at step

308

, user system

102

receives index information communicated either from index server

106

or from one or more web servers

104

(step

308

). The index information received by user system

102

is then used to identify web pages of interest to the user on the user system (step

310

). Various different techniques may be used to identify web pages of interest to or relevant to the user using the index information received in step

308

. According to the teachings of the present invention, for each of the identification techniques, the entire processing for identifying web pages of interest to the user is performed on user system

102

itself, substantially free from any interaction with web servers

104

and index server

106

. Unlike conventional search engines, the user does not have to provide search queries or other information to remote search engine servers where the information may be mined and/or tracked. Since all identification operations are performed locally on user system

102

, the user has complete control over the type of information which can be tracked during the identification process, and also has complete control over the distribution of the information. The user's privacy is thus preserved as user-related information cannot be tracked/mined or distributed from user system

102

without the user's authorization.

Since relevant web pages are identified based on index information which is locally stored on user system

102

, user system

102

does not have to be connected to communication network

108

during the identification process, i.e. the index information received by user system

102

can be searched and web pages of interest to the user can be identified in an offline manner. This is substantially different from conventional web page identification techniques using search engines executing on remote servers which require that the user system have a network connection to the server executing the search engine in order for the search to be performed and relevant web pages identified. Local access to the index information also increases the speed of the identification process as compared to conventional network-based search techniques which are usually executed on remote servers.

As indicated above, various different techniques may be used to identify web pages of interest to or relevant to the user using the index information received in step

308

. According to an embodiment of the present invention, a localized search engine is provided to facilitate the identification of relevant documents (web pages). The localized search engine executes on user system

102

. The localized search engine is configured to accept a search query from the user, and search the index information to identify URLs corresponding to web pages which satisfy or are relevant to the search query. According to an embodiment of the present invention, the localized search engine may be coupled to a browser program executing on user system

102

and receive the search query via the browser. URLs identified by the localized search engine may be presented to the user using the browser interface.

The user query may contain query terms which describe, for example, a topic or concept for which the user is interested in finding more information. For example, if the user is interested in finding information on Thai cooking, the query terms may include the words “Thai” and “cooking.” In response to the query, the localized search engine is configured to identify URLs corresponding to web pages related to Thai cooking. Various different comparison and search techniques may be used by the localized search engine to search the index information to identify documents relevant to the user query. The documents identified by the localized search engine may be presented to the user via an output device coupled to user system

102

.

According to the teachings of the present invention, the localized search engine executes locally on user system

102

and uses index information received from index server

106

or from web servers

104

and which is stored locally by user system

102

. Thus, unlike conventional search techniques, the user query is not communicated to a remote search engine server where the information contained in the query may be mined or tracked by the server. Since all operations are performed on user system

102

, the user has complete control on the type of information, if any, which is tracked/stored by the localized search engine. The user also has complete control over the distribution of information, if any, tracked by the localized search engine. The user's privacy is thus preserved as user-related information cannot be tracked/mined or distributed from user system

102

without the user's authorization.

According to another embodiment of the present invention, documents (e.g. web pages) relevant to the user may be automatically identified based upon the index information received from index server

106

or from web servers

104

and based upon user-related information which may be stored (e.g. a user profile) by user system

102

. The user profile may include information about a user's likes/dislikes, preferences, commonly visited web pages, concepts or topics of interest to the user, and other information related to the user or the user's browsing behavior. An “automated document selector” module may be provided which executes on user system

102

and identifies documents or web pages (identified by URLs) of potential interest to the user based upon user information accessible via user system

102

(e.g., user information stored in a user profile file). The URLs corresponding to web pages identified to be of potential interest to the user may be presented to the user via an output device coupled to user system

102

. Like with the other document identification techniques, according to the present invention, the processing performed to automatically identify relevant web pages is performed locally on user system

102

. The user thus has complete control over the type of information which is stored by the identification techniques and over the dissemination of the information. This in turn preserves the privacy and security of the user.

The user profile information may have been collected using various techniques. Examples of techniques for collecting user information and generating user profiles are described in U.S. patent application Ser. No. 09/510,902 entitled “METHOD FOR CREATING USER PROFILES”, U.S. patent application Ser. No. 09/511,034, entitled “SYSTEM FOR CREATING USER PROFILES”, and U.S. patent application Ser. No. 09/510,904, entitled “COMPUTER PROGRAM FOR CREATING USER PROFILES”, (all currently pending), the entire disclosures of which are herein incorporated by reference for all purposes.

According to an embodiment of the present invention, the localized search engine described above may also be used to collect user information which may be used for building a user profile. The localized search engine may provide a user-configurable option which when selected by the user enables the localized search engine to mine the query information provided by the user to the localized search engine. The information mined by the localized search engine may then be used to build or augment the user profile information stored by user system

102

. Since the mining/tracking of information is user-configurable and performed locally on user system

102

, the user can control when and what type of information is mined by the localized search engine. Further, since the mined information is stored locally on the user system, the user has complete control over the distribution/communication of the tracked information. The privacy of user information is thus not compromised.

Various other techniques may also be used to identify web pages and other documents of interest to the user based upon index information received from index server

106

and/or from web servers

104

.

Referring back to

FIG. 3

, the user may then select and access one or more web pages or documents from the web pages/documents identified in step

310

(step

312

). For example, the user may select a URL identified in step

310

and access the web page corresponding to the URL from a web server storing the corresponding web page. In this manner, the present invention enables the user to identify and access web pages and other documents of interest to the user.

In a specific embodiment, the present invention also provides techniques for ensuring that the web server from which a web page is accessed in step

312

does not track information from the user system. For example, web pages accessed by the user in step

312

may have “cookies” associated with them. A “cookie” is a mechanism that allows the web server storing the web page to collect information about a user who accesses the web page. A cookie is usually transmitted to user system

102

along with a web page accessed by the user and is configured to collect information about the user, e.g. information related to the user's interaction with the accessed web page(s). The information collected by a cookie may be stored on user computer

102

or may be transmitted back to the web server. Since cookies generally collect information without the user's knowledge or authorization, the collection and dissemination of that information constitutes a breach of the user's privacy.

In order to prevent such breaches of privacy, according to an embodiment of the present invention, an “audit module” is provided which executes on user system

102

and ensures that information about the user is not tracked or monitored on user system

102

, or communicated to external computer systems, including web servers

104

and index server

106

by using techniques such as cookies, without the user's authorization. The audit module includes a “sniffer” that monitors the presence of cookies and also monitors information being transmitted from user computer

102

to external entities. If the audit module detects that information related to the user is being tracked or communicated without the user's permission, the user is notified of such a condition. Examples of violating conditions may include the presence of a cookie associated with a web page, communication of user information from the user system to a web server or to the index server, tracking/mining of user information without the user's authorization, etc. The user may be notified about the violating condition via an audio alarm, a flashing graphical user indication (e.g., a flashing icon), a streaming audio/video message, an email, audio output, video output, combinations of the aforementioned techniques, and the like. The audit module may then allow the user to remove the violating condition. For example, the audit module may allow the user to delete cookies associated with web pages accessed by the user, or provide a filter which automatically deletes cookies associated with any web page accessed by the user. In this manner, the audit module enables the user to preserve the privacy of user-related information. In a specific configuration, the audit module may be programmed to automatically prevent the monitoring and communication of any user related information by an external computer entity from user system

102

.

In alternative embodiments of the present invention, an audit server coupled to one or more user systems

102

may be provided to perform the tasks performed by an audit module. In this embodiment, the audit server sniffer ensures that the information going back to the web server from any user system is the same, regardless of the user system, i.e., each user system will send back an acknowledgment packet, which indicates that the index information has been received. Each user system may also send back its IP address. In preferred embodiments, there is substantially no other information that is sent from a user system

102

to the web server. Any other information may be tagged as a violating condition. The sniffer monitors the user system activity to make sure that information from the user system is not being communicated to the index server. The audit server is used only to verify that the privacy of the user is being maintained and is not an essential part of the system described in this invention.

FIG. 5

depicts information stored by user system

102

and modules which are executed by user system

102

to provide features according to an embodiment of the present invention. Although FIG.

5

and the associated description describes modules for identifying and accessing web pages of interest to the user, it should be apparent that the modules can also be used to identify and access other types of documents such as documents created using application programs such as word processors, communication programs, etc. The modules and information depicted in

FIG. 5

are merely illustrative of an embodiment incorporating the present invention and do not limit the scope of the invention as recited in the claims. One of ordinary skill in the art would recognize other variations, modifications, and alternatives. For example, in alternative embodiments of the present invention, one or more of the modules depicted in

FIG. 5

may be combined into a single module, and/or a single module depicted in

FIG. 5

may be broken down into several modules. The modules depicted in

FIG. 5

may be implemented in software or hardware, or combinations thereof. The software modules are executed by the processor of user system

102

.

According to an embodiment of the present invention, the modules depicted in

FIG. 5

include a browser program module

504

, a localized search engine module

506

, an automated document selector module

508

, an audit module

510

, and a communication module

502

. The information stored by user system

102

may include index information

512

and user profile information

514

. Index information

512

contains information related to documents hosted by computer systems in a network environment. As described above, index information

512

is received from index server

106

or from web servers

104

which provide search engines. User profile information

804

comprises information related to the user's preferences, likes/dislikes, etc. The information is generally stored in the storage subsystem of user system

102

.

According to an embodiment of the present invention, communication module

502

is configured to facilitate communication of information and data to and from user system

102

. Communication module

1302

may receive web page requests from the various modules of user system

102

and forward the requests to web servers. In response to the web page request, communication module

502

may receive web pages from the web servers storing the requested web pages. Communication module

502

may forward the web pages to browser

504

to be output to the user. In specific embodiments of the present invention, communication module

502

may also receive requests (not shown in

FIG. 5

) to download index information from index server

106

. Communication module

502

may communicate these requests to index server

106

.

Communication module

502

also receive index information either from index server

106

or from web servers

104

. Communication module

502

may store the index information in the storage subsystem of user system

102

or may alternatively forward the information to appropriate modules of user system

102

. Communication of other information to and from user system

102

may also be handled by communication module

502

.

As described above, browser program

504

enables a user to select, retrieve, and access web pages. Examples of browsers include the Internet Explorer browser program provided by Microsoft Corporation, and the Netscape Navigator browser provided by Netscape Corporation, and others. A user generally accesses a web page by providing URL information corresponding to the web page to browser

504

, either directly or indirectly. Browser

504

communicates the URL web page request to communication module

502

which communicates the request to a web server storing the requested web page. The requested web page corresponding to the user-provided URL received by user system

102

from the web server can then be displayed to the requesting user via browser

504

.

According to an embodiment of the present invention, the user may also provide search requests to localized search engine

506

via browser

504

. Browser

504

may be configured to receive URLs from localized search engine

506

in response to the search requests, and to output the URLs to the user. The user may then select a URL from the list of URLs provided by localized search engine

506

and access a web page corresponding to the selected URL via browser

504

.

According to an embodiment of the present invention, localized search engine

506

is configured to identify web pages of interest to the user based upon index information

512

received by user system

102

and based upon search queries received from the user describing topics or concepts of interest to the user and for which the user is interested in finding relevant web pages. As shown in

FIG. 5

, localized search engine

506

may receive the user search queries via browser

504

. In alternative embodiments of the present invention, localized search engine may receive search queries directly from the user, e.g., via an user interface provided by the localized search engine. Upon receiving a user query, localized search engine

506

searches index information

512

to identify relevant web pages (identified by URLs) which satisfy the search query. The list of URLs corresponding to the relevant web pages is provided to the user via browser

504

. As described above, the user may then select one or more URLs from the list of URLs identified by localized search engine

506

and access web pages corresponding to the selected URLs.

As previously described, according to an embodiment of the present invention, localized search engine

506

may also track and/or mine information contained in the search queries provided by the user to the localized search engine. The option to mine user query information is user-configurable. The information mined by localized search engine

506

may be used to build or augment user profile information

514

which may be stored in the storage subsystem of user system

102

.

According to an embodiment of the present invention, automated document selector module

508

is configured to automatically identify web pages of interest to the user based upon user profile information

514

and index information

512

. Web pages (identified by URLs) identified by automated document selector module

508

to be of interest to the user may be output to the user via browser

504

. The user may then select one or more URLs from the list of URLs identified by automated document selector module

508

and access web pages corresponding to the selected URLs.

According to an embodiment of the present invention, audit module

510

prevents unauthorized monitoring and communication of information related to the user or to the user's browsing activities from user system

102

. For example, audit module

510

, in cooperation with browser

504

, tracks the presence of cookies associated with web pages accessed by the user via browser

504

. If audit module

510

detects a cookie, the user is notified of the cookie and provided an option to delete the cookie. Audit module

510

, in cooperation with communication module

502

, also monitors information communicated to and from user system

102

to prevent communication of user-related information to index server

106

or to web servers

104

without the user's permission.

As described above, the present invention enables a user to identify and access documents stored in a network environment without compromising user privacy. Instead of using remote search engine servers which can mine user information to identify documents of interest to the user, the present invention identifies the relevant documents based upon index information received by user system

102

. Since the process of identifying relevant documents is performed locally on user system

102

using index information locally stored on user system

102

, remote servers such as index server

106

and web server

104

do not have to receive any information (e.g. search queries, etc.) related to the user which can be mined to build user profiles. Accordingly, the identification of documents of interest to the user is performed by the user system substantially free from any interactions with other computer systems coupled to communication network

108

. The local search also obviates the need to use remote search engines which can track both query information and information about web pages accessed by the user using the remote search engine. The present invention also ensures that user-related information is not tracked by web servers via mechanisms such as cookies. The user's privacy is thus preserved as user-related information cannot be tracked/mined or accessed by any computer system remote from the user system

102

without the user's authorization. User privacy and security is consequently preserved.

Although specific embodiments of the invention have been described, various modifications, alterations, alternative constructions, and equivalents are also encompassed within the scope of the invention. The described invention is not restricted to operation within certain specific data processing environments, but is free to operate within a plurality of data processing environments. Additionally, although the present invention has been described using a particular series of transactions and steps, it should be apparent to those skilled in the art that the scope of the present invention is not limited to the described series of transactions and steps.

Further, while the present invention has been described using a particular combination of hardware and software, it should be recognized that other combinations of hardware and software are also within the scope of the present invention. The present invention may be implemented only in hardware or only in software or using combinations thereof.

The specification and drawings are, accordingly, to be regarded in an illustrative rather than a restrictive sense. It will, however, be evident that additions, subtractions, deletions, and other modifications and changes may be made thereunto without departing from the broader spirit and scope of the invention as set forth in the claims.