Patent Document

BACKGROUND OF THE INVENTION 
     The invention relates to a method for controlling a system, especially an electrical and/or electronic system comprising at least one application device. 
     For controlling electrical and/or electronic systems such as, for example, mobile telephones, navigation systems, traffic information systems, it is usually required that a user must work through a more or less elaborate menu structure in order to input a particular control instruction or to perform a particular adjustment. 
     If, for example, a user wants to set the clock time in a mobile telephone, he must first select the instruction “Clock” from a menu “Adjustments”. The instructions offered in this menu item are then indicated from which he then selects the instruction “Set clock” in order to be able to set the clock time. It is similarly complex if it is intended to set the volume or the type of a ringing tone. 
     If a number of applications are connected to an input device, that is to say, if, for example, an input device is simultaneously used for operating a navigation system, a broadcast receiver and a mobile telephone, the menu structure becomes even more complex and the operation of the individual applications becomes more cumbersome. 
     SUMMARY OF THE INVENTION 
     The invention uses this as a basis for the object of providing a method for controlling a system which simplifies and facilitates the use of the system for the user. 
     This object is achieved by the method according to claim  1 . Advantageous further developments and embodiments of the invention are described in the subclaims. 
     According to the invention, therefore, it is provided that a control information item input by a user is interpreted in accordance with the available application devices and that an application device is then controlled in accordance with the result of the interpretation. 
     According to the invention, therefore, the user issues as control information a control instruction, e.g. “Set clock”, a control instruction together with control or destination parameters, e.g. “Navigation; Bochum; Meesmannstr.; 103” or control or destination parameters, e.g. “Louder”, “WDR2” or “Müller”. If the control information item input is complete as in the case of “WDR2” or “Navigation; Bochum; Meesmannstr.; 103”, the corresponding application device, i.e. the radio set or the navigation system is appropriately controlled. If the control information is unambiguous but incomplete as in “Set clock”, the user is requested to input the required adjustment parameters. If the control information item is ambiguous such as in the case “Louder” or “Müller” because the control information item input can be sensibly processed by a number of applications, then the user is requested to supply a corresponding addition and is told, if necessary, of the available options for interpretation of the input. 
     According to the invention, therefore, the method for controlling a system is detached from a permanently predetermined menu structure and takes into consideration human thinking structures in which the first thing is always the wish—e.g. “I would like to hear the music more loudly” and only then following on from here the path to this target—setting the volume control on the broadcast receiver to “Louder”—is thought of. The method according to the invention thus enables the user to input his adjustment or control wish into the system which thereupon automatically finds the way for implementing this adjustment or control wish and executes it. 
     To prevent wrong identification of the user input, it is provided in an advantageous embodiment of the invention that the control information input by a user is signalled back to the user as announcement or indication for acknowledgement, control information item input which allows a number of possibilities of its information being displayed as selection list. 
     The return signalling of the user input, provided in accordance with the invention, ensures, on the one hand, that the input information item has been correctly recognized and, on the other hand, it is also possible to interrogate at the same time together with the return signalling of the ambiguous adjustment instruction “Louder” which function is to be set “louder” in that, in addition to this instruction, the possible functions to be set louder are also specified, that is to say, e.g. “Ringing tone louder”, “Traffic information messages louder”, “Broadcast reproduction louder”, “Warning tones louder” and the like. 
     It is particularly expedient if input control information which cannot be reliably interpreted is appropriately marked in the return signalling. 
     Another further development of the invention is characterized in that a check is made whether the control information is complete in order to be able to perform a requested action and that the user is requested to complete the control information if this is not so. 
     In an advantageous embodiment of the invention, it is provided that the control information input as keyword or keywords is compared with stored key words for interpretation purposes, the available application devices, control instructions and control parameters being stored as control information. The control parameters are suitably stored as lists in this case. 
     Thus, the method according to the invention is based on a control information database in which the individual possible functions of the system which are determined by the individual application devices are in each case stored as complete data records. For example, the data record with the control information “WDR2” also comprises the application “Broadcast receiver” and the note “Set station”. 
     It is particularly expedient if control instructions are stored as data records together with dummy codes for the application devices affected and the control parameters in each case needed for executing the instruction. 
    
    
     
       BRIEF DESCRIPTION OF THE DRAWING 
       In the text which follows, the invention is explained by way of example and referring to the drawing, in which: 
         FIG. 1  shows a diagrammatic block diagram of an electronic system comprising a plurality of application devices, which can be controlled by means of the method according to the invention. 
         FIG. 2  shows an example of a visual return signalling on a screen and 
         FIG. 3  shows a simplified diagrammatic block diagram for illustrating the method according to the invention. 
     
    
    
     DETAILED DESCRIPTION OF THE INVENTION 
     In the various figures of the drawing, elements corresponding to one another are provided with the same reference symbols. 
     As is shown purely diagrammatically in  FIG. 1 , an electrical and/or electronic system comprises a user interface  10  to which one or more application devices  11 . 1 ,  11 . 2 , . . .  11 . n  are connected. In this arrangement, a navigation system, a mobile telephone, a traffic information unit, a broadcast receiver, a CD player, a cassette recorder and the like can be provided as application devices  11 . i.    
     To be able to input control information for the individual application devices  11 . i , a keyboard  12 , a microphone  13  and/or a video camera  14  are connected, for example, to the user interface  10  so that information can be input as character sequence via the keyboard  12 , as spoken instructions via the microphone  13  or as gestures via the video camera  14 . The keyboard can also be provided, in addition to individual keys, with single or multiple character allocation, with rotary pushbuttons for selecting and inputting characters and/or terms from lists or so-called soft keys, that is to say adjusting elements which can be assigned different input functions depending on the application. 
     To be able to output information to the user, a loudspeaker  15  and/or a screen  16 , for example, are connected to the user interface  10 . This screen  16  can be at least partially, a touch screen which comprises a number of buttons  17 ,  18 ,  19 ,  20  which, when touched, handle the operation of conventional keys and different functions can be allocated to the buttons  17 ,  18 ,  19 ,  20  depending on the application activated. 
     In the case of the screen  16  shown in  FIG. 2 , the buttons  17 ,  18 ,  19  and  20  are used for activating a mobile telephone, a navigation system, a traffic information unit and an auxiliary function, respectively. 
     As shown in  FIG. 3 , the user first inputs a control information for controlling the activated system in step S 11 , which information consists of an individual control instruction or control parameter, of a target input or a combination thereof. Control information is expediently input in the form of keywords which are stored, together with the associated activities, in a corresponding database of the user interface. 
     After the control information has been input in step S 11 , an input identification is first performed in step S 12  in order then, in step S 13 , to output an audible or visual return signal by means of which the user is, at the same time, requested to confirm his input in step S 14 . If the input has not been identified with complete reliability during the input identification in step S 12 , an information item on the reliability of the input identification and/or a list of keywords possibly identified can be output together with the return signal. 
     The reliability of the input identification can be indicated by colours, e.g. green, yellow, red for reliable, probable, unreliable or by a magic eye which illustrates the reliability of the input identification by the size of an area emphasized therein, or by a combination of these options. In the case of the magic eye, e.g. an uncertain input identification can be indicated by a red circular area, the colour of which changes via orange to yellow and on to green with increasing reliability of the identification, whilst the area as such changes from a circle via an ellipse or a circular segment to a line or a type of exclamation mark. 
     The user then has the possibility of discarding the input when confirming in step S 14  or, if a list of keywords has been output, to select the desired input from this list and to confirm it. 
     If the input was confirmed in step S 14 , the instruction is interpreted in step S 15  for which purpose the keyword or words input is/are compared with the keywords stored in the database of the user interface  10 . 
     However, it is also possible, after the input identification in step S 12 , to go directly to the input interpretation in step S 15  in order to perform the return signalling and confirmation later. 
     In step S 16 , it is first ascertained whether the keyword input or, respectively, the instruction input is known. If this is not the case, an error message will occur in step S 17  and the method returns to step S 11 . If the instruction is known, a check is then made in step S 18  whether the instruction is unambiguous, that is to say it is ascertained whether a known instruction can only be executed in one or also in a number of applications and whether it is also associated with a number of functions in an application. If this is the case, that is to say, if the instruction is ambiguous, an enquiry is output to the user in step S 19  in which, at the same time, the possible functions are indicated to which this instruction can be applied. 
     An indication hierarchy may need to be taken into consideration, in order to assist the user during the input and not to confuse him. If a control instruction can be applied to a number of applications and to a number of functions within one or more applications, it is appropriate to allow first the application and then the desired function to be controlled in a further selection step to be selected. 
     If the instruction input or the control information item input is unambiguous, a check is made in step S 20  whether further information is required in order to execute the instruction. If this is the case, a corresponding enquiry is output to the user in step S 21  in order to request the additional information needed. If no further information is needed, the instruction is executed in step S 22 . 
     If, as indicated above, the instruction interpretation is performed in step S 15  immediately after the input identification in step S 12  in order to check then whether the instruction is known (step S 16 ), unambiguous (step S 18 ) and complete (step S 20 ), this can be followed by a return signal according to step S 13  in order to request an acknowledgement of the input and/or the input of other possibilities or information. 
     The method according to the invention for controlling a system will now be explained in greater detail with reference to specific examples. 
     If the system comprises a broadcast receiver as application devices  11 . i  and if a user wishes to listen to a particular station, e.g. “WDR2”, he can input, for example, “WDR2” as control information. When the user then has confirmed the correct input identification in step S 14  following the return signal in step S 13 , the instructions “Switch on broadcast receiver” and “Set station WDR2” are determined for the keyword “WDR2” in the instruction or keyword database. Since the keyword “WDR2” input as control information can be allocated to only one application device, namely the broadcast receiver and can be allocated to only one function, namely the station selection, in this application device, and then only designates a single station, the control information is unambiguous and complete so that the corresponding instruction or instructions can be executed without further enquiries in step S 22 . 
     If the system also comprises, in addition to a navigation system which is associated with an address book, a mobile telephone with a corresponding telephone book, then a name stored in the address and/or telephone book can also be input, for example, as control information. If, for example, the name “Müller” is thus, input as control information, the system then identifies in step S 12 , for example, not only the name “Müller” but also the names “Möller” and “Mehler” which are then indicated on the screen in step S 13 . The user can then select and acknowledge the required name from those indicated in step S 14 . 
     During the instruction interpretation in step S 15 , it is found, for example, that both an address in the address book and a telephone number in the telephone book are allocated to the name “Müller”, the system thus recognizes that either a telephone connection must be set up from the mobile telephone to “Müller” or that a route guidance to the residence or to the office of “Müller” must be performed by the navigation system. Thus, the control instructions which can be derived from the control information are not unambiguous so that, in step S 19 , an interrogation is made as to which application is to be started. If a number of telephone numbers is stored in the telephone book, or a number of addresses in the address book, under “Müller”, the control input is still not complete even after selection of the mobile telephone or of the navigation system so that a further enquiry is required. 
     As soon as the instruction information is unambiguous, if, for example, it is clear that route guidance to the office of “Müller” is desired, the navigation is started in step S 22  and the office address of “Müller” from the address book is used as target address. 
     A further input possibility is, for example, for “Navigation”, “Bochum”, Meesmannstr.” and “103” to be input as keywords, such that both the desired application and the control parameters needed by the application are input as keywords in a predetermined sequence. For this purpose, the keyword “Navigation” is stored in the database in such a manner that it is associated with dummy codes for the address, namely &lt;Town&gt;, &lt;Street&gt;, &lt;House number&gt;. To be able to dispense with an input of control information which is structured in this manner, the possibility can also be provided that the keywords representing the address are in each case preceded by the corresponding dummy codes so that the address can be input in any order. In this case, the control information can be input, for example, in the following form:
         “Navigation” “Street” “Meesmannstr.” “Town” “Bochum”.       

     Thus, as soon as a keyword input is preceded or followed by a keyword explaining its meaning, especially in the case of the navigation system, a rigid input structure can be omitted which is appropriate if the individual keywords are not explained. 
     A further possibility for controlling the system consists, for example, in that, in an active application, i.e., for example, when the broadcast receiver is switched on, the reproduction volume is increased following the input of the keyword “Louder”. In this case, it is assumed, for the sake of simplicity, that only the active application can be meant if no further additional information is input, even though the keyword “Louder” does not specify an unambiguous instruction. 
     If, however, for example, two applications are active simultaneously, for example the broadcast receiver and the navigation system which, in addition to visual route guidance information on the screen  16 , also announces direction of travel notes, the instruction to increase reproduction or announcement volume, derived from the keyword “Louder”, is no longer unambiguous so that the program jumps to step S 19  in step S 18  in order to request the user to input further information so that it becomes clear whether he wants to hear louder radio or whether he wishes that the announcement volume of the route guidance notes are louder so that he can clearly recognize these in spite of listening to the radio. 
     The method according to the invention for controlling a system thus enables a user directly to control and adjust the various application devices of the system without having to work through a lengthy hierarchical menu since, on the basis of the control information input, the associated application and function are fetched out of a control instruction database by the system itself.

Technology Category: 3