Creating presentation on infinite canvas and navigation thereon. RU patent 2506629.

FIELD: physics, computer engineering.

SUBSTANCE: invention relates to computer engineering and specifically to creation and demonstration of presentations. The method of creating a slide presentations comprises steps of: displaying an authoring mode user interface during an authoring mode; defining a plurality of slides during the authoring mode using the authoring mode user interface; forming a background canvas in response to selection of a change in the presentation mode; associating said plurality of slides with the background canvas; displaying said plurality of slides on the background canvas, wherein slides from said section are displayed in a different manner from slides outside said section; and automatically defining navigation functions for the slide presentation such that navigation through the slides during the slide presentation is achieved by adjusting the view such that one or more of the plurality of slides are seen relative to the background canvas in response to the automatically defined navigation functions.

EFFECT: wider range of equipment used to create slide presentations.

20 cl, 19 dwg

THE LEVEL OF TECHNOLOGY

Computers are often used to create and deliver presentations in the form of display sequences of slides (slide show). The presentation can be configured as a slide show, demonstrated in a linear format. The presentation can be demonstrated in the form of nonlinear views very large or infinite canvases, and not the slides shown separately and linearly. The creation of such presentations on infinite canvases can be complex and require custom code by professional programmers and developers. Most creators of computerized presentations are not professional developers or programmers, but also they have neither the time nor the abilities to write code to create the presentation.

THE ESSENCE OF THE INVENTION

The system and method of creation and presentations on the surface may include authoring mode, the mode of preliminary processing and presentation mode. During the authoring mode, the user can create a presentation on the surface. In response to the play created presentation" system included in the regime of preliminary processing. During the pre-processing mode perform preprocessing of presentation and preparation for presentations. When pre-processing is completed are included in presentation mode. During the presentation mode demonstrate a presentation on infinite surface in such a way that the user can navigate through your presentation.

This is a brief summary of the invention described as an introduction to describe it in a simplified form elected concepts that are described in more detail below in the detailed description. To imply that this brief summary of the invention does not define key and/or the essential features of the claimed subject of the invention. Also imply that this is a brief summary of the invention does not restrict the scope of patent claims claimed subject of the invention.

BRIEF DESCRIPTION OF DRAWINGS

Embodiments of the present invention are not restrictive and comprehensive, described with reference to the following drawings, in which the same number of positions are the same elements at all different drawings, unless otherwise specified:

in Fig. 1 illustrates an example of a computing device, designed for use in a typical infrastructure for checking the correctness of graphical user interfaces;

in Fig. 2 illustrates an example of the kind of user interface in authoring mode, which displayed canvas given as an example;

in Fig. 3 illustrates a user interface in presentation mode;

Fig. 4 illustrates a presentation, in which a portion of the displayed paintings was configured for specific viewing slide;

in Fig. 5 illustrates a user interface in authoring mode, in which the user was inserted slide partitioning;

in Fig. 6 illustrates a type of presentation, showing the canvas given as an example;

in Fig. 7 illustrates an example of a presentation that was made the transition from the level of scaling paintings on the zoom level of the section;

in Fig. 8 illustrates a presentation, in which was made the transition from the level of scaling of the a partition on the zoom level of the slide;

in Fig. 9 illustrates the interface parameters;

in Fig. 10 the example of a user interface in authoring mode, in which the user was inserted background slide;

in Fig. 11 illustrates the type of presentation, showing the canvas given as an example;

in Fig. 12 the example of a user interface in authoring mode, in which the user was inserted slide with a "live" content;

in Fig. 13 the example of a presentation, in which the slide show with a live content;

in Fig. 14 the example of a user interface in authoring mode, in which the user was inserted slide with a team of view;

in Fig. 15 shows the alternative mode interface authoring to specify a set of slides and paintings;

in Fig. 16 shows another alternative mode interface authoring to specify a set of slides and paintings;

in Fig. 17 illustrates a flow diagrams how to set slide show presentation on the surface;

in Fig. 18 illustrates a flow diagrams way of preliminary processing of the presentation before entering presentation mode; and

in Fig. 19 illustrates an example of a schema (1900) sequence of operation and method of conducting a presentation on the canvas after the completion of the preliminary processing of the presentation.

DETAILED DESCRIPTION

Below is a more complete description of the invention with reference to the accompanying drawings that are a part of this description, and which show a specific embodiments of the invention, cited as examples. However, the options for carrying out the invention can be implemented in many different ways, and they should not be construed as limited herein options for carrying out the invention; on the contrary, these embodiments of the invention are to ensure the full and complete disclosure of the invention, and to fully Express the volume of the present invention. Embodiments of the invention can be implemented as methods, systems or devices. Accordingly, options implementation of an invention may take the form of fully hardware implementation, fully software implementation or implementation integrates software and hardware aspects. Hence, the following detailed description, should not be considered as limiting.

The logical operations of various embodiments of the invention implemented (1) as a sequence realized by means of computer operations performed in the computer system, and/or (2) as interrelated machine modules in the computer system. A variant of implementation is a matter of choice, depending on requirements to performance of the computing system that implements the invention. Accordingly, logical operations, components described here for carrying out the invention, alternatively referred to as the actions, operations or modules.

In brief formulation describes the system and how to create and presentations on infinite surface. The system includes at least two working modes of interaction with the user, including, at least, authoring mode and presentation mode. During the authoring mode, a user can create a presentation on infinite surface. During the presentation mode, the user can visually display, and perform the presentation. In addition, the system includes other modes of operation. For example, the system includes the working mode of preliminary processing, which enables the automatic generation of the presentation, when the user clicks of authoring mode to presentation mode.

Interface in authoring mode allows the user to create or import slides with the content. In some embodiments of the invention, the slides of content can be defined as a linear set of ordered slides. The user can also set special slides to add additional information to the presentation and to control the way slide display of content on the surface. In one example, a user can create a background slide of the presentation. Background slide can be used to control how the slides of content placed on the surface of the canvas. In some examples, the canvas can represent an infinite surface, while in other examples, the canvas can have a finite size. The sample background slide can include a background image and determine the method of placement of slides on the canvas.

Users also may be other special slides. The user can create a slide section break to specify the partitions in the presentation, but this is not mandatory. Slide section break can be used for all indoor slide after slide of a section break in the physical grouping to create a partition. Section can be displayed on the surface as a grouping of the relevant slides.

The user can set the slide with live content, but this is not mandatory. Slide with a "live" content may be used for automatic generation of the slide to the external document, and to include a slide with a "live" content in the presentation. "Live" content may be posted on the surface, so that you can see the contents of the file. However, as a special slide, because slides with a "live" content can set the content displayed on the canvas like a slide, slide, with a live content can have many characteristics similar to the characteristics of the slide content. For example, a slide with a "live" content may be included in the sections located in the areas of information content, background, and his view can be carried out using automatic scan commands, but this is not mandatory.

The user can set the slide with a team of view, but this is not mandatory. Slide with a team of view can be used to provide commands for their execution during the presentation mode to change the display mode surface on a different display mode. In one of the examples himself slide with a team of viewing may not be included in the displayed content. For example, when a slide with a team of viewing includes management team to rotate the image on the display during the presentation, the image of the infinite surface may be rotated accordingly during the presentation (that is in presentation mode).

After you have created the presentation of the slide show, user can then enter presentation mode to run and display the presentation. When initiated play a presentation on, the system can preprocess the presentation (for example, during the pre-processing mode) to set the infinite surface according to the definition established by different slides. Pre-treatment may include the appropriate processing for preparation of the presentation, including the treatment of slides, loading of any document with a "live" content, creating paintings and accommodation slides on the canvas, but these examples are not the limiting characteristic. After preliminary processing was completed and established the surface of the canvas, the user can navigate through the presentation during the presentation mode.

Navigation can be made using the "automatic commands", such as, for example, the "next slide" and change the scale. Automatic team may be the command to change the type of display surface of the presentation of the auto-detected the following display view. When a command is received next slide, the display mode surface could lead to the first slide to be a full mind. When received another team next slide, the presentation can pan and/or adjust the scale to display the next slide. Users can quickly see the entire presentation using a command such "next slide". The user can also manually adjust the view so that you can view any desired area. The user can use commands entered manually for the transition from one slide to another slide in any order.

In Fig. 1 illustrates an example of a computing device, designed for use in a typical infrastructure for checking the correctness of graphical user interfaces, which is illustrated, for example, by computing device 100. In the basic configuration of the computing device 100 may include stationary computing device or mobile computing device. Computing device 100 usually includes at least one processor 102 and system memory 104. Depending on the precise configuration and the type of computing device system memory 104 can be volatile (for example, random access memory (RAM)), non-volatile (for example, read only memory (ROM), flash memory etc.) or represent some combination of these two types of memory. System memory 104 usually includes the operating system 105, one or more applications 106 and may include data 107 programs. In one of the embodiments of the invention application 106 additionally include application of 120, which is configured as application for creating, editing, pre-processing of linen and to navigation. This basic configuration is illustrated in Fig. 1 the components, which are located within the area bounded by dashed line 108.

Computing device 100 can also have additional features or functionality. For example, the computing device 100 can also include additional mass storage devices for data storage (removable and/or stationary), such as, for example, magnetic disks, optical disks or magnetic tape. Such additional storage is illustrated in Fig. 1 as a removable storage device 109 and as a stationary storage device 110. Computer storage media can include volatile and non-volatile, removable and stationary storage media, implemented in any manner or by any information storage technology, which are, for example, readable by a computer commands, data structures, software modules or other data. System memory 104, removable storage device 109 and stationary storage device 110, all are examples of computer storage media. Computer storage environments are, including RAM, ROM, electrically erasable programmable permanent storage device (EEPROM), flash memory or storage device to a different technology, the permanent storage on CD-ROM (CD-ROM), digital versatile disks (DVD) or other optical storage devices, magnetic tapes, magnetic tape storage device on a magnetic disks or other storage devices on magnetic media, or any other media that can be used to store the desired information, and to which it can access computing device 100, but these examples are not are limiting sign. Any such computer storage media can be part of the device 100. Computing device 100 can also have a device (s) 112 input, such as a keyboard, mouse, pen, speech input, the device touch etc. It can also include device (s) 114 / o, such as display, speakers, printer, etc.

Computing device 100 can also contain one or more connections 116 links that allow the device to communicate with other computing devices 118, for example, on a network or wireless network. Connection (connection) 116 communication is (are) an example of the means of communication. Communications usually implement readable by the computer commands, data structures, software modules or other data in the modulated signal data, which is, for example, the carrier wave or another transport mechanism, and includes any means of information delivery. The term "modulated signal data can include signal, one or more characteristics which set or modified in such a way as to ensure the encoding of information in the signal. As an example, not being a limiting sign, means of communication may include means of wire communication, such as a wired network or a direct wired connection, and wireless communications devices, such as the acoustic communication, radio communication, communication in the infrared range and other means of wireless communication. When used herein, the term "readable by the computer information carriers" includes both the media and means of communication.

In Fig. 2 illustrates a user interface (UI, hereinafter IP) (200) in authoring mode, which provides the user the ability to create presentation slides on the infinite canvas. IP 200 in authoring mode may include area (210) display slide to display the slide that is currently selected time. Area (210) display slide can allow the user to edit the selected slide in the same manner as in the traditional editor program display a sequence of slides. For example, you can add text or graphic or to manipulate them in the selected slide.

IP 200 in authoring mode can also include key 232-238 management. Key 232 can be used for playing the presentation. As further described below, the user can choose the key 232 to exit authoring, and mode of presentation, which can be performed presentation. Key 234 can be used to insert a new slide content in a presentation. Slide content can be a slide, which includes content (for example, graphics, text, drawings, photographs, and other images, spreadsheets, graphic elements, and so forth), the subject of the visual display of the presentation. A user can create a slide content directly asking the look of a particular slide. In some examples, the user can define the text of the selected slide content, which will be displayed together with the slide content. Thus, the slides of content can be used to directly specify the appearance of the material that will be shown during the presentation. Alternative methods of setting the slide content discussed below with reference to Fig. 15 and Fig. 16. Unlike the slide content, the user can also set special slides.

Key 236 can be used to insert a new special slide in the presentation. The user may use a slide for control over other aspects of the presentation, rather than the look of a particular slide. For example, the user can use the 236 to insert a background of a slide. Background slide can be used to define the appearance and layout of the canvas, which will be presented slides of content. User can use the 236 to insert a slide section break to control grouping slides with information content into sections. User can use the 236 to insert a slide with a "live" content for links to content stored in a separate file. User can use the 236 to insert a slide with a team viewer to control how produce view the presentation.

Key 238 can provide the user with a menu of options that allows the user to manage the presentation to a greater extent. An example of the menu settings discussed below with reference to Fig. 9.

In Fig. 3 illustrates a type of interface (300) of the user in presentation mode. IE (300) in presentation mode displays the canvas (310), which is cited as an example. The canvas can include a set of slides, arranged in the order they appear on the background. Schemes of arrangement may include hierarchical groups of slides, or may simply include a free arrangement of the slide. IE (300) in presentation mode can display all the canvas (310) or its part. Some examples cloth (310) can be infinite canvas, while in other instances it may have a finite size.

As further explained below, the canvas 310 automatically generate during the regime of preliminary processing and display in presentation mode when the user selects the key (232) "reproduction". User interface in presentation mode allows the user to navigate to a canvas (310) using automated navigation commands and/or navigation commands, entered manually.

Automatic navigation commands can include commands display of the paintings, which is defined automatically. In one example, the automatic commands the user can use the command "next slide", by issuing a request to display the next slide. In response to this IP (300) in presentation mode can automatically configure a part of the displayed paintings (310) by increasing the scale next slide thus, to fill the visible area of the device, such as a computer monitor or projector top location in which to display the presentation.

In another example, the automatic commands the user can similarly use the previous slide to prompt to display the previous slide. Then interface (300) of the user in presentation mode can automatically display the previous slide in the presentation by increasing the scale of the previous slide.

In addition to the automatic commands to view the user can also manually adjust the view mode of the canvas (310) using the view command, entered manually. For example, a user can manually adjust the zoom level of the type of presentation with the use of the interface (300) of the user in presentation mode. The user can manually perform panning view the presentation with the use of the interface (300) of the user in presentation mode. Thus, the user can manually move viewing a presentation between full slides, or areas of view on the canvas (310), which otherwise is not possible through the automatic commands.

In another example, the commands manually entered, the user can zoom in on a specific portion of the slide to detail, which might otherwise be too small, it was seen as part of the presentation. The user can also zoom out to view many slides, or to see only part of the slide. Consequently, manual commands zoom and pan can allow the user to dynamically interact with the presentation to selectively display any part of the surface (310) any desired manner.

In some instances manual commands view can include commands of rotation of the blade (320) or set other properties of the image, such as brightness, contrast or paintings.

Commands for viewing both types: manual and automatic, can be introduced during the presentation mode, with any desired input device. For example, the user can navigate across the canvas (320) using the mouse pointing device, keyboard, or any other interface devices, such as a dedicated device management presentation slides (for example, wireless remote control). In other examples, the user can use the touch pad or touch screen.

In Fig. 4 illustrates a presentation 400, in which a portion of the displayed paintings was configured for specific viewing the slide. Such a transition may occur, for example, when a user connects to the first slide on the canvas with the expected automatic command zooms. In response, the user interface and presentation mode can then go automatically to display the first slide in the presentation 400 with a modified scale. Thus, two-level scaling can automatically cycle through the following levels: level of zoom slide (shown in the form of 400 presentations) and zoom level of the canvas (shown in the form of 300 presentations).

The user also can make the transition to the form (400) presentation, if the user initiates click "next slide". For example, when a user views the whole entire presentation and processing of the command is executed next slide, user interface and presentation mode can automatically change the scale in accordance with the first slide and go to the form (400) presentation. When watching a particular slide, for example, as shown in the form of (400) presentation and processing of another team next slide, the user interface in presentation mode can automatically advance to the next slide from the list of slides. For example, can be automatically pan paintings on the second slide of the presentation. Thus, the user can use the command "next slide" to step through the presentation.

When you step through the presentation of the user interface in presentation mode can keep track of which slide is the current slide. If the user changes the display mode, for example, by reducing the scale or by using the manually entered commands to view the user interface in presentation mode can keep track of which slide is the current slide, even when the current display mode has been manually modified. Thus, when a command is received next slide presentation will be continued with the transition from the current slide to the next slide, even if the current mode is changed.

User interface (UI) (500) in authoring mode may include a dashboard 530 "list of slides, similar dashboard 220 "list of slides" from Fig. 2. Dashboard 530 "list of slides can graphically show the ordered linear list of slides. The order of the toolbar (530) "list of slides may represent the order in which the slides are displayed in presentation mode. Dashboard (530) "list of slides can include both types of slides: slides of content and slides partitioning. Dashboard (530) "list of slides can provide the user the ability to rearrange the order of slides partitioning and slide content and to manipulate the order they appear just as it can be made in the list (220) slides. So, the location of the slide (510) partitioning can be adjusted to change the settings section elements. This may expose the user to easily control the slides are elements of specific sections.

In the composition of the slide 510 can be included field of 512 and 514, which allow the user to modify the metadata (511)stored as related to the slide (510) partitioning. For example, in its composition could be included such part (512) user interface, as "the name of a section. Region 512 slide 510 can be arranged in such a way that gives the user the opportunity to give the name of the section that will be created. Region 514 slide 510 can be associated with additional properties section, allowing the user to edit the advanced properties section. For example, the slide (510) partitioning can be associated with metadata (511), that govern how the slides are grouped into the category. Metadata (511) may describe the elements of the partition using relative links to the slides or absolute links to the slides.

Relative links to the slides may include a link to the slide, based on its location on the dashboard (530) "list of slides on the location of the slide (510) partitioning. For example, metadata (511) may indicate that the section should contain all of the slides from the dashboard (530) "list of slide after slide (510) partitioning. In the other examples in the section break, which is given a slide 510, can contain all the slides in the slide after (510) partitioning, but before the next slide partitioning. For additional examples, slides, which must be contained in section may be specified by specifying the number of the slide after slide (510) partitioning, which should be included in the section. For example, the section can be defined this way, that this section contains the following five slide after slide partitioning.

Absolute links to the slides can specify the number of slides, regardless of the location of the slide (510) partitioning. For example, metadata (511) may indicate that this section should contain the second and fourth slides on the dashboard (530) "the list of slides. As described above, metadata properties can define the elements of the partition by using the definitions on the basis of relative links to slides and/or on the basis of absolute links to the slides.

Additional metadata can also control whether the current section nested in another section. For example, the sections can be hierarchically are set so that the partition is a child of section (or subsection) the parent partition. Thus, the section can be specified as a subsection of another section.

Other metadata can control how graphically displayed section. For example, metadata can set the display font and font size for the header section. Other metadata can set the appearance of the section, for instance, a particular background color, borders, which can be drawn around the section, font, theme, color scheme, shading or the size and location of slides, which are its elements. Thus, the properties of 520 metadata can be used to define all aspects of how the section.

In Fig. 6 illustrates the view (600) presentation, showing the canvas (610)presented as an example, which is created from the list (510) slides shown in Fig. 5, in response to the user selecting keys (540) "reproduction". In this example, the view (600) presentation has a reduced scale in order to be able to see all of the slides on the canvas (610). Canvas (610) includes twelve slide content, which is given as an example. Five slides of content are divided into two sections, and the remaining seven slides exist outside any section. The first section includes third and fourth slides, and the second section includes the fifth, sixth and seventh slides.

In this example, the first section (611) was created when processing the first slide partitioning. The first slide partitioning included metadata indicating that the section should include all the slides after the first slide partitioning, but before the next slide partitioning. On the dashboard (530) "list of slides" from Fig. 5 you can see that after the first slide partitioning, but the second slide partitioning, there are two slides. Thus, in the pre-treatment third and fourth presentation slides were included in the first partition (611). In other examples, the first partition will be included in its composition the different metadata content otherwise, but it is, nevertheless, led to the existence of a section of the same elements. For example, the first partition (611) can be set manually by absolute commands on the inclusion of the slide number three and the inclusion of a slide number four. For additional examples, the first partition (611) can be specified by relative commands on the inclusion of the following two slides after repartitioning. In any case, the result would be the same: automatically create the first partition (611), which includes slides number three and number four. The second section (612) can be defined similarly to the fifth, sixth and seventh slides.

Navigation presentation (610) may be similar to the navigation on the canvas, in Fig. 3. Progress through the slides can be done via the command "next slide". As in the presentation of the 610 there are sections, not two, but three zoom level can automatically cycle through the following levels: level canvas zoom, zoom level section and zoom level of the slide. The zoom level of the canvas can simultaneously display all the slides on the canvas (for example, 600 of Fig. 6). The zoom level of the section can display all of the slides from particular partition (for example, 700 of Fig. 7). The zoom level of the slide can display specific slide (for example, 410 of Fig. 4).

Thus, when the zoom level of the canvas is selected slide of the section and processed the first team zoom, the zoom level can be automatically changed the zoom level of the paintings on the zoom level section. Then when processed second team zoom, the zoom level can be automatically changed to the zoom level of the section on the zoom level of the slide. Similarly, when processed first team zoom out, zoom level can be cycled switched from the level of the slide on the level of the section. When processed, the second command zoom out, zoom level can be cycled switched with the zoom level of the section on the zoom level of the canvas. Thus, automatic viewer commands can be used to easily view sections and slides.

Command "next slide" can be used to advance or to cycle passing through the slides available in the section. Way, which make the circular passage on the slides inside partition during processing of a command "next slide"depends on the metadata section. As discussed in more detail below, with reference to Fig. 9, section may include a metadata property, which showed that the presentation should be generated preview and/or review. If a partition is selected, the preview option before displaying the first slide, you will automatically adjust the zoom level to the level of scaling section processing command line of the next slide in the presentation. The zoom level of the section after the processing of another team next slide is adjust the zoom level on the zoom level of the slide. After processing of another team next slide shows the next slide. If you selected "browse", you might be shown a section view. For example, when to exit a section already reached the last slide, then when you receive one of the following commands zoom level again change the zoom level section.

As described above, the option "automatic preview and review helps you make in the presentation of the circular passage through the slides, and view the partition completely to enter and to exit from the partition. This allows the person who is presenting, the present section, do the circular passage on the slides in your section and produce a brief overview of the section through the use of similar user input: the team of the next slide. In some examples, the user can also select the title of the section to view a brief overview of the topic.

For easier handling when the zoom level is not slide the zoom level (for example, scaling of the a partition, or on canvas, can be an image of the slide is of lower quality. When the zoom level is the level of the slide (or higher), you can use the image of a slide in higher quality. Thus, when you need fewer parts that can be used fewer computing resources to display the presentation. When the zoom level changes, at the transition between the different versions of slide can be used algorithm dimmable, owing to what the viewer presentation difficult to detect this transition. Other examples may be generated by more than two pictures of each slide, for example, a picture of poor quality, image average quality and high picture quality. These images can be generated, for example, during the pre-processing mode.

In Fig. 7 illustrates an example of presentation (700), which was made the transition from the level of scaling paintings on the zoom level section. This may happen when the user selected the third slide, and the command is executed zoom, requiring automatically increasing the zoom level. This transition can also occur when was selected second slide and then was treated team "next slide". If you select the option "preview", you might be shown a section view. For example, to enter and display the first slide the zoom level to change the zoom level of the section, provided the following command. This can allow a person who is presenting, to meet first a brief overview of the topic.

In Fig. 8 illustrates a presentation (800), which was made the transition from the level of scaling of the a partition on the zoom level of the slide. This may happen when the user selected the third slide and automatic command changes the scale to increase the zoom level. The proper zoom level to display a slide would be calculated automatically and would be displayed slide. This transition can also occur when processing the following command after the section appears in preview mode, as described above.

In Fig. 9 illustrates interface (900) parameters, which allows the user to manage settings related to the presentation, and also define the metadata associated with a particular section. Interface 900 settings includes tool (910) select a transition between slides, allowing the user to choose how will be the transition between slides during the presentation mode. The user can select the option "no" to specify that the image of cloth should be immediately updated to display the next slide without animation. The user can choose the "spatial" to indicate that the image of cloth should be (spatial effect of the transition to the next slide. User may choose to "return" to indicate that in a display of paintings should be done to zoom out the current slide, pan and reverse zoom in on next slide (back effect). In other examples, available for a user can be done other transitions, such as, for example, the gradual disappearance of animation, rotation or other transitions that are known to specialists in this field of technology.

Interface 900 parameters may include tool (920) selection of uniformity section, which allows the user to select whether you can manage the properties of the sections separately. The user can select the option "all the sections have the same setup" to indicate that all the slides in sections share common metadata properties. When this option is selected, the user needs to set the properties of partitions only once, and these properties will be applied to all the sections in a document. When a user wants to adjust the settings of the different sections individually, the user can choose individual settings for each section in the (920) selection of uniformity section.

Interface (900) parameters may include element (940) control the choice of colors is based on the template, which allows the user to select a color in which can be displayed as a background section. Color can be selected by providing the user the opportunity to enter the color in hexadecimal format, graphically select a color from the color circle, or through other ways to select colors that are known to specialists in this field of technology.

Interface (900) parameters may include element (950) selection control template section, which allows the user to select the template selection to control the appearance section. Templates section control the graphical layout and appearance of slides in the section. For example, the partition can be displayed edging or background color. Templates section allows the user to select a specific style or theme outline section or background. How the selected template is displayed section may depend on the color selected by the user through the element (940) control the choice of colors is based on the template.

Interface (900) parameters may include element (960) control the flow of your presentation, which lets the user choose whether to automatically display the sections in preview mode and reviews sections of the circular passage user presentation. For example, when you select "show section in preview mode, the zoom in presentation mode before viewing individual slides will be automatically changed to the zoom level section in response to the command "next slide or previous slide. Similarly, when you select "show overview section"image scale in presentation mode will be automatically changed to the zoom level section, after viewing all of the individual slides section in response to the command "next slide or previous slide.

Interface (900) parameters may include element (980) control the parts of the section that allows the user to select the parts of the template section, displayed on canvas, when the generated partition. User can select an option "name" to indicate that the canvas has to be displayed name of the section. The user can choose the "room" to indicate that the canvas should display the partition number. Thus, through an interface (900) parameters, you can control the way the section is displayed and is located on the canvas in presentation mode.

In Fig. 10 illustrates interface (1000) user mode authoring, in which the user was inserted background slide (1010). Background slide (1010) can be displayed in the list of slides in preview mode as a slide (1010), which shows the background of the canvas. Despite the fact that the background of a slide (1010) is shown in the list preview of the slide, instead of directly specify the appearance of a particular slide, it sets the canvas on which we will place the other slides. Background slide (1010) may include a background image (background images (1012) or text. Some examples background image (1012) can be extremely aesthetic (for example, constitute an image, graphic illustration, figure etc)added to give the interest of the presentation. In other examples, the background image (1012) may also include information that provides context of slides, located on this background. For example, the slides may be placed on part of a background image that is associated with these slides. The background image (1012) can also be used to specify groups of slides for organizational purposes.

Background slide (1010) may include field (1014) context. Field (1014) context is a part of the background of a slide, which can be placed slides of content during the generation of the canvas. Some examples background slide (1010) may include one field (1014) the context in which can be placed all the slides. In other examples, the background of a slide (1010) can include multiple fields (1014) context, each associated with a particular partition. Thus, the background of a slide (1010) can control the appearance and layout of the canvas is generated for the presentation by showing the sequence of the slides.

In Fig. 11 illustrates the species (1100) presentation, which includes the canvas 1110, automatically generated during the pre-processing mode, when the user selects the button "play". Canvas 1110 involves each of the presentation slides, located on the background, generated in response to the background slide. In particular, the slides are placed in a location (1112), which is associated with a field (1014) context of Fig. 10. In addition, canvas includes an image background of a slide (1010) of Fig. 10. Thus, the canvas is generated in response not only to the image (1012) from the background of a slide (1010), but in response to a given area (1014) the context of the background of a slide (1010).

In Fig. 12 illustrates interface (1200) user mode authoring, in which the user was inserted slide (1210) with live content. Slide (1210), with a live content can be displayed in the list of slides in preview mode as a slide marked properly. As a slide with a "live" content is a special slide, instead of directly specify the appearance of a particular slide, slide (1210) with a "live" content is set indirectly by an outside source. In particular, slide (1210), with a live content may include a link to the file (for example, document, image, file, spreadsheet, or on a different file type), which will be displayed as a slide during a presentation mode.

In the composition of the slide (1210), with a live content can be included part of the user interface, which allow the user to modify the metadata (1230), stored as related to the slide (1210) with live content. For example, with slides 1210 with a "live" content may be related part of the interface (1212) of the user provides the input of the filename. Part of IE (1212) to specify the file name may provide a user to enter a file name that will be associated to the slide (1210) with live content. It may also be related part of the interface (1214) of the user address file. Part of the interface (1214) user to specify the address of a file allows the user to select the location where the file is. In some examples, the file may be a relative address. That is the address of a file can describe the location of the file associated with the slide with a "live" content relative to the location of the presentation file. In other examples, the file can be an absolute address. Absolute address can be used when a file is not located inside a directory, a child of the directory in which the file is stored presentation (or perhaps subdirectory, access to which can be made from this directory). In a preferred embodiment of the invention determining which address is used: absolute or relative, perform automatically. This definition can be performed in the determination of the location of a file on the file of the presentation.

To the slide (1210), with a live content may also be associated additional properties (1230) metadata. For example, additional metadata properties can control how to display a file with a "live" content type of a file with a "live" content and characteristics to control the interaction with the file with a "live" content during the presentation mode, etc.

In Fig. 13 illustrates a presentation (1300), in which the slide show (1310) with live content. Slide (1310), with a live content can be displayed in the presentation rendered by a representative image file (1320), stored in the repository (1330) data separate from the presentation file. The presentation can also be stored in the repository (1330), or it can be stored in a separate data store (not shown). However, the file (1320), link which gives slide with live content, is a different file than the file itself presentation.

When the user selects the key of play, resulting in the automatic generation of the canvas during the pre-processing mode, the file location (1320) is determined using the metadata stored as a slide associated with live content, such as, for example, metadata (1230) address, and the name of the document" from Fig. 12. After the location of the file (1320) determined recognize a file type. After the file type is recognized, render an image from file as it would have looked like if it was visualized in its native application associated with the file type. For example, when the file is a spreadsheet, then visualize the image so that it looks as if the spreadsheet, browse the "native" spreadsheet program appropriate for the type of file. Similarly, when a file is the document, the picture render the document so that it looks the same as would look document when viewed in the application processing, the relevant file.

Version of the file (1320), rendered as an image may be a version that is extracted from the repository (1330) data when you select the key play. Thus, the latest at the moment the version of the file (1320), extract each time the presentation begins. In other examples, the file (1320) can be updated more or less often. For example, in certain instances when loading the presentation can be downloaded copy of the file (1320), so that the same version of the file (1320) use every time to hold presentations. In other examples, the copy of the file (1320) can be loaded every time a slide show (1310) with live content. An example would update the file (1320) during the presentation.

File (1320) can have multiple pages. For example, the file (1320) can be a text document on four pages. When the file (1320) contains many pages, interface (1300) in presentation mode can include the page controls with live content, such as a 1312 management "previous page" and item 1314 management "next page". The user can use the item (1312) management "previous page" to display the previous page of the file (1320). For example, in Fig. 13 shows the second page of the previewed file (1310). Consequently, a user can use the (1312) management "previous page" to view the first page of the file (1320). Similarly, the user can use the item (1314) management "next page" to see the third page of the file (1320). Accordingly, the user can use a 1312 management "previous page" and item 1314 management "next page" navigation between multiple pages in your slide with live content.

The user can also use the standard commands of navigation of the interface 1300 in presentation mode for interaction with the presentation slide (1310) with live content. For example, you can use manual and/or automatic controls zoom and pan to view the desired part of the document inside the slide (1310), with a live content, due to which during the presentation can be considered small parts.

In Fig. 14 illustrates interface (1400) user mode authoring, in which the user was inserted slide (1410) with a team of view. Slide (1410) with a team of view can be displayed in the list of slides in a slide (1430), tagged properly. Because the slide with the team viewer is a special slide, instead of directly specify the appearance of a particular slide, slide (1410) with a team of view represents the transition between the two species in the presentation. For example, the slide (1410) with the team viewer can be used to set the transition between the second slide and third slide in your presentation. The transition to a slide (1410) with a team of view can be set using the properties 1420 metadata associated with slide (1410) with a team of view.

In the composition of the slide (1410) with a team of view can be included controls from the user interface, which allow the user to modify the metadata properties (1420), which are stored as related to the slide (1410) with a team of view. For example, the slide (1410) with a team of view can be included part of the interface (1412) for the properties of the viewer. This interface can allow the user to specify a particular type of transition. For example, the properties (1420) metadata can set one of transition options: lack of transition, spatial transfer or transport "return" (as described above with reference to Fig. 9). Properties (1420) metadata can also control when we apply the transition (for example, when you log into a slide, when you exit the slide 50 MS in slide initiated in the slide). Transition can be applied with reference to the relative location of the image (1410) with a team of view in the list of slides. For example, the command can be applied between the slide before (slide 2) slide (1410) with a team of view and slide after slide 3) slide (1410) with a team of view. In other examples, the use of transitions can be applied regardless of the relative position of the slide (1410) with a team of view in the list of slides. For example, the command can be applied to each conversion.

In Fig. 15 shows the alternative variant of the interface (1500) in authoring mode to specify a set of slides and paintings. Instead option, in which the user specifies a set of slides, and then the application automatically generates them canvas (as described above), interface (1500) in authoring mode provides a user interface that allows the user to first set the canvas, and then the user specifies the slides on the canvas.

After the canvas (1512) was specified, the user can then specify the part of the surface (1512) as slides of content by setting interactively rectangular region (1514) in the part of the surface (1512), which the user would like to lock the slide content. After a rectangular area (1514) is set, the user can choose the key (1530) "record, slide to the initiation of the fixation of the given region of the canvas as the slide content. After the slide with the content specified, the copy of the slide content smaller size may be placed on the dashboard 1520 "list of slides in the order in which it was set. When specified slides are on the dashboard 1520 "list of slides, you can make manipulations with them, as described above. For example, they can be reordered, duplicated or deleted.

The user can specify many slides of content through a consistent set the parts of the canvas (1512), to be converted into a slide. For example, a user can specify a second rectangular region (1516), which covers two areas of the canvas (1510), that is marked for use as a slide show. After it is set, the user can then create a slide with content that corresponds to the rectangular area (1516), use the keyboard (1530) "record slide". The user can also insert special slides (for example, backgrounds, transition, sections, etc) in a way similar to that described above.

After the interface is 1500) in authoring mode were set slides, the user can view the presentation as described above. As the user makes a circular passage on given areas of the slide, interface presentation displays the image panning and zooming on a given sheet, as set presentation and interaction with the presentation.

In Fig. 16 shows another alternative interface (1600) in authoring mode to specify a set of slides and paintings. Interface 1600 in authoring mode can function similarly interface (1500) in authoring mode of Fig. 15. That is, instead of the version, in which the user specifies a set of slides, and then the application automatically generates them canvas interface (1600) in authoring mode provides a user interface that allows the user to first set the canvas, and then ask slides.

The user can set slides, asking first sheet similar to the one described above with reference to the interface (1500) in authoring mode of Fig. 15. After a user-defined canvas, the user can then zoom and pan the canvas so that the window (1610) web viewing showed desirable part of the canvas. The user can then use the key (1630) "record slide to record a part of the band visible in the window (1610) view as the slide. Then recorded slide can be inserted into the dashboard 1620 "the list of slides. The user can also insert special slides in a manner similar to that described above.

In Fig. 17 illustrates an example of a schema (1700) sequence of operation and how to set a slide show presentation on the infinite surface. Scheme 1700 sequence of operations includes blocks 1710-1780 processing.

Processing start in block 1710. In the block 1710 in the way recognize the mode of operation application that show the sequence of the slides, which is, for example, the author's design or presentation mode. Continuing the sequence of operations of the method, are transferred to the unit 1720 decision that determine whether a mode mode authoring. If it is determined that the operation mode is not regime authoring, the sequence of operations ways to move further to the operation 1730 processing, and choose the mode of presentation, and the first automatically included in the regime of preliminary processing (see Fig. 18 and 19 and the associated discussion).

If in the block 1720 decision determined that the operation mode is authoring mode, the sequence of operations ways to pass next to the block 1740. In the block 1740 use interface mode authoring to specify the slide content. In some examples, slides may be specified by importing them into the interface in authoring mode. In other examples, the slides may be specified using the standard tools of processing of text and graphic editing to create slides. Slides can also be specified as follows: first, create a canvas, and then designate it as part of slides of content (see above description).

Continuing the sequence of operations in block 1750, can be set a background slide, but it is not mandatory. In some examples, the user may want to use a background of default and, consequently, this operation can be omitted. In other examples, the user may want to make an individual customization of appearance and location of a cloth and set a background slide. Background slide can be specified by selecting a previously created template background. When the user wants to get higher degree of control, background slide can also be specified by background creation or modification of the template manually. Some examples can be specified only background slide, which manages the presentations as a whole, whereas in the other examples can be a lot of background slides to different parts of the presentation.

Passing in a sequence of operations to the unit 1760, can be set slides partitioning, but it is not mandatory. Some examples slide partitioning can be inserted in the list of slides without additional user input before playing the presentation. In this case, to create a partition can be used settings partitioning default. In other examples, the user can modify the metadata associated with slide partitioning, with the user interface in authoring mode to control the appearance section and the slides are grouped in section (see the description relating to Fig. 9).

Continuing the sequence of operations in a block of 1770, can be set slides with live content, but it is not mandatory. When a user wants to integrate in the presentation of a document from a file, it can be used slide with live content. To specify a slide with a "live" content user can specify the name of the file to which reference should be made, and the file location. In some examples, the user interface for authoring mode can automatically determine whether to indicate the address as a relative address or as an absolute address. This definition can be executed in response to whether the file referenced in a subdirectory (folder in the underlying level) of that directory (the file folder), where the file is located presentation. In other examples, the user can manually determine whether to indicate the address of the file to which reference is made, as a relative address or as an absolute address.

Passing in a sequence of operations to the unit 1780, can be set slides with a team of view, but it is not mandatory. When the user wants to determine an alternative to the default renderer of the presentation, the user can set the slide with a team of view. Some examples slide with the team can manage the transition between two slides. For example, the slide with the team viewer can control the way customize their display at the transition between slides presentation after receiving the command "next slide". In other examples, the team viewer might just give for the zoom level, click zoom in or zoom out. Additional examples can be set to a slide with a team of view, which changes the transition to the presentation as a whole. After an optional task slide with a team of view in the sequence way to pass next to the block "the end", and the sample way to create a complete presentation, and the presentation can be stored for retrieval later.

In Fig. 18 illustrates a schema (1800) sequence way of preliminary processing of the presentation before entering presentation mode. This may occur, for example, after the operation method of the block 1730, Fig. 17. Scheme 1800 sequence of operations includes blocks 1810-1870 processing.

Processing start in block 1810. In the block l810 in the way retrieve the next slide and recognize the type of slide. For example, the slide can be a slide of content or a specific slide, such as, for example, slide partitioning, background slide, slide, with a live content or slide with a team of view.

In the block 1830 decision in a way to determine whether the extracted slide slide partitioning. If he is a slide partitioning, the sequence of operations ways to pass next to the block 1835 and processing slide partitioning. Processing slide partitioning may include, for example, grouping slides of content in the section according to the metadata associated with the extracted slide partitioning. Treatment may also include a grouping slides with live content in a section where there slides with live content. In addition, processing slide partitioning may include the generation of appearance section on the canvas according to the settings of the presentation and section. In some examples, the appearance and behavior of each section can be set individually, whereas in other examples, the presentation can consistently set the appearance of all the partitions. Processing slide partitioning can additionally include the definition of which slides should be grouped into the category, and the placement of these slides. When processing slide partitioning is complete in block 1835, a way to continue, going to the unit 1870. When in block 1830 decision determined that the extracted slide is not slide background, the sequence of operations ways to pass next to the block 1840 decision.

In the block 1840 decision in a way to determine whether the extracted slide background slide. If it is a background slide in sequence way to pass next to the block 1845 and processing the background of a slide. Processing the background of a slide may include, for example, changing the appearance of the cloth so that it included the background image in accordance with the image associated with the background slide. Processing the background of a slide can also include placing the slide content and sections in the field of informational content, associated with the background slide. When processing the background of a slide completed in block 1845, the way to go, turning to block 1870. When in block 1840 decision determined that the extracted slide is not slide background, the sequence of operations ways to pass next to the unit 1850 decision.

In the block 1860 decision in a way to determine whether the extracted slide slide with a team of view. If he is a slide with a team of view, the sequence of operations ways to pass next to the block 1865 and processing slide with a team of view. Processing of a slide with a team of view may include, for example, insert into a presentation commands to change the appearance of the canvas at a time. Some examples slide with a team of view can describe the transition between two slides, whereas in the other examples slide with a team of view can simply describe zoom, pan, rotate, or other change in the image. Processing of a slide with a team of view provides the insertion of the presentation of the necessary commands to change the display mode as described in the slide with a team of view. When the processing of a slide with a team of view completed in block 1865, a way to continue, going to the unit 1870. When the unit 1860 decision determined that the extracted slide is not slide background, the sequence of operations ways to pass next to the block 1870 decision.

In the block 1870 decision in the way determine whether there are more slides to be extracted and processed. If additional slides are missing, and all of the slides in the list of slides were treated in a sequence of operations ways to move further to the implementation of the block of the presentation, in which perform presentation as described below, with reference to Fig. 19. If additional slides are available in the way of return to the unit 1810, which extract and recognize the next slide, and the aforementioned sequence of operations ways repeat until you handle all the slides.

In Fig. 19 illustrates an example of a schema (1900) sequence of operation and method of conducting a presentation on the canvas in presentation mode after the completion of the preliminary processing of the presentation (for example, in the regime of preliminary processing). Scheme 1900 sequence of operations includes blocks 1910-1975 processing.

Processing the sequence of operations to begin in the block 1910 decision. In the block 1910 decision in a way to determine whether the received data the user entered. If the data entered by the user, have not been received in the way returned to the unit 1910. When the user input was received, the sequence of operations ways to pass next to the block 1920 decision.

In the block 1920 decision in method determines whether the user command team zoom entered manually. If it is a team of zoom manually entered, the sequence of operations ways to pass next to the block 1925 and processing commands zoom entered manually. Processing of the command zoom entered manually can include, for example, to zoom the current image of the canvas, so you can see more details. Processing of the command zoom entered manually can also include zoom out to see a greater part of the canvas. When processing of the command zoom entered manually, completed in block 1925, in a sequence of operations will be reimbursed to the unit 1910 decision that in the way awaiting the next command. When the unit 1920 decision determined that the extracted command is not a command zoom entered manually, the sequence of operations ways to pass next to the block-to-block 1930 decision.

In block a decision in 1930 way to determine whether the user command command pan entered manually. If it is the command pan entered manually, the sequence of operations ways to pass next to the block 1935 and processing commands pan entered manually. Processing of the command pan entered manually can include, for example, pan the current image of the canvas, so that you can see different parts of the canvas. In some cases, this can cause simultaneous viewing of multiple slides. Processing of the command pan entered manually can also include rotate the canvas. When processing of the command pan entered manually, completed in block 1935, the sequence of operations are returned to the unit 1910, in which the method awaiting the next command. When the unit 1930 decision determined that the extracted command is not a command pan entered manually, the sequence of operations ways to pass next to the block 1940 decision.

In the block 1940 decision in method determines whether the user command automatic command zooms. If it is automatic team zoom, the sequence of operations ways to pass next to the block 1945 and perform automatic processing of commands change the scale. Processing of automatic commands zoom may include, for example, increasing the zoom level to automatically a certain zoom level so that you can see more details. For example, if the current time looking at all the canvas, the zoom level can be automatically upgraded to a certain level, to the specified section, could fill the image (change the zoom level with the zoom level of the paintings before the zoom level section). In another example, if the current time to scan the whole partition, then a zoom level can be automatically upgraded to a certain level so that the slide, could fill the image (change the zoom level with the zoom level of the partition to the zoom level of the slide).

Processing of automatic commands zoom may include, for example, increasing the zoom level to automatically a certain zoom level so that you can view part of a larger size. For example, if the current time looking at the whole slide a whole, the zoom level can be reduced to automatically a certain level, to the whole section in which is the slide, could fill the image (change the zoom level with the zoom level of the slide to the zoom level section). In another example, if the current moment of time looking at the entire section, the zoom level can be reduced to automatically a certain level so that you can view all of the canvas as a whole (change the zoom level with the zoom level of the partition to the zoom level of the paintings).

When automatic processing commands zoom completed in block 1945 decision, then the sequence of operations will be reimbursed to the unit 1910, in which the method awaiting the next command. When the unit 1940 decision determined that the extracted command is not automatic team zoom, the sequence of operations ways to pass next to the block 1950 decision.

In the block 1950 decision in method determines whether the user command team "next slide". If it is the command of the next slide, the sequence of operations ways to pass next to the block 1955 and processing commands "next slide". Processing of the command "next slide" may include tracking of which slide corresponds to the current slide. When a command is received next slide, you can be visualized slide, next after the current slide. For example, if any slide has not been set as the current slide when the command is received next slide, the image can be modified so that the first slide, could fill the image. In this case, the current slide can be installed on the first slide. When received another team next slide, you can be visualized second slide, and the label of the current slide to be installed on the second slide. In other examples, the command "next slide" can display the following viewing area, which can be slide section, a brief overview or any other viewing area set on the canvas.

When the slide, the next after the current slide is the first slide of the section, that instead display the next slide can be displayed to the section that contains the next slide. Thus, first, it may be a brief overview of the topic. Then, after a brief overview, can be displayed to the next slide when received another team next slide.

Similarly, when the current slide is the last slide of a partition, instead of displaying a slide, outside a section can be displayed to the partition containing the current slide. Thus, the first may be submitted to the review section. Then, after an overview of, can be displayed to the next slide when received another team next slide.

When processing command next slide completed in block 1955, the sequence returned to the unit 1910 decision that in the way awaiting the next command. When the unit 1950 decision determined that the extracted command is not a command "next slide", the sequence of operations ways to pass next to the block 1960 decision.

When processing command the previous slide completed in block 1965, the sequence returned to the unit 1910, in which the method awaiting the next command. When the unit 1960 decision determined that the extracted command is not a command "previous slide", the sequence of operations ways to pass next to the block of the 1970 decision.

In the block 1970 decision in method determines whether the user command team "end". If it is a command, "end", then the sequence of operations ways to pass next to the block "the end" and complete way. If adopted, the team is not a command "end", then the sequence of operations ways to pass next to the block 1975. In the block 1975 perform the optional procedure of error detection. This procedure may include the standard error-handling functions, such as provision of this error to the user, which sets forth that the command is not recognised. After an optional treatment is completed, the sequence returned to the unit 1910 decision that in the way awaiting the next command.

Although the present invention has been described in the language that reflects the structural characteristics and/or methodological operations, it should be understood that the invention, as set out in the appended claims, not necessarily limited to described specific traits or operations. On the contrary, specific characteristics and operations are disclosed as variants of the claimed invention. Because it can be created many embodiments of the invention within the limits of the entity and the amount of the present invention, the scope of the invention is determined supplied below formula of the invention. In addition, the embodiments of the invention, shown in diagrams sequence of operations can be realized through the transactions method, performed in a different order. In some instances operations can be implemented in parallel or sequentially.

1. Way to create presentation slides, comprising stages: display a user mode interface authoring, during the regime of the author's development, which includes the display of the display area of the slide to display the slide that is currently selected, and a list of slides that are set during the authoring mode; ask a lot of slides during the regime of the author's elaboration using the user interface mode authoring, ask slide partitioning that appears in the above-mentioned list of slides and slides, following the specified slide partitioning, formed section; form the background canvas in response to the choice of changes in presentation mode; bind mentioned multiple slides to the background canvas; display this many slides on a background canvas, the slides of the said section to display a different way from slides outside of this section; and automatically set the navigation function for a slide presentation, in such a way that navigation through the slides during a slide presentation performed by the view settings to expose one or more slides from the multiple slides on the background of the canvas, in response to automatically set of navigation functions.

2. The method according to claim 1, wherein when binding mentioned multiple slides to the background canvas automatically place this set of slides on the background of the canvas.

3. The method according to claim 1 in which the automatic setting the navigation functions for presentation slides automatically set to the navigation functions for each of the mentioned multiple slides in response, initiated by the user command to play presentation.

4. The method according to claim 1, wherein when specifying multiple slides set the slide background, which involves setting the background and set the slide content, which includes content to be displayed during the slide presentation.

5. The method of claim 3, in which the binding is mentioned multiple slides to the background canvas: visualize a background canvas in response to a background job from the background of a slide; and place the slide content on the slide background in response to a background job from the background of a slide.

6. The method according to claim 1, wherein when specifying multiple slides ask a lot of slide content, each of which includes information content to be displayed during the slide presentation.

7. The method according to claim 1, wherein the slides in the mentioned topic graphically differ from each slide is not contained in this section, the inclusion of the name of this section.

8. Can be read by a computer medium where the encoded executable computer commands to create a slide presentation, containing: displaying the user interface mode authoring, during the regime of the author's development, which includes the display of the display area of the slide to display the slide that is currently selected, and a list of slides that are set during the regime of the author's development; to define a set of slides using the user interface mode authoring, this sets the slide partitioning that appears in the above-mentioned list of slides and slides, following the specified slide partitioning, formed section; binding mentioned multiple slides to the background canvas; and auto-configuration the navigation functions for a slide presentation, in such a way that navigation through the slides during a slide presentation, the view settings you can see the part of the canvas, in response to automatically configured navigation functions.

9. Can be read by a computer medium paragraph 8, in which the binding is mentioned multiple slides to the background canvas includes the placement of this set of slides on the canvas so that each slide was posted on different from the other part of the band.

10. Can be read by a computer storage media on item 8, which automatically configures the navigation functions for a slide presentation contains automatic set of navigational functions for each of the mentioned multiple slides in response, initiated by the user command to play presentation.

11. Can be read by a computer medium paragraph 8, in which define a set of slides includes specifying multiple slides content, each of which includes information content to be displayed during the slide presentation.

12. Can be read by a computer medium paragraph 11, in which the binding is mentioned multiple slides to the background canvas includes the placement of multiple slides of content in different places on the canvas in response to the job section.

13. Can be read by a computer medium paragraph 11, in which define a set of slides includes specifying a background of a slide that has the job of the background that includes: background image to display on the whole cloth; and many fields of informational content that specify the different areas of the canvas so that each of the many slides of content is placed in the appropriate one of these different areas.

14. Can be read by a computer storage media on 13, in which the binding of multiple slides of content to the background canvas includes : visualization canvas in response to a background job from the background of a slide; and the location of many slides of content on the canvas in the form of such a layout, which responds to the job section for a group of slides so that each slide with the content of the group of slides will be displayed in different physical locations in the area of the canvas specified by field of informational content for a group of slides.

15. Can be read by a computer medium paragraph 8, in which define a set of slides includes specifying the slide with live content, and this slide with a "live" content is arranged in such a way that refers to the external file in accordance with the type of file.

16. Can be read by a computer storage media on item 15, additionally contains: visualization of an image file in such a way that rendered the image corresponds to the appearance of the image of a native application of the appropriate type of file to an external file; and displaying the rendered image of an external file in a graphical location on the canvas, the corresponding slide with live content.

18. Can be read by a computer medium paragraph 17, and the mode of authoring, is fit for the job of a slide with a team of view, and slide with a team of view specifies the command to change the appearance of one or more parts of the canvas during the presentation mode.

19. Readable computer media information see item 18, and the mode of presentation is adapted to change the current image on the image of the other part of the surface in response to a slide with a team of view during the presentation mode.

20. Can be read by a computer medium paragraph 17, and the mode of presentation is adapted to change the current image on the image of some of the paintings in response initiated by the user enter data received during the presentation mode.