Patent Document

FIELD OF THE INVENTION 
     The present invention is directed to an electronic program-guide (EPG) system that enables a television viewer of a program in a particular category to “sideways surf” to the next channel carrying another program in the same category. 
     BACKGROUND OF THE INVENTION 
     The capacity of television-distribution systems is beginning to exceed the decision-making capability of the average viewer. Currently, over 60 million households in the United States subscribe to one of over 10,000 cable-television systems, and more than 45% of those subscribers receive 54 or more channels. In addition, over 5 million US households subscribe to satellite-television services that use digital-compression technology allowing up to 200 channels. In the future, high-bandwidth cable systems using digital compression will be able to offer more than 500 channels of standard quality, although this number will be reduced if some of the channels carry high-definition programming. 
     A. Television-Distribution Systems 
     FIG. 1 depicts a typical prior-art system in which a television-distribution network  10  delivers television signals in channels to a simple user-interface unit  12  that functions as a channel selector. The television-distribution network may be a cable-television system as described by Walter S. Ciciorca in “Cable Television in the United States—An Overview,” which was published by Cable Television Labs in 1995. In a cable-television system, a network interface  11  such as a multitap allows for splitting the signals off a distribution cable of the network for transmission along a drop cable into the subscriber&#39;s premises. The television-distribution network could also be a direct-broadcast satellite (DBS) system. A DBS system delivers television signals in channels on a microwave carrier to a subscriber&#39;s user-interface unit. A third type of distribution system called “wireless cable” or MMDS (for Multichannel Multipoint Distribution Services) also uses a microwave carrier, but the transmitters are on the ground. Multiple transmitters are used to extend the range of a system from the 30-40 mile line-of-sight range of a single transmitter. Both DBS and MMDS distribution systems use a stationary dish antenna as the network interface  11  to acquire the microwave carrier at the subscriber&#39;s premises. The television distribution network may also be traditional broadcast television, wherein the network interface may be a roof-mounted antenna or rabbit-ears. 
     B. Channel Selector 
     In the typical prior-art system of FIG. 1, a viewer controls a user-interface unit  12  at a remote control  123 , which is typically an infrared transmitter. The viewer can enter a channel number on a numeric keypad of the remote control, and a receiver  124  will forward the number to a controller  125 . In a simple system, the controller accepts two numbers at a time, so if the viewer wants channel  2 , he or she presses the 0 key before pressing the 2 key. The controller causes a tuner  121  to pass a video signal  131  of the selected channel to a video-display generator  122 . The video-display generator also receives the selected channel number directly from the controller and overlays a graphical representation of the channel number  132  on the video of the selected channel. Typically the controller presents a newly selected channel number to the video-display generator only for a few seconds, to allow the viewer to confirm the selection that he or she made. The selected video is remodulated at a modulator  126  so that it may be received by the TV receiver  13  at a fixed channel, usually channel  3  or  4 . The viewer may also press up and down-arrow keys on the remote control to cause the user-interface to select the next higher or lower channel number. When the network is a cable-television network, the user-interface unit  12  may be incorporated in a cable-ready VCR or television receiver. Satellite-ready television receivers have been produced also, but it is more common to use a separate user-interface unit with a DBS or MMDS distribution network, because a relatively expensive tuner is used to receive channels from the microwave carrier of those systems. 
     C. Non-Interactive Program Guides 
     A viewer who is interested in a particular type of program can consult television listings provided in magazines and newspapers. However, these sources list program titles by channel and time slot, so the viewer must read the titles of all the programs offered at the time of interest. TV Listings published in newspapers and magazines fail to reflect schedule changes caused by special broadcasts or by the unpredictable timing of live events. Printed listings are also incomplete as to which channel number a viewer should select, especially for cable channels. 
     If the viewer subscribes to a television-distribution service, he or she can also usually select a special channel that is dedicated to a program guide  20  as depicted in FIG.  2 . Program-guide channels are also inconvenient because standard-quality television can display only a limited amount of readable text. Therefore only a few channel listings are shown at a time and slowly scroll the program-guide information through the displayed video  21 . In the example shown in FIG. 2, a viewer who wants to watch a sitcom will have to remember that there is such a program on channel  2  until the listing for channel  61  appears on the screen. Thereafter, the viewer will have to remember which programs are showing on both channels  2  and  61  while many other listings scroll onto the screen. This takes some effort and intensifies the impatience viewers feel while waiting for the program-guide channel to return to where it was when they started watching it. Very often, viewers ignore the program-guide channel instead, preferring to “surf” up or down through the channels instead, watching a few seconds of each program to see if it looks interesting. 
     D. Interactive Electronic Program-Guide System 
     Interactive electronic program-guide systems are also known in the art. An electronic program-guide system comprises data and software that reside in a user-interface unit that is commonly referred to as a set-top box. For example, a system for controlling a television receiver to allow user selection of broadcast programs from schedule information is disclosed in U.S. Pat. No. 4,706,121 issued to Patrick Young on Nov. 10, 1987. FIG. 3 depicts an illustrative user-interface unit  30  that receives television signals in channels from the television-distribution network  10  at a tuner  31 . The user-interface unit also receives a program guide at a data decoder  32 . The program guide may be thought as a spread sheet with rows labeled by channel numbers, columns labeled by time slots, and titles of scheduled programs filled into cells that may occupy one or more half-hour time slots. A data processor  34  moves the program guide into a memory  33  for later use. 
     User-interface unit  30  allows a viewer to choose a program-guide (PG) mode and a television (TV) mode. The viewer can toggle back and forth between these modes by pressing a PG/TV key  351  at a remote control  35 . In TV mode, a numeric-key array  352  and up and down-arrow keys  353  and  354 , respectively, allow the viewer to select programs in the same way as described above in connection with the channel selector shown in FIG.  1 . The data processor also causes the video-display generator  37  to superimpose the channel number  132  on the video  131  of the channel just selected for a few seconds. 
     When the electronic program guide is in TV mode and the viewer presses the PG/TV button, a signal is received at a receiver  36 , where it is accessible to the data processor  34 . The data processor responds by retrieving a portion of the program guide from the memory and sending it to a video-display generator  37 . The video-display generator shows a portion of the program-guide spreadsheet  41  on the television receiver  13  as illustrated in FIG.  4 . There is a current cell (channel and time slot or slots) C PG    42  associated with the PG mode, and the user-interface unit identifies C PG  to the viewer by blinking the program title in that cell. 
     A system for positioning the spreadsheet is disclosed in U.S. Pat. No. 5,353,121 issued to Young, Roop and Faber on Oct. 4, 1994. When the viewer selects the PG mode, the spreadsheet reappears as it was just before the viewer had selected TV mode previously. Thereafter, the viewer may move C PG  to a cell at earlier or later time slots by pressing left and right-arrow keys  355  and  356 , respectively, on the remote control. The user may also move C PG  to lower or higher-numbered channels by pressing the up and down-arrow keys  353  and  354 , respectively, of the remote control. When C PG  reaches a boundary of the displayed portion of the program spreadsheet, one more step in the same direction as the previous one moves the displayed portion of the program spreadsheet by one channel or one time slot such that C PG  remains at the boundary. 
     While the electronic program guide is in PG mode, the viewer can move C PG  to any cell and press a select key  357  on the remote control. At that point, the program title in the selected cell will be both underlined and blinking. When the viewer moves C PG  again, a previously selected cell such as cell  43  will be underlined only. More than one cell can be selected. However, selecting a second cell that overlaps a previously selected first cell deselects the first cell in the overlapping time slot or slots. The program title in a cell that has been partially unselected in this manner will be underlined only in the remaining selected time slot or slots. A cell that has been selected or partially selected can be toggled back to the unselected state by moving C PG  to that cell again and pressing the select key. 
     After selecting or partially selecting one or more cells in PG mode, the viewer can toggle the electronic program guide back to TV mode by pressing the PG/TV key  351 . The data processor  34  will carry out the viewer&#39;s selections by sending the channel number of selected or partially selected cells to the tuner  31  as the selected time slots become current. If the current time slot is unselected, the electronic program guide will return to the channel that was last shown in TV mode. It should be noted that the left and right-arrow keys  355  and  356  and the select key  357  have no defined operation in TV mode, so the data processor should do nothing on such inputs. 
     Computer-literate users may prefer an interactive electronic program-guide system that allows a viewer to choose programs from a spreadsheet. However, it still requires viewers to base their decisions on program titles that they read off the television screen. The program titles also unavoidably become somewhat cryptic when they are shortened to fit into a the cells of a spreadsheet. Because of these drawbacks, a viewer with an interactive electronic program-guide system may still choose to surf up and down the channel lineup in TV mode. Therefore, it is the object of the present invention to provide a more intuitive electronic program-guide system that allows a viewer of a program in a particular category to “sideways surf” to the next channel carrying another program in the same category. 
     SUMMARY OF THE INVENTION 
     The electronic program-guide (EPG) system of the current invention comprises a method which allows a viewer of a television program in a category (such as movies, sports, specials, etc.) appearing on a channel of a television-distribution network to select a second channel carrying another program in the same category. Illustratively, the inventive EPG system can be loaded into a user-interface unit of the prior-art electronic program-guide system, and all defined operations in the program guide (PG) and television (TV) modes will continue to work. However, previously undefined inputs at the remote control are made meaningful in the inventive EPG system. The program guide in the inventive EPG system includes a category for each program, and the new functionality relates to choosing programs based on their categories. 
     In a preferred embodiment, the left and right-arrow keys, and the select key of the remote control are defined in the inventive EPG system in its TV mode. In a first embodiment, a viewer can surf to the next higher or lower-numbered channel carrying another program in the same category as the program he or she is currently watching by pushing the right or left-arrow key, respectively. If the viewer presses the select key in the TV mode, the EPG system will change to the next category in which a program is currently showing. If more than one channel is carrying such a program, the lowest-numbered channel showing a program in the next category will be selected. 
     In TV mode, the inventive EPG system indicates the availability of other channels carrying programs in the same category as the program in the channel just selected. Illustratively, a right arrow is shown when such channels exist at higher numbers and a left arrow is shown when they exist at lower channel numbers. This indication is illustratively given at the top of the screen in what is called a “channel hat or other icon.” The channel hat is displayed for a few seconds only and illustratively also contains the channel number, title, and category of the program in the channel just selected. 
     The new functionality relates to the categorization of programs described in “Program Guide for Digital Television, ATSC Standard,” which is Document A/55 dated Jan. 3, 1996 of the Advanced Television Systems Committee. The contents of this document are incorporated herein by reference. This standard describes a format for transmitting a master program guide of data about current and future programs in a digital-television system. The standard provides an 8-bit index to a classification of programs. Not all of the 256 combinations have been assigned. The standard classifies the categories that it does assign into 6 types: Movies, Sports, Specials, Series, News, and Shopping. Illustratively, the inventive EPG system expands this short list to 13 categories: Movies (all), Sports (all), Specials (all), Series (Children, Comedy, Drama, other), News (Business, Current, General Interest, Sports, Weather), and Shopping. 
    
    
     BRIEF DESCRIPTION OF THE DRAWINGS 
     FIG. 1 schematically illustrates a user-interface unit for selecting a television channel on a television-distribution network for display on a television receiver. 
     FIG. 2 illustrates a non-interactive television program guide displayed on a television receiver. 
     FIG. 3 schematically illustrates a user-interface unit for displaying an interactive electronic program-guide system. 
     FIG. 4 illustrates an interactive electronic program-guide system displayed on a television receiver. 
     FIG. 5 schematically illustrates an interactive electronic program-guide (EPG) system with sideways-surfing capability in data and software. 
     FIG. 6A illustrates a program-guide database; 
     FIG. 6B illustrates graphical information that overlays the video of a program just selected; and 
     FIG. 6C lists variables that allow programs to be selected by their categories in the EPG system of FIG.  5 . 
     FIG. 7 is a flow chart of the control program used in the EPG system of FIG.  5 . 
     FIG. 8 is a flow chart of the method that the EPG system of FIG. 5 performs in TV mode to support the selection of channels. 
     FIG. 9A is a flow chart of the method that the EPG system of FIG. 5 performs to determine information displayed in FIG.  6 B and listed in FIG.  6 C. 
     FIG. 9B is a flow chart of an alternative to the method of FIG.  9 A. 
    
    
     DETAILED DESCRIPTION OF THE INVENTION 
     FIG. 5 schematically illustrates an interactive electronic program-guide (EPG) system  50  in accordance with an illustrative embodiment of the invention. The EPG system  50  comprises a control program  51 , a program-guide database  52 , a hat-data module  53 , a program-guide data module  54 , a channel register  55 , a data-input module  56 , a viewer-input module  57 , and a clock I/O module  58 . The EPG system preferably resides on a user-interface unit  30  that accepts data and television programs on channels from a television-distribution network  10 . The user-interface unit also accepts commands that a viewer inputs at a remote-control device  35 . The EPG system interprets the command and data inputs and directs the user-interface unit to send video modulated on a fixed channel to a television receiver  13 . The video comprises a television program or program-guide information or program-guide information superimposed over part of a television program. 
     The EPG system  50  has a program-guide (PG) mode and a television (TV) mode, and the viewer can toggle the EPG system back and forth between these modes by pressing a PG/TV key  351  at a remote-control device  35 . In PG mode, the control program  51  formats program-guide information as a spreadsheet and passes the data to the program-guide data module  54 , which causes the video-display generator  37  to output a video signal that causes the spreadsheet to be graphically displayed on the television receiver  13 . The spreadsheet shows current and future program titles in cells, with rows labeled by channel numbers and columns labeled by time slots. The control program allows the viewer to navigate over the spreadsheet using arrow keys  353 - 356 . The viewer can also select a program or cancel a previous selection of a program in a cell of the spreadsheet by pressing a select key  357 , which is also located on the remote-control device. 
     The program-guide database contains a record for each program, and each record has information for its program in fields as illustrated in FIG.  6 A. The channel-number field  611  contains the number of the channel on which the program is scheduled to appear. There is also at least a title field  612 , a first time slot field  613 , a start offset in minutes  614 , a length in 30-minute time slots  615 , an end offset in minutes  616 , and a category field  617 . The start offset is the delay from the start of the first time slot to the start of the program. The end offset is the delay from the end of the last time slot until the end of the program. The EPG system does not assume that programs are assigned to a fixed list of categories or even to a fixed list of channels. The contents of a preferred embodiment of the program-guide database are entirely determined by a master program guide that is received from the television-distribution network at a data decoder  32 . However, an illustrative list of categories is Movies (all), Sports (all), Specials (all), Series (Children, Comedy, Drama, other), News (Business, Current, General Interest, Sports, Weather) and Shopping. A data-input module  56  uses channel, title, time-slot and category information in the master program guide to fill in records in the program-guide data base and discards other information. 
     In TV mode, the EPG system responds to up and down-arrow keys  353  and  354  by incrementing the channel from which the user-interface unit  30  takes the television program that it sends to the television receiver. The new channel will be the next higher or lower channel on which the television-distribution network  10  carries scheduled programs. The viewer can also select a channel by number by pressing keys on the numeric-key pad  352  of the remote-control device  35 . When the channel is changed, a channel hat  62  (or other icon) is superimposed for a few seconds at the top of the displayed video in TV mode. 
     As shown in FIG. 6B, the channel hat  62  (or other icon) comprises at least an indication of the channel number  132  just selected and of the existence of other channels carrying programs in the same category as the program on the selected channel. The presence of an arrow  621  pointing to the left indicates the existence of such programs at lower-numbered channels. The viewer can find a program that may be of interest by surfing sideways to the left, which the viewer accomplishes by pressing the left-arrow key  355 . An arrow  622  pointing to the right indicates that the viewer can surf to such a program at a higher-numbered channel by pressing the right-arrow key  356 . If the viewer has reached the highest channel in that category, pressing the right-arrow key  356  preferably brings the user to the lowest channel currently running a program in the desired category. Similarly, if the viewer has reached the lowest channel in the category, pressing the left-arrow key  621  preferably brings the user to the highest channel currently running a program in the desired category. 
     FIG. 6B also shows the title  623  and category  624  of the program on the newly selected channel displayed in the hat. The video-display generator  37  receives data that allows it to display the channel hat  62  from the hat-data module  53 . The hat-data module retrieves the channel number  132 , title  623 , and category  624  of the program on the newly selected channel from the control program  51 . The control program finds the channel number  132 , title  623  and category  624  of the newly selected channel in the channel number field  611 , title field  612 , and category field  717 , respectively of a record in the program-guide database  52 . The control program also reads the current time with the help of a clock I/O module  58  and determines whether any other program is current by calculating a starting time and an ending time from the information in the timing fields  613 - 616  on the record for that program in the program-guide database. 
     FIG. 6C lists other variables that the control program  51  maintains to support sideways surfing in TV mode. In particular, binary variables SLE  63  and SRE  65  are set when surfing to the left and right are enabled, respectively. The control program passes these variables to the hat-data module, which shows the left arrow  621  if SLE is set and the right arrow  622  if SRE is set. The control program also maintains channel number SLN  64 , which will be selected if the viewer presses the left-arrow key, and channel number SRN, which will be selected if the viewer presses the right-arrow key. Finally, the control program in the first embodiment maintains a channel number NCN  67 , which is the number of the first channel carrying a program in the next category after the category  624  of the program on the newly selected channel. Channel NCN will be selected if the viewer presses the select key  357 . A second embodiment of the invention makes use of a previous category channel number PCN  68 . The control program finds PCN by stepping backwards through the list of categories until a category is found in which a program is available. 
     FIG. 7 is a flow chart of a preferred method  700  performed by the control program  51 . The first step  701  is to read the clock and determine, at step  702 , if a current program was selected on the spreadsheet in advance. If a program was selected in advance, method  700  branches to step  703 , where the channel number of the preselected program is read from the spreadsheet. Method  700  cancels the selection on the spreadsheet at step  704  to allow the viewer to make other selections in TV mode if he or she wishes. Method  700  then proceeds to update the channel hat and other information used in sideways surfing at step  711 . Method  700  sends the newly selected channel to the channel register  55  at step  712 . The channel register then causes the tuner  31  to pass the video of the program on the newly selected channel to the video-display generator  37 . 
     If the current time slot was not selected, method  700  branches to step  705  and uses the viewer-input module  57  to test for viewer input. If there is no input, method  700  branches to  701 . Thus method  700  loops through steps  701 , 702 , and  705  until the viewer inputs a command at the remote control  35 . Method  700  branches to step  706  when the viewer does input a command and tests to see whether the viewer pressed the PG/TV key  351 . If the viewer did press key  351 , method  700  toggles from TV mode to PG mode, or vice versa and starts over at step  701 . If the viewer did not press the PG/TV key, method  700  branches to step  708 , where the current mode of the EPG system is checked. If the EPG system is in PG mode, method  700  branches to step  709 , where the command is accepted as a navigation from or selection of a cell on the spreadsheet. If the EPG system was not in PG mode, method  700  proceeds to step  710 , where the viewer&#39;s command is interpreted in TV mode by a method  800  shown in FIG.  8 . At step  711 , a channel has been newly selected, and it is necessary to update the channel hat and prepare for sideways surfing from the newly selected channel. This is done by a method  900  shown in FIG.  9 A. At step  712 , method  700  sends the newly selected channel to the channel register  55 , which in turn causes the tuner  31  to pass the video of the program on the newly selected channel to the video-display generator  37 . Method  700  then starts over again at step  701 . 
     When the EPG system  50  is in TV mode and the viewer presses keys on the remote-control device  35 , the control program  51  performs method  800  shown in FIG.  8 . Method  800  compares the input with the allowed inputs and determines the newly selected channel number accordingly. At step  801 , method  800  uses the clock I/O module  58  to determine the current time. At step  802 , method  800  tests whether the viewer pressed the up-arrow key  353 . If the result is positive, method  800  branches to step  803 , where the channel number is incremented. At step  804  the set of all records that match the incremented channel at the current time are accessed in the program-guide database  52 . At step  805  the set is tested, and if the set is empty, method  800  branches back to step  803 . Thus steps  803 ,  804  and  805  form a loop that is repeated until a channel is found that is carrying a program at the current time, and then method  800  is completed. 
     If the up-arrow key was not pressed, method  800  next tests the input again at step  806 . If the down-arrow key  354  was pressed, method  800  decrements the channel number at steps  807 ,  808  and  809  until a channel is found that is carrying a scheduled program. The channel number being determined, method  800  is completed. If the down-arrow key was not pressed, method  800  proceeds to step  810 . At step  810 , the input is tested again, and if the left-arrow key  355  was pressed, method  800  branches to step  811 , where the channel number is set to SLN  64 , and method  800  is completed. SLN is the channel number that the hat-update method  900  determined to be available for sideways surfing to the left after the previous channel selection was made. 
     If the left arrow was not pressed, method  800  proceeds to step  812 , where the input is tested again, and if the right-arrow key  356  was pressed, method  80  proceeds to step  813 . At step  813 , the channel number is set to SRN  65 , which is the channel number that the hat-update method  900  last determined to be available for sideways surfing to the right. After performing step  813 , method  800  is completed. 
     If the right-arrow key was not pressed, method  800  branches to step  814 , where the input is tested again. If the select key  357  was pressed, method  800  branches to step  815 . At step  815  the channel number is set to NCN  67 , which is the first channel number in the next category at which a program is scheduled for the current time. After step  815  is performed, method  800  is completed. If the select key was not pressed, it means that a key on the numeric-key pad  352  was pressed, and method  800  proceeds to step  816 . Method  800  then accepts zero or more additional digits specifying a channel number by testing the input at step  817  and repeating step  816  until a non-numeric key is pressed. When the viewer has indicated that the channel number is complete by pressing one of the arrow keys or the select key, method  800  tests the channel at steps  818  and  819  to see if it is scheduled to carry a program at the current time. Otherwise the channel number is incremented at step  820 , and steps  818 ,  819  and  820  are repeated until a channel is found that is not empty. When the channel number has been finally determined, method  800  is completed. 
     When the control program  51  changes the channel, it determines the information needed by the hat-data module  53  and other information needed to support sideways surfing using method  900  illustrated in FIG.  9 A. Method  900  reads the clock at  901  using the clock I/O module  58  and then consults the program-guide database  52  at step  902 . At step  903 , the title  623  and category  624  that will be shown in the channel hat are read from the record for the program scheduled on the newly selected channel  132  at the current time. At step  904 , the binary variables SLE  63  and SRE  65  that enable the display of the left and right arrows  621  and  622  in the channel hat  62  are reset. Also SLN  64  and SRN  66  are set equal to the contents of the channel field. Method  900  subsequently sets one or both of these variables causing the corresponding arrows to be displayed in the channel hat if sideways surfing is available. 
     Predefining them prevents the system from changing the channel if the viewer tries to surf sideways to a non-existent program. At step  905 , method  900  finds the set of records for programs showing at the current time that fall in the same category  624  as the program showing on the newly selected channel. If this set contains more than one record, sideways surfing will be enabled in at least one of the two directions. At step  906 , method  900  sorts the found set of records in order of increasing contents in the channel-number field  611 . When such a sort is performed, the current record presented by the program-guide database becomes the first member of the ordered set. At step  907 , the channel number of the current record is compared with the newly selected channel number  132 . If the channel number on the current record is less, it means that surfing to the left should be enabled and method  900  branches to step  908 . At step  908  SLE is set to enable the left arrow in the channel hat, and SLN is set equal to the contents of the channel field on the current record. At step  909 , the database is caused to present the next record of the found set after which step  907  is performed again. Thus steps  907 ,  908  and  909  form a loop. Eventually, if not the first time around the loop, the contents of the channel-number field will equal the newly selected channel number, and method  900  will branch to step  910 . This leaves SLN set to the highest channel number in the set that is less than the newly selected channel number. If the current record presented by the database at step  910  is not the last record in the set, it means that surfing to the right should be enabled, and method  900  branches to step  911 . Otherwise, method  900  branches directly to step  912 . 
     At step  911 , SRE is set to enable the right arrow in the channel hat, and SRN is set equal to the contents of the channel field on the current record. At step  912 , method  900  passes the information needed to display the channel hat to the hat-data module  53 , which causes the channel hat to be displayed for a few seconds. The final task that method  900  does is to determine a next channel in a next category by incrementing the category at step  913 . At step  914 , method  900  finds the set of records for programs showing at the current time that fall in this new category. The set is tested at step  915 . If it is empty, method  900  branches to step  913 . Thus method  900  increments the category by repeating steps  913 ,  914  and  915  until it finds a category in which at least one channel is carrying a program at the current time. At step  916 , this set is sorted on the contents of the channel-number field and NCN  67  is set equal to the contents of the channel-number field of the first record at step  917 . Method  900  is then completed. 
     In a second embodiment, there is also a PG mode and a TV mode, and the viewer can cause the EPG system  50  to toggle back and forth between these modes by pressing the TV/PG key  351 . The PG mode of the second embodiment is also unchanged from the prior-art system. Furthermore, the viewer can select channels in a normal TV mode using the numeric-key pad  352  and up and down-arrow keys  353  and  354  as in prior-art systems. However, by pressing the select key  357 , the viewer can cause the EPG system  50  to toggle back and forth between normal TV mode and a category-surfing TV mode. In category-surfing TV mode, the EPG system responds to the left and right-arrow keys as described in the first embodiment. However, by pressing the up-arrow key, the viewer can select the first available channel NCN  67  of the next category in which a program is showing. This function was assigned to the select key in the first embodiment. In the second embodiment, a previous category channel number PCN  68  would be selected by the down-arrow key. 
     FIG. 9B shows steps  918 - 923  that are added to method  900  to prepare for surfing to a channel carrying a program in the previous category. At step  918 , the method accesses the record for the program on the current channel  32  in the database  52 . The category is decremented at step  919 . At step  920 , the method finds the set of records for programs showing at the current time which fall in this new category. The set is tested at step  921 . If it is empty, the method branches to step  919 . Thus, the method decrements the category by repeating steps  919 ,  920  and  921  until it finds a category in which at least one channel is carrying a program at the current time. At step  922 , this set is sorted on the contents of the channel-number field and PCN  68  is set equal to the contents of the channel-number field of the first record at step  923 . The expanded method used in the second method is then completed. 
     Finally, the above described embodiments of the invention are intended to be illustrative only. Numerous alternative embodiments may be devised by those skilled in the art without departing from the scope of the following claims.

Technology Category: 5