Patent Document

CROSS REFERENCE TO A RELATED APPLICATION  
       [0001]    This application claims the benefit of the filing date of Provisional Patent Application No. ______, filed on Sep. 24, 2001, and entitled “System and Method for Seamless Navigation Between Local and External Documents in an Optical Disc Player,” which is incorporated by reference. 
     
    
     
       FIELD OF THE INVENTION  
         [0002]    This invention relates generally to optical disc players, such as digital versatile disc (DVD) players and other formats, that have user-agent program playback capability that can access user agent data (e.g. HTML documents and objects) from a local optical disc or an external source (e.g. a server located on the Internet or Intranet, an external hard drive, an external optical disc drive, and other sources). In particular, the invention describes a system and method for seamless navigation between local and external user agent documents, and in a manner that the local and external user agent documents are synchronous with the corresponding video being displayed with these documents. This invention also relates to changing the navigation between local and external user agent documents dynamically for providing a more lively experience to the users.  
         BACKGROUND OF THE INVENTION  
         [0003]    The invention relates to optical disc players that can play user agent data and video data concurrently. The optical disc player executes a user agent program which can access user agent documents (e.g. HTML documents containing text, images, such as JPEG and GIF images, animated content, etc.) from external sources (e.g. a server across the Internet or Intranet, and external hard drive, or an external optical disc drive, etc.) and from the local optical disc.  
           [0004]    A content developer can author an interaction application stored on a local optical disc for execution by an optical disc player that interacts video content stored on the local optical disc and user agent documents also stored on the local optical disc. For example, a content developer may author an optical disc containing a video movie as well as user agent documents containing information about the movie. In user agent mode, the user agent program residing on the optical disc player loads one of the user agent documents associated with chapter one of the movie and loads chapter one of the video movie in a sub-window of the corresponding user agent document. When the video movie chapter changes to chapter two, another user agent document is loaded that is synchronized with chapter two.  
           [0005]    A disadvantage of the above system is that the navigation between user agent documents on the disc remains static once the disc is shipped. That is, once a content developer has authored the optical disc with a user agent document navigation structure, the navigation between user agent documents on the disc remains the same. User experience for such a disc goes dull with time and over a period of time the user gets bored of watching the same disc over and over again. This reduces the overall long-term value of such discs. Thus, there is a need for a mechanism to provide a lively dynamic navigation behavior of user agent documents.  
           [0006]    Another disadvantage of local user agent documents being static is that information in the local user agent documents may get obsolete over time, and sometimes there is a need to update the information. Thus, there is a need for a system and method to access and load updated user agent documents from one or more external sources, such as servers located across a network (e.g. such as the Internet or Intranet) or another storage medium such as an external hard drive or external local drive.  
           [0007]    Not only is there a need to access updated user agent documents from external sources, there is a further need to make the navigation between local user agent documents and external user agent documents seamless, i.e. the displaying of local user agent documents and external user agent documents is transparent to the user. In this way, a user need not be concerned with whether the user agent document being displayed comes from the local optical disc or an external source. In addition to the need for seamless navigation between local and external user agent documents, there is a further need for providing synchronization with video content and user agent documents, taking into account that some of the user agent documents come from the local optical disc and others come from one or more external sources.  
           [0008]    Such needs and others are met with the system and method seamless navigation between local and external user agent documents in accordance with the invention.  
         SUMMARY OF THE INVENTION  
         [0009]    An aspect of the invention relates to a method of navigating between local and external user agent documents in an optical disc player. The method comprises accessing and displaying a local user agent document from a local optical disc inserted into the optical disc player, receiving and transmitting a request for an external user agent document along with a pointer to the local user agent document to an external source, and receiving and displaying the external user agent document having a “BACK” navigation button associated with the pointer to the local user agent document. A user can push the “BACK” navigation button causing the accessing and displaying of the previously displayed local user agent document. Optionally, the external user agent document can override the pointer to point to another user agent document residing either on local optical disc or external/server, thereby entirely changing the navigation behavior of the disc. Using pointers can allow navigation between local and external user agent documents to be made dynamic and seamless, i.e. transparent to the user.  
           [0010]    Another aspect of the invention relates to an optical disc player that implements the above navigation methodology. The optical disc player comprises an optical disc reader to read a local user agent document from a local optical disc, an interface to an external source for an external user agent document, and a processor to cause an access and display of the local user agent document, to cause the transmission of a request for the external user agent document along with a pointer to the local user agent document to the external source, and to receive and cause the display of the external user agent document with a “BACK” navigation button associated with the pointer to the local user agent document. A user using an input device can select the “BACK” navigation button to cause the display of the local user agent document. Using pointers can allow navigation between local and external user agent documents to be made seamless, i.e. transparent to the user  
           [0011]    Yet another aspect of the invention relates to a method of synchronizing video and user agent documents in an optical disc player. The method comprises accessing and displaying a first user agent document and playing back a video segment within the first user agent document, receiving a first request for a second user agent document while the playback of the video segment is at a particular playback location, accessing and displaying the second user agent document, receiving a second request for the first user agent document, and re-accessing and re-displaying the first user agent document with the playback of the video segment beginning at the particular playback location. In this way, when a user navigates to a second user agent document from a first user agent document while a video segment is being displayed, the user can then navigate back to the first user agent document and the video segment continues from where the user last viewed it, instead of the beginning.  
           [0012]    Still another aspect of the invention relates to an optical disc player that implements the above synchronization method. The optical disc player comprises a processor to cause a display of a first user agent document and a playing of a video segment within the first user agent document, to cause a display of a second user agent upon receiving a first request for the second user agent document while the playback of the video segment is at a particular playback location, and to cause a redisplay of the first user agent document and a playing back of the video segment starting at approximately the playback location when the first request was received. In this way, when a user navigates to a second user agent document from a first user agent document while a video segment is being displayed, the user can then navigate back to the first user agent document and the video segment continues from where the user last viewed it, instead of the beginning.  
           [0013]    Other aspects, features and techniques of the invention will become apparent to one skilled in the relevant art in view of the following detailed description of the invention. 
       
    
    
     BRIEF DESCRIPTION OF THE DRAWINGS  
       [0014]    [0014]FIG. 1 illustrates a hardware block diagram of an exemplary optical disc player in accordance with the invention;  
         [0015]    [0015]FIG. 2 illustrates a program module block diagram of an exemplary optical disc player in accordance with the invention;  
         [0016]    [0016]FIG. 3 illustrates a display screen of an exemplary user agent document in user agent mode in accordance with the invention;  
         [0017]    [0017]FIG. 4A illustrates a flow diagram of an exemplary method of providing seamless navigating between local and external user agent documents in accordance with the invention;  
         [0018]    [0018]FIG. 4B illustrates a flow diagram of an exemplary method of providing dynamically changed navigation between local and external user agent documents in accordance with the invention;  
         [0019]    [0019]FIG. 5 illustrates a flow diagram of a navigation method which causes a de-synchronization of the video segment to the corresponding user agent document; and  
         [0020]    [0020]FIG. 6 illustrates a flow diagram of a navigation method that improves the synchronization of the video segment to the corresponding user agent document in accordance with the invention. 
     
    
     DETAILED DESCRIPTION OF THE INVENTION  
       [0021]    [0021]FIG. 1 illustrates a hardware block diagram of an exemplary optical disc player  100  in accordance with the invention. The optical disc player  100  comprises an optical disc reader  102 , a processor  104 , an interface to external sources  106 , optionally a display  108 , and a user input device  109 . The optical disc player  100  may be embodied as a dedicated optical disc player or may be embodied as a program running on a computer. The processor  108  executes one or more program modules which controls the accessing of video data and user agent documents from a local optical disc  110  and one or more external sources (a server on the Internet or intranet, an external hard drive, an external optical disc drive, etc.) respectively by way of the optical disc reader  102  and the external source interface  106 . The processor  108  under the control of one or more program modules can also causes the display of user agent documents containing video on the display  108 . The user input device  109  (e.g. keyboard, mouse, remote control, etc.) allows a user to navigate between different user agent documents.  
         [0022]    [0022]FIG. 2 illustrates a program module block diagram of an exemplary optical disc player  200  in accordance with the invention. The optical disc player  200  comprises an interaction application  202 , a video playback module  204 , a display control module  206 , a user agent module  208 , an optional display  212 , and an interface  214  to an external source. The interaction application  202  (e.g. a Java script), which is generally authored by a content developer, controls the desired interaction between video content and the user agent documents. The user agent module  208  (e.g. a browser program) controls the access of user agent documents from a local optical disc and an external source. The video playback module  204  (e.g. a DVD playback subsystem) controls the streaming of video data from the local optical disc or from an external source. The display control module  206  (e.g. Plug-In or Active-X) controls the simultaneous display of user agent documents from the user agent module  208  and corresponding video segments from the video playback module  204 . The interface  214  (e.g. an TCP/IP, HTTP, and/or USB interface) facilitates the accessing of user agent data and/or video data from one or more external sources (a server on the Internet or intranet, an external hard drive, an external optical disc drive, etc.).  
         [0023]    [0023]FIG. 3 illustrates a display screen of an exemplary user agent document  300  in user agent mode in accordance with the invention. The user agent document  300  may comprise a title section  302 , an information section  304  providing information about the video segment being displayed, a video sub-window  306  for displaying the video segment, and navigation buttons  308  for navigating between different user agent documents and/or video segments. The navigation buttons  308  can be customized by a content provider authoring the interaction application  202 .  
         [0024]    As previously discussed, some of the user agent documents may be accessed from the local optical disc  110 , which are termed herein as “local user agent documents.” Other user agent documents may come from external sources, such as servers located across a network (e.g. such as the Internet or Intranet) or another storage medium such as an external hard drive or external local drive, by way of the interface  106  ( 214 ). These documents are referred to as “external user agent documents.” The reason for this may be that some of the local user agent documents have become obsolete, and thus updated documents are required from external sources. It is preferred, however, that the access and display of local and external user agent documents is made seamless, i.e. transparent to the user.  
         [0025]    [0025]FIG. 4A illustrates a flow diagram of an exemplary method  400  of providing seamless navigating between local and external user agent documents in accordance with the invention. In step  402 , the optical disc player  100  ( 200 ) establishes connection with the external source by way of the interface  106  ( 214 ). The connection can be established by standard protocols, such as TCP/IP, HTTP, USB or with other protocols. Once a connection is made to the external source, in step  404  the external source may require some kind of authentication before it can transmit data to the optical disc player  100  ( 200 ). The authentication may be of many forms, such as authentication by a unique identification number and/or password associated with the optical disc player  100  ( 200 ) and/or the user, and/or by a unique identification number associated with the application on the local optical disc  110 , and/or by a content-scrambling system (CSS) encryption information residing on the local optical disc  110 , and/or by a burst coded area (BCA) number associated with the application on the local optical disc  110 , and/or by a user or group profile.  
         [0026]    In step  406 , the processor  104  under the control of the interaction application  202 , user agent module  208 , video playback module  204 , and display control module  206 , causes the access and display of a local user agent document Local1.HTML  418  including a video segment identified as title one—chapter one, and customized “BACK” and “NEXT” navigation buttons. In step  408 , the user pushes the “NEXT” navigation button in user agent document Local1.HTML  418 . In this case, the next user agent document Ext1.HTML  420  resides at an external source. In such a case, in step  410  the processor  104  under the control of the user agent module  208  causes the transmission of a request for the external user agent document Ext1.HTML  420  along with a pointer to the local user agent document Local1.HTML  418 . At the external source, the pointer to the local user agent document Local1.HTML is assigned to the “BACK” navigation button of the external user agent document Ext1.HTML  420 .  
         [0027]    In step  412 , the processor  104 , under the control of the interaction application  202 , user agent module  208 , video playback module  204 , and display control module  206 , receives and causes the display of the external user agent document Ext1.HTML with another video segment identified as title one—chapter two being displayed in a sub-window, and “BACK” and “NEXT” navigation buttons. In step  414 , the user pushes the “BACK” navigation button of the external user agent document Ext1.HTML  420 . Since the pointer to local user agent document Local1.HTML has been assigned to the “BACK” navigation button, in step  416  the processor  104 , under the control of the interaction application  202 , user agent module  208 , video playback module  204 , and display control module  206 , accesses and causes the display of local user agent document Local1.HTML.  
         [0028]    Thus, by transmitting a pointer identifying a path to the previous local user agent document and assigning the pointer to a navigation button of the external user agent document, navigation between the local and the external user agent documents can be made seamless, i.e. transparent to the user. The above method can be used to access multiple user agent documents from multiple servers across the Internet or an Intranet or other external sources. Another advantage is that less cache memory is required to store pointers to previously accessed documents than to keep all previously retrieved document pointers in a cache memory.  
         [0029]    [0029]FIG. 4B illustrates a flow diagram of an exemplary method  4001  of dynamically changing the navigation behavior between local and external user agent documents in accordance with the invention In step  4021 , the optical disc player  100  ( 200 ) establishes connection with the external source by way of the interface  106  ( 214 ). The connection can be established by standard protocols, such as TCP/IP, HTTP, USB or with other protocols. Once a connection is made to the external source, in step  4041  the external source may require some kind of authentication before it can transmit data to the optical disc player  100  ( 200 ). The authentication may be of many forms, such as authentication by a unique identification number and/or password associated with the optical disc player  100  ( 200 ) and/or the user, and/or by a unique identification number associated with the application on the local optical disc  110 , and/or by a content-scrambling system (CSS) encryption information residing on the local optical disc  110 , and/or by a burst coded area (BCA) number associated with the application on the local optical disc  110 , and/or by a user or group profile.  
         [0030]    In step  4061 , the processor  104  under the control of the interaction application  202 , user agent module  208 , video playback module  204 , and display control module  206 , causes the access and display of a local user agent document Local1.HTML  4181  including a video segment identified as title one—chapter one, and customized “BACK” and “NEXT” navigation buttons. In step  4081 , the user pushes the “NEXT” navigation button in user agent document Local1.HTML  4181 . In this case, the next user agent document Ext1.HTML  4201  resides at an external source. In such a case, in step  4101  the processor  104  under the control of the user agent module  208  causes the transmission of a request for the external user agent document Ext1.HTML  4201  along with a pointer to the local user agent document Local1.HTML  4181 . At the external source, the pointer to the local user agent document Local1.HTML is assigned to the “BACK” navigation button of the external user agent document Ext1.HTML  4201 . Optionally, this pointer can be modified to point to some other user agent document (Local5.HTML  4181 ) to change the navigation of the disc content.  
         [0031]    In step  4121 , the processor  104 , under the control of the interaction application  202 , user agent module  208 , video playback module  204 , and display control module  206 , receives and causes the display of the external user agent document Ext1.HTML with another video segment identified as title one—chapter two being displayed in a sub-window, and “BACK” and “NEXT” navigation buttons. In step  4141 , the user pushes the “BACK” navigation button of the external user agent document Ext1.HTML  4201 . Since the modified pointer to local user agent document Local5.HTML has been assigned to the “BACK” navigation button, in step  4161  the processor  104 , under the control of the interaction application  202 , user agent module  208 , video playback module  204 , and display control module  206 , accesses and causes the display of local user agent document Local5.HTML.  
         [0032]    Thus, by modifying the transmitted pointer identifying a path to the local user agent document and assigning the pointer to a navigation button of the external user agent document, disc navigation between the local and the external user agent documents can be made dynamically changed. The above method can be used to access multiple user agent documents from multiple servers across the Internet or an Intranet. Another advantage is that using most of the existing disc-based user agent content, developers can create a lively user experience by dynamically changing the navigation of the content even after the disc is shipped.  
         [0033]    Another consideration when navigating between different user agent documents is the synchronization of the video to the user agent documents. Synchronization problems may occur if a user pushes a navigation button before completion of the video segment associated with the current user agent document. This can be explained with reference to FIG. 5.  
         [0034]    [0034]FIG. 5 illustrates a flow diagram of a navigation method  500  which causes a de-synchronization of the video segment to the corresponding user agent document. In this case, two video segments chapter 1-2 are synchronized with a local user agent document Local1.HTML  510  and a video segment chapter 3 is synchronized with an external user agent document Ext1.HTML  512 . In step  502 , the user views user agent document Local1.HTML including video segment chapter 1. In step  504 , the user completes viewing video segment chapter 1 and the optical disc player  100  ( 200 ) begins showing video segment chapter 2 on the Local1.HTML document  510 . At this time, before the user sees the playback of video segment chapter 2, in step  506  the user pushes the “NEXT” navigation button on local user agent document Local1.HTML  510 , which causes the optical disc player  100  ( 200 ) to send a request for the external user agent document Ext1.HTML  512  along with a pointer to the local user agent document Local1.HTML  510 .  
         [0035]    After the external user agent document Ext1.HTML  512  has been received and displayed by the optical disc player  100  ( 200 ), in step  508  the user pushes the “BACK” navigation button in the external user agent document Ext1.HTML  512 . Since the pointer to the local user agent document Local1.HTML  510  is assigned to the “BACK” navigation button in the external user agent document Ext1.HTML  512 , in step  508  the optical disc player  100  ( 200 ) accesses and displays the local user agent document Local1.HTML  510 . However, when the local user agent document Local1.HTML  510  is accessed and displayed, the video segment chapter 1 may start playing again from the beginning. But, the user already has seen video segment chapter 1 as per step  502 . Thus, to improve synchronization between the video and user agent documents when navigating between different user agent documents, there is a need to store the last playback location of the video segment when a navigation button has been activated.  
         [0036]    [0036]FIG. 6 illustrates a flow diagram of a navigation method  600  improves the synchronization of the video segment to the corresponding user agent document in accordance with the invention. In this case, two video segments chapter 1-2 are synchronized with a local user agent document Local1.HTML  616  and a video segment chapter 3 is synchronized with an external user agent document Ext1.HTML  618 . In step  602 , the optical disc player  100  ( 200 ) accesses and displays user agent document Local1.HTML including video segment chapter 1. In step  604 , the user completes viewing video segment chapter 1 and the optical disc player  100  ( 200 ) begins showing video segment chapter 2 on the Local1.HTML document  616 . At this time, before the user sees the playback of video segment chapter 2, in step  606  the user pushes the “NEXT” navigation button on local user agent document Local1.HTML  616 , which causes the optical disc player  100  ( 200 ) to send a request for the external user agent document Ext1-HTML  618  along with a pointer to the local user agent document Local1.HTML  616 . Also, in step  608 , the optical disc player  100  ( 200 ) saves the video playback location (e.g. in a cookie) at the time the user pushed the “NEXT” navigation.  
         [0037]    After the external user agent document Ext1.HTML  618  has been received and displayed by the optical disc player  100  ( 200 ) in step  610 , in step  612  the user pushes the “BACK” navigation button in the external user agent document Ext1.HTML  618 . Since the pointer to the local user agent document Local1.HTML  616  is assigned to the “BACK” navigation button in the external user agent document Ext1.HTML  618 , in step  614  the optical disc player  100  ( 200 ) access and displays the local user agent document Local1.HTML  616 . In this case, however, the optical disc player  100  ( 200 ) begins the video segment at the last video playback location saved in step  608 . In this example, the last video playback location is the beginning of video segment chapter 2. Thus, the synchronization of the video to the user agent document has improved since the system returns to the video playback location at the time the user pushed the “NEXT” navigation button, thereby the user need not view what has already been previously shown  
         [0038]    In the foregoing specification, the invention has been described with reference to specific embodiments thereof. It will, however, be evident that various modifications and changes maybe made thereto without departing from the broader spirit and scope of the invention The specification and drawings are, accordingly, to be regarded in an illustrative rather than a restrictive sense

Technology Category: h