Object-oriented system for creating and managing websites and their content

Information

  • Patent Grant
  • 9811506
  • Patent Number
    9,811,506
  • Date Filed
    Friday, October 30, 2015
    9 years ago
  • Date Issued
    Tuesday, November 7, 2017
    7 years ago
Abstract
The invention teaches a method for creating and managing a website as an object oriented system, comprising: providing on a system server a plurality of hierarchical classes of objects, each of the classes representing one aspect of the storage, presentation and logic of a website; providing on a web server an interface operable to present representations of objects instantiating the plurality of hierarchical classes and receive commands meant to one of: instantiate a new object, destroy a presented object, and change a property of a presented object; and storing on a database server objects as a traversable tree in accordance with the plurality of hierarchical classes.
Description
BACKGROUND OF THE INVENTION

1. Field of the Invention


The present invention is directed to ways to create and manage websites and their content. More particularly, the invention is directed to an object-oriented way to create and manage dynamic websites and their content.


2. Description of the Related Art


Today, web pages and their content are typically created, managed and delivered using a variety of tools and systems. Programming tools (e.g. Adobe Dreamweaver™) are commonly used for web page creation, and authoring tools (e.g. Microsoft Word™ or Adobe PhotoShop™) are commonly used for content creation. Content Management Systems (e.g. Drupal™ or OpenCMS™) may also be used for controlling and transforming content after it has been created, and version control systems and database and web servers are used for storing and delivering the web pages and their content to end user browsers.


While in some cases it may be valuable from a “separation of concerns” perspective (i.e. having the creative department use one set of tools, and the IT department use others), the use of tools and systems that are not integrated makes it necessary to integrate the work product of each department in a separate, final step to permit a given web page and its content to be published to the Internet. One problem with this approach is that it is time consuming, and this problem is exacerbated by the tendency that websites (and their content) are rarely static. Almost all websites change frequently, being updated constantly to reflect changes in the organization or individual publishing the website or in its (or his/her) environment.


The absence of an integrated system makes creating and revising content and a set of web pages on a website (or on any given web page of a website) unduly difficult in terms of both effort and complexity. Once design mock-ups and digital assets (e.g. art, photos, and videos) have been developed, the website's web pages are built with these design elements using HTML, CSS and JavaScript programming languages to achieve the effects called-for in the design. Next (or in parallel), news articles, product data sheets and other information are developed to form the content for the site.


At this point the user faces a choice of whether or not to use a Content Management System (a “CMS”). Content Management Systems are typically employed if the content on a website is expected to change frequently. If not, then the website publisher will typically “hard-code” the content directly into each web page file.


If a CMS approach is chosen, the next step is to place all content items into a relational database, and to turn each web page file (via programming) into a “page template” that is bound to the CMS. The CMS then dynamically (or, in some systems, statically during a compilation process) creates individual web pages of a website by combining the content in the database with the layout, presentation and behavior defined in the web page template. At this point, the final web page is ready for delivery to an end user's browser.


A significant problem with the technologies and processes described above is that it is very difficult to build and integrate all of the content and web page (i.e. layout, presentation, and behavior) components needed for a sophisticated website. If a CMS is employed to manage content changes, the initial build is even more difficult, and even if a CMS is employed, it is still very difficult to make subsequent changes to site structure (“site map”) and web page components without involving considerable programming.


For illustration, consider this simple example:


Without a CMS, combining content and web page visual aspects (layout, presentation and behavior) may be done like this using HTML and JavaScript:

















<body>









<div>









style=“background-color: yellow”;









onclick=“showMenu(someElementID)”









onmouseover=“this.className=fredHighlight”









onmouseout=“this.classname=“fred”









class=“fred”>









<p>



This is some text









</p>









</div>









</body>










The above code would produce a section on a web page with a yellow background color (layout and presentation) as well as set up some code to handle mouse clicks, etc. (behavior). Finally, it would display the line “This is some text” (content) on the page.


Using a CMS, the above code would become:

















<body>









<div>









style=“background-color: yellow”;



onclick=“showMenu(someElementID)”



onmouseover=“this.className=fredHighlight”



onmouseout=“this.classname=“fred”



class=“fred”>









<p>



$Content









</p>









</div>









</body>










The term “$Content” is a variable whose value (e.g. “This is some text”) is defined and stored in a database that is populated by the website publisher. If the value of $Content is indeed “This is some text”, then the CMS code above would produce, from the end user browser's perspective, exactly the same web page and content as the non-CMS code above. However, note that by implementing the CMS, the content in the database could be changed to any value (say, for example, “Hello World”) and this would be automatically displayed on the web page the next time it is rendered.


The CMS approach therefore provides an improvement relative to the hard coding of all content into individual web pages in situations where the content is expected to change relatively frequently. However, the CMS approach also has significant drawbacks in that it does not facilitate changes in web page visual aspects. What if, for example, a website publisher wants to change the background color, or more interestingly to change what happens when the end user browser clicks or hovers on certain elements within a web page? How would the publisher add an entirely new web page to display new content?


Changes of this sort are examples of changes to web page visual aspects (including structure, layout, presentation and behavior), and cannot be implemented using current technologies without additional programming.


SUMMARY OF THE INVENTION AND ADVANTAGES

The present invention is addressed to these challenges.


The following summary provides a simplified overview of the subject matter that is described herein, and is not intended to identify any critical elements, nor to delineate the scope of the described or claimed subject matter. The sole purpose of the summary is to outline in a simplified form the aspects of tile subject matter that will be described in greater detail below.


Briefly described, the subject matter disclosed herein relates in various embodiments to systems and methods that support the creation and lifecycle management of all the attributes and methods contained within a typical website in a completely object-oriented manner, such that traditional web programming languages, version control and content management systems are not required. A three tier approach is applied, providing a presentation tier, a logic tier and a storage tier.


At the presentation tier, some of the objects created and managed include:

    • Sitemap and Navigation
    • Pages and layout
    • Page elements (aka widgets)
    • Forms and database views
    • Style, and
    • User event (mouse clicks, key presses, etc) handling


At the logic tier:

    • Business rules, including workflows, and
    • Server-side event handling


And at the storage tier:

    • Configuration and object persistence
    • Structured (headers, footers, body text, lists, blogs, news items—generically “content”) and non structured (e.g., PDF files) user data storage
    • User defined tables, and
    • Search and retrieval of stored data


In contrast to existing website production and delivery systems, the system and method described herein allows each object to be managed (created, updated, versioned) separately from each other, while retaining the relationships (containment, parent, child, sibling, is a, etc.) between the objects. For example, a content display object and its relationship to content items and pages that may contain it.


With this object-oriented design, objects within a website can be created and changed independently from each other without requiring textual programming. Objects are created and configured via a drag/drop or fill-in-the-blank metaphor, as are their behaviors and inter-relationships (e.g. Page to element, Form to table, table to fields, etc.).


According to one aspect of the present invention, there is taught a method of creating and managing websites and their content by providing on a system server a plurality of hierarchical classes of objects, each of the classes representing one aspect of the storage, presentation and logic of a website; providing on a web server an interface operable to present representations of objects instantiating the plurality of hierarchical classes, and receive commands meant to one of instantiate a new object, destroy a presented object, and change a property of a presented object; and storing on a database server objects as a traversable tree in accordance with the plurality of hierarchical classes.


The method further provides for rendering a requested portion of the website by traversing the corresponding portion of the object tree and generating a dynamic webserving in response to the properties of the traversed objects.


Providing an interface might include providing a user-interface or even providing a WYSIWYG user-interface. In that regard, presenting representations of objects might include presenting symbolic representations of objects.


Receiving commands might include receiving user-inputs.





BRIEF DESCRIPTION OF THE DRAWINGS

Other advantages of the present invention will be readily appreciated, as the same becomes better understood by reference to the following detailed description when considered in connection with the accompanying drawings wherein:



FIG. 1 is a UML 2.1 use case diagram illustrating how a website creator, a website manager and website end-user might interact with one embodiment of the present invention;



FIG. 2 is a UML 2.1 deployment diagram illustrating the deployment of the embodiment of FIG. 1 on an internetwork of communication and computing devices;



FIG. 3 is an abstraction layer diagram of a communication and computing devices of FIG. 2, illustrating a hardware layer, operating system layers and an application program layer;



FIG. 4 is a UML 2.1 package diagram illustrating packages of hierarchical classes for representing a website, including a topmost Website class, a presentation tier package, a logic tier package and a storage tier package.



FIG. 5 is a UML 2.1 class diagram illustrating exemplary classes from the presentation tier package;



FIG. 6 is a UML 2.1 class diagram illustrating exemplary classes from the logic tier package;



FIG. 7 is a UML 2.1 class diagram illustrating exemplary classes from the storage tier package;



FIG. 8 is a user interface diagram illustrating a main screen of an editor for creating and managing objects instantiating the classes of FIGS. 4 through 7 to represent a particular website.



FIG. 9 is a UML 2.1 activity diagram illustrating the operation of an object rendering component deployed in FIG. 2.



FIG. 10 is a UML 2.1 activity diagram detailing an exemplary rendering of the object rendering component of FIG. 9.





DETAILED DESCRIPTION OF EMBODIMENTS OF THE INVENTION
Introduction

Referring to the Figures, like numerals indicate corresponding parts throughout the several views.



FIG. 1 generally illustrates a system for creating and managing a website 20 as an object-oriented structure. A website creator 22, website manager 24 and website end user 26 respectively create, manage and use the dynamic website, communicating through their respective web browsers 28 with a web server 30.


TERMINOLOGY

Throughout this specification, the term “web page” refers to the visual aspects of any given page of a website, including layout (e.g. the size and location of visual elements or “widgets” on each page), presentation (e.g. style, colors, and format of widgets), and behavior (e.g. what happens when a user moves a mouse 32, clicks a button or menu, hovers, etc.),


The term “content” refers to the information (e.g. text and graphics, such as, for example, a news article) that is delivered to an end user browser 28 via the web pages of a given website.


The term “webserving” means a portion of code—generally some combination of HTML, CSS and JavaScript—sent from a web server 30 to a web browser 28 to direct the browser 28 to perform desired functionality, such a presenting a webpage or a portion of a webpage.


Those skilled in the art will understand that in an internetworked system 20 an action is often the result of coordinated activities occurring at multiple nodes in the system 20. In the case of a system 20 built on the Internet, these nodes are often distributed ad hoc and unpredictably across multiple jurisdictions. The act ions as described and claimed herein are intended to encompass at least: (a) actions performed directly and completely within the jurisdiction of the patent, (b) actions coordinated within the jurisdiction but with at least some activities performed outside the jurisdiction, (c) actions coordinated outside the jurisdiction but with at least some activities performed within the jurisdiction, and (d) actions performed for the benefit of a node within the jurisdiction or a person using that node. An example of such coordination would be serving a layout for a web page from one node and serving content for insertion into the layout from one or more other nodes, including through the use of server-side scripting, client-side scripting, and AJAX techniques.


Structure



FIG. 2 is a deployment diagram of the system 20, which is deployed as an internetwork 34 of communication and computing devices 36. As will be discussed in greater detail below, the communication and computing devices 36 are variously configured as clients 38, 40, 42 and servers 30, 44, 46. More specifically, a client might be a website creator's client 38, a website manager's client 40 or a website end-user's client 42. A server might be a web server 30, a system server 44 or a database server 46.


Each of the clients 38, 40, 42 might be a duly configured general purpose programmable computer or a more purpose-specific device 36, such as a smartphone, a microbrowser, or portable media viewer with a wireless modem.


A server might similarly be a duly configured general purpose programmable computer, but might also be a farm of such computers or one or more virtualized computers embodied as processes operating on a physical general purpose programmable computer. Such farmed or virtualized computers might themselves be distributed over their own local or wide area network 34, not shown.


In essence, the servers 30, 44, 46 and the clients 38, 40, 42 are roles or functions performed in the system 20 by properly configured devices 36. Multiple roles or functions could be performed by one device 36 and one role or function could be distributed over multiple devices 36. The specific character of a device 36 (and more generally the hardware) and the network 34 topology is important to the extent that it supports the performance of the assigned roles or functions.


The web server 30, system server 44 and database server 46 may be connected together in three-tier fashion to serve the presentation, logic and data aspects of dynamic websites, the web server 30 and the system server 44 communicating in HTML, CSS and JavaScript and the system server 44 and the database server 46 communicating in SQL.


The clients 38, 40, 42 may communicate with the web server 30 using the HTTP protocol to interact with the websites. More particularly, the creator's client may communicate to create a website, the manager's client may communicate to manage a website, and the end-user's client may communicate to use a website.


To implement this arrangement, the devices 36 each host an operating system 48 that provides an execution Environment supporting the required functionality. The operating systems 48 might also support distributed execution among the devices 36.


In this way, the clients 38, 40, 42 each support a browser component 28 to implement communication with the web server 30, for example such as Microsoft Internet Explorer®, Firefox®, Safari® or Opera®. The creator's client and the manager's client might also support an editor applet component 50 to better implement communication with the system server 44 for editing website objects, as will be discussed further below.


Similarly the servers 30, 44, 46 have dedicated components supported by the operating system 48 execution environment. The web server 30 has a web server component 52 that instructs it on how to perform its role as a web server 30, for example Apache® Apache®, Microsoft Internet Information Services® or Google® Google Web Server 30®. The system server 44 has an object editor component 54 and an object renderer component 56 that respectively instruct it on how to create, modify and destroy objects that represent aspects of a website and to render the objects into webservings that can be communicated by the web server 30. The database server 46 has a database management system component 58 that instructs it on how to create, store, search, maintain and destroy objects that represent aspects of a website drawn from a website package 60 of classes, which will be described further with respect to FIGS. 4-7.



FIG. 3 illustrates a common construction of a communication and computing device 36, including a general purpose programmable computer. These devices 36 have a hardware layer 62, an operating system layer 64 and an application program layer 66. Those skilled in the art will recognize the aspects in which like virtualized hardware and devices 36 depart from like physical ones.


The hardware layer 62 provides the device 36 with computing and communication hardware, including: (a) a processor 68 to execute processes of instructions and compute data, (b) user-input hardware such as a keyboard 70 and a selection device 72 (for example a mouse 32) to receive input from a user, (c) user-output hardware such as a video display 74 to provide information to a user, (d) mass storage 76 such as electromagnetic, optical or nonvolatile solid-state media to store data and processing instruction s, (e) memory such as read only memory 78 and random access memory 80 to store data and processing instructions, and (f) a network interface 82 to support communication with other devices 36 in accordance with known protocols such as TCP/IP, all interconnected by buses such as address and data buses and control lines such as interrupt and clock lines and such other connections and components as is conventionally required and known in the art.


Stored in a portion of the read only memory 78 and the mass storage 76 are the components of the operating system layer 64, for example LINUX® or Microsoft® Windows® Server® for a device 36 such as general purpose programmable computer configured as a server 30, 44, 46 or LINUX® or Microsoft Windows® VISTA® for a device 36 configured as a client 38, 40, 42, or even Microsoft® Windows® CE® for a portable such client 38, 40, 42 device 36. The operating system layer 64 provides the basic instructions to direct the processor 68 how to interact with the other hardware described above and more generally how to perform the functions of a communication and computing device 36, including storing, accessing and computing data, and communicating with other devices 36.


The operating system layer 64 also presents an application program interface 84 to the application program layer 66, so the processor 68 can execute more sophisticated combinations of processes under the direction of higher level application programs stored in mass storage 76 and loaded into RAM 80 for execution, for example the components described in FIG. 2.



FIG. 4 illustrates packages 60, 86, 88, 90 of classes for completely representing a dynamic website in an object-oriented manner. In this regard, there is provided a Website package 60 that contains classes and packages 60, 86, 88, 90 for representing a dynamic website. The Website package 60 contains a Website class 92 that provides attributes and operations representing the overall nature of a website and further contains a Presentation Tier package 86, a Logic Tier package 88, and a Storage Tier package 90 that in turn contain classes that represent more particular aspects of the website.



FIG. 5 shows an example hierarchy of classes below the Website class 92 for representing presentation aspects of the website and inclusion in the presentation tier package 86. Thus for example, the presentation tier package 86 could include a User Event Handling class 94 for handling client-side user-events and a Styles class 96 for specifying the style of the website. The presentation tier package 86 could also include a Navigation class 98, for example a Sitemap class 100, for defining ways to navigate the website. The presentation tier package 86 might also include a Pages class 102 for defining aspects of each webpage, in cooperation with a Layout class 103 for defining visual layout aspects or the webpage and a Page Elements 104 class for representing page widgets, for example database 58 views and forms as represented respectively by a Database Views class 106 and a Forms class 108.



FIG. 6 shows an example hierarchy of classes below the Website class 92 for representing logic aspects of the website and inclusion in the logic tier package 88. Thus for example, the logic tier package 88 could include a Server-Side Event Handling class 110 for handling server-side events and a Business Rules class 112 for representing the business rules that establish the logical operation of the website, for example workflows as represented by a Work Flows class 114.



FIG. 7 shows an example hierarchy of classes below the Website class 92 for representing storage aspects of the website and inclusion in the storage tier package 90. Perhaps most importantly, the storage tier package 90 includes a Data Source class 115 to enable objects to be either local, for example on the website manager's 24 own network, or hosted by a software as a service vendor on the system 20. Thus for example, the website manager's 24 own network might provide a web application that the system 20 can interact with via objects of the Data Sources class 115 to allow an end-user 26 to access and interact with the local application via web pages that are created and managed by the system 20. In this regard, “Data Sources” are a class of object in the system 20 that sit on top of the data tier and contains and abstracts the information needed for the system 20 to “bind” to a set of web services exposed by any web application, which may encapsulate its own set of presentation, logic and storage tier objects. In the hosted case, objects of the Data Sources class 115 simply point to data objects within the system 20. In this way, the website manager 24 can create web pages that render content from data objects that are stored and managed in other business applications that are exposed to the internet via XML web services, for example SOAP and REST.


The storage tier package 90 could also include a Digital Assets 116 class for representing digital assets 116 and a Databases class 118 for representing databases. The Databases class 118 could include a number of aggregate classes, including a User-Defined Tables class 120 for representing the data structure, including for example fields represented by a User Fields class 122, a Search Queries class 124 for representing search queries, and a Search Query Results class 124, 126 for representing query results. The storage tier package 90 might also include an Object Configuration class 128 for representing the configuration of objects, including for example object persistence as represented by an Object Persistence class 130. Additionally, the storage tier package 90 might include classes for representing content for the website, for example a Content Lists class 132 that represents a cataloguing of content items as represented by a Content Items class 134. The Content Items class 134 might in turn include a number of aggregate classes such as a User Data—Nonstructured class representing unstructured data and a User Data—Structured class representing structured data, for example data having an author, title and body as respectively represented by an Author class 140, a Title class 142, and a Body class 144.


Those skilled in the art will recognize the hierarchical nature of the classes and packages 60, 86, 88, 90 contained in the Website package 60, such that traversing the tree of the hierarchy will produce a definition of the website or of that portion defined by the portion of the tree traversed.


Thus FIGS. 4-7 graphically depict the types of classes within an exemplary system 20 and the relationships between them. Many sites, as well as their child objects, can be hosted and managed by the system 20 at once. As shown, a site object can contain one or more page objects which, in turn, can contain one or more widgets (page elements 104), etc.


Each of the objects of the system 20 has a defined set of behaviors, properties and events. Once a site object has been created, the manager can create, update and delete styles, pages, content lists, database 58 tables, workflows and digital assets 116 completely independently from each other. All object configurations are stored in the database management system 58 to enforce data integrity, versioning, search and retrieval.


After a site and its related objects have been configured, the system 20 is ready to serve data to client browser 28 requests. When a browser 28 requests data (e.g. a particular web page), the system 20 dynamically creates the data necessary for the web browser 28 to render the page accurately to the end user. This is done by traversing the object tree associated with a given request, reading the correct version of each object from the database 58, binding all object data together and lastly creating an HTML representation of the requested data. This technique allows all of a web site's objects to be treated and handled in a truly object-oriented manner on the server side while ultimately transforming them into the structural elements (HTML, CSS, Image files) needed by a web browser 28 to render and interact with end-users of the website.



FIG. 8 shows a graphical user interface 146 of the object editor component 54, presented by the browser component 28 on the creator's client or the manager's client, with the assistance of the editor applet component 50 if one exists, to enable the creator or manager to interact with the object editor component 54 on the system 20 sever via the web server 30 for the purpose of creating, modifying or destroying objects instantiating classes in the Website package 60 to create or manage a website.


The GUI 146 includes four main regions, a WYSIWYG design region 148, an objects catalog region 150, an object property table region 152, and a button pad region 154.


The catalog region includes an existing objects list 156 that catalogs all objects that currently exist to represent aspects of the website and an object palette 158 that catalogs all available classes for representing aspects of a website for which objects may be instantiated.


The design region 148 provides a “what-you-see-is-what-you-get” area for laying out the presentation aspects of a portion of a website, for example placing and sizing content item objects 160 (“widgets”). A context menu 162 may be available to conveniently set various common properties of a selected one of the content item objects 160.


The object property table 152 provides a way to inspect and modify the properties of a selected object, including objects that may not be conveniently represented in the design region 148 such as objects instantiating classes in the logic tier package 88 or the storage tier package 90.


The button pad region 154 provides a create button 164, a destroy button 166 and a modify button 168. The create button 164 instantiates an object selected from the object palette 158 and presents it for inspection and modification in the object property table 152. The destroy button 166 destroys the selected object. The modify button 168 presents the selected object in the object property table 152 from inspection and modification.


Operation—Creating and Managing


In operation, a website creator 22 or website manager 24 creates or manages a website through the GUI 146 described in FIG. 8. He can select from the existing objects catalog 150 any of the objects that currently represent aspects of the website and the selected object will be presented in the object property table 152 and, in the case of objects that can be represented by the WYSIWYG paradigm, selected in the design region 148. The properties of the selected object can be modified in the object property table 152 upon pressing the modify button 168. Alternatively, common properties of objects presented in the design region 148 can be modified using the context menu 162.


Objects in the WYSIWYG design area can be selected, moved, resized, reflowed, etc. as directed by the mouse 32 or another user input device 36. New objects can be dragged from the object palette 158 and placed as desired onto the design area.


Pressing the create button 164 instantiates an object selected from the object palette 158 and presents it for inspection and modification in the object property table 152. Pressing the destroy button 166 destroys the selected object.


In general, the object editor (presented in a standard web browser 28) hosts web pages and objects that form the user interface for creating and managing websites, including pages, forms, tables and structured content. All user interface elements within the object editor can be hosted in an AJAX standard web browser 28 with no client-side plug ins. The object editor sends user input and receives and renders system 20 responses via standard internet technologies, namely using the AJAX design pattern along with XHMTL compatible data, all transferred via http to a standard web server 30.


The web server 30 redirects all traffic from the object editor (or from the client's browser 28) to the system server 44. In simplest terms, the system server 44 is responsible for storing page and content data changes received from configuration tool or from display, and returning data changes in a manner that is compatible for a browser 28 to properly render it visually. All data changes are stored and retrieved from relational database 58. In this regard, the web server 30 provides an interface operable to present representations of and functions as means for representing objects instantiating the plurality of hierarchical classes and to receive commands meant to one of: (1) instantiate a new object, (2) destroy a presented object, and (3) change a property of a presented object. As embodied, this interface includes a user-interface and in fact a WYSIWYG user-interface, this representation includes symbolic representation and the commands include user-input.


The database server 46 performs standard database 58 tasks for the system 20, including: persistence and retrieval, indexing and search, transactions and rollback, enforcement of data typing and relational integrity as well as replication and archiving.


At a deeper level, the system server 44 consists of a complete or partial set of the objects that define a website, with one topmost Website object for each user's web site, as well as objects for each page, table, content item, etc. that a given site may contain. Each object is derived from a set of hierarchical classes and sub-classes that allow each object to:

    • store and retrieve their own configuration data from the database 58;
    • store and manage an indefinite history of changes to itself such that any previous state of itself can be restored should the latest version of an object not be what a user wants;
    • render itself in a manner that is compatible with web browsers 28;
    • accept user input and process it in an object specific way; and,
    • define their own rules for how to handle user—or system 20 events. E.g., Mouse 32 clicks or record adds/updates.


In this regard, system server 44 provides and functions as means for providing a plurality of hierarchical classes of objects, each of the classes representing one aspect of the storage, presentation and logic of a website.


By using object orientation, new object in stances (or classes of objects) can be added to the system 20 or changed without affecting other objects in the system 20. Further, new objects can be derived from existing objects, thereby inheriting the features of the base object while still allowing customization of the new object. For example, a blog object can be created that is based upon the content list object, thereby inheriting its storage and enumeration mechanism while allowing its own, encapsulated version control. In this regard, the database server 46 stores and functions as means for storing objects as a traversable tree in accordance with the plurality of hierarchical classes.


Operation—Using


Referring now to FIGS. 2 and 9, when a website end-user 26 wants to use a website, he directs the browser component 28 on his device 36 to the web server 30 to request presentation of a particular portion of the website. That portion might be a webpage or a lesser portion, for example in the case of AJAX techniques.


The web server component 52 on the web server 30 receives this request and conveys it to the system server 44, where the object renderer component 56 receives it.


In a receipt and parsing step 170, the request for webserving is parsed to determine what is being requested and what portion of the website the request relates to.


In a define webserving step 172, the objects that define the portion of the website relevant to the request are read by traversing the tree hierarchy of the objects.


In a render webserving step 174, a webserving is assembled in HTML, CSS and JavaScript code that renders requested portion of the website as defined in the relevant objects.


In a transmit webserving step 176, the webserving is transmitted to the web server 30 for transmission to the browser component 28 of the end-user.



FIG. 10 illustrates an example traversal of the hierarchy of objects defining a webpage during execution of the define webserving step 172. In this example traversal, the overall website object is read 178, then the relevant page object is read 180, then in parallel two relevant page widget objects are read. With respect to one of the two page widget objects, a database view object is read 182, which ends the traversal of that branch. With respect to the other one of the two page widget objects, a content list object is read 184, following which a content item object is read 186, which ends the traversal of the other branch and the relevant portion of the tree.


Thus the system server 44 renders and functions as means for rendering a requested portion of a website by traversing the corresponding portion of the object tree and generating a dynamic webserving in response to the properties of the traversed objects.


In greater detail, referring back to FIG. 9, when the end-user requests a given web page within a given site, the request (via an URL—e.g., http://yoursite.com/page1) is transferred via the web server 30 and http to the system server 44. Within the system server 44, the top level website object locates requested page object from the object repository in the DBMS 58. Next, the “published version” of the page object enumerates all of the published versions of each widget object(s) contained within the requested page object and tells them to create themselves. Note that the page object has no knowledge of the internals of each widget: their versioning information, data format on disk or how they behave is all encapsulated within each widget object. Note also that any changes to the page (e.g., new/deleted/updated widgets) would automatically be reflected each time a page is requested.


Once each page widget is created in memory, it is activated—allowing each widget to run its own specific code and bind to its data. In the case of content block widgets or “list viewers”, the data is retrieved by binding to and reading from content list objects. Each widget on a given page binds its own data source; for example, with reference to FIG. 10, the page binds the content block widget and the other widget, and the other widget binds its data source.


Once a content list object is requested by a content block widget, it enumerates and creates its child objects, content item(s). Again, each list item is an object, encapsulating the knowledge of its internal versions and state information, as well as how to read, process and present its data within itself.


Once each page widget object has been created, performed its initialization, and received its data from it data sources (e.g., content lists), it renders itself within the page container for viewing in the end-user's browser 28. That is, each widget dynamically produces the HTML, CSS and JavaScript necessary within the requested page for rendering in the web browser 28 and processing of user input.


Lastly, the system server 44 sends the fully rendered page (or only the changed portion of the page if the page is already loaded within the end-user's browser 28) back to the end-user's browser 28 for presentation and user input.


Obviously, many modifications and variations of the present invention are possible in light of the above teachings and may be practiced otherwise than as specifically described while within the scope of the appended claims. In addition, the reference numerals in the claims are merely for convenience and are not to be read in any way as limiting.

Claims
  • 1. A method for creating and managing a website, comprising: providing, via an electronic computing device, a graphical user interface to allow a user to create and manage the website;providing, via a system server computing device, a plurality of hierarchical classes of objects to allow components of the website to be created, updated, and deleted independently from each other, wherein the plurality of hierarchical classes of objects comprise at least classes for completely representing the website in an object-oriented manner with at least a presentation tier package, a logic tier package, and a storage tier package that in turn contain classes that represent particular aspects of the website;storing, in a database management system on a database server computing device in communication with the system server computing device, object configurations for the plurality of hierarchical classes of objects to enforce data integrity, versioning, search, and retrieval;storing, in the database management system on the database server computing device, the plurality of hierarchical classes of objects as a traversable object tree in accordance with the plurality of hierarchical classes of objects; andgenerating, by the system server computing device, a user-requested portion of the website using a defined set of behaviors, properties, and events stored in an object configuration associated with each of the traversed objects from a corresponding portion of the traversable object tree.
  • 2. The method of claim 1, wherein the logic tier package comprises at least a server-side event handling class for handling server-side events and a business rules class for representing business rules that establish a logical operation of the website.
  • 3. The method of claim 1, wherein the system server computing device is further operable to provide a complete or partial set of objects that define a website, with one topmost website object for each user's website, as well as objects for each page, table, and content item that a given website contains, and wherein each object of the complete or partial set of objects is derived from a set of hierarchical classes and sub-classes that allow each object of the complete or partial set of objects to store and retrieve their own configuration data from the database management system on the database server computing device, store and manage an indefinite history of changes to itself such that any previous state of itself can be restored, and render itself in a manner that is compatible with web browsers.
  • 4. A non-transitory computer-readable medium having stored thereon instructions to create and manage a website, the instructions, when executed by one or more processors, cause the one or more processors to: provide, via an electronic computing device, a graphical user interface to allow a user to create and manage the website;provide, via a system server computing device, a plurality of hierarchical classes of objects to allow components of the website to be created, updated, and deleted independently from each other, wherein the plurality of hierarchical classes of objects comprise at least classes for completely representing the website in an object-oriented manner with at least a presentation tier package, a logic tier package, and a storage tier package that in turn contain classes that represent particular aspects of the website;store, in a database management system on a database server computing device in communication with the system server computing device, object configurations for the plurality of hierarchical classes of objects to enforce data integrity, versioning, search, and retrieval;store, in the database management system on the database server computing device, the plurality of hierarchical classes of objects as a traversable object tree in accordance with the plurality of hierarchical classes of objects; andgenerate, by the system server computing device, a user-requested portion of the website using a defined set of behaviors, properties, and events stored in an object configuration associated with each of the traversed objects from a corresponding portion of the traversable object tree.
  • 5. The non-transitory computer-readable medium of claim 4, wherein the logic tier package comprises at least a server-side event handling class for handling server-side events and a business rules class for representing business rules that establish a logical operation of the website.
  • 6. The non-transitory computer-readable medium of claim 4, wherein the system server computing device is further operable to provide a complete or partial set of objects that define a website, with one topmost website object for each user's website, as well as objects for each page, table, and content item that a given website contains, and wherein each object of the complete or partial set of objects is derived from a set of hierarchical classes and sub-classes that allow each object of the complete or partial set of objects to store and retrieve their own configuration data from the database management system on the database server computing device, store and manage an indefinite history of changes to itself such that any previous state of itself can be restored, and render itself in a manner that is compatible with web browsers.
  • 7. A system to create and manage a website, the system comprising: a database; andone or more processors coupled with the database, the one or more processors to provide a graphical user interface to allow a user to create and manage the website, to provide a plurality of hierarchical classes of objects to allow components of the website to be created, updated, and deleted independently from each other, wherein the plurality of hierarchical classes of objects comprise at least classes for completely representing the website in an object-oriented manner with at least a presentation tier package, a logic tier package, and a storage tier package that in turn contain classes that represent particular aspects of the website, to cause to be stored in the database, object configurations for the plurality of hierarchical classes of objects to enforce data integrity, versioning, search, and retrieval, to cause to be stored in the database, the plurality of hierarchical classes of objects as a traversable object tree in accordance with the plurality of hierarchical classes of objects, and to generate a user-requested portion of the website using a defined set of behaviors, properties, and events stored in an object configuration associated with each of the traversed objects from a corresponding portion of the traversable object tree.
  • 8. The system of claim 7, wherein the logic tier package comprises at least a server-side event handling class for handling server-side events and a business rules class for representing business rules that establish a logical operation of the website.
  • 9. The system of claim 7, wherein the one or more processors are further operable to provide a complete or partial set of objects that define a website, with one topmost website object for each user's website, as well as objects for each page, table, and content item that a given website contains, and wherein each object of the complete or partial set of objects is derived from a set of hierarchical classes and sub-classes that allow each object of the complete or partial set of objects to store and retrieve their own configuration data from a database management system, store and manage an indefinite history of changes to itself such that any previous state of itself can be restored, and render itself in a manner that is compatible with web browsers.
CROSS REFERENCE TO RELATED APPLICATIONS

This United States continuation patent application claims the benefit of U.S. patent application Ser. No. 14/283,028 filed May 20, 2014 which issued as U.S. Pat. No. 9,195,437 on Nov. 24, 2015, which claims the benefit of U.S. patent application Ser. No. 12/935,890 filed Sep. 30, 2010 which issued as U.S. Pat. No. 8,762,938 on Jun. 24, 2014, which claims the benefit of Section 371 National Stage Application of International Application No. PCT/CA2009/000569 filed Apr. 28, 2009, which claims the benefit of U.S. Provisional Application No. 61/048,516 filed Apr. 28, 2008, the entire contents of which are incorporated herein by reference.

US Referenced Citations (256)
Number Name Date Kind
5388214 Leiserson et al. Feb 1995 A
5577188 Zhu Nov 1996 A
5608872 Schwartz et al. Mar 1997 A
5649104 Carleton et al. Jul 1997 A
5715450 Ambrose et al. Feb 1998 A
5761419 Schwartz et al. Jun 1998 A
5815703 Copeland et al. Sep 1998 A
5819038 Carleton et al. Oct 1998 A
5821937 Tonelli et al. Oct 1998 A
5831610 Tonelli et al. Nov 1998 A
5873096 Lim et al. Feb 1999 A
5918159 Fomukong et al. Jun 1999 A
5963953 Cram et al. Oct 1999 A
6031987 Damani et al. Feb 2000 A
6092083 Brodersen et al. Jul 2000 A
6169534 Raffel et al. Jan 2001 B1
6178425 Brodersen et al. Jan 2001 B1
6189011 Lim et al. Feb 2001 B1
6216135 Brodersen et al. Apr 2001 B1
6233617 Rothwein et al. May 2001 B1
6249291 Popp et al. Jun 2001 B1
6266669 Brodersen et al. Jul 2001 B1
6272537 Kekic et al. Aug 2001 B1
6295530 Ritchie et al. Sep 2001 B1
6324568 Diec Nov 2001 B1
6324693 Brodersen et al. Nov 2001 B1
6336137 Lee et al. Jan 2002 B1
6341262 Damani et al. Jan 2002 B1
D454139 Feldcamp Mar 2002 S
6367077 Brodersen et al. Apr 2002 B1
6393386 Zager et al. May 2002 B1
6393605 Loomans May 2002 B1
6405220 Brodersen et al. Jun 2002 B1
6429880 Marcos et al. Aug 2002 B2
6434550 Warner et al. Aug 2002 B1
6446089 Brodersen et al. Sep 2002 B1
6505212 Nakano et al. Jan 2003 B2
6535909 Rust Mar 2003 B1
6546397 Rempell Apr 2003 B1
6549908 Loomans Apr 2003 B1
6553563 Ambrose et al. Apr 2003 B2
6560461 Fomukong et al. May 2003 B1
6560639 Dan et al. May 2003 B1
6574635 Stauber et al. Jun 2003 B2
6577726 Huang et al. Jun 2003 B1
6581063 Kirkman Jun 2003 B1
6601087 Zhu et al. Jul 2003 B1
6604117 Lim et al. Aug 2003 B2
6604128 Diec Aug 2003 B2
6609150 Lee et al. Aug 2003 B2
6621834 Scherpbier et al. Sep 2003 B1
6636886 Katiyar et al. Oct 2003 B1
6654032 Zhu et al. Nov 2003 B1
6665648 Brodersen et al. Dec 2003 B2
6665655 Warner et al. Dec 2003 B1
6684438 Brodersen et al. Feb 2004 B2
6711565 Subramaniam et al. Mar 2004 B1
6724399 Katchour et al. Apr 2004 B1
6728702 Subramaniam et al. Apr 2004 B1
6728960 Loomans Apr 2004 B1
6732095 Warshavsky et al. May 2004 B1
6732100 Brodersen et al. May 2004 B1
6732111 Brodersen et al. May 2004 B2
6732332 Borysewicz et al. May 2004 B1
6754681 Brodersen et al. Jun 2004 B2
6763351 Subramaniam et al. Jul 2004 B1
6763501 Zhu et al. Jul 2004 B1
6768904 Kim Jul 2004 B2
6769032 Katiyar et al. Jul 2004 B1
6782383 Subramaniam et al. Aug 2004 B2
6792454 Nakano et al. Sep 2004 B2
6792475 Arcuri et al. Sep 2004 B1
6804330 Jones et al. Oct 2004 B1
6826565 Ritchie et al. Nov 2004 B2
6826582 Chatterjee et al. Nov 2004 B1
6826745 Coker et al. Nov 2004 B2
6829655 Huang et al. Dec 2004 B1
6842748 Warner et al. Jan 2005 B1
6850895 Brodersen et al. Feb 2005 B2
6850949 Warner et al. Feb 2005 B2
6889260 Hughes May 2005 B1
6938050 Le et al. Aug 2005 B2
6957218 Wyatt Oct 2005 B1
6961750 Burd et al. Nov 2005 B1
6968372 Thompson et al. Nov 2005 B1
6985927 O'Brien et al. Jan 2006 B2
7003528 Dan et al. Feb 2006 B2
7003777 Hines Feb 2006 B2
7020722 Sivier et al. Mar 2006 B2
7032225 Wang et al. Apr 2006 B2
7092995 Kaler et al. Aug 2006 B2
7171664 Wang et al. Jan 2007 B2
7246054 Szymanski et al. Jul 2007 B2
7287215 Arcuri et al. Oct 2007 B2
7330722 Kirtley et al. Feb 2008 B1
7340411 Cook Mar 2008 B2
7441008 Johnson Oct 2008 B2
7451393 Herbison et al. Nov 2008 B1
7523214 Kikkawa et al. Apr 2009 B2
7620655 Larsson et al. Nov 2009 B2
7627649 Saras Dec 2009 B2
7689593 Becker Mar 2010 B2
7752258 Lewin et al. Jul 2010 B2
7930318 Becker Apr 2011 B2
8190679 Gay et al. May 2012 B1
8306979 Mao et al. Nov 2012 B2
8364540 Soroca et al. Jan 2013 B2
8397223 Chiang Mar 2013 B2
8402427 Chiang Mar 2013 B2
8442996 Maim May 2013 B2
8607139 Alexander Dec 2013 B2
8615583 Plamondon Dec 2013 B2
8671021 Maharajh et al. Mar 2014 B2
8819187 Hofmann Aug 2014 B1
8825830 Newton et al. Sep 2014 B2
8855469 Maharajh et al. Oct 2014 B2
8924412 Rhoads et al. Dec 2014 B2
8994815 Mito et al. Mar 2015 B2
9064010 Maharajh et al. Jun 2015 B2
9124650 Maharajh et al. Sep 2015 B2
9223892 Calvin et al. Dec 2015 B2
9276995 Calvin et al. Mar 2016 B2
9648125 Flack et al. May 2017 B2
20010037490 Chiang Nov 2001 A1
20010044791 Richter et al. Nov 2001 A1
20020022986 Coker et al. Feb 2002 A1
20020029161 Brodersen et al. Mar 2002 A1
20020029376 Ambrose et al. Mar 2002 A1
20020035577 Brodersen et al. Mar 2002 A1
20020042264 Kim Apr 2002 A1
20020042843 Diec Apr 2002 A1
20020046245 Hillar et al. Apr 2002 A1
20020049697 Nakano et al. Apr 2002 A1
20020059558 Hines May 2002 A1
20020072951 Lee et al. Jun 2002 A1
20020082892 Raffel et al. Jun 2002 A1
20020095423 Dessloch et al. Jul 2002 A1
20020129352 Brodersen et al. Sep 2002 A1
20020133561 O'Brien et al. Sep 2002 A1
20020133637 Popp et al. Sep 2002 A1
20020140731 Subramaniam et al. Oct 2002 A1
20020143997 Huang et al. Oct 2002 A1
20020152102 Brodersen et al. Oct 2002 A1
20020161734 Stauber et al. Oct 2002 A1
20020162090 Parnell et al. Oct 2002 A1
20020165742 Robins Nov 2002 A1
20030004971 Gong et al. Jan 2003 A1
20030014442 Shiigi et al. Jan 2003 A1
20030018705 Chen et al. Jan 2003 A1
20030018830 Chen et al. Jan 2003 A1
20030028517 Nakano et al. Feb 2003 A1
20030037119 Austin Feb 2003 A1
20030050929 Bookman et al. Mar 2003 A1
20030066031 Laane Apr 2003 A1
20030066032 Ramachandran et al. Apr 2003 A1
20030069936 Warner et al. Apr 2003 A1
20030070000 Coker et al. Apr 2003 A1
20030070004 Mukundan et al. Apr 2003 A1
20030070005 Mukundan et al. Apr 2003 A1
20030074418 Coker Apr 2003 A1
20030088545 Subramaniam et al. May 2003 A1
20030093569 Sivier et al. May 2003 A1
20030097664 Meyers May 2003 A1
20030120675 Stauber et al. Jun 2003 A1
20030151633 George et al. Aug 2003 A1
20030159136 Huang et al. Aug 2003 A1
20030182308 Ernst et al. Sep 2003 A1
20030187821 Cotton et al. Oct 2003 A1
20030187921 Diec Oct 2003 A1
20030189600 Gune et al. Oct 2003 A1
20030191743 Brodersen et al. Oct 2003 A1
20030204427 Gune et al. Oct 2003 A1
20030204810 Dam et al. Oct 2003 A1
20030206192 Chen et al. Nov 2003 A1
20030217117 Dan et al. Nov 2003 A1
20030225730 Warner et al. Dec 2003 A1
20030226132 Tondreau et al. Dec 2003 A1
20040001092 Rothwein et al. Jan 2004 A1
20040010489 Rio Jan 2004 A1
20040015981 Coker et al. Jan 2004 A1
20040024578 Szymanski et al. Feb 2004 A1
20040027388 Berg et al. Feb 2004 A1
20040111398 England et al. Jun 2004 A1
20040111728 Schwalm Jun 2004 A1
20040117795 Wang et al. Jun 2004 A1
20040123238 Hefetz et al. Jun 2004 A1
20040123293 Johnson Jun 2004 A1
20040128001 Levin et al. Jul 2004 A1
20040167989 Kline et al. Aug 2004 A1
20040186860 Lee et al. Sep 2004 A1
20040193510 Catahan, Jr. et al. Sep 2004 A1
20040199489 Barnes-Leon et al. Oct 2004 A1
20040199536 Barnes Leon et al. Oct 2004 A1
20040199543 Braud et al. Oct 2004 A1
20040215604 Ivanov Oct 2004 A1
20040230983 Shi et al. Nov 2004 A1
20040249854 Barnes-Leon et al. Dec 2004 A1
20040260534 Pak et al. Dec 2004 A1
20040260659 Chan et al. Dec 2004 A1
20040268299 Lei et al. Dec 2004 A1
20050004903 Tsuda et al. Jan 2005 A1
20050005089 Eckhart et al. Jan 2005 A1
20050015357 Shahidi Jan 2005 A1
20050028081 Arcuri et al. Feb 2005 A1
20050050555 Exley et al. Mar 2005 A1
20050060687 Ghazaleh et al. Mar 2005 A1
20050091026 Hodgson et al. Apr 2005 A1
20050091098 Brodersen et al. Apr 2005 A1
20050138086 Pecht-Seibert Jun 2005 A1
20050223022 Weissman et al. Oct 2005 A1
20050235256 Freydl Oct 2005 A1
20050246627 Sayed Nov 2005 A1
20060206599 Milligan et al. Sep 2006 A1
20060212531 Kikkawa et al. Sep 2006 A1
20060218180 Bodlaender et al. Sep 2006 A1
20060294500 Chiang Dec 2006 A1
20070061408 Saras Mar 2007 A1
20070129928 Lin et al. Jun 2007 A1
20070162969 Becker Jul 2007 A1
20070204013 Castrucci Aug 2007 A1
20070214113 Lei et al. Sep 2007 A1
20080010381 Barraclough et al. Jan 2008 A1
20080052668 Craig et al. Feb 2008 A1
20080140759 Conner et al. Jun 2008 A1
20080140760 Conner et al. Jun 2008 A1
20080140857 Conner et al. Jun 2008 A1
20080172608 Patrawala et al. Jul 2008 A1
20080207182 Maharajh et al. Aug 2008 A1
20080222397 Wilkerson et al. Sep 2008 A1
20080288451 Jiang et al. Nov 2008 A1
20080288608 Johnson Nov 2008 A1
20080290987 Li Nov 2008 A1
20090037460 Medicke et al. Feb 2009 A1
20090106356 Brase et al. Apr 2009 A1
20090150518 Lewin et al. Jun 2009 A1
20090248793 Jacobsson et al. Oct 2009 A1
20100017368 Mao et al. Jan 2010 A1
20100095197 Klevenz et al. Apr 2010 A1
20100185614 O'Brien et al. Jul 2010 A1
20100250599 Schmidt et al. Sep 2010 A1
20100325583 Aarni et al. Dec 2010 A1
20110071901 Fries Mar 2011 A1
20110276664 Prahlad et al. Nov 2011 A1
20120010995 Skirpa et al. Jan 2012 A1
20120011167 Schmidt Jan 2012 A1
20120174064 Polly et al. Jul 2012 A1
20130097664 Herz et al. Apr 2013 A1
20130136253 Liberman Ben-Ami et al. May 2013 A1
20140089459 Werr Mar 2014 A1
20140173054 Varney et al. Jun 2014 A1
20140230076 Micucci et al. Aug 2014 A1
20150135300 Ford May 2015 A1
20150163206 McCarthy et al. Jun 2015 A1
20150310188 Ford et al. Oct 2015 A1
20160224638 Bestler et al. Aug 2016 A1
20160255139 Rathod Sep 2016 A1
Foreign Referenced Citations (4)
Number Date Country
2002032299 Jan 2002 JP
2002049585 Feb 2002 JP
WO-2005062211 Jul 2005 WO
WO-2007092373 Aug 2007 WO
Non-Patent Literature Citations (44)
Entry
Notice of Allowance from U.S. Appl. No. 15/041,425 mailed Aug. 12, 2016, 11 pgs.
Notice of Allowance for U.S. Appl. No. 14/954,879 mailed Aug. 26, 2016, 7 pgs.
“Responsive Layout Templates”, <http://www.ibm.com/support/knowledgecenter/SSZLC2—7.0.0/com.ibm.commerce.aurora-starterstore.doc/refs/rsmaurorasa—rwdtemplates.htm> 3 pgs.
Gaul, Patricket al., “Supporting Mobile Devices with Microsoft Content Management Server 2002”, <https://msdn.microsoft.com/en-us/library/ms964284.aspx> May 2003, 56 pgs.
Notice of Allowance from U.S. Appl. No. 14/954,879 mailed Dec. 19, 2016, 10 pgs.
Final Office Action from U.S. Appl. No. 13/310,525 mailed Jan. 12, 2017, 32 pgs.
Final Office Action for U.S. Appl. No. 13/310,525 mailed Jan. 4, 2016, 31 pages.
Examination Report for European Patent Application No. 09737586.9 mailed Nov. 18, 2015, 4 pages.
Office Action for U.S. Appl. No. 15/041,425 mailed Apr. 22, 2016, 19 pages.
Office Action for U.S. Appl. No. 13/310,525 mailed Jun. 16, 2016, 30 pages.
Office Action for U.S. Appl. No. 14/954,879 mailed May 6, 2016, 15 pages.
Office Action for Canadian Patent Application No. 2720897 mailed Dec. 16, 2013, 3 pages.
Notice of Allowance for U.S. Appl. No. 12/935,890, mailed Feb. 12, 2014, 15 pages.
International Search Report and Written Opinion for PCT/CA2009/000569 mailed Jul. 27, 2009, 10 pages.
International Preliminary Report on Patentability for PCT/CA2009/000569 mailed Nov. 11, 2010, 8 pages.
Notice of Allowance for U.S. Appl. No. 14/592,804 mailed Oct. 14, 2015, 8 pages.
Notice of Allowance for U.S. Appl. No. 13/248,459 mailed Sep. 9, 2014, 10 pages.
Final Office Action for U.S. Appl. No. 13/248,459 mailed Sep. 30, 2013, 11 pages.
Office Action for U.S. Appl. No. 13/248,459 mailed Apr. 18, 2014, 12 pages.
Office Action for U.S. Appl. No. 13/248,459 mailed Mar. 7, 2013, 10 pages.
Non-Final Office Action for U.S. Appl. No. 13/310,525 mailed Aug. 31, 2015, 26 pages.
Notice of Allowance for U.S. Appl. No. 13/248,472 mailed Aug. 24, 2015, 14 pages.
Final Office Action for U.S. Appl. No. 13/310,525 mailed Apr. 22, 2015, 24 pages.
Non-Final Office Action for U.S. Appl. No. 14/283,028 mailed Mar. 18, 2015, 21 pages.
Non-Final Office Action for U.S. Appl. No. 14/592,804 mailed Mar. 27, 2015, 14 pages.
Non-Final Office Action for U.S. Appl. No. 13/248,472 mailed Feb. 27, 2015, 8 pages.
Final Office Action for U.S. Appl. No. 14/592,804 mailed Jul. 9, 2015, 13 pages.
Notice of Allowance for U.S. Appl. No. 14/283,028 mailed Jul. 8, 2015, 16 pages.
Non-Final Office Action for U.S. Appl. No. 13/310,525 mailed Oct. 10, 2014, 28 pages.
Non-Final Office Action for U.S. Appl. No. 12/935,890, mailed Jan. 28, 2013, 16 pages.
Non-Final Office Action for U.S. Appl. No. 12/935,890, mailed Jul. 9, 2013, 26 pages.
Notice of Allowance for U.S. Appl. No. 12/935,890, mailed May 15, 2014, 2 pages.
Office Action for Canadian Patent Application No. 2,720,897 mailed Jan. 18, 2013, 3 pgs.
Office Action for U.S. Appl. No. 12/895,715 mailed Oct. 12, 2012, 18 pgs.
Notice of Allowance for U.S. Appl. No. 12/895,713 mailed Jun. 25, 2013, 18 pages.
Examination Report for European Patent Application No. 09737586.9 mailed Nov. 14, 2013, 6 pages.
Atterer, et al. “Tracking the Interaction of Users with AJAX Applications for Usability Testing,” Apr./May 2007, ACM, p. 1347-1350.
Chen, et al. “Function-Based Object Model Towards Website Adaptation,” May 2001, ACM, p. 587-596.
Extended European Search Report for European Patent Application No. 09737586.9 dated Dec. 16, 2011, 5 pages.
Notice of Allowance for Canadian Patent Application No. 2,720,897 dated Sep. 12, 2014, 1 page.
Notice of Reasons for Rejection for Japanese Patent Application No. 2011-505333 dated Apr. 30, 2013, 6 pages.
Summons to Attend Oral Proceedings for European Patent Application No. 09737586.9 dated Apr. 12, 2017, 7 pages.
Non-Final Office Action for U.S. Appl. No. 13/310,525 dated Jun. 15, 2017, 28 pages.
Non-Final Office Action for U.S. Appl. No. 15/339,688 dated Aug. 21, 2017, 11 pages.
Related Publications (1)
Number Date Country
20160048481 A1 Feb 2016 US
Provisional Applications (1)
Number Date Country
61048516 Apr 2008 US
Continuations (2)
Number Date Country
Parent 14283028 May 2014 US
Child 14928004 US
Parent 12935890 US
Child 14283028 US