CN112788386A - Program scheduling generation method and device - Google Patents

Abstract

The embodiment of the invention discloses a program scheduling generation method and a device thereof. The program schedule generation method comprises the following steps: displaying a first schedule panel within the graphical schedule interface; displaying a schedule setting interface on the first schedule panel; acquiring scheduling data of a first program through the scheduling setting interface; and generating a first program schedule displayed in a first schedule graph in the first schedule panel according to the first program schedule data. The embodiment of the invention can realize the technical effects of simplifying the program scheduling process and intuitively displaying the program scheduling.

Description

Program scheduling generation method and device

Technical Field

The present invention relates to the field of display application technologies, and in particular, to a program schedule generation method and a program schedule generation apparatus.

Background

With the rapid development of the electronic technology, the LED display screen rapidly occupies the display screen industry by the characteristics of high-definition color display pictures, super-strong stereoscopic impression, static oil painting, moving pictures and the like as the display screen industry is warped. Based on the advantages of bright color, high brightness, large visual angle and the like of the LED, the LED becomes an ideal mode for outdoor propaganda operation. Therefore, during the program scheduling process, visual customized playing content and playing plan are very important for LED promotion. However, the conventional method for generating the program schedule is simple, the generated program schedule is not intuitive enough, the operation process is relatively complex, and the priority of a plurality of playing plans overlapped in the playing time is not intuitive.

Disclosure of Invention

The embodiment of the invention provides a program scheduling generation method, a program scheduling generation device, a program scheduling generation system and a computer readable medium, so as to achieve the technical effects of simplifying the program scheduling process and intuitively displaying the program scheduling.

In one aspect, an embodiment of the present invention provides a program schedule generation method, including: displaying a first schedule panel within the graphical schedule interface; displaying a schedule setting interface on the first schedule panel; acquiring scheduling data of a first program through the scheduling setting interface; and generating a first program schedule displayed in a first schedule graph in the first schedule panel according to the first program schedule data.

The technical scheme can have the following advantages or beneficial effects: the embodiment of the invention realizes the generation and display of the program schedule by adopting the interface combining the graphic schedule and the schedule graphic, optimizes the program schedule generation interface, can simplify the program schedule operation, enables the program schedule plan to be more visual and further brings better experience to users.

In one embodiment of the invention, the first schedule panel is selected from one of a daily schedule panel, a weekly schedule panel, a monthly schedule panel and a calendar schedule panel.

In an embodiment of the present invention, the program schedule generating method further includes: switching the first scheduling panel to a second scheduling panel in response to a first user operation at the graphical schedule interface; the first schedule panel is selected from one of a date schedule panel, a week schedule panel, a month schedule panel and the second schedule panel is selected from the other of the date schedule panel, the week schedule panel, the month schedule panel and the schedule panel.

In one embodiment of the present invention, the step of displaying a schedule setting interface on the first schedule panel includes: responding to a second user operation on the graphical schedule interface to display the schedule setting interface; or in response to a third user action on a time/date pane on the first scheduling panel and in response to a fourth user action on the selected time/date pane to display the scheduling setting interface.

In one embodiment of the present invention, the first program scheduling data includes: playing list data, playing plan data and scheduling graph color data; the step of obtaining the scheduling data of the first program through the scheduling setting interface comprises the following steps: responding to a fifth user operation in a playlist list page of the schedule setting interface to acquire playlist data; wherein the playlist data includes a playlist name, a playlist duration, a media thumbnail, and/or a media number; responding to a sixth user operation in a playing plan setting page of the scheduling setting interface to acquire the playing plan data; wherein the playing plan data comprises a playing date, a starting playing time, an ending playing time and a repeating mode; and responding to a seventh user operation in an option attribute setting page of the schedule setting interface to acquire the schedule graph color data.

In one embodiment of the invention, the repetition mode setting is selected from the group consisting of no repetition, annual repetition, monthly repetition, weekly repetition and daily repetition.

In one embodiment of the present invention, the step of generating a first program schedule in a first schedule graph in the first schedule panel according to the first program schedule data comprises: adding the first program scheduling data into a program scheduling data list; dispersing the playing plan data of the first program scheduling data to corresponding playing dates on the first scheduling panel according to the repeating mode of the first program scheduling data; grouping program scheduling data of program scheduling which is the same as the playing date of the first program scheduling on the first scheduling panel and has overlapped playing time in the program scheduling data list to obtain program scheduling data groups; sequencing the program scheduling data in the program scheduling data packet according to a preset priority sequence to obtain a sequenced program scheduling data packet; determining the display position and size of the first scheduling graph in the corresponding playing date on the first scheduling panel according to the program scheduling number in the sequenced program scheduling data packet, the program scheduling data of the program scheduling in the sequenced program scheduling data packet and the preset priority order thereof; and generating the first schedule graphic within the first schedule panel according to the display position and the size of the first schedule graphic.

In an embodiment of the present invention, the program schedule generating method further includes: responding to an eighth user operation on the first schedule graph to adjust the starting playing time and/or the ending playing time of the first program schedule, wherein the upper edge of the first schedule graph corresponds to the starting playing time of the first program schedule, and the lower edge of the first schedule graph corresponds to the ending playing time of the first program schedule, and the eighth user operation comprises selecting and dragging the first schedule graph to move upwards or downwards, or selecting and dragging a dragging pointer at the upper edge and/or the lower edge of the first schedule graph.

In an embodiment of the present invention, the program schedule generating method further includes: generating a first schedule graphic on each of a plurality of play dates in the first schedule panel; and responding to a ninth user operation of any one first schedule graph in the plurality of playing dates to synchronously adjust the first program schedule starting playing time and/or ending playing time of all the first schedule graphs in the plurality of playing dates.

In an embodiment of the present invention, the program schedule generating method further includes: displaying a second schedule setting interface on the first schedule panel; acquiring second program scheduling data through the second scheduling setting interface; generating a second program schedule displayed in a second schedule graph in the first schedule panel according to the second program schedule data; the first scheduling graph and the second scheduling graph are located in the same playing date area in the first scheduling panel in parallel, and the playing time of the first scheduling graph and the playing time of the second scheduling graph are overlapped.

In one embodiment of the present invention, the second schedule graphic is generated in the first schedule panel later than the first schedule graphic, the second schedule graphic is located on the left side of the first schedule image in the same date area in the first schedule panel, and the second schedule graphic has a higher priority than the first schedule graphic within the playing time overlapping period.

In an embodiment of the present invention, the program schedule generating method further includes: responding to a tenth user operation on the first schedule panel to adjust the priority of the first schedule graph and the second schedule graph, wherein the tenth user operation comprises selecting and dragging the first schedule graph to move in a direction close to the second schedule graph or selecting and dragging the second schedule graph to move in a direction close to the first schedule graph.

In an embodiment of the present invention, the program schedule generating method further includes: generating one first schedule graphic and one second schedule graphic which are arranged side by side on each of a plurality of playing dates in the first schedule panel; and responding to an eleventh user operation on the first schedule panel to synchronously adjust the priority of all the first schedule graphics and the second schedule graphics of the plurality of playing dates, wherein the eleventh user operation comprises selecting and dragging the first schedule graphics of any one of the plurality of playing dates to move in a direction close to the second schedule graphics or selecting and dragging the second schedule graphics of any one of the plurality of playing dates to move in a direction close to the first schedule graphics.

On the other hand, an apparatus for generating a program schedule according to an embodiment of the present invention includes: the first display module is used for displaying a first schedule panel in the graphical schedule interface; a second display module for displaying a schedule setting interface on the first schedule panel; the program scheduling data acquisition module is used for acquiring first program scheduling data through the scheduling setting interface; and the program scheduling generation module is used for generating a first program scheduling displayed in a first scheduling graph in the first scheduling panel according to the first program scheduling data.

In another aspect, a program schedule generating system provided by an embodiment of the present invention includes a memory and a processor connected to the memory, where the memory stores a computer program, and the processor executes the program schedule generating method according to any one of the foregoing methods when executing the computer program.

In another aspect, an embodiment of the present invention provides a computer-readable medium, in which computer-executable instructions are stored, where the computer-executable instructions are configured to execute any one of the foregoing program schedule generation methods.

The technical scheme can have one or more of the following advantages or beneficial effects: the embodiment of the invention realizes the generation and display of the program schedule by adopting the interface combining the graphic schedule and the schedule graphic, optimizes the program schedule generation interface, can simplify the program schedule operation, enables the program schedule plan to be more visual and further brings better experience to users. In addition, a schedule setting interface of four types of schedule panels comprising a daily schedule panel, a weekly schedule panel, a monthly schedule panel and a schedule panel is adopted to present more diversified program schedule display for a user; moreover, the starting and ending time and the priority of the playing plan of the program schedule corresponding to the schedule graph are changed by adopting a dragging operation mode, so that the program schedule operation is greatly simplified, the program schedule is more visual, and better experience is brought to a user.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 is a flowchart illustrating a program schedule generating method according to an embodiment of the present invention.

FIG. 2a is a partial interface diagram of a scheduling panel within a graphical schedule interface in accordance with an embodiment of the present invention.

FIG. 2b is a partial interface diagram of a cycle schedule panel within the graphical schedule interface according to one embodiment of the present invention.

FIG. 2c is a partial interface diagram of a monthly schedule panel within the graphical schedule interface in accordance with an embodiment of the present invention.

FIG. 2d is a partial interface diagram of a schedule panel within a graphical schedule interface, in accordance with an embodiment of the present invention.

Fig. 3 is a partial interface diagram of a playlist page of the schedule setting interface according to an embodiment of the present invention.

Fig. 4a is a partial interface diagram of a play plan setting page of the schedule setting interface according to an embodiment of the present invention.

Fig. 4b is a partial setting interface diagram of a repeat mode in the play plan setting page of the schedule setting interface according to an embodiment of the present invention.

FIG. 4c is a partial interface diagram with the repeating pattern set to not repeat according to one embodiment of the present invention.

FIG. 4d is a partial interface diagram with a repeating pattern configured to repeat every day in accordance with one embodiment of the present invention.

FIG. 4e is an interface diagram with a repeating pattern configured to repeat every week, in accordance with an embodiment of the present invention.

FIG. 4f is a partial interface diagram with a repeating pattern configured to repeat monthly according to one embodiment of the present invention.

FIG. 4g is a partial interface view with a repeat pattern set to repeat every year in accordance with an embodiment of the present invention.

Fig. 5 is a partial interface diagram of an option setting page of the schedule setting interface according to an embodiment of the present invention.

FIG. 6 is a diagram illustrating a partial effect of generating a scheduling graph on a graphical schedule interface according to an embodiment of the present invention.

FIG. 7 is a flowchart illustrating steps of generating a new scheduling graph and displaying the new scheduling graph in the currently displayed scheduling panel according to an embodiment of the present invention.

FIG. 8a is a partial diagram illustrating an embodiment of selecting and dragging a scheduling graphic to move up to change the start-stop time of a playback plan.

Fig. 8b is a schematic diagram of a drag pointer and/or a drag pointer and a drag direction for selecting and dragging the first schedule graph according to an embodiment of the present invention.

FIG. 9 is a diagram illustrating a partial effect of generating a plurality of scheduling graphics on a graphical schedule interface according to an embodiment of the present invention.

Fig. 10 is a view showing a partial effect after selecting and dragging the second schedule figure in a direction (left) close to the first schedule figure on the basis of fig. 9.

Fig. 11 is a schematic structural diagram of a program schedule generating apparatus according to another embodiment of the present invention.

Fig. 12 is a schematic structural diagram of a program schedule generating system according to yet another embodiment of the present invention.

Fig. 13 is a schematic structural diagram of a computer-readable medium according to still another embodiment of the invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1, a program schedule generating method provided in an embodiment of the present invention includes the steps of:

s11: displaying a first schedule panel within the graphical schedule interface;

s13: displaying a schedule setting interface on the first schedule panel;

s15: acquiring scheduling data of a first program through the scheduling setting interface;

s17: and generating a first program schedule displayed in a first schedule graph in the first schedule panel according to the first program schedule data.

For the convenience of understanding the present invention, the steps of the program schedule generating method according to the present embodiment will be described in detail with reference to fig. 2 to 10.

The embodiment is directed to optimization of a display interface of a program schedule and simplification of an operation mode, and a specific implementation mode is as follows.

The program scheduling generation method provided by the embodiment of the invention can be realized by program scheduling software installed on a computer. The interface of the program scheduling software includes a graphical schedule. The graphical schedule is provided with a plurality of schedule panels, such as a date schedule panel (shown in fig. 2 a), a week schedule panel (shown in fig. 2 b), a month schedule panel (shown in fig. 2 c), and a schedule panel (shown in fig. 2 d). The vertical axis of the interface of the date schedule panel is 24 hours a day, and takes half an hour as a unit, and the horizontal axis takes the date of the day as a unit, and the schedule graph of the broadcast program of the date of the day represented by the horizontal axis is displayed. The vertical axis of the interface of the week schedule panel is 24 hours a day, and takes half an hour as a unit, and the horizontal axis takes a week as a unit, and can display schedule graphs of the playing programs in the current week. The interface of the month schedule panel can display schedule graphs of all the broadcast programs in the current month by referring to common calendar expression forms. The schedule panel displays schedule graphs of all the programs played in one month in a list mode according to the time sequence. The program scheduling software can switch different forms of scheduling panels, for example, in response to a user's button operation instruction, so that the user can very conveniently view the programs played every day, every week, and every month. The diversified graphic time schedule presents a better operation interface and a program scheduling display mode for the client.

The program scheduling software responds to the user's operation on the graphical schedule interface, for example, clicking a trigger button, such as a "new" button, and displays a schedule setting interface (shown in fig. 3) for detailed setting of the program schedule and its corresponding schedule graph. Alternatively, the program scheduling software may display the schedule setting interface in response to user action, such as selecting a time/date pane on the scheduling panel and clicking a trigger button, such as the + -, on the selected time/date pane. The scheduling setting interface is a Modal dialog Box (also called a Modal dialog Box) typically including a plurality of pages, such as the playlist list page shown in fig. 3, the playlist setting page shown in fig. 4a, and the option setting page shown in fig. 5. The program scheduling software completes the acquisition of program scheduling data by responding to a series of operations of a user in a scheduling setting interface. The program scheduling data here includes play list data, play plan data, scheduling graphic color data, and the like.

Specifically, in the playlist list page shown in fig. 3, the program scheduling software responds to a user operation, for example, to select a playlist for determining the current new program schedule, for example, selecting [ playlist 1 ] in fig. 3 as the playlist for the current program schedule. Further, as shown in FIG. 3, the playlist page contains playlist data such as playlist name, playlist playback duration, media thumbnail, and media number (corresponding to the number of items in the detailed information field); the provision of media thumbnails here facilitates the user in quickly finding the desired playlist. The content of the playlist typically includes a media name and a media play duration. In addition, it is worth mentioning that, in the process of generating the program schedule, the first playlist in the playlist page may be defaulted as the playlist of the current program schedule; if the program is not in accordance with the actual requirement, a selection operation can be performed on the playlist page to modify the playlist of the currently new program schedule.

In the play plan setting page shown in fig. 4a, the program scheduling software acquires play plan data of a program schedule, for example, by setting a start play time setting item, an end play time setting item, and/or a play repetition mode setting item in the play plan of the currently newly created program schedule, for example, in response to a user operation. The play plan data here includes a play date, a start play time, an end play time, and a repetition manner. It is worth mentioning that the new program schedule is created by clicking a trigger button, such as the "new" button, and the start playing time and the end playing time of the playing plan default to 00:00-24:00 of the current day (i.e., the entire day). When the graphical schedule interface displays a date scheduling interface or a week scheduling interface, a newly-built program scheduling is established by a trigger button such as a + -, and the starting playing time and the ending playing time of the playing plan are respectively the time starting point and the time ending point of a time square where the trigger button such as the + -, is located on the vertical axis. When the graphical schedule interface displays the month schedule interface, the program schedule is newly built through the + - 'number button, and the starting playing time and the ending playing time of the playing plan are defaulted to 00:00-1:00 of the date of the + -' number button. When the schedule interface is displayed on the graphical schedule interface, a program schedule can be newly created by clicking a button (new). After the setting of the playing start time and the playing end time is completed, the difference value between the playing end time and the playing start time is the playing time length of the playing plan of the program schedule. In addition, if it is considered that there is a need to modify the play plan of the currently newly created program schedule, a modification operation may be performed on the corresponding setting item in the play plan setting page shown in fig. 4 a. Further, as for the repetition mode setting item, it includes the options of not repeating, repeating every day, repeating every week, repeating every month, and repeating every year, as shown in fig. 4 b. Wherein, the play list corresponding to the program schedule is not repeatedly shown and is only played once, as shown in fig. 4 c; the daily repetition means that the program is repeatedly played every day within the validity period, as shown in fig. 4 d; repeating every week can select the program repeatedly played in the week of one week, and the selected date is highlighted, as shown in fig. 4 e; repeating the program by month, namely setting the program to be played repeatedly on certain days of each month, and highlighting the selected date, as shown in FIG. 4 f; repeating by year may set a specific date per year to repeat the program, as shown in fig. 4 g. The multiple repeated modes are flexible and convenient to set.

In the option setting page shown in fig. 5, the schedule graphic color data of the schedule of the current program, i.e., the color of the schedule graphic, is set. As shown in fig. 5, the color setting item presets a plurality of different color options for selection. The program scheduling software determines the color of the scheduling graphic in response to a user's color selection operation. Of course, the user may also modify the color of the scheduling graphic by clicking on the color option.

In light of the above, when the [ ok ] button is clicked on any one of the pages shown in fig. 3, fig. 4a and fig. 5, the program schedule displayed in the schedule graph shown in fig. 6, for example, can be generated in the schedule panel currently displayed in the graphical schedule interface. The generated schedule graph of the program schedule is, for example, a rectangular area, the time of which upper edge corresponds to the time axis (vertical axis) is the starting playing time of the playing plan of the program schedule, and the time of which lower edge corresponds to the time axis (vertical axis) is the ending playing time of the playing plan of the program schedule, and the height of the first schedule graph visually represents the playing time length of the playing plan of the program schedule. In fig. 6, the cue box of the scheduling graphic preferably displays its corresponding playlist and playing time period. It should be noted that after the [ ok ] button is clicked on any one of the pages shown in fig. 3, fig. 4a, and fig. 5, the program scheduling software acquires the program scheduling data, and performs the steps shown in fig. 7 to generate and display the program scheduling and the scheduling graph thereof in the currently displayed scheduling panel, which are specifically as follows:

s21: program schedule data is added to the program schedule data list. The program scheduling data list is a set of program scheduling data of the program scheduling software, and comprises program scheduling data of all established program scheduling graphs. The program scheduling software adds program scheduling data of the program scheduling to be generated into the program scheduling list, and disperses the play schedule of the program scheduling to corresponding dates according to the repeated mode of the play schedule of the program scheduling.

S22: and dispersing the playing plan data of the program scheduling data to corresponding playing dates on the scheduling panel according to the repeating mode of the program scheduling data. Specifically, the program scheduling data of all program schedules in the program scheduling data list are traversed, and respective playing plans are dispersed into dates displayed on a currently displayed scheduling panel in the graphical schedule interface according to respective repeated modes of the program schedules.

S23: and grouping the program scheduling data of the program scheduling which is the same as the playing date of the program scheduling to be generated on the scheduling panel and has overlapped playing time in the program scheduling data list to obtain program scheduling data groups. Specifically, the program editing software traverses the program scheduling data of the program scheduling which is in the same date as the playing date of the currently newly-built program scheduling in the program scheduling data list, and groups the program scheduling data with the playing time overlapping in the same playing date in the currently-displayed scheduling panel to obtain the program scheduling data groups. And if no scheduling graph with overlapped playing time exists in any same playing date, drawing the newly-built scheduling graph in the date range of the currently-displayed scheduling panel according to the program scheduling data of the currently-built program scheduling.

S24: and sequencing the program scheduling data in the program scheduling data packet according to a preset priority sequence to obtain a sequenced program scheduling data packet. The program scheduling software traverses the program scheduling data packet and sequences the program scheduling data of each program scheduling in the program scheduling data packet according to a preset priority order, such as the priority from high to low, so as to obtain a sequenced program scheduling data packet.

S25: and determining the display position and size of the newly-built program schedule graph in the corresponding playing date on the currently-displayed schedule panel according to the program schedule quantity in the sequenced program schedule data packet, the program schedule data of the program schedules in the sequenced program schedule data packet and the preset priority order of the program schedule data. For example, the sorted program schedule data packet includes two sets of program schedule data, and it is described that when there is an overlap of broadcast times in the dates of the two schedule graphs, the horizontal axis direction width of each schedule graph in the corresponding date range in the currently displayed schedule panel is 1/2 corresponding to the horizontal axis direction width of the date, that is, assuming that the horizontal axis direction width of the date in the currently displayed schedule panel is W, the horizontal axis direction width of each schedule graph is 0.5W, the starting position of the horizontal axis direction of the schedule graph with a high priority is 0, and the starting position of the horizontal axis direction of the schedule graph with a low priority is 0.5W. Then, according to the starting playing time and the ending playing time of each program schedule, calculating the position and the height of the program schedule in the longitudinal axis direction of the corresponding date range in the currently displayed schedule panel, assuming that the height of the longitudinal axis direction of the date in the currently displayed schedule panel is H, the playing starting time of the program schedule with high priority is a, the ending playing time is b, the starting playing time of the program schedule with low priority is c, and the ending playing time is d, therefore, the start position of the date vertical axis direction in the currently displayed schedule panel of the high-priority schedule pattern is a × H/24, the height in the vertical axis direction is (b-a) × H/24, the start position of the date vertical axis direction in the currently displayed schedule panel of the low-priority schedule pattern is c × H/24, and the height in the vertical axis direction is (c-d) × H/24. Finally, in the date range in the currently displayed schedule panel, the width and height dimensions of the start position coordinates (0, a × H/24) of the schedule graphics of the program schedule of the high priority are 0.5W, (b-a) × H/24, respectively, the width and height dimensions of the start position coordinates (0.5W, c × H/24) of the schedule graphics of the program schedule of the low priority are 0.5W, (c-d) × H/24, respectively. The method is similar in the case of more program schedules.

S26: and generating a corresponding schedule graph in a currently displayed schedule panel according to the display position and the size of the schedule graph of the newly-built program schedule. It is worth mentioning that the program scheduling software draws the scheduling graph of each program scheduling in the scheduled scheduling graph parameter grouping in the currently displayed scheduling panel within the corresponding date range according to the display position of the scheduling graph of each program scheduling in the sequenced program scheduling data grouping in the currently displayed scheduling panel and the size of each scheduling graph calculated according to the sequence from high to low in priority and the size of each scheduling graph in the currently displayed scheduling panel, and displays the scheduling graph in the current scheduling panel.

Furthermore, the subsequent program scheduling software may also respond to a user operation, such as double-clicking the scheduling graph shown in fig. 6 with a mouse, or selecting the scheduling graph to be edited and triggering an [ edit ] button at the upper left corner shown in fig. 6, and popping up a scheduling setting interface to modify parameters such as a playlist, a playback plan, and/or a graph attribute of the scheduling graph.

In addition, after the scheduling graph is generated, the program scheduling software may respond to a user operation, for example, selecting and dragging the scheduling graph to move the whole upward or downward to the target position, that is, releasing the mouse, so as to adjust the scheduling graph, that is, the play start time and the play end time of the corresponding program scheduling, as shown in fig. 8a, that is, the effect of selecting and dragging the whole upward movement of the scheduling graph is achieved. The scheduling graph, that is, the starting playing time and the ending playing time of the playing plan of the program scheduling, is adjusted, and the program scheduling software may also finish the adjustment by responding to the user operation, for example, selecting and dragging the dragging pointer at the upper edge and/or the dragging pointer at the lower edge of the scheduling graph to the target position, as shown in fig. 8b, when the mouse moves to the range of the scheduling graph, dragging pointers appear at the upper edge and the lower edge of the scheduling graph, like the symbol, move up or down to the target position at the upper edge of the drag, that is, the time from the starting playing time of the playing plan corresponding to the schedule graph to the time when the target position of the schedule graph corresponds to the time axis (vertical axis) can be adjusted, the lower edge is dragged to move upwards or downwards to the target position, the playing time of the playing plan of the program schedule corresponding to the schedule graph can be adjusted to the time of the target position of the schedule graph corresponding to the time axis (vertical axis). It is worth mentioning that a same schedule graph is generated on a plurality of playing dates in the first schedule panel respectively; the program scheduling software responds to the drag operation on any scheduling graph of the multiple playing dates, and can synchronously adjust the starting playing time and/or the ending playing time in the parameters of all the same scheduling graphs of the multiple playing dates. Therefore, the user can conveniently adjust the starting and ending time of the play plan of the program schedule, and the operation is very simple and convenient. Of course, after the operation of adjusting the play start time and/or the play end time of the schedule graphics is finished, the program schedule software obtains the program schedule data of the program schedule corresponding to the adjusted schedule graphics, and performs the steps 23 to 26 on the adjusted program schedule as shown in fig. 7 to realize the refresh display of the adjusted schedule graphics in the currently displayed schedule panel.

In addition, a plurality of schedule graphs with a plurality of different program schedules can be generated on the graphical schedule interface, for example, as shown in fig. 9, 3 identical first schedule graphs corresponding to the broadcast program 1 are generated in a front panel on the graphical schedule interface, the playlist of the program schedule corresponding to the first schedule graph is playlist 1, the starting broadcast time is 01:59-05:27, and the repetition mode is monday, wednesday and friday every week. And 3 identical second schedule graphs corresponding to the playing program 2 are generated in a front panel on the graphical schedule interface, the playing list of the program schedule corresponding to the second schedule graph is the playing list 2, the starting playing time is 03:52-08:12, and the repetition mode is Monday, Wednesday and Saturday. Playlist 1 and playlist 2 overlap during the time periods 03:52 to 05:27 on monday and wednesday, and thus a first schedule pattern and a second schedule pattern are generated in the time range of the week, the two schedule patterns each having the width of the horizontal axis of the same date area, i.e., the width of the overlapping schedule pattern is 1/2 which is the width of the non-overlapping schedule pattern, and the second schedule pattern generated later is located on the left side of the first schedule pattern generated earlier, and the second schedule pattern has a higher priority than the first schedule pattern in the same date area in the overlapping time period range. I.e. the order of the priority levels decreases from left to right one by one. Thus, within the overlapping time range on Monday, the media items in playlist 2 corresponding to the second scheduling graphic will be played preferentially, and so on, the lower the scheduling graphic is back (right), the lower the playback priority. The case on wednesday is exactly the same as on monday. During the time period 01:59 to 05:27 on friday, only the media items in playlist 1 corresponding to the schedule graphic will be played because there is only one schedule graphic. And in the time period 03:58 to 08:12 on saturday, only the media items in playlist 2 corresponding to the schedule graph are played because there is only one schedule graph. The priority display mode can make the user clearly and intuitively know the priority of the playing plan and facilitate the user to edit any playing list.

It should be noted that the program scheduling software assigns a priority order to each program schedule according to a predetermined setting when creating the program schedule and schedule graph. After the program scheduling data is acquired, all the program scheduling data is displayed in a sequencing mode according to the preset priority sequence. For example, the priority of the new program scheduling is set as the highest level, the generated scheduling graphics are arranged on the leftmost side in the corresponding date range (if only one scheduling graphics exists in the playing time range of the playing date corresponding to the scheduling graphics, no sequencing is needed), the generated scheduling graphics are located at the position with the highest priority, and the priorities of other original scheduling graphics which are overlapped with the playing time of the new scheduling graphics in the same date area are all reduced by one level. As shown in fig. 9, in the time ranges of monday and wednesday, the second ranking graph generated later is located on the left side of the first ranking graph generated earlier, and in the overlapping time period range, the second ranking graph has a higher priority than the first ranking graph in the same date area. Of course, the priority preset by the newly created scheduling graph may also be the lowest priority, and is arranged at the end.

As mentioned above, the program scheduling software can respond to user operations and adjust the priority of the program scheduling according to the requirements. Specifically, as shown in FIG. 8, the second scheduling graphic has a higher priority than the first scheduling graphic in the same date field during the overlapping time period range (03:52 to 05:27) on Monday. Therefore, the first scheduling graph is selected and dragged to move in the direction close to the second scheduling graph, or the second scheduling graph is selected and dragged to move in the direction close to the first scheduling graph, so that the priority adjustment of the first scheduling graph and the second scheduling graph, namely the priority adjustment of the program scheduling corresponding to the first scheduling graph and the program scheduling corresponding to the second scheduling graph can be completed, namely the first scheduling graph is positioned on the left side of the second scheduling graph in the overlapping time period range (03:52 to 05:27) of Monday, and the priority of the first scheduling graph is higher than that of the second scheduling graph after the adjustment. It is worth mentioning that the case of wednesday is exactly the same as that of monday, i.e. within the days of wednesday and monday, a first schedule graphic and a second schedule graphic are generated side by side. The program scheduling software may adjust the priority of all the first scheduling graphics and the second scheduling graphics for all the repeat dates in synchronization in response to a user operation, such as selecting and dragging a first scheduling graphic in any one of the date ranges on monday and wednesday to move in a direction close to a second scheduling graphic, or selecting and dragging a second scheduling graphic in any one of the date ranges on monday and wednesday to move in a direction close to a first scheduling graphic, as shown in fig. 10. The drag type priority adjustment mode greatly simplifies the operation process and enhances the user experience. Of course, after the operation of adjusting the priority of the scheduling graphics is finished, the adjusted scheduling graphics need to be refreshed and displayed in the current scheduling panel through steps 23 to 26 shown in fig. 7.

In addition, the program scheduling software responds to user operation, for example, a scheduling graph in the graph time table interface is selected, and a button (delete) at the upper left corner shown in fig. 10 is triggered, so that the scheduling graph can be deleted, the program scheduling corresponding to the scheduling graph is also deleted synchronously, and correspondingly, the program scheduling software also deletes the program scheduling data of the program scheduling from the program scheduling data list. If the program schedule generates a schedule graph in a plurality of playing dates, any schedule graph in the plurality of playing dates of the program schedule in the currently displayed schedule interface is selected and a [ delete ] button is triggered, all schedule graphs of all the dates of the program schedule can be deleted, and correspondingly, the program schedule software also deletes the program schedule data of the program schedule from the program schedule data list.

Furthermore, in response to a user operation, for example, clicking a "clear" button at the top left corner shown in fig. 10 on the graphical schedule interface, the program scheduling software may delete all scheduling graphs of all program schedules in the currently displayed scheduling panel, and accordingly, the program scheduling software also deletes program scheduling data of all program schedules from the program scheduling data list. If some or all program schedules generate scheduled graphs in a plurality of playing dates, clicking a trigger (clear) button, and deleting all schedule graphs of all dates of the some or all program schedules.

In summary, the embodiment of the present invention implements generation and display of the program schedule by using an interface combining the graphical schedule and the schedule graph, optimizes the program schedule generation interface, and can simplify the program schedule operation, make the program schedule plan more intuitive, and further bring better experience to the user. In addition, a schedule setting interface of four types of schedule panels comprising a daily schedule panel, a weekly schedule panel, a monthly schedule panel and a schedule panel is adopted to present more diversified program schedule display for a user; moreover, the starting and ending time and the priority of the playing plan of the program schedule corresponding to the schedule graph are changed by adopting a dragging operation mode, so that the program schedule operation is greatly simplified, the program schedule is more visual, and better experience is brought to a user.

Referring to fig. 11, another embodiment of the invention provides a program schedule generating apparatus 300. As shown in fig. 11, the program schedule generating apparatus 300 includes a first display module 310, a second display module 330, a program schedule data obtaining module 350, and a program schedule generating module 370.

The first display module 310 is configured to display a first scheduling panel within a graphical schedule interface.

The second display module 330 is configured to display a schedule setting interface on the first schedule panel. Specifically, the step of displaying a schedule setting interface on the first schedule panel includes: responding to user operation on the graphical schedule interface to display the schedule setting interface; or in response to user manipulation on a time/date pane on the first listing panel and in response to user manipulation on the selected time/date pane to display the listing setting interface.

The program schedule data acquiring module 350 is configured to acquire first program schedule data through the schedule setting interface.

The program schedule generating module 370 is configured to generate a first program schedule shown in a first schedule graph in the first schedule panel according to the first program schedule data.

The specific implementation process and technical effects of the program schedule generating apparatus 300 according to the embodiment of the present invention may refer to the above-mentioned embodiments, and are not described herein again.

Referring to fig. 12, another embodiment of the invention provides a program schedule generating system 500. The program schedule generation system includes a memory 530 and a processor 510 coupled to the memory 530. The memory 530 may be, for example, a non-volatile memory having stored thereon a computer program 531. Processor 510 may be, for example, an ARM processor. When the processor 510 runs the computer program 531, the program scheduling generation method is executed to optimize the program scheduling generation interface, so that the program scheduling plan is more intuitive, and better experience is brought to the user.

Referring to FIG. 13, another embodiment of the invention provides a computer-readable medium 700 storing computer-executable instructions 710. The computer-executable instructions 710 are used to perform the program scheduling generation method as described above to simplify the operation of program scheduling, making scheduling plans more intuitive, and further bringing better experience to users. Specifically, the computer-readable medium 700 includes, for example: magnetic media (e.g., hard disks, floppy disks, and magnetic tape), optical media (e.g., CDROM disks and DVDs), magneto-optical media (e.g., optical disks), and hardware devices specially constructed for storing and executing computer-executable instructions (e.g., Read Only Memories (ROMs), Random Access Memories (RAMs), flash memories, etc.). The computer-readable medium 710 may execute computer-executable instructions by one or more processors or processing devices.

In the embodiments provided in the present invention, it should be understood that the disclosed system, apparatus and method may be implemented in other ways. For example, the above-described embodiments of the apparatus are merely illustrative, and for example, the division of the units is only one logical division, and the actual implementation may have another division, for example, multiple units or components may be combined or integrated into another system, or some features may be omitted, or not executed. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection through some interfaces, devices or units, and may be in an electrical, mechanical or other form.

The units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on multiple network units. Some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (14)

1. A program schedule generation method, comprising:

displaying a first schedule panel within the graphical schedule interface;

displaying a schedule setting interface on the first schedule panel;

acquiring scheduling data of a first program through the scheduling setting interface; and

and generating a first program schedule displayed in a first schedule graph in the first schedule panel according to the first program schedule data.

2. The program schedule generation method of claim 1 wherein the first schedule panel is selected from one of a daily schedule panel, a weekly schedule panel, a monthly schedule panel and a calendar schedule panel.

3. The program schedule generation method of claim 1, further comprising:

switching the first scheduling panel to a second scheduling panel in response to a first user operation at the graphical schedule interface; the first schedule panel is selected from one of a date schedule panel, a week schedule panel, a month schedule panel and the second schedule panel is selected from the other of the date schedule panel, the week schedule panel, the month schedule panel and the schedule panel.

4. The program schedule generation method of claim 1 wherein the step of displaying a schedule setting interface on the first schedule panel comprises:

responding to a second user operation on the graphical schedule interface to display the schedule setting interface;

or

Displaying the schedule setting interface in response to a third user action on a time/date pane on the first schedule panel and in response to a fourth user action on the selected time/date pane.

5. The program schedule generation method of claim 1 wherein the first program schedule data comprises: playing list data, playing plan data and scheduling graph color data; the step of obtaining the scheduling data of the first program through the scheduling setting interface comprises the following steps:

responding to a fifth user operation in a playlist list page of the schedule setting interface to acquire playlist data; wherein the playlist data includes a playlist name, a playlist duration, a media thumbnail, and/or a media number;

responding to a sixth user operation in a playing plan setting page of the scheduling setting interface to acquire the playing plan data; wherein the playing plan data comprises a playing date, a starting playing time, an ending playing time and a repeating mode; and

and responding to a seventh user operation in an option attribute setting page of the schedule setting interface to acquire the schedule graph color data.

6. The program schedule generation method of claim 5 wherein the repetition mode setting is selected from the group consisting of no repetition, yearly repetition, monthly repetition, weekly repetition, and daily repetition.

7. The method of claim 5, wherein the step of generating a first program schedule in a first schedule graph in the first schedule panel according to the first program schedule data comprises:

adding the first program scheduling data into a program scheduling data list;

dispersing the playing plan data of the first program scheduling data to corresponding playing dates on the first scheduling panel according to the repeating mode of the first program scheduling data;

grouping program scheduling data of program scheduling which is the same as the playing date of the first program scheduling on the first scheduling panel and has overlapped playing time in the program scheduling data list to obtain program scheduling data groups;

sequencing the program scheduling data in the program scheduling data packet according to a preset priority sequence to obtain a sequenced program scheduling data packet;

determining the display position and size of the first scheduling graph in the corresponding playing date on the first scheduling panel according to the program scheduling number in the sequenced program scheduling data packet, the program scheduling data of the program scheduling in the sequenced program scheduling data packet and the preset priority order thereof; and

generating the first schedule graphic within the first schedule panel according to the display position and the size of the first schedule graphic.

8. The program schedule generation method of claim 1, further comprising:

responding to an eighth user operation on the first schedule graph to adjust the starting playing time and/or the ending playing time of the first program schedule, wherein the upper edge of the first schedule graph corresponds to the starting playing time of the first program schedule, and the lower edge of the first schedule graph corresponds to the ending playing time of the first program schedule, and the eighth user operation comprises selecting and dragging the first schedule graph to move upwards or downwards, or selecting and dragging a dragging pointer at the upper edge and/or the lower edge of the first schedule graph.

9. The program schedule generation method of claim 1, further comprising:

generating a first schedule graphic on each of a plurality of play dates in the first schedule panel; and

responding to a ninth user operation of any one first schedule graph in the plurality of playing dates to synchronously adjust the first program schedule starting playing time and/or the first program schedule ending playing time of all the first schedule graphs in the plurality of playing dates.

10. The program schedule generation method of claim 1, further comprising:

displaying a second schedule setting interface on the first schedule panel; and

acquiring second program scheduling data through the second scheduling setting interface; and

generating a second program schedule displayed in a second schedule graph in the first schedule panel according to the second program schedule data;

the first scheduling graph and the second scheduling graph are located in the same playing date area in the first scheduling panel in parallel, and the playing time of the first scheduling graph and the playing time of the second scheduling graph are overlapped.

11. The program schedule generation method of claim 10 wherein the second schedule graphic is generated in the first schedule panel later than the first schedule graphic, the second schedule graphic is located to the left of the first schedule image in the same date field in the first schedule panel, and the second schedule graphic has a higher priority than the first schedule graphic within the playing time overlapping time period.

12. The program schedule generation method of claim 10, further comprising:

responding to a tenth user operation on the first schedule panel to adjust the priority of the first schedule graph and the second schedule graph, wherein the tenth user operation comprises selecting and dragging the first schedule graph to move in a direction close to the second schedule graph or selecting and dragging the second schedule graph to move in a direction close to the first schedule graph.

13. The program schedule generation method of claim 10, further comprising:

generating one first schedule graphic and one second schedule graphic which are arranged side by side on each of a plurality of playing dates in the first schedule panel; and

responding to an eleventh user operation on the first schedule panel to synchronously adjust the priority of all the first schedule graphics and the second schedule graphics of the plurality of playing dates, wherein the eleventh user operation comprises selecting and dragging the first schedule graphics of any one of the plurality of playing dates to move in a direction close to the second schedule graphics or selecting and dragging the second schedule graphics of any one of the plurality of playing dates to move in a direction close to the first schedule graphics.

14. A program schedule generation apparatus, comprising:

the first display module is used for displaying a first schedule panel in the graphical schedule interface;

a second display module for displaying a schedule setting interface on the first schedule panel; and

the program scheduling data acquisition module is used for acquiring first program scheduling data through the scheduling setting interface; and

and the program schedule generating module is used for generating a first program schedule displayed in a first schedule graph in the first schedule panel according to the first program schedule data.

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