PATENT DOCUMENT

Publication Number: US-8161370-B2
Application Number: US-62846509-A
Country: US
Kind Code: B2

Title: Dynamic preloading of web pages

Abstract:
In a system having a page server for transmitting pages upon request and a page client (or “web browser”) for requesting pages and presenting those pages to an operator, the page client dynamically identifies links subsequent to the loaded page and preloads pages identified by those links for subsequent presentation to the operator, so that the preloaded pages are preloaded dynamically in response to operator selections and are available for presentation to the operator when ultimately selected. The page server and the page client may act independently or may cooperate so as to dynamically select and preload pages from the page server to the page client using parameters indicated by the page client (such as parameters selected by the operator or adaptively determined by the page client), parameters indicated by the web server (such as parameters selected by the page under presentation or adaptively determined by the page server), or parameters indicated by links to those subsequent pages, or responsive to a combination thereof. The page client may dynamically save and recall behavior information about pages to be presented, such behavior information possibly being independent of actual links indicated on the pages. The behavior information may be responsive to parameters selected by the operator parameters adaptively determined by the page client, or responsive to a combination thereof.

Claims:
1. A method implemented by a computing device, the method comprising:
 loading a first web page; 
 identifying a plurality of links in the loaded first web page, each of the plurality of links pointing to a respective one of a plurality of secondary web pages; 
 ordering the plurality of secondary web pages for loading; and 
 loading one or more of the plurality of secondary web pages according to the ordering. 
 
     
     
       2. A method of  claim 1 , wherein the ordering is based on preferences that are explicitly indicated by an operator of the computing device. 
     
     
       3. A method of  claim 2 , wherein the operator is software that is executed on the computing device. 
     
     
       4. A method of  claim 2 , wherein the preferences are explicitly indicated through manual selection of at least one of the plurality of secondary web pages such that the at least one of the plurality of secondary web pages is given priority in the ordering over another one of the plurality of secondary web pages. 
     
     
       5. A method of  claim 4 , wherein the manual selection includes selecting the link that corresponds to the at least one of the plurality of secondary web pages. 
     
     
       6. A method of  claim 2 , wherein the preferences are explicitly indicated by an operator and stored to perform the ordering. 
     
     
       7. A method of  claim 6 , wherein the preferences are based on which of the plurality of secondary webpages include text. 
     
     
       8. A method of  claim 6 , wherein the preferences are based on which of the plurality of secondary webpages include text that includes a keyword. 
     
     
       9. A method of  claim 6 , wherein the preferences are based on which of the plurality of secondary webpages includes a graphic element. 
     
     
       10. A method of  claim 9 , wherein the preferences take into account a size of the graphic element. 
     
     
       11. A method of  claim 6 , wherein the preferences are based at least in part on which of the plurality of secondary webpages are provided by a web server that provided the first web page. 
     
     
       12. A method of  claim 6 , wherein the preferences are based at least in part on which of the plurality of secondary webpages are provided by a same web server. 
     
     
       13. A method of  claim 1 , wherein the ordering is based on the preferences which are adaptively determined through execution of software by the computing device. 
     
     
       14. A method of  claim 13 , wherein the adaptively determined preferences are based at least in part on an operator&#39;s history of selecting web pages for presentation. 
     
     
       15. A method of  claim 1 , wherein the ordering is based on preferences that are explicitly indicated by the first web page. 
     
     
       16. A method of  claim 15 , wherein the preferences are explicitly indicated by the first web page using HTML tags associated with one or more of the plurality of links. 
     
     
       17. A method of  claim 15 , wherein the preferences are explicitly indicated by text included in the first web page. 
     
     
       18. A method of  claim 15 , wherein the preferences explicitly indicate a relative priority of the plurality of secondary web pages for the ordering. 
     
     
       19. A method of  claim 1 , wherein the ordering is based on preferences that are implicitly indicated by a page server that served the first web page. 
     
     
       20. A method of  claim 19 , wherein the preferences are implicitly indicated through use of information that describes an amount of time one or more of the plurality of secondary web pages takes to load. 
     
     
       21. A method of  claim 19 , wherein the preferences are implicitly indicated through use of information that describes which of the plurality of secondary web pages takes a greatest amount of time to load, respectively. 
     
     
       22. A method of  claim 19 , wherein the preferences are implicitly indicated through use of information that describes which of the plurality of secondary web pages have been most often selected for presentation. 
     
     
       23. A method of  claim 22 , wherein the information is based in part on a geographic area or logical domain. 
     
     
       24. A computer-readable storage medium comprising instructions that in response to being executed by a computing device, cause the computing device to perform operations comprising:
 identifying a plurality of links in a first web page that is loaded by the computing device, each of the plurality of links pointing to a respective one of a plurality of secondary web pages; 
 ordering the plurality of secondary web pages for loading; and 
 causing one or more of the plurality of secondary web pages to be loaded according to the ordering. 
 
     
     
       25. A computer-readable storage medium of  claim 24 , wherein the ordering is based on preferences that are explicitly indicated by an operator of the computing device. 
     
     
       26. A computer-readable storage medium of  claim 25 , wherein the operator is software that is executed on the computing device. 
     
     
       27. A computer-readable storage medium of  claim 25 , wherein the preferences are explicitly indicated through manual selection of at least one of the plurality of secondary web pages such that the at least one of the plurality of secondary web pages is given priority in the ordering over another one of the plurality of secondary web pages. 
     
     
       28. A computer-readable storage medium of  claim 25 , wherein the preferences are explicitly indicated by an operator and stored to perform the ordering. 
     
     
       29. A computer-readable storage medium of  claim 28 , wherein the preferences are based on which of the plurality of secondary webpages include text. 
     
     
       30. A computer-readable storage medium of  claim 28 , wherein the preferences are based on which of the plurality of secondary webpages include text that includes a keyword. 
     
     
       31. A computer-readable storage medium of  claim 28 , wherein the preferences are based on which of the plurality of secondary webpages include a graphic element. 
     
     
       32. A computer-readable storage medium of  claim 28 , wherein the preferences are based at least in part on which of the plurality of secondary webpages are provided by a web server that provided the first web page. 
     
     
       33. A computer-readable storage medium of  claim 24 , wherein the ordering is based on preferences that are adaptively determined through execution of software by the computing device. 
     
     
       34. A computer-readable storage medium of  claim 28 , wherein the adaptively determined preferences are based at least in part on an operator&#39;s history of selecting web pages for presentation. 
     
     
       35. A computer-readable storage medium of  claim 24 , wherein the ordering is based on preferences that are explicitly indicated by the first web page. 
     
     
       36. A computer-readable storage medium of  claim 28 , wherein the preferences are explicitly indicated by the first web page using HTML tags associated with one or more of the plurality of links. 
     
     
       37. A computer-readable storage medium of  claim 28 , wherein the preferences are explicitly indicated by text included in the first web page. 
     
     
       38. A computer-readable storage medium of  claim 28 , wherein the preferences explicitly indicate a relative priority of the plurality of secondary web pages for the ordering. 
     
     
       39. A computer-readable storage medium of  claim 24 , wherein the ordering is based on preferences that are implicitly indicated by a page server that served the first web page. 
     
     
       40. A computer-readable storage medium of  claim 39 , wherein the preferences are implicitly indicated through use of information that describes an amount of time one or more of the plurality of secondary web pages takes to load. 
     
     
       41. A computer-readable storage medium of  claim 39 , wherein the preferences are implicitly indicated through use of information that describes which of the plurality of secondary web pages takes a greatest amount of time to load. 
     
     
       42. A computer-readable storage medium of  claim 39 , wherein the preferences are implicitly indicated through use of information that which of the plurality of secondary web pages have been most often selected for presentation. 
     
     
       43. A computer-readable storage medium of  claim 42 , wherein the information is based in part on a geographic area or logical domain. 
     
     
       44. An apparatus comprising:
 a processor and a storage device comprising instructions that are executable to cause the apparatus to perform operations comprising:
 identifying a plurality of links in a first web page that is caused to be presented by the apparatus, each of the plurality of links pointing to a respective one of a plurality of secondary web pages; 
 ordering the plurality of secondary web pages for loading; and 
 causing one or more of the plurality of secondary web pages to be loaded according to the ordering for later presentation. 
 
 
     
     
       45. An apparatus of  claim 44 , wherein the ordering is based on preferences that are explicitly indicated by an operator of the computing device. 
     
     
       46. An apparatus of  claim 44 , wherein the ordering is based on preferences that are adaptively determined through execution of software by the computing device. 
     
     
       47. An apparatus of  claim 44 , wherein the ordering is based on preferences that are explicitly indicated by the first web page. 
     
     
       48. An apparatus of  claim 44 , wherein the ordering is based on preferences that are implicitly indicated by a page server that served the first web page.

Description:
RELATED APPLICATIONS 
     This application claims priority under 35 U.S.C. §120 as a continuation of U.S. patent application Ser. No. 10/446,623, filed May 28, 2003, which is a continuation of U.S. patent application Ser. No. 08/712,586, filed Sep. 13, 1996 (U.S. Pat. No. 6,584,498), the entire disclosures of which are incorporated by reference. 
    
    
     BACKGROUND 
     The World Wide Web is a feature of the Internet, which includes web page servers, for storing web pages and transmitting the information on those web pages on request, and web browsers, for requesting web pages from web page servers and presenting the information on those web pages to operators. 
     One problem which has arisen is that it can take substantial time to transmit a web page from the web server to the web browser. This problem is particularly acute when the web server has other demands on its processing power, when the web page is laden with data or graphics, or when the communication link between the web server and the web browser has low communication bandwidth. An operator of the web browser perceives substantial transmission time as excessive latency in loading the web page and slow display of embedding graphics, each of which can degrade the utility for that operator of using the World Wide Web. 
     One known method has been to provide programs which, having been given a set of web pages, download those web pages to local storage in a “batch mode”, for presentation by the web browser to the operator from the local storage. While this method provides for reduced latency in loading web pages, because they have already been downloaded before they are presented to the operator, it suffers from the drawback that the operator must specify which web pages are desired in advance. Thus, these methods sacrifice the interactive nature of the World Wide Web, which greatly reduces their usefulness. 
     SUMMARY 
     Dynamic preloading of web pages is described. In an example system having a page server for transmitting pages upon request and a page client (or “web browser”) for requesting pages and presenting those pages to an operator, the page client dynamically identifies links subsequent to the loaded page and preloads pages identified by those links for subsequent presentation to the operator, so that the preloaded pages are preloaded dynamically in response to operator selections and are available for presentation to the operator when ultimately selected. 
     In embodiments, the page server and the page client may act independently or may cooperate so as to dynamically select and preload pages from the page server to the page client using parameters indicated by the page client (such as parameters selected by the operator or adaptively determined by the page client), parameters indicated by the page server (such as parameters selected by the page under presentation or adaptively determined by the page server), or parameters indicated by links to those subsequent pages, or responsive to a combination thereof. 
     In further embodiments, the page client may dynamically save and recall behavior information about pages to be presented, such behavior information possibly being independent of actual links indicated on the pages. The behavior information may be responsive to parameters selected by the operator parameters adaptively determined by the page client, or responsive to a combination thereof. 
    
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
         FIG. 1  shows a system for accessing web pages. 
     
    
    
     DETAILED DESCRIPTION 
     Embodiments may be used together with embodiments described in the following co-pending application, hereby incorporated by reference as if fully set forth herein:
         Application Ser. No. 08/716,641, filed Jul. 13, 1996, in the name of inventor Julien T. Nguyen, titled “Dynamic Downloading of Messages with Low-Bandwidth Connections”.       

     In the following description, an embodiment is described with regard to process steps and data structures. However, those skilled in the art would recognize, after perusal of this application, that embodiments may be implemented using a general purpose processor, and that modification of a general purpose processor to implement the process steps and data structures described herein would not require undue experimentation. 
     System for Accessing Web Pages 
       FIG. 1  shows a system for accessing web pages. 
     A system  100  for accessing web pages comprises a page server  110 , a communication link  120 , and a page client  130 . 
     In an embodiment, the page server  110  comprises a server processor  111  and server storage  112 , with the processor  111  comprising at least one general purpose computer having a computing element, program and data memory. 
     The page server  110  is disposed for generating and responding to messages in a protocol for presenting web pages to the page client  130 . The protocol is preferably the Hypertext Transfer Protocol (“HTTP”), but the concepts of the embodiments described herein are broad enough to apply to other protocols for transferring and presenting information, including protocols known as “FSP”, “FTP”, “Gopher”, and variants thereof, protocols for access to a command interface such as “Telnet”, “MUD”, “MUSH”, “MOO”, and variants thereof, other protocols for accessing, transmitting, or presenting information, and programs making use of such protocols, such as “Archie”, “Veronica”, “Jughead”, and the like. 
     In alternative embodiments, the page server  110  may comprise more than one server processor  111  coupled together so as to respond to requests for accessing and transmitting information. For example, a first server processor  111  may handle requests for information by parsing those requests and obtaining data from a second server processor  111 . Each server processor  111  may comprise more than one computing element, such as a multi-processor general purpose computer. 
     In an embodiment, the communication link  120  comprises a dynamic link using a network  121  (such as a local area network or a wide area network) or a network of networks (such as an “internet” or an “intranet”). The page server  110  is coupled to the network using a server local link  122 , such as a T1 line or other telephone line; similarly, the page client  130  is coupled to the network using a client local link  123 , such as a telephone line and a modem such as an ISDN modem or a 28.8 Kbps analog modem. Other techniques for coupling the page server  110  and the page client  130  to the network  121  are known in the art. 
     The page client  130  similarly comprises a processor  131  and client storage  132 , with the processor  111  comprising a general purpose processor having a computing element, and program/data memory. In an embodiment, process steps and data structures for the page client  130  are specified in the “Java” computer language. The general purpose processor may comprise any processor disposed to interpret or to compile the “Java” computer language, such as an Intel “Pentium” processor operating at 90 megahertz, having 32 megabytes of program/data memory, operating under control of the Microsoft “Windows 95” operating system, and coupled to 1.0 gigabytes of client storage  132 . 
     In a first embodiment, the page client  130  comprises an input element  133  and a display element  134 . The input element  133  comprises a keyboard and a pointing device such as a mouse or trackball. The display element  134  comprises a visual display element such as a monitor or a display panel, and an audio display element such as a speaker. 
     In a second embodiment, the page client  130  does not include both the input element  133  and the display element  134 , but is disposed for coupling to devices for performing those functions and which are supplied by an operator. For example, the page client  130  may comprise an input port  135  disposed for coupling to the input element  133 , an output port  136  disposed for coupling to the display element  134 , or both. 
     The operator may be a human being directing the operations of the page client  130 , or alternatively may be another program using the page client  130  to obtain information from the page server  110 . 
     Dynamic Preloading of Web Pages 
     A primary page  140  presented on the output element  134  comprises information for presentation to an operator. The information may be visual information (in the form of text, graphics, or motion picture data), may be audio information, or may be information in another format. There are several formats for information available via web pages which are known in the art of networking. 
     The primary page  140  may also comprise one or more applets, scripts, or other included programs to the page client  130  to engage in behavior as programmed by the primary page  140 . The page client  130  responds to an included program by interpreting or compiling it as received and performing the instructions specified by the included program, unless specified otherwise by the operator in a set of preferences. 
     The primary page  140  may also comprise a security restriction which requires that the page client  130  supply a password or other authentication to the page server  110  before the page  140  is permitted to be transmitted from the page server  110  to the page client  130 . The page client  130  responds to the security restriction by requesting a password or other authentication from the operator, and by transmitting that password or other authentication to the to the page server  110 . In an embodiment, that password or other authentication is requested once from the operator in a single session of operating the page client  130 , and is not requested a second time in the single session, unless specified otherwise by the operator in a set of preferences. 
     The primary page  140  comprises one or more links  150  which point to secondary pages  140 . The secondary pages  140  are web pages just like the primary page  140 , and are referred to herein as “secondary” simply to distinguish them from the primary page  140 . The secondary pages  140  may also comprise links  150 , and in fact the links  150  on the secondary pages  140  may point to tertiary pages  140 , to other secondary pages  140 , or even back to the primary page  140 . In fact, the links  150  on the primary page  140  may even point back to the same primary page  140 , such as links  150  which points to the top, bottom, or some other location on the primary page  140 . 
     Links  150  are embedded in pages  140  using a set of HTML tags, or by other techniques for identifying other pages  140  which may be presented. Links  150  are themselves presented to the operator as text elements  151  or as graphic elements  152 . Links  150  may be identified by the page client  130  by special forms of display, for example by displaying text in a different color or typeface from text elements  151  or as graphic elements  152  which are not associated with links  150 . 
     When a page  140  is loaded for presentation to the operator, the page client  130  identifies that page  140  as the primary page  140  and identifies one or more links  150  embedded in the primary page  140 . The page client  130  selects one or more of the secondary pages  140  pointed to by those links  150  for preloading, and preloads those secondary pages  140 . The page client  130  preloads secondary pages  140  by (1) transmitting a request to the page server  110  to transmit those secondary pages  140 , (2) receiving those secondary pages  140  from the page server  110 , and (3) recording those secondary pages  140  in client storage  132  for later presentation upon demand. 
     The page client  130  identifies each one of those links  150  as being in one of three preloading states, using one of a set of display colors, as shown in table 1-1. 
     
       
         
           
               
               
               
               
             
               
                   
                 TABLE 1-1 
               
               
                   
                   
               
               
                   
                 Preloading State 
                 Display Color 
                 Nature of State 
               
               
                   
                   
               
             
            
               
                   
                 not started 
                 red 
                 the secondary page has not 
               
               
                   
                   
                   
                 started preloading yet 
               
               
                   
                 in progress 
                 orange 
                 the secondary page is 
               
               
                   
                   
                   
                 currently being preloaded 
               
               
                   
                 completed 
                 green 
                 the secondary page is 
               
               
                   
                   
                   
                 preloaded and is ready for 
               
               
                   
                   
                   
                 presentation 
               
               
                   
                   
               
            
           
         
       
     
     The choice of display colors is, of course, completely arbitrary. Other colors, patterns, or other visual or audible indicators may be used instead or in conjunction to present the operator with information about the preloading stage for any particular link  150 . The choice of display colors may be responsive to choices made by the operator, as for example by setting one or more preferences with the page client  130 , or may be responsive to choices made by the author of the primary page  140 , as for example by transmitting such information by the page server  110  to the page client  130  such as using a set of extended HTML tags with the primary page  140 . 
     The page client  130  presents the preloading state using a preloading indicator  153 . To indicate the progress of the “in progress” preloading stage, the preloading indicator  153  comprises a first part  154  having a first display color or pattern and a second part  153  having a second display color or pattern; the shape or size of the first part  154  relative to the second part  155  is used to indicate the progress of the “in progress” preloading stage. 
     In a first embodiment, the preloading indicator  153  comprises a dot or other shape which is superposed on the primary page  140 . In this embodiment, the first part  154  comprises a pie slice of the dot or small circle which by its angle and its color (green) indicates an amount of the “in progress” preloading stage which has been completed, and the second part  155  by its angle and its color (orange) indicates an amount which has not been completed. Thus the image of the dot or small circle will change color from orange to orange/green to green as the preloading operation progresses. 
     In a second embodiment, the preloading indicator  153  comprises an underline or other text features (such as boldface, italics, or inverted video) superposed directly on text elements  151  for the link  150 . In this embodiment, the first part  154  comprises a segment of the underline or of the text elements  151  for the link  150  which by its relative length and its color (green) indicates an amount of the “in progress” preloading stage which has been completed, and the second part  155  by its relative length and its color (orange) indicates an amount which has not been completed. Thus the underlining or the text elements  151  for the link  150  will change color from orange to orange/green to green (or alternatively, the text elements  151  for the link  150  will change typeface from boldface to bold-face/italic to italic) as the preloading operation progresses. 
     In a third embodiment, the preloading indicator  153  comprises a preview “thumbnail” picture (i.e., a copy of the secondary page  140  presented in miniature), presented at a location outside the margin of the primary page  140 , such as a location outside a display region for the primary page  140  or a display region for a separate “frame” for a primary page  140 . In this embodiment, the first part  154  comprises a segment of the thumbnail picture which presents information from the secondary page  140  as that secondary page  140  is preloaded, and the second part  155  comprises a background color or other indicator that further data is yet to be preloaded. Thus the thumbnail picture will fill the location for its presentation as the preloading operation progresses. 
     In addition to the first part  154  and the second part  155 , the preloading indicator  153  comprises a textual or graphical indicator, positioned at a margin of the primary page  140  (such as in a margin for a window used for presentation of the visual elements of the primary page  140 ), indicating an amount of the “in progress” preloading state which has been completed. For example, when 75% of the secondary page  140  is preloaded, the preloading indicator  153  comprises the text “75% preloaded” or some equivalent statement, or comprises a thermometer graph showing that 75% of the secondary page  140  is preloaded. 
     The preloaded secondary pages  140  are stored in the client storage  132 . When the operator follows one of the links  150  to one of the secondary pages  140 , that secondary page  140  is presented to the operator by reference to the client storage  132 , rather than by requesting that secondary page  140  from the page server  110 . 
     In an embodiment, any applets, scripts, or other included programs specified by the secondary page  140  are not performed until the secondary page  140  is selected by the operator and becomes the primary page  140 . However, in alternative embodiments, some of the included programs may be performed earlier, such as when thumbnail pictures of secondary pages  140  are presented for viewing in miniature, or as otherwise specified by the operator in a set of preferences. 
     In further alternative embodiments, the page client  130  determines whether or not to preload, and whether or not to run, applets, scripts, or other included programs, responsive to a set of operator preferences. 
     In an embodiment, any password or other authentication required by security restrictions for the secondary page  140  is not requested until the secondary page  140  is selected by the operator and becomes the primary page  140 . However, in alternative embodiments, the password or other authentication may be supplied by the page client  130  using a stored password or other authentication, or as otherwise specified by the operator in a set of preferences. Stored passwords are known in the art of authentication. In such alternative embodiments, the page client  130  may encrypt or otherwise secure the secondary page  140  in the client storage  132 , so that unauthorized users cannot view the secondary page  140  if the operator leaves the vicinity of the input element  133  and display element  134 , until the operator follows the link  150  to the secured secondary page  140 . 
     In addition to storing the preloaded secondary page  140  in the client storage  132 , the page client  130  performs any preloading behavior which has been specified by a set of operator preferences. For example, the specified preloading behavior may include one or more of the following behaviors: (1) further preloading of tertiary pages  140 ; (2) launching of one or more applications or helper applications for ultimate presentation of the preloaded secondary page  140 ; and (3) decompression or translation of the preloaded secondary page  140  from one format to another. 
     When it is presented to the operator, the secondary page  140  logically becomes the primary page  140 , preloading of any other secondary pages  140  is aborted, and the page client  130  preloads those (new) secondary pages  140  which are pointed to by the (new) primary page  140  in like manner as it preloaded those (old) secondary pages  140  which were pointed to by the (old) primary page  140 . 
     Dynamic preloading of secondary pages  140  continues so long as the operator continues to follow links  150  and thus request presentation of secondary pages  140 , which logically become (new) primary pages  140 . 
     Ordering Web Pages for Dynamic Preloading 
     In an embodiment, the page client  130  dynamically orders the secondary pages  140  for preloading, and selects those secondary pages  140  for preloading which the page client  130  dynamically considers should be preloaded first. 
     The page client  130  makes its selection responsive to one or more of the following factors: (1) preferences explicitly indicated by the operator; (2) preferences adaptively determined by the page client  130 ; (3) preferences explicitly indicated by the primary page  140 ; and (4) preferences implicitly indicated by the page server  110 . 
     In an embodiment, preferences explicitly indicated by the operator include the following: The operator may explicitly select a particular secondary page  140  for preloading (e.g., while the operator reviews the primary page  140 ). 
     In this circumstance, the operator selects the secondary page  140  for preloading using the input element  133 , such as by pointing to the associated link  150  or to its preloading indicator  153  and selecting the secondary page  140  for preloading. When the preloading indicator  153  is a separate dot or circle the operator selects that preloading indicator  153  using a mouse left-click; when the preloading indicator  153  is superposed on the text elements  151  for the link  150  itself the operator selects that link  150  using another mouse operation such as a right-click or a shift-click. 
     If the operator selects a particular secondary page  140  for preloading, the selected secondary page  140  takes priority and is preloaded before other secondary pages  140  which might be preloaded for other reasons. The operator may explicitly select a set of preloading preferences and priorities. 
     In this circumstance, the page client  130  receives the preloading preferences and their relative priorities from the operator, and stores the preloading preferences and their relative priorities in the client storage  132 . When the operator selects one primary page  140 , the page client  130  reviews the preloading preferences and their relative priorities, and preloads those secondary pages  140  which are indicated by the preloading preferences in the order of their relative priorities. 
     The preloading preferences select among those links  150  to secondary pages  140  responsive to one or more of the following factors: (1) whether those links  150  comprise text elements  151  or graphics elements  152 ; (2) if text elements  151 , whether those links  150  comprise particular keywords; (3) if graphics elements  152 , whether those links  150  have particular display sizes; and (4) whether those links  150  point to secondary pages  140  at the same page server  110  or another page server  110 . 
     For example, the preloading preferences may indicate to preload all secondary pages  140 ; to preload all secondary pages  140  associated with links  150  comprising text elements  151  having today&#39;s date as a keyword; or to preload all secondary pages  140  which are not advertisements (defined by links  150  comprising graphics elements  152  and pointing to another page server  110 ). The operator may explicitly select one or more buttons provided by the page client  130  to indicate specific preloading behavior. 
     The page client  130  provides buttons for selection by the operator with specific preloading behavior. For example, when the operator has not already specified that all secondary pages  140  should be preloaded, the page client  130  provides a button which the operator may select to instruct the page client  130  to conduct that preloading behavior for one particular primary page  140 . 
     In an embodiment, the page client  130  adaptively determines possible operator preferences and presents those possible operator preferences as buttons for selection to indicate specific preloading behavior. 
     In an embodiment, preferences adaptively determined by the page client  130  include the following: The page client  130  may record the operator&#39;s history of selecting primary pages  140  for presentation. 
     The page client  130  attempts to adaptively determine the operator&#39;s preloading preferences and their relative priorities from the operator&#39;s history of selecting primary pages  140  for presentation. When the operator selects a primary page  140  for presentation, the page client  130  increases relative priorities for categories of pages  140  and links  150  which match the selected primary page  140 , and decreases relative priorities for other categories. The page client  130  may record the operator&#39;s history of selecting secondary pages  140  for preloading. 
     Similar to treatment of the operator&#39;s history of selecting primary pages  140  for presentation, the page client  130  attempts to adaptively determine the operator&#39;s preloading preferences and their relative priorities from the operator&#39;s history of selecting secondary pages  140  for preloading. 
     In an embodiment, preferences explicitly indicated by the primary page  140  include the following: The primary page  140  may comprise directions for which secondary pages  140  to preload and in which order. 
     In an embodiment, these directions are specified by a set of extended HTML parameters, such as informational tags which are not presented to the operator; however, in alternative embodiments, these directions may be specified explicitly in a title or heading, or in the text or other parts of the primary page  140 . The individual links  150  in the primary page  140  may each comprise directions whether their associated secondary page  140  should be preloaded and with what relative priority. 
     In an embodiment, these directions are specified in the extended HTML tag for the link  150  or in an extended HTML tag associated with the link  150 . However, in alternative embodiments, these directions may be specified explicitly in a link name or link pointer, or in the text or other parts of the primary page  140  associated with the link  150 . 
     In an embodiment, preferences implicitly indicated by the page server  110  include the following: The page server  110  may provide information regarding which secondary pages  140  take the most time to preload. 
     The page server  110  may provide this information in response to the size in bytes of particular secondary pages  140 , the amount of load on the page server  140  (if those secondary pages  140  are not located at other page servers  140 ), recent measurements of actual times to preload those secondary pages  140 , some other estimate of transmission time to preload the secondary page  140 , or some combination thereof. The page server  110  may provide information regarding which secondary pages  140  have been most often selected for presentation. 
     The page server  110  may provide this information in response to a recent number of times each particular secondary page  140  has been transmitted to a page client  130 , has been transmitted to the particular page client  130  in use by the operator (or some class of page clients  130  such as those in a specified geographic area or logical domain or subdomain), or has been preloaded or has been selected for presentation. 
     Virtual Links to Web Pages 
     In an embodiment, the page client  130  records operator preferences for an order (i.e., a list of links  150  in a specified order) for selecting pages  140  for presentation, herein called a “browsing order”, in the client storage  132 . In the browsing order, the operator identifies pages  140  by any technique, including by following links  150 , by reference to bookmarks or other stored pointers to pages  140 , by entry of a universal resource locator (“URL”), or by any other means. 
     For example, if the operator has a set of on-line magazines or other publications to read periodically, the page client  130  records in the client storage  132  the set of publications and the order in which the operator selects them. In an embodiment, the page client  130  obtains this information from the operator specifying the browsing order, by adaptively determining the browsing order from the operator&#39;s selection of pages  140  for presentation, or by receiving the browsing order from one of the page servers  110 . 
     When a page  140  is selected by the operator for presentation as the primary page  140 , the page client  130  identifies two virtual links  160 , a next link  161  and a previous link  162  in the browsing order. The page client  130  treats the virtual links  160  as if they were actual links  150  embedded in the primary page  140 , even though there might be no such link  150  to those secondary pages  140  anywhere in the primary page  140 . 
     Thus, the page client  130  provides a set of buttons for the virtual links  160  so that the operator may select one of the virtual links  160  and follow the selected virtual link  160  to the next link  161  or to the previous link  162 . Similarly, the page client  130  treats the pages  140  pointed to by the virtual links  160  as secondary pages  140  for the primary page  140 , and performs preloading with regard to those secondary pages  140  just as if there were actual links  150  in the primary page  140  to those same secondary pages  140 . 
     The page client  130  disposes the buttons for the virtual links  160  outside the margin of the primary page  140 , such as a location outside a display region for the primary page  14014  or a display region for a separate “frame” for a primary page  140 , unless the virtual links  160  are duplicative of actual links  150  within the primary page  140 . However, in alternative embodiments, the page client  130  may superpose the virtual links  160  over the presentation for the primary page  140 , so that the virtual links  160  appear as if they were actual links  150 . 
     The browsing order may comprise branches, conjoined nodes, loops, and disjoint pages, in which circumstances there will be some pages  140  which have zero or more than one virtual link  160  pointing to the next link  161 , zero or more than one virtual link  160  pointing to the previous link  162 , or some combination thereof. 
     The page client  130  stores the browsing order in the client storage  132  and may refer to the browsing order using a bookmark or similar reference technique. The browsing order may also comprise a set of preloading preferences which are specific to the browsing order, and these may be stored in the client storage  132  in association with the browsing order or the bookmark or similar reference technique which refers to that browsing order. Thus, the operator may specify both a list of links  150  to be visited and may further specify for example, that all of the pages  140  associated with those links  150  should be preloaded while the operator takes time to review the first such page  140 . 
     The page client  130  may also define virtual links  160  which are not part of a browsing order, such as defining one or more virtual links  160  for a page  140  which point to other pages  140  at the same page server  110 . 
     Alternative Embodiments 
     Although embodiments are disclosed herein, many variations are possible which remain within the concept, scope, and spirit of the embodiments described herein, and these variations would become clear to those skilled in the art after perusal of this application.

Metadata:
Filing Date: 20091201
Publication Date: 20120417
Grant Date: 20120417
Priority Date: 19960913
Inventors: NGUYEN JULIEN TAN
Assignee: APPLE INC
CPC Classifications: [{"code": "G06F16/9574", "inventive": true, "first": true, "tree": "[]"}]
Family ID: 24862752