Source: http://www.google.com/patents/US7225147?dq=5572193
Timestamp: 2015-08-05 13:13:48
Document Index: 613057375

Matched Legal Cases: ['Application No. 60', 'art 300', 'art 300', 'art 500', 'art 500', 'art 700', 'art 700', 'art 700']

Patent US7225147 - Scalable transaction system for a network environment - Google PatentsSearch Images Maps Play YouTube News Gmail Drive More »Sign inAdvanced Patent SearchPatentsA system is described for obtaining goods or services over a networked communication system. Goods and services are provided by a sales related entity or administrator at or through a server system. A client system is configured to obtain goods or services from the provider in a manner that reduces or...http://www.google.com/patents/US7225147?utm_source=gb-gplus-sharePatent US7225147 - Scalable transaction system for a network environmentAdvanced Patent SearchPublication numberUS7225147 B1Publication typeGrantApplication numberUS 10/402,890Publication dateMay 29, 2007Filing dateMar 28, 2003Priority dateJun 9, 2000Fee statusPaidAlso published asUS6947977, US8966010Publication number10402890, 402890, US 7225147 B1, US 7225147B1, US-B1-7225147, US7225147 B1, US7225147B1InventorsVictor B. KleyOriginal AssigneeMetadigm LlcExport CitationBiBTeX, EndNote, RefManPatent Citations (28), Non-Patent Citations (2), Classifications (28), Legal Events (4) External Links: USPTO, USPTO Assignment, EspacenetScalable transaction system for a network environment
US 7225147 B1Abstract
A system is described for obtaining goods or services over a networked communication system. Goods and services are provided by a sales related entity or administrator at or through a server system. A client system is configured to obtain goods or services from the provider in a manner that reduces or eliminates the processing burden on the retailer's server system. The invention allows for readily scalable sale related and/or administrator server system(s).
1. A method for obtaining goods or services from a provider over a networked communication system from a client system having stored thereat client-side configuration information, the client-side configuration information comprising information representative of the goods or services, the method comprising:
accessing a first service provider system to obtain update information, the update information including information suitable for accessing the first service provider system;
updating the client-side configuration information based at least in part on the obtained update information;
displaying the information representative of the goods or services within the updated client-side configuration information;
displaying a query interface so as to allow a user to make a purchase selection of the goods or services;
processing the purchase selection by the client system without use of another service provider system;
communicating a purchase request to a second service provider system, the purchase request comprising information representative of the purchase selection, the second service provider system being different from the first service provider system;
receiving a purchase response comprising information indicating that the goods or services are available and the purchase selection can be satisfied;
communicating an authorization request to a payment authorization system in a manner that excludes communication with the second service provider system, the payment authorization system being different from the first service provider system and the second service provider system;
receiving an authorization response from the payment authorization system; and
communicating a payment message to the second service provider system, the payment message comprising information derived from the authorization response, wherein the second service provider system is configured to conclude the user's purchase selection.
2. The method of claim 1 further comprising mailing the authorization response of the purchase selection to the user.
3. The method of claim 1 wherein the client-side configuration information includes information suitable for accessing one or more servers of the second service provider system and one or more servers of the payment authorization system.
4. The method of claim 1 wherein the client-side configuration information includes access information suitable for accessing only the second service provider system.
5. The method of claim 1 wherein the client-side configuration information includes access information suitable for accessing a plurality of servers of the second service provider system, wherein the client system is further configured to access a first server of the second service provider system, and if the first server is busy, then to access a next server of the second service provider system.
6. The method of claim 1 wherein the client-side configuration information includes access information suitable for accessing a third service provider system to obtain therefrom information suitable for accessing one or more servers of the second service provider system and one or more servers of the payment authorization system.
7. The method of claim 1 wherein the updated client-side configuration information includes information suitable for accessing one or more additional servers of the payment authorization system.
8. The method of claim 7 wherein the one or more additional servers act as replacements for at least one server of the payment authorization system.
9. The method of claim 1 wherein the updated client-side configuration information includes information suitable for accessing one or more additional servers of the second service provider system.
10. The method of claim 1 wherein the client-side configuration information is provided over the networked communication system.
11. The method of claim 1 wherein the client-side configuration information is provided on a compact disc.
12. The method of claim 1 wherein the client-side configuration information includes information representative of goods or services originating from a retail service provider.
13. A computer program product comprising a computer readable medium encoded with configuration information and computer program code, the computer program code suitable for operating a computing device, the computer program code configured to operate the computing device to:
access a first service provider system based on first access information contained in the configuration information in order to obtain additional configuration information;
update the configuration information based at least in part on the obtained additional configuration information;
display information relating to first goods or services that are available from a first service provider, the information based on the configuration information and the additional configuration information;
receive one or more selections of goods or services to produce a purchase order such that the purchase order is processed by a client system without the use of another service provider system;
identify a second service provider system based on information relating to the first service provider;
communicate with the second service provider system to make a purchase of the purchase order;
communicate with a payment authorization system to obtain payment authorization information, the communicating being performed exclusive of the second service provider system; and
communicate information derived from the payment authorization information to the second service provider system,
wherein the second service provider system is configured to conclude the purchase order.
14. The computer program product of claim 13 wherein the computing device is one of a desktop computer, a laptop computer, and a personal data assistant.
15. The computer program product of claim 13 wherein the additional configuration information comprises access information relating to one or more servers of the second service provider system and one or more servers of the payment authorization system.
16. The computer program product of claim 13 wherein the additional configuration information comprises access information for a replacement authorization server, wherein communicating with an authorization server involves communicating with the replacement authorization server.
17. The computer program product of claim 13 wherein the configuration information comprises a first catalog from which the first goods and services can be obtained for display.
18. The computer program product of claim 17 wherein the configuration information further comprises one or more additional catalogs for one or more additional goods or services available from one or more service providers.
19. A client system for purchasing goods or services over a networked communication system comprising:
means for accessing a first service provider system to obtain catalog information therefrom;
means for updating client-side configuration information based at least in part on the obtained catalog information;
means for displaying information derived from the catalog information and for identifying one or more goods or services to be purchased, the information representative of goods or services available from a provider;
means for interacting with a second service provider system in order to allow a user to make a purchase selection of one or more of the goods or services, the second service provider system different from the first service provider system;
means for processing the purchase selection by the client system without use of another service provider system:
means for interacting with a payment authorization system exclusively of the second server in order to obtain payment authorization therefrom, the payment authorization system different form the first service provider system and the second service provider system; and
means for interacting with the second service provider system to communicate information based on the payment authorization in order to complete the purchase.
20. The system of claim 19 wherein the client system further comprises a base catalog of base goods or base services, wherein the catalog information represents one or more of additions, deletions, and updates to the base goods or base services.
21. The system of claim 19 wherein the client system further comprises base configuration information comprising access information for the first service provider system, access information for the second service provider system, and access information for the payment authorization system.
22. The system of claim 19 wherein the client system further comprises base configuration information comprising access information for the first service provider system and access information for a third service provider system, and means for interacting with the third service provider system to obtain one or more of access information for the second service provider system and access information for the payment authorization system.
23. The system of claim 19 wherein the client system further comprises a base catalog information, wherein the catalog information obtained from the first service provider system represents updates to the base catalog information, and wherein the means for displaying the displaying information is derived from the base catalog information.
This is a continuation-in-part application of pending U.S. application Ser. No. 09/877,727, filed Jun. 8, 2001, now U.S. Pat. No. 6,947,977, which claims the benefit of U.S. Provisional Application No. 60/210,855, filed Jun. 9, 2000, the entire disclosures of which are herein incorporated by reference for all purposes.
The present invention relates to the use of communication networks such as the Internet for providing online services. In particular, the present invention provides for the transaction of goods and/or services in a network environment in a secure and scalable manner.
With the widespread use of computers, an expanding telecommunication network, and the rising popularity of communication networks such as the Internet, an increasing number of transactions and services are performed online using computer systems coupled to the communication network. 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 and services or providing information and services. Computer systems that are used by users to request information or to request a service are classified as “client” computers (or “clients”). Computers systems that store information and provide the information in response to a user request received from a client computer, or computer systems that perform processing to provide the user-requested services are called “server” computers (or “servers”). A particular computer system may function both as a client and as a server.
Accordingly, a user may initiate a request to perform a service (referred to as a “service request”) using a client computer coupled to a communication network such as the Internet. In the World Wide Web (“Web”) environment, a user may initiate a service request by accessing a web page from a web site hosted by a server coupled to the communication network, and configuring a service request via the web page. The web page provides an interface via which a user can select one or more services to be performed and provide the data for performing the services.
A web page is a form of a hypertext document that 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. 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 user computer coupled to the Internet. A browser enables users to access and interact with web pages. 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 and displaying the web page to the user. Examples of browsers include the Internet Explorer browser program provided by Microsoft Corporation, the Netscape Navigator browser provided by Netscape Corporation, and others.
Servers that store web pages and host web sites are generally referred to as “web servers.” Web servers are responsible for receiving web page requests from client systems, and for communicating web pages requested by the clients back to the requesting client systems. In conventional network-based transaction systems, web servers are also configured to perform services requested by clients via service requests. Code modules stored and executed by the web servers generally provide the services. Accordingly, in conventional transaction systems, the web servers not only host web sites storing web pages, but also perform processing to complete/perform the user-requested service.
Since the service is performed by the web servers themselves, conventional transaction and service provider systems comprising one or more web servers require substantial computing and storage resources to be able to operate across high speed network connections and to service multiply connected users (clients) in parallel. Further, to ensure satisfactory performance, the systems are typically designed to handle the worst-case user count scenario. As a result, conventional web server-based service provider systems are very expensive and require constant maintenance to reduce downtime, which further adds to the cost of performing a service.
Conventional web server-based service provider systems are also susceptible to attack by vandals or hackers intent on damaging or disrupting the transaction service provided by the servers. For example, hackers may maliciously “crowd” a particular web server (i.e., swamp the web server with service requests) in order to degrade the performance of the web server. Further, since service request processing is done by the web server itself, the code modules that perform processing related to the service requests and the databases used for the processing are stored by the web servers themselves. Since the web servers can be easily accessed by user clients, these code modules and databases are susceptible to vandals and hackers intent on gaining access to confidential or trade secret information contained in the code modules, the databases, etc.
In light of the above, there is a need for techniques which allow services to be provided in a network-based environment in a secure manner. It is also desirable that the techniques be scalable and economical.
In accordance with an aspect of the invention, purchase request processing includes a client system accessing a server system to obtain catalog information. According to one aspect of the invention, the catalog information represents update information for updating a base catalog stored on the client system. Purchase processing includes the client system interacting with a retailer service provider system. Payment processing occurs between the client system and an authorization service provider, exclusive of any communication with the retailer service provider.
According to various embodiments of the invention, other needs can be addressed such as the requirements of testing and test evaluation and administration services. Similar to the catalog above, a specific test can be distributed to individual users or clients and the resulting answers processed by a test service provider rather then the initiating administration transaction system. In yet another embodiment, tax return software operates in the client and the returns are filed with the taxing entity after being reviewed or updated (for tax law changes) by a tax service provider.
FIG. 1 is a simplified block diagram of a distributed computer network that may incorporate an embodiment of the present invention;
FIG. 3 is a simplified high-level flowchart of a method for processing service requests in a secure and scalable manner according to an embodiment of the present invention;
FIG. 4 is a simplified block diagram of a distributed network incorporating a specific embodiment of the present invention;
FIG. 5 is a simplified high-level flowchart depicting a method for processing service requests according to a specific embodiment of the present invention;
FIG. 6 is a simplified block diagram of a distributed network incorporating a specific embodiment of the present invention; and
FIG. 7 a simplified high-level flowchart depicting a method for processing purchase requests according to an aspect of the present invention.
The present invention provides a transaction system for performing services in a secure and scalable manner in a network environment. FIG. 1 is a simplified block diagram of a distributed computer network 100 that may incorporate an embodiment of the present invention. As shown, computer network 100 comprises a number of computer systems, including a user system 102, one or more web server systems (WSSs) 104, and one or more service provider systems (SPSs) 106. The various computer systems are coupled to a communication network 108 and the service provider systems 106 are coupled to web server systems 104 via communication links 110. For example, as depicted in FIG. 1, web server system 104-1 is coupled to service provider systems 106-1, 106-2, and 106-3, while web server system 104-2 is coupled to service provider systems 106-3, 106-4, and 106-5. A particular service provider system 106 may be coupled to one or more web server systems 104. For example, service provider system 106-3 is coupled to web server system 104-1 and 104-2. According to an embodiment of the present invention, the connections (112 and 114) between web server systems 104 and service provider systems 106 are secure connections.
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.
Communication network 108 provides a mechanism allowing user systems 102 to communicate and exchange information with web server systems 104. 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, an intranet, a private network, a public network, a switched network, and the like.
According to an embodiment of the present invention, user system 102 is used to configure initiate service requests requesting performance of one or more services. As part of configuring a service request, a user may also use user system 102 to provide information, if any, needed for or used by the service requests. For purposes of this invention, the term “service request” is intended to include any information or data requesting performance of a service. Additionally, for purposes of this invention, the term “service request input data” is intended to include any information or data input by the user for the service request and which may be used for performance of the requested service. For purposes of this invention, the term “service request information” is intended to include the service request and the associated service request input data.
Code modules and programs executing on user system 102 may facilitate configuration of the service request information. For example, a browser program executing on user system 102 may be used to configure the service requests and the associated service request input data. Using a browser executing on user system 102, a user of user system 102 may access a web page stored by a web server 104 and configure a service request information, including the service request and the service request input data, via the web page. The browser may then communicate the service request information to the web server storing the web page. In alternative embodiments of the present invention, programs and code modules, other than a browser, executing on user system 102 may also be used to configure service request information.
The service request information may be configured by a user of user system 102, or alternatively, may be automatically configured by code modules executing on user system 102 without requiring user input. The code modules and programs executing on user system 102 may also be configured to automatically determine one or more web server systems 104 to which the service request information is to be communicated. The service request information, including the service request and the associated service request input data (if any), is then communicated from user system 102 to the particular selected web server system(s) 104. Results or any output from performing the requested service is provided back to the user system requesting the service. The service output or results may then be provided to the user of the user system via an output device coupled to user system 102. A user system 102 generally functions as a client requesting services from servers coupled to communication network 108. Further information related to functions performed by a user system 102 is provided below.
According to an embodiment of the present invention, a web server system 104 is configured to host web sites and store web pages that may be used to configure service request information. A particular web server system 104 may be configured to receive web page requests from user systems 102, to determine web pages requested by the client from the web page requests, and to communicate the requested web pages to the requesting user systems.
Web server systems 104 are also configured to receive service request information, including service requests and service request input data, from one or more user systems 102. According to the teachings of the present invention, based upon the service request information, a web server system 104 is configured to determine one or more service provider systems which can perform the requested service, and to communicate the service request information to the one or more service provider systems 106. Communication of information between web server system 104 and service provider system 106 is usually performed over a secure communication channel between web server system 104 and service provider system 106 to prevent unauthorized access to the information. Web server system 104 may receive results of the service processing from service providers 106 and forward the results to the user systems that requested the service. Further information related to functions performed by a service provider system 106 is described below.
According to an embodiment of the present invention, a service provider system 106 is configured to perform the services requested by user systems 102. A service provider system 106 is configured to receive service request information from one or more web server systems 104, and to perform the requested services using the service request input data. One or more service provider systems 106 may perform processing for a single service request received by web server system 104. Likewise, a particular service provider system 104 may handle service requests from multiple web server systems 104. After the requested service has been performed, service provider system 106 is configured to communicate results or output of the service request processing to web server system 104 from which the service request information was received. The web server system may then communicate the results back to the requesting user system 102. Further information related to functions performed by a service provider system 106 is described below.
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 user (or client) system 102, a web server system 104, a service provider system 106, or any other computer system coupled to communication network 108. As shown in FIG. 2, computer system 200 includes at least one processor 202, which communicates with a number of peripheral devices via a bus subsystem 204. These peripheral devices may include a storage subsystem 206, comprising a memory subsystem 208 and a file storage subsystem 210, user interface input devices 212, user interface output devices 214, and a network interface subsystem 216. 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 216 provides an interface to other computer systems and to communication network 108.
User interface input devices 212 may include a keyboard, pointing devices such as a Felix or optical tablet with built-in and captured puck, a mouse, trackball, touchpad, a 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 using computer system 200.
Storage subsystem 206 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 206. These software modules may be executed by processor(s) 202 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 206 may also provide a repository for storing various databases that may be used by the present invention. Storage subsystem 206 may comprise memory subsystem 208 and file storage subsystem 210.
FIG. 3 is a simplified high-level flowchart 300 of a method for processing service requests in a secure and scalable manner according to an embodiment of the present invention. 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, the method is initiated when service request information is configured at user system 102 (or is received by user system 102) (step 302). As stated above, the service request information may include a service request requesting performance of a service, and service request input data associated with the service request. For example, the service request information may include a service request requesting performance of an online purchase transaction, and the associated service request input data might include the name of the purchaser, credit card information for the purchaser, the item purchased, and the like, which is used to process the purchase transaction. It should be apparent that the service request information may not include service request input data if such data is not required for the requested service.
According to an embodiment of the present invention, the service request information, which includes the service request and the service request input data, is configured by a user of user system 102 using a program executing on user system 102. For example, as described above, the user may configure the service request information using a browser program executing on user system 102. In accordance with various illustrative embodiments of the present invention, the service request information may be configured automatically (i.e., without specific user input) by programs or code modules executing on user system 102. For example, the service request information might be configured by a first program executing on user system 102 in response to a signal received by the first program. The source of the signal may be another program executing on user system 102, a device coupled to user system 102, another computer system coupled to user system 102, and the like.
A web server system 104 to which the service request information, which includes service request and the corresponding service request input data, is to be communicated is determined on user system 102 (step 304). Various techniques may be to select a web server system 104 to which the service request information is to be communicated. These techniques are typically implemented by modules executing on user system 102. According to a first technique, user system 102 determines if the service request information was configured using a web page accessed by user system 102 from a web server system 104. If the service request information was configured using a web page accessed from a particular web server system 104, then the particular web server system 104 is selected to receive the service request information.
According to another technique, user system 102 may store information (“web server systems information”) about a plurality of web server systems and services provided by the plurality of web server systems. In this embodiment, user system 102 may access the web server systems information and select a particular web server system to receive the service request information. In a particular illustrative embodiment, user system 102 may poll one or more web server systems 102 identified in the web server systems information to determine web servers that can handle the requested service and which are available to handle the service request. User system 102 may select the web server system 104 to which the service request information is to be communicated based upon the results of the polling operation. In this manner, if a particular web server system is not online or not available, an alternate web server system can be selected by user system 102 to process the service request.
The service request information, including the service request and the associated service request input data (if any), is then communicated from user system 102 to the web server system 104 determined in step 304 (step 306). The web server system which receives the service request information then determines if the service request identified by the service request information can be processed by the web server system itself, or if the service request information is to be communicated to one or more service provider systems 106 (step 308). If it is determined that the service request information is to be communicated to a service provider system 106, processing then continues with step 314. Else, the service request is processed and the requested service performed on the web server system itself (step 310). The web server system performing the service then communicates the results or outputs of the service performance to the requesting user system 102 (step 312).
According to an embodiment of the present invention, all service requests received by a web server system 104 are forwarded by the web server system to an appropriate service provider system 106 for processing the service request (i.e., the web server system is not configured to perform the service request). According to another embodiment of the present invention, web server system 104 is configured to perform the requested service (or portions of the requested service) if performance of the requested service does not involve the use of proprietary/confidential information or the use of code modules which comprise trade secret information or confidential information. Accordingly, upon receiving service request information, web server system 104 may determine in step 308 if the service request requires the use of information or code modules which contain proprietary or trade secret information. If it is determined that performance of the requested service requires use of information or modules which contain proprietary or trade secret information, then the service request information is communicated to an appropriate service provider system 106 for processing. Else, the requested service may be performed by the web server system itself (step 310), and results or output of the processing are communicated from web server system 104 to requesting user system 102 (step 312). In this manner, the present invention ensures that confidential or trade secret information is not stored on web server systems 104 where it can be exposed to hackers or disruption.
Assuming that web server system 104 determines in step 308 that the service request information is to be communicated to a service provider system, web server system 104 then determines one or more service provider systems to which the service request information is to be communicated (step 314). The selection is done by modules executing on web server system 104.
Various techniques may be used to determine the service provider system(s) to which the service request information is to be communicated. According to a first technique, web server system 104 stores information (“service provider systems information”) identifying a plurality of service provider systems 106 that are coupled to the web server system and services provided by the service provider systems. In this embodiment, web server system 104 may access the service provider systems information and select a particular service provider system 106 to receive the service request information. In an alternative embodiment, web server system 104 may poll one or more service provider systems 106 identified in the service provider systems information to determine service provider systems that can perform the requested service and which are available to perform the requested service. Web server system 104 may then select a particular service provider system 104 to perform the requested service based upon the results of the polling operation. In this manner, if a particular service provider system is not online or not available, an alternate service provider system can be selected by web server system 104 to perform the requested service.
Web server system 104 may select a particular service provider system that is best suited to perform the requested service. For example, web server system 104 may determine the utilization and workload of the various service provider systems that in principle could perform the requested service, and select a particular service provider system 106 that is the least utilized or that has the lowest workload. In this manner, web server system 104 performs load balancing while distributing the service requests to the various service provider systems 106. This ensures that the service provider systems that can perform the requested service are optimally utilized. This also makes the system very scalable. For example, the number of service provider systems that provide a particular service can be increased/decreased in proportion to the demand for the service. Thus, an increase in demand for the service can be handled by increasing the number of service provider systems configured to perform the service. This is substantially different from conventional transaction systems wherein the computational and memory resources of the web servers performing the service have to be upgraded to handle a larger volume of service requests, or the server systems are not commodity systems available in bulk from a myriad of competing ISP vendors.
The service request information, which includes the service request and the associated service request input data, is then communicated from the web server system 104 to the one or more service provider systems 106 selected in step 314 (step 316). Generally, a secure communication channel is used to communicate information between web server system 104 and service provider system 106 in order to prevent unauthorized access to the communicated data.
Various different techniques (e.g. interrupt techniques, polling techniques, etc.) may be used to transfer the service request information from web server system 104 to service provider system 106. According to a first technique, web server system 104 sends a message (e.g. an email message) to service provider system 106 that includes the service request information. The information contained in the message may be encrypted for security purposes.
According to another technique, the service request information is stored by web server system 108 in its memory in a certain format (e.g. stored in a file). Web server system 104 then sends a message or an interrupt to the service provider system 106 selected in step 314 instructing the service provider system to read/access the stored information. Upon receiving the message or interrupt from web server system 104, service provider system 106 is configured to access the stored service request information from the memory of web server system 106. Various protocols (e.g. HTTP, FTP, etc.) may be used to transfer the service request information from web server system 104 to service provider system 106.
According to yet another technique, web server system 104 stores the service request information in a specific location (e.g. a particular FTP location, or in a file in a particular directory, etc.) in its memory. In this embodiment, service provider system 106 is configured to periodically check (e.g. using a polling mechanism) the specific memory location on web server system 104 to determine if new service request information is available. If service provider system 106 determines that new service request information has been written to the specific location, then service provider system 106 reads the new service request information from the specific location. As with the other techniques, various protocols (e.g. HTTP, FTP, etc.) may be used to transfer the service request information from web server system 104 to service provider system 106.
A particular service provider system 106 may be configured to access and/or collect information from a plurality of web server systems 104 in order to perform a particular service. Further, a particular service provider system 106 may receive service request information from a plurality of web server systems 104 and the service provider system 106 may perform the requested services. For example, in FIG. 1, service provider system 106-3 may receive service request information from web server system 104-1 and from web server system 104-2.
A service provider system 106 that receives the service request information then performs the service requested by the service request included in the service request information (step 318). Various different kinds of services may be performed by a service provider system 106. Examples of services include performing a commercial transaction (e.g. online purchases, auctions, etc.), banking transactions, application program services, and the like. The service provider system performing the requested service may then communicate results or any outputs from performance of the service to the web server system from which the service request information was received (step 320). The web server system may then communicate the results to the requesting user system 102 where the results may be output to the user (step 322).
As described above, the present invention provides a system for processing service requests, which is both scalable and provides the requested services in a secure and scalable manner. As the demand for a particular service increases, additional service provider systems 106 can be added to handle the workload, and/or the computation capacity of the service provider systems may be increased. In this manner, the transaction system can be easily scaled, either up or down, in proportion to the demand for the service.
Unlike conventional systems, code modules and databases that may contain proprietary, confidential, or trade secret information, are stored and executed by service provider systems 106 which are not exposed to, hackers, disruptions or user systems 102. Further, secure connections may be established between web server systems 104 and service provider systems 106 to prevent unauthorized access to information communicated between the web server systems and the service provider systems. According to an embodiment of the present invention, service provider systems 106 may also be protected by firewalls. As a result, vandals and hackers are prevented from gaining access to confidential or trade secret information contained in the code modules and/or the databases stored by service provider systems 106. This enables processing related to the services to be performed in a secure manner.
FIG. 4 is a simplified block diagram of a distributed network 400 incorporating a specific embodiment of the present invention. Like reference numerals are used in the present figure, as the other figures herein for easy referencing, but are not intended to be limiting. As depicted in FIG. 4, a user (or client) computer system 102 is coupled to a first service provider system (FSPS) 404 via a communication network 108 such as the Internet. FSPS 402 is in turn coupled to a second service provider system (SSPS) 404 via communication links 110. According to the teachings of the present invention, the communication links between FSPS 402 and SSPS 404 are secure connections. Distributed computer network 400 depicted in FIG. 4 is merely illustrative of a specific embodiment of 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.
User system 102, communication network 108, and communication links 110 have been described above with respect to FIG. 1. In the embodiment depicted in FIG. 4, FSPS 402 is configured to provide a service that can be used by users of user system 102. For example, FSPS 402 may store an application program (e.g. MS WORD) which can be invoked using user system 102. According to another embodiment of the present invention, FSPS 402 (or SSPS 404) may store a data object, and the service provided by FSPS 402 may include allowing user system 102 to download, make a copy, or use the data object. The data object could be a software application program, code modules, a database, a file storing information, or any other type of information or data.
The code modules providing the service (e.g. the code modules of MS WORD) may be stored on FSPS 402 or on SSPS 404. According to the teachings of the present invention, code modules and programs that contain confidential or trade secret information or which use confidential information are stored by SSPS 404. In the embodiment depicted in FIG. 4, processing related to the service may be performed by FSPS 402 or by SSPS 404. SSPS 404 is further configured to perform processing related to the use of the service. For example, SSPS is responsible for performing billing activities based upon the use of the service provided by FSPS 402 by a particular user system.
FIG. 5 is a simplified high-level flowchart 500 depicting a method for processing service requests according to a specific embodiment of the present invention. Flowchart 500 depicted in FIG. 5 is merely illustrative of a specific 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. 5, the method is initiated when FSPS 402 receives service request information, which may include a service request and associated service request input data, from a particular user system 102 (step 502). Processing performed by a user system to select a particular FSPS to receive the service request information has been described above.
In response to receiving the service request information, FSPS 402 communicates a service activation code back to the user system requesting the service (step 504). The activation code may be, for example, a password, an authorization key, an identification number, etc., which allows the user of the user system receiving the activation code to activate the service. The activation code may also encapsulate information about the number of times that the service can be invoked using the particular activation code, the period of time during which the service can be invoked using the particular activation code, etc.
A user using user system 102 can then use the activation code received in step 504 to request activation of the service (step 506). FSPS 402 receives the activation code from user system 102 and checks the validity of the activation code (step 508). If the activation code is determined to be invalid, the service activation request is denied (step 510). If the activation code is determined to be valid, the requested service is then performed (step 512). Examples of services include allowing the user to invoke an application program such as WORD stored by FSPS 402 or SSPS 404, allowing the user to copy or download an object stored by FSPS 402 or SSPS 404, etc. As part of step 512, results or output from the service performance may be communicated back to the user system 102 requesting the service.
The service may be performed by FSPS 402, by SSPS 404, or by FSPS 402 and SSPS 404 in combination. According to the teachings of the present invention, if the service performance involves the use of proprietary information or code modules or programs that contain trade secret material, the service is performed by SSPS 404 since code modules and information comprising trade secret or confidential information are stored by SSPS 404. If the service is to be performed by SSPS 404, then the activation code received by FSPS 402 from user system 102 is forwarded to SSPS 404 along with information identifying the service requester. As described above with respect to communication of information between web server system 104 and service provider system 106 depicted in FIG. 3, various techniques may be used to communicate information from FSPS 402 and SSPS 404. According to an embodiment of the present invention, communication of information between FSPS 402 and SSPS 404 is performed over a secure communication channel.
After the requested service has been performed, a message or signal is communicated from FSPS 402 to SSPS 404 indicating that the service has been performed (step 514). The message may also include information indicating the identity of the user who requested the service. It should be apparent that this message need not be sent if the service is performed by SSPS 404, in which case information is already available to SSPS 404. Further, the SSPS that receives the message may be selected from a plurality of SSPSs. Techniques for selecting a particular SSPS and for communicating the message to the selected SSPS have been described above with respect to FIG. 3.
SSPS 404 then performs processing associated with the performance of the service (step 516). The processing performed by SSPS 404 may be considered as a service performed by SSPS 404 in response to performance of the service requested by the user of user system 102. According to an embodiment of the present invention, SSPS 404 is configured to perform billing activities related to the service performed in step 512. For example, SSPS 404 may generate a billing statement for the service performed. The billing statement information may indicate the compensation (e.g., fees, etc.) payable by the user of user system 102 who requested performance of the service. As part of step 516, the billing information generated by SSPS 404 may be communicated from SSPS 404 to the corresponding user system via FSPS 402. According to an alternative embodiment of the present invention, the billing related processing (step 516) may be performed by SSPS 404 before the service is performed (i.e., before step 512). In this embodiment, the service is performed contingent on the user being able to pay for the service.
As described above, the present invention enables confidential information and information containing trade secrets to be stored at SSPS 404 such that the information is not exposed to users who may access FSPS 402. For example, confidential information used for generating billing statements is stored by SSPS 404. The billing-related confidential information may include a user's credit card number, a user's bank account number, etc. In this manner, the present invention prevents unauthorized access to confidential information, and provides a secure mechanism for performing the financial billing-related operations.
As part of step 516, SSPS 404 may also perform processing to determine if the activation code for the user should be invalidated. For example, if the activation code was a “one-time use only” code, SSPS 404 may deactivate the activation code so that the user is prevented from reusing the activation code. If the user tried to reuse the same activation code, the activation code would be determined to be invalid during step 508. If the activation code was time based, i.e. allowed the service to be activated for a particular period of time, SSPS 404 may determine if the authorized time period has expired. SSPS 404 may deactivate the activation code if the time period has expired.
Various other functions may also be performed by SSPS 404. In general, any type of processing which involves the use of proprietary information or the use of code modules or programs which contain trade secret material may be stored by and executed by SSPS 404. In this manner the confidential and trade secret information is not exposed to user systems 102. The confidential information can be further protected by using secure communication channels between FSPS 402 and SSPS 404. SSPS 404 may also be protected by firewalls. As a result, vandals and hackers are prevented from gaining access to confidential or trade secret information contained in the code modules and/or the databases stored by SSPS 404. This enables the services to be performed in a secure manner.
FIG. 6 is a simplified high-level system block diagram 600 depicting another aspect of the present invention. A client system 102 is in data communication with a networked communication system 108 such as the Internet, for example. The client system is typically a personal computer (PC), whether a desktop model or a laptop unit. However, an alternate embodiment of a client system can be a personal data assistance (PDA) type of device having adequate processing and storage capacity and suitable access to a communication network. By way of the communication network, the client system can access a variety of server systems 602, 604, 606, and 608 via a suitable communication protocol(s) such as those discussed above, and others.
In accordance with this aspect of the invention, the client system is configured with some configuration information 612. Further, according to an embodiment of this aspect of the invention, the configuration information includes client-side software, catalog information, and additional information. The client-side software will be described in more detail below. The catalog information includes descriptive material such as might be found in a traditional printed catalog, describing goods or services (either or both) that are available from a provider over the Internet. The catalog information can include additional descriptive material that is appropriate for goods or services that can be obtained over the Internet.
In accordance with this aspect of the invention, a server system is provided from which update information for the catalog can be obtained. The additional information can include access information for various server sites in accordance with this aspect of the invention. For example, in an embodiment of this aspect of the invention the additional information can include access information for a first service provider system (FSPS) 602 to allow the client system 102 to communicate with the FSPS. The access information might be an Internet address, for example. Or, it can be web page designation, or the like. In this way, updates such as the addition or deletion of goods or services from the catalog can be made to an initial or base catalog that is initially present in the client system.
Further in accordance with this aspect of the invention, a server system is provided from which goods or services can be obtained. The additional information can include access information for a second service provider system (SSPS) 604 from which such goods or services can be obtained. In an embodiment of this aspect of the invention, the additional information may include access information for two or more of second server systems. In another embodiment of this aspect of the invention, the update information can include access information for additional or substitute second server provider systems.
Still further in accordance with this aspect of the invention, a server system is provided from which payment authorization information can be obtained. As a further aspect of the invention, the authorization server system is different from the SSPS 604. Thus, the additional information can include access information for an authorization service provider system (ASPS) 606. In an embodiment of this aspect of the invention, access information can be provided for two or more authorization server systems. In another embodiment of this aspect of the invention, the update information can include access information for additional or substitute authorization service provider systems.
The foregoing configuration information 612 can be provided on medium such as a floppy or a compact disc (CD) that is sent via land-base mail to potential customers, who then can execute an install program present on the medium to install the various components onto the customers' PCs, or as the case may be a PDA, or the like. In the case of a PDA, the information may have to be loaded on a PC and then downloaded to the PDA via a synchronization operation, a commonly known technique among PDA users. As an alternative to receiving media over land-based mail, the configuration information can be downloaded over the network. For example, a user can access a web site that contains the configuration information and download the information. As another example, a user can receive the address for a web site via email. As still another example, the email message itself might contain a link to the download page, whereupon clicking on the link will initiate a download. This technique, however, may not go over well with users who are concerned about hackers and viruses. Furthermore, downloading from the network may or may not be appropriate. Since a large volume of data may be involved (especially in the case of downloading the base catalog information) the user's connection may not have the bandwidth to conveniently perform a download of the configuration information.
According to a variation of this aspect of the invention, some of the additional information can be provided by a server system. Thus, in accordance with this aspect of the invention, a third service provider system (TSPS) 608 can provide access information to one or more second service provider systems and/or access information to one or more authorization service provider systems.
To complete the description of FIG. 6, it will be appreciated that the communication links 110′ between the client system 102 and the servers 602, 604, and 608 can be unsecured communication links. However, the communication link 110 between the client system and the authorization service provider system 606 can be a secured link, using commonly known secured communication technology. It may be preferable to use a secured link between the client system and the authorization server since the exchange of sensitive and private information is usually involved in matters dealing with making payments over a communication network such as the Internet.
Additional aspects of the invention lie in the nature of the servers used in various embodiments of the invention. As alluded to in the above discussion, one aspect of the invention is the “infrastructure independence” of the various servers. Thus, for example, the physical site of the authorization service provider system 606 provides an infrastructure for the server system—e.g., physical plant, utilities, and so on—that is independent of the physical site at which the first service provider system 602 is situated, which in turn is independent of the physical site at which the second service provider system 604 is situated. This optional aspect of the invention, is advantageous for contributing to the robustness and reliability of the system. By selecting servers to be at physically different sites and/or run by financially independent entities, accidents, natural disasters, financial difficulties of the site operators and other similar disruptive forces man-made or natural will not take down the entire system. Accordingly, the underlying communication infrastructure can be the Internet, for the same reason. The Internet comprises an essentially distributed interconnected set of independent communication paths, so that portions of the Internet can be taken down without affecting the entire Internet, indeed the network was originally designed with this distributed quality to survive natural disasters and nuclear wars.
Another aspect of the invention lies in the use of “commodity server sites” to act as servers, especially for the servicing purchase orders for goods and services (e.g., FSPS 602 and/or SSPS 604). Currently, internet service providers (ISP's) who provide storage, processing capacity to host a web site, and Internet access offers these components of a web server to users as a commodity. These components allow for the user of software embodying this invention to easily migrate her website specific software from one ISP to another. More significantly, the software can readily scale up operations based on demand during peak or high purchase volume seasons, without the delay and expense of creating and supporting her own servers. Thus, in a particular implementation, the user system addresses the web server system through a simple data structure and/or simple web server scripted program which is commonly available on most commodity sites. There is no need for a program or script which requires on-site support or special capabilities not readily available from standard commodity web site Internet Service Providers. This basic software structure according to aspects of the invention greatly facilitates the dynamic the growth and scaling back of one's web operations, and allows the cost of sales, or other transactions to more nearly approach the perfect goal of being completely variable to those sales or transactions in real time; that is a software arrangement in which the smallest possible incremental cost is incurred to complete a transaction. Unused capacity is quickly returned to the commodity pool to be used again as demand requires.
According to another aspect of the invention, when software in a server system (this sensing can be at the host, e.g., FSPS 602; a transaction node, e.g., SSPS 604; or in a separate systems monitoring server) senses that the rate of usage has risen above a threshold or has fallen below the threshold (or below a second threshold), the system can take action to increase or decrease the number of transaction nodes (i.e., additional SSPS's). Many ISP's have greatly simplified the ability to open an account with the ISP, so much so that software robots can interact with the ISP to create or to close accounts with the ISP, and to set up the web sites (i.e., upload programs, web pages, etc.) in these additional accounts. Thus, as usage rates vary, such software robots can vary the number of transaction nodes to scale the operation according to usage levels. The addresses (e.g., IP address, URL's, etc.) of these additional transaction sites can be sent to the client, and to the host FSPS if appropriate. This automated scaling can also be performed in response to detecting failed transaction nodes (net sites or ftp sites) to substitute new or backup nodes for the failed or failing nodes.
In practice, it may be desirable to build hysteresis into the system for scaling up and for scaling down the operation. This can avoid excessive sudden scaling activity (up or down) that might result from transient fluctuations or spikes in activity. Thus, a first usage threshold might be used, usage above which would trigger the addition of new transaction nodes. A second usage threshold can be provided, as a trigger for scaling down the operation. Time can be factored in as well. Thus, a requirement that the usage rate has crossed a threshold for X amount of time can be imposed before scaling the operation.
FIG. 7 is a simplified high-level flowchart 700 depicting a method for obtaining goods and services according to aspects of the present invention shown in FIG. 6. Flowchart 700 depicted in FIG. 7 is merely illustrative of a specific embodiment incorporating aspects of 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.
At a step 702, client-side information is provided to the client system 102 (FIG. 6). As discussed above, the client-side information 612 comprises client-side software, and in some embodiments can include catalog information and additional information. The information can be provided on a medium such as CD or floppy disk(s), or accessed electronically over a network. The information can then be installed onto the client system using any of a number of commonly practiced installation techniques.
The client-side software is used to perform tasks locally (on the client machine) and to access the various servers to effect a purchase of goods or services. The remaining steps highlighted in the flowchart 700 illustrate the processing for purchasing goods or services according to this aspect of the invention. It can be appreciated that client-side software can be easily designed to implement various embodiments of these aspects of the invention.
As indicated above, the client-side information may include a base catalog of a provider's goods or services (either or both). In one embodiment of this aspect of the invention, the client-side information can comprise catalogs from two or more providers of goods or services.
At a step 704, the first service provider system 602 is accessed to download any update information that may be available. The information can include updates to catalog(s) that are already stored on the client system. Updates might include availability (e.g., inventory information), delivery modes (air, freight, etc.), delivery schedules, new/removed items, and so on. The software can track versions of catalogs and perform updates as needed. A pre-loaded base catalog, installed from a CD for example, means that only changes to the catalog need to be downloaded. This may be preferable to accommodate users who may have access to limited communication bandwidth. The update information can also include updates to the access information for communicating with the various other service provider systems. The update information can also specify additional providers, changes in providers, and so on. Generally, this initial step of processing serves to update the client-side configuration information.
Next, in a step 706 the goods or services that are available for purchase can be displayed on a video display device, or otherwise presented to the user. Alternative presentation media might include an audio presentation, a hardcopy printout, a display on a PDA, and so on. Where a graphical user interface (GUI) is appropriate, it can be appreciated that a suitable interface can be implemented for presenting the catalog information. Where two or more providers (retailers, vendors, etc) have catalogs, the GUI can be configured to switch between catalogs in any manner that is deemed suitable. As a part of displaying the goods or services, a purchase selection is produced. A consequence of this particular aspect of the system is that the retailer's service provider system 604 is not required to process catalog browsing, as this activity is performed by the client. This can be advantageous during periods of heavy purchasing order processing as might occur during seasonal purchasing activity. Since the service provider system does not have to process requests for browsing a catalog, such as image retrieval and image downloads, the system can provide increased throughput for processing purchase orders.
In a step 708, the purchase selection is communicated to retailer's system (e.g., second service provider system 604). The communication represents a purchase order or the like for the selected goods or services. In order to accommodate high throughput situations, the retailer can provide multiple service provider systems. This is especially convenient for seasonal purchasing activity. For example, a holiday season like Christmas is likely to cause marked increase in on-line purchasing activity. A retailer during the off-season can maintain a single, small service provider system to handle a “normal” level of on-line purchase orders. When on-line purchases are expected to increase, the retailer can scale up her operations simply by adding additional service provider systems to handle the anticipated increase in purchase orders. The retailer can update the update information with access information (e.g., web page, internet address, etc.) for the additional systems. The client system can become aware of the additional systems when its client-side software downloads the update information. The client-side software can then choose from among a multitude of server systems to find one that is not busy. Alternatively, the server system itself can be configured to transmit a redirect protocol to cause the client system to access the next server system if the load in the first system is too high.
A response (step 710) from the service provider system 604 can be sent to the client system. Typically, there is an exchange of messages between the client and the server, at least to confirm whether the goods or services are available. Arrangements may be made for shipping or otherwise delivering the purchased goods or services.
In accordance with this aspect of the invention, the arrangements for payment of the goods or services is made directly between the client system 102 and the authorization service provider system 606, and is thus exclusive of the retailers service provider system 604. The client-side software can be configured to perform (step 712) the transactional processing that takes place with a payment authorization server system, for example to process a credit card. In an embodiment of this aspect of the invention, a response datum received in step 710 from the retailer service provider system might include a code or similar information that identifies the retailer. This code can be used by the client-side software to debit the user's credit card account and to credit the retailer's bank account.
In a step 714, the authorization service provider can transmit a suitable authorization code to the client system. The client system can then use this information to conclude, in a step 716, the purchase order with the retailer service provider system 604. A consequence of this aspect of the invention is that the retailer's service provider system(s) does not have to perform the process intensive activity of obtaining payment with a service such as a credit card authorization service provider.
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