Abstract:
The invention relates to a mobile device comprising a display. In order to offer a user a more extensive immediate overview over the information available to a specific topic, it is proposed that the mobile device comprises processing means for presenting on the display a three-dimensional polyhedron as graphical user interface. Different pieces of information that are to be presented to a user of the mobile device are associated to different facets of this polyhedron, and the visible facets of the polyhedron present at least a hint on a respectively associated piece of information to a user of the mobile device. It is further proposed that the mobile device comprises means for enabling a user to cause the processing means to rotate the facets of the presented polyhedron. The invention relates equally to a corresponding graphical user interface and to a corresponding method for presenting such a graphical user interface.

Description:
FIELD OF THE INVENTION  
         [0001]    The invention relates to mobile device, on a display of which a graphical user interface (UI) is to be presented. The invention equally relates to a graphical user interface for a mobile device and to a method for presenting a graphical user interface on a display of a mobile device.  
         BACKGROUND OF THE INVENTION  
         [0002]    It is well known in the art that mobile devices, e.g. mobile phones, present information to a user as graphical user interface on a display of the mobile device.  
           [0003]    It is further known that it is required in various situations that a mobile device is to be able to present several pieces of information to a specific topic. Such pieces of information can consist for example in several choices or taps offered to a user. For instance, when a user of a mobile phone presses a provided menu button, he/she will be offered a variety of choices like opening a phonebook.  
           [0004]    Usually, such information is presented to the user on a two-dimensional (2D) page on the display. In particular with mobile devices having only a small display, the respective page comprises only a very limited portion of the entire information available for the selected topic, the rest of the information not being visible for the user.  
           [0005]    This implicates that some information cannot be accessed directly by the user, since a new page offering this information has to be shown first on the display. Possibly, the page offering the desired information will even only be shown after browsing through a sequence of other pages, while the user might not even be aware at the beginning which pieces of information will be presented on further pages.  
         SUMMARY OF THE INVENTION  
         [0006]    It is an object of the invention to offer to a user a more extensive immediate overview over the information available to a specific topic by a mobile device.  
           [0007]    This object is reached according to the invention with a mobile device which comprises in addition to a display processing means for presenting on said display a three-dimensional (3D) polyhedron as graphical user interface. Different pieces of information that are to be presented to a user of said mobile device are associated to different facets of said polyhedron. Further, visible facets of the polyhedron present at least a hint on a respectively associated piece of information to the user. Presenting at least a hint on a respectively associated piece of information can mean for instance presenting the entire associated information, presenting a selected part of the associated information, or presenting a small graphical representation of an associated textual information, like a telephone icon for the choice ‘phonebook’. The proposed mobile device comprises in addition means for enabling a user to cause the processing means to rotate the facets of the presented polyhedron.  
           [0008]    The object is also reached according to the invention with a corresponding graphical user interface.  
           [0009]    Finally, the object is reached according to the invention with a corresponding method.  
           [0010]    The invention proceeds from the idea that an extensive overview can be presented to a user if the information is shown distributed to the facets of a polyhedron, which polyhedron is shown to the user as a 3D image. By providing the user with the possibility of rotating the facets of the polyhedron, he/she can focus on any piece of information by putting the respective facet in plan view, while several facets are always visible at the same time.  
           [0011]    It is thus an advantage of the invention that it allows a user to get a preview of at least a great extend of the information available in the current user context, i.e. for a topic that was selected automatically by the mobile device or for a topic that was selected by the user.  
           [0012]    Preferred embodiments of the invention become apparent from the dependent claims.  
           [0013]    The structure of the polyhedron could be fixed and have e.g. the maximal number of facets that might be required for presenting information. Advantageously, however, the respective structure is determined by the processing means based on the number of facets required in the current status of the device for presenting all available pieces of information.  
           [0014]    In a further embodiment of the invention, the number of facets might be variable, but limited to a maximum number. The maximum number of facets could also be selectable by a user to comply with his/her preferences. There could even be provided a possibility for a user to fix the allowed minimum and maximum number of polyhedron facets, or even to choose an entire set of allowed numbers of polyhedron facets. If users use e.g. a joystick to rotate the polyhedron, it would be an advantage if they could set the allowed facet numbers. The joystick can easily be used to point into 4 or 8 directions, so a maximum number of 4 or 8 could be set as the maximum number of side facets surrounding a main center facet. It might moreover be annoying to some people when there are for example 6 side facets, if no sensor is present, since in this case, 2 rotations are required to move some of the side facets into the center. In case the user is allowed to determine that only 4 or 8 side facets are allowed, he/she can then access all facets with one directional change only. If for example only 6 side facets are required for presenting the available pieces of information, a polyhedron with 8 side facets is used with two empty facets.  
           [0015]    In either case, the number of facets of the polyhedron can e.g. be selected such that all required or possibly required facets are visible at the same time. In case the pieces of information are distributed only to the visible facets of a presented polyhedron, rotating the facets of the polyhedron should imply a rotation of only the visible facets. Thus, after a rotation the same facets are visible as before only with a different distribution, and no piece of information is hidden due to an association to a hidden facet.  
           [0016]    Alternatively, the number of facets can be selected e.g. such that some pieces of information may have to be associated to hidden facets. In this case, the pieces of information associated to hidden facets can obviously be seen only by rotating all facets of the polyhedron, not only the visible facets.  
           [0017]    As mentioned above, there is not necessarily a piece of information associated to all facets or to all visible facets.  
           [0018]    The graphical user interface can further be realized as convex or concave polyhedron, or, from another perspective, the user can presumably be located either outside of a convex polyhedron or inside of a convex polyhedron watching the surrounding facets.  
           [0019]    Moreover, the means for enabling a user to cause the processing means to rotate the facets of a presented polyhedron can be realized in a variety of ways.  
           [0020]    They may consist for example in input means, e.g. a number of buttons or a joystick, enabling a rotation in all required directions.  
           [0021]    Alternatively, the means for enabling a user to cause the processing means to rotate the facets can comprise e.g. a movement detection sensor. A user then simply has to turn the device slightly into the direction in which the polyhedron is to rotate. Alternatively, it can be provided that the device has to be turned in an opposite direction than the direction in which the polyhedron is to rotate, since this might be preferred by some users. The required direction of the movement might even be selectable by a user. The sensor tracks how the user moves the device and provides the information to the processing means, which present the polyhedron with a corresponding new orientation.  
           [0022]    The possibility of rotating facets by means of a sensor can always be active. But since the user of a mobile device is constantly on the move and the graphical user interface should not bounce during all these movements, the mobile device can also have a special button or other input means for activating and deactivating the rotation.  
           [0023]    Regardless of the employed means for enabling a user to cause the processing means to rotate the facets of a presented polyhedron, the rotation can be realized as a discrete movement or as a continuous or quasi-continuous movement. A discrete rotation ensures that there is always one facet in plan view, which facet can be considered as active facet. In case the pieces of information comprise for example different choices offered to a user, it can be provided that the respective active facet can be selected by the user via some selection means. As a result, the choice is processed by the processing means, e.g. by opening a further polyhedron presenting further pieces of information associated specifically to the selected choice, or by running some program associated specifically to the selected choice.  
           [0024]    In case the mobile device is suited in addition to be used with a pointing device, like a pen or a mouse, the user could point with the pointing device also directly at all visible facets and thereby access them directly, since the rotation may be separated from the selection.  
           [0025]    Other objects and features of the present invention will become apparent from the following detailed description considered in conjunction with the accompanying drawings. It is to be understood, however, that the drawings are designed solely for purposes of illustration and not as a definition of the limits of the invention, for which reference should be made to the appended claims. It should be further understood that the drawings are not drawn to scale and that they are merely intended to conceptually illustrate the structures and procedures described herein. 
       
    
    
     BRIEF DESCRIPTION OF THE FIGURES  
       [0026]    In the following, the invention is explained in more detail with reference to drawings, of which  
         [0027]    [0027]FIG. 1 illustrates the perception of a graphical UI, provided in a first embodiment of a mobile device according to the invention, by a user;  
         [0028]    [0028]FIG. 2 shows a diamond UI with 5 visible sides provided by the mobile device of FIG. 1, and illustrates rotations of this diamond;  
         [0029]    [0029]FIG. 3 shows a diamond UI with 7 visible sides provided by the mobile device of FIG. 1, and illustrates rotations of this diamond; and  
         [0030]    [0030]FIG. 4 shows a second embodiment of a mobile device according to the invention. 
     
    
     DETAILED DESCRIPTION OF THE INVENTION  
       [0031]    [0031]FIG. 1 is a sketch showing a first embodiment of a mobile device  11  according to the invention and a user  12  of the mobile device  11 . The mobile device  11  comprises a display  13  and a plurality of buttons  14 , which are not shown in detail. These buttons  14  may comprise in particular four buttons labeled with an arrow pointing up, an arrow pointing down, an arrow pointing to the left and an arrow pointing to the right. In addition, a selection button may be provided. The mobile device further comprises processing means (not shown) with implemented software.  
         [0032]    The figure further comprises a view on a polyhedron  15  in form of a diamond, of which 7 facets are visible. This polyhedron constitutes the graphical user interface currently presented on the display  13  of the mobile device  11 . The user  12 , who is holding the device  11 , is looking onto its display  13 . Dashed lines from the eyes  16  of the user  12  to the display  13  of the mobile device  11  and further on to the polyhedron  15  illustrate the perception of the presented graphical user interface by the user  12 . More specifically, the polyhedron  15  appears as a three-dimensional structure located in a space extending behind the display  13 .  
         [0033]    The user  12  sees a regular hexagonal facet  17  of the polyhedron positioned in the middle of the graphical user interface in plan view, and therefore identifies this facet as main facet. The other 6 facets  18  are perceived to be arranged around this main facet as side facets extending away from the user.  
         [0034]    In the following, the presentation of the graphical user interface by the mobile device  11  of FIG. 1 as well as the possibilities of controlling the presented graphical user interface will be described with reference to FIGS. 2 and 3.  
         [0035]    For presenting the graphical user interface, the processing means of the mobile device  11  first determine the number of facets of a diamond required for presenting all pieces of information available in the current state of the device  11 .  
         [0036]    The UI diamond is then built and presented on the display  13  by the processing means in a way that the visible number of facets is equal to the determined number of facets. To each of these visible facets, a piece of information is associated by the processing means. Irrespective of the determined number, the facets are always arranged in such a manner that there is one facet in the form of a regular polygon having one side less than the number of determined facets. This regular polygon is surrounded by the remaining facets. The user  12  can thus see multiple facets, or tabs, at once.  
         [0037]    A more detailed first example of such a UI diamond is shown in FIG. 2, which presents three different states of the same diamond.  
         [0038]    This UI diamond comprises 5 visible sides  21 - 25 , each presenting a different piece of information, which pieces are represented in the figure by a different symbol @, &amp;, *, □, £.  
         [0039]    In the first representation of the UI diamond on the left hand side of the figure, a square facet  21  in the center shows the symbol @. To each side of the square facet  21 , one side of a trapezoidal facet  22 - 25  is joint. The two sides of each trapezoidal facet  22 - 25  next to the side joining the square facet  21  are further joined to a respective one of the other trapezoidal facets  22 - 25 . Proceeding from the respective side joining the square facet  21 , the trapezoidal facets  22 - 25  seem to extend to the background, thus simulating a 3D view on the diamond. The trapezoidal facet  22  on top of the square facet  21  shows the symbol &amp;, the trapezoidal facet  23  on the right hand side of the square facet  21  shows the symbol *, the trapezoidal facet  24  at the bottom of the square facet  21  shows the symbol □, and the trapezoidal facet  25  on the left hand side of the square facet  21  shows the symbol £.  
         [0040]    The piece of information on the square facet  21  in the center can be seen clearly by the user  12 , and the other four facets  22 - 25  are at least somewhat visible. The display  13  can be a 2D or a 3D display, but if it is a true 3D display, the user  12  can improve his view on the different facets by changing his/her viewpoint accordingly.  
         [0041]    The different pieces of information represented by the different symbols may constitute for example different choices offered to the user  12 . In case the user  12  wishes to select the choice represented by the symbol @, the user  12  may select this choice by pressing the selection button (not shown) of the mobile device  11 .  
         [0042]    However, only the choice presented by the square facet can be selected by the user  12  by pressing the selection button, since only the square facets is an active facet. In order to select another one of the choices, the user  12  first has to rotate the diamond in a way that the facet with the symbol representing the desired choice is presented as the square facet. In this first embodiment, the user  12  can rotate the diamond by pressing the buttons  14  with the arrows. In FIG. 2, two of these buttons  26 ,  27  are depicted for illustration by themselves, without showing their relation to the entire set of buttons  14  or to the mobile device.  
         [0043]    In the depicted example, the user  12  wishes to select or examine more clearly the choice represented by the symbol £ and presses the button  26  with the arrow to the right. As a result, the diamond is rotated, or flipped, in a way that the facet  24  with the symbol £ appears now as front square facet  24 , while the facet  21  with the symbol @ is shifted to the right hand side and the facet  23  with the symbol *, seemingly over the back of the diamond, to the left hand side. The resulting view of the UI diamond is depicted in the center of FIG. 2.  
         [0044]    After having inspected the choice represented by the symbol £ more clearly, the user  12  may then consider that he/she might prefer the choice represented by the symbol □D, currently located on a facet  24  on the bottom.  
         [0045]    The user  12  therefore presses the button  27  with the arrow in upward direction. As a result, the diamond rotates in a way that the facet  24  with the symbol □ appears now as front square facet, while the facet  24  with the symbol £ is shifted to the top, and the facet  22  with the symbol &amp; is shifted, again seemingly over the back of the diamond, to the bottom. The resulting view of the UI diamond is depicted on the right hand side of FIG. 2.  
         [0046]    The buttons with the arrows pointing to the left and downwards (not shown) can be used analogously by the user for rotating the diamond in the respective other directions.  
         [0047]    The rotation if performed discretely, i.e. the user always has one active square facet in front of him/her.  
         [0048]    In another state of the mobile device  11 , more pieces of information may have to be presented to a user  12 . In this case, the shape of the UI diamond is adapted accordingly by the processing means of the mobile device  11 .  
         [0049]    [0049]FIG. 3 shows a diamond with 7 visible facets for presenting pieces of information represented by 7 different symbols. The initial state of this second example of a UI diamond is shown on the left hand side of FIG. 3, which state can be changed again by the user  12 .  
         [0050]    In the initial state of the UI diamond, a regular hexagonal facet  31  presenting the symbol @ faces the user  12 . Similar as with the first presented UI diamond, a trapezoidal facet  32 - 37  is joint to each side of the hexagonal facet  31 . The two sides of each trapezoidal facet  32 - 37  next to the side joining the hexagon facet  31  are further joined to a respective one of the other trapezoidal facets  32 - 37 . Proceeding from the respective side joining the hexagon facet  31 , the trapezoidal facets  32 - 37  appear again extending to the background, thus simulating a 3D view on the diamond. Proceeding from the trapezoidal facet  32  on top of the hexagon facet, the trapezoidal facets  32 - 37  show in clockwise direction the symbols &amp;, $, *, □, # and £.  
         [0051]    The piece of information on the hexagon facet  31  in the center can be seen clearly by the user  12 , and the other six facets  32 - 37  on the sides are at least somewhat visible.  
         [0052]    The user  12  now wishes to look in more detail into the piece of information presented by the facet  37  with the symbol £. This facet  37  is located on the upper left hand side of the central hexagon  31 . Since with the current diamond, there are two facets  36 ,  37  on the left hand side of the central facet  31 , the user  12  has to take two steps in order to get the best view on the facet  37  showing the desired symbol by for moving the facet  37  into the center.  
         [0053]    In a first step, the user  12  presses the button  26  with the arrow pointing to the right. This results in a clockwise rotation of the trapezoidal facets  32 - 37  of the diamond around the hexagonal facet  31 . The resulting state of the UI diamond is depicted in the center of FIG. 3.  
         [0054]    In a second step, the user  12  presses the button  38  with the arrow pointing downwards. Thereby, the facet  37  presenting the symbol £ is flipped into the center, the facet  31  presenting the symbol @ is flipped to the bottom, and the facet  34  presenting the symbol * is flipped to the top. The resulting orientation of the UI diamond is depicted on the right hand side of FIG. 3.  
         [0055]    Similarly, the button with the arrow pointing to the left causes a counter-clockwise rotation, and the button with the arrow pointing upwards causes flipping the facets in the middle upwards.  
         [0056]    Thus, any facet  31 - 37  of this diamond can be turned into the center by two steps at the most.  
         [0057]    In case the symbols represent information on a possible choice, the user  12  may select this choice by pressing the select button (not shown), as with the first diamond.  
         [0058]    [0058]FIG. 4 presents a second embodiment of the mobile device according to the invention.  
         [0059]    As in the first embodiment, the mobile device  41  comprises processing means  42  and a 2D or 3D display  43  for presenting a diamond build as described by way of example with reference to FIGS. 2 and 3.  
         [0060]    The mobile device  41  further comprises a movement detecting sensor  44  which is able to detect a movement of the mobile device. This movement detecting sensor  44  can be for example an acceleration sensor, a compass or a gyroscope. In addition, the mobile device  41  comprises a selection button  45  on the front side of the mobile device  41 , and a button  46  for activating/deactivating a rotation of a displayed diamond on the right hand side of the mobile device  41 .  
         [0061]    When a user wishes to rotate a presented UI diamond in order to obtain a better view on one of the facets, he/she presses the button  46  for activating a rotation. Then, the user rotates the device  41  slightly in the direction in which the UI diamond has to rotate in order to bring a desired facet to the front. The sensor  44  senses this movement and causes the processing means  42  to rotate the UI diamond accordingly. As soon as the desired facet is facing the user in plan view, the user can release the button  46  in order to deactivate the rotation. A choice presented by a facet which appears essentially in plan view can be selected by a user by pressing the selection button  45 .  
         [0062]    The rotation can be realized again as a discrete movement or as a continuous movement. In the latter case, the IU diamond does not always have an active facet appearing in plan view to the user.  
         [0063]    Now, two different exemplary scenarios will be described, in which the first or the second presented embodiment of a mobile device  11 ,  41  can be employed. In both scenarios, the mobile device is a mobile phone.  
         [0064]    In a first scenario, a user of the mobile phone wants to know a phone number stored in the phone. The user takes the mobile phone out of his/her pocket and opens the key lock. Then, he/she presses a button associated to a menu, and a diamond UI is opened, as described by way of example with reference to FIGS. 2 and 3. The presented diamond has one facet facing the user, and this facet comprises the first menu item. All other menu items are at least a little visible on the sides facets of the diamond. The user rotates the diamond as described with reference to the first or the second embodiment of the invention, until the item ‘phonebook’ is presented on the facet facing the user. The user opens the phonebook by pressing a provided selection button, and another diamond with different facets is opened. Each of these facets is associated to one of different groups, like ‘work’, ‘friends’, ‘family’, ‘others’ etc.. From these groups, the user can select one in the same way as the item ‘phonebook’ from the menu items. As a result, the desired number is displayed on the display of the mobile phone.  
         [0065]    In a second scenario, the user receives a phone call via the mobile phone. The display of the mobile phone shows a diamond UI presenting information about the caller. The structure of the diamond UI resembles again those described with reference to FIGS. 2 and 3. The main facet can present for example the name and the phone number of the caller. On the side facets of the diamond, less relevant pieces of information are presented, e.g. when the last conversation took place with this caller, detailed personal information on the caller, the last exchanged SMSes etc. The user can browse through these pieces of information by rotating the diamond as described with reference to the first or the second embodiment of the invention.  
         [0066]    While there have shown and described and pointed out fundamental novel features of the invention as applied to preferred embodiments thereof, it will be understood that various omissions and substitutions and changes in the form and details of the devices and methods described may be made by those skilled in the art without departing from the spirit of the invention. For example, it is expressly intended that all combinations of those elements and/or method steps which perform substantially the same function in substantially the same way to achieve the same results are within the scope of the invention. Moreover, it should be recognized that structures and/or elements and/or method steps shown and/or described in connection with any disclosed form or embodiment of the invention may be incorporated in any other disclosed or described or suggested form or embodiment as a general matter of design choice. It is the intention, therefore, to be limited only as indicated by the scope of the claims appended hereto.