Abstract:
A method carries out mobile communication between a mobile unit and a communications device, which exchange voice messages using a telecommunications protocol. During the method, at least one image can be generated by the mobile unit. In the event that at least one image is generated by the mobile unit, at least this image is transmitted to the communications device. On the part of the communications device, an image object is selected based on the transmitted image, and a position of this image object is determined. The determined position is transmitted by the communications device to the mobile unit, and the mobile unit marks at least one of the images in such a manner that, starting from at least one of the images, which is taken as a basis for the selection of the image object, and from the position, a location of the selected image object is specified for at least one image to be marked and a marking object is superimposed upon at least one of the images at the position.

Description:
CROSS REFERENCE TO RELATED APPLICATIONS 
       [0001]    This application is based on and hereby claims priority to PCT Application No. PCT/EP2006/060327 filed on Feb. 28, 2006 and German Application No. 10 2005 010 030.9 filed on Mar. 4, 2005, the contents of which are hereby incorporated by reference. 
     
    
     BACKGROUND 
       [0002]    Voice telephony is mostly used for communication between two persons over a longer distance. Because of ambiguities and problems in understanding human voice, confusion and misunderstandings can arise when discussing complex factual interrelationships. Thus for example the product NetMeeting from Microsoft is known from [1] with which a video conference and a joint processing of software programs are made possible. 
         [0003]    One potential object is to specify a method as well as a mobile device and a communications device which allows or allow improved communication between two parties in a call in a simple and reliable manner. 
       SUMMARY 
       [0004]    With the method for mobile communication between a mobile unit and a communications device proposed by the inventors, with voice messages being exchanged by the mobile unit and the communications device by a telecommunication protocol, at least one image is able to be created by the mobile unit, in the case of the creation of at least one image by the mobile unit, at least this image is transferred by the mobile unit to the communications device, an image abject is selected on the communications device side on the basis of the image transmitted and a position of this image object is determined, the position determined is transferred by the communications device to the mobile unit, and at least one of the images is marked by the mobile unit such that, using as its starting point at least one of the underlying transferred images used for the selection of the image object and the position a location of the selected image object is specified for at least one image to be marked and a marking object is superimposed on at least one of the images at the position. 
         [0005]    The method improves communication between two persons such that instructions or descriptions are given by a marking in at least one image. These instructions or descriptions can also be communicated with and without an additional voice message. 
         [0006]    By using the position an efficient selection of the image object and one able to be adapted to different image sizes is obtained. In addition this adaptation to images to be marked is made possible by determining the location. 
         [0007]    The superimposing of the marking object in an image to be marked enables the selected image object to be presented for display in the mobile unit. In addition the marking object can be tailored adaptively, such as its shape for example or with a transparent color. 
         [0008]    Preferably the chosen position and an identification of the image on which the selection of the image object is based are transmitted by the communications device to the mobile unit. The image for determining the position is thus able to be uniquely identified, i.e. if a plurality of images have been transmitted from the mobile unit to the communications device. 
         [0009]    In a preferred expansion a plurality of positions are chosen for at least one image object to be selected. This allows a form of the image object to be selected to be described in a greater level of detail than by a single position. In addition a plurality of image objects can also be defined as well as one image object. Thus for example the members of a family (father, mother and two children) can be shown as individual image objects in a group image of ten, twenty or more people. 
         [0010]    If an area of the image describing the selected image object is defined by the at least one chosen position, the image object is able to be determined more precisely in a receive device, i.e. in the mobile unit. Furthermore this enables a detection of the selected image object to be undertaken in at least one image following the transferred image used as a basis for the selection of the image object. This is especially advantageous for image content which changes over time, such as people in a group of people for example. 
         [0011]    If in addition or as an alternative an associated location is generated for each of the positions and the image to be marked is overlaid at each location with a marking object respectively, a plurality of image objects can be marked in an image. 
         [0012]    Preferably a reference area in the same image which is included for selecting the image object is determined by the mobile unit to determine a location in an image to be marked, an image search area in the image to be marked is defined, the image position of the image search area in the image to be marked is modified until such time as an identity between reference image area and image search area falls below a predeterminable threshold value. In this way an exact determination of the location is guaranteed even when the image object has changed in the image to be marked and in the image included for selection of the image objects. 
         [0013]    If in addition the identity is created by an identification number comprising a sum of the squared difference values of the corresponding pixels from the image search area and the reference image area, the search for the exact image position can be performed in a simple manner on a processing unit. 
         [0014]    Preferably a wireless transmission standard, especially WLAN (WLAN=Wireless Local Area Network) or GSM (GSM=Global System for Mobile Communications) is used as the telecommunications protocol. This enables the method to be implemented by a standardized transmission protocol in a cost-effective manner. 
         [0015]    The inventors also propose a mobile unit with an imaging unit for creating at least one image, a unit for transmitting at least one of the images from the mobile unit to a communications device, a receiver for receiving the chosen position from the communications device and a marking unit to mark at least one of the images, such that, starting from at least one of the transferred images used as a basis for the selection of the image object and the position, a location of the selected image object for at least one image object to be marked is determined and a marking object is superimposed on at least one of the images at the location. The method can be implemented with the mobile unit. 
         [0016]    Furthermore the inventors propose a communications device, with a receiver for receiving at least one of the images from the mobile device, a selection unit for selecting an image object on the basis of the transferred image and for determining a position of this image object, and with a transmitter for transmitting the chosen position to the mobile device. The method can be implemented with the communications device. 
         [0017]    If the mobile unit and/or the communications device are integrated into a portable unit, especially a unit complying with the WLAN standard and/or GSM standard, these can be implemented in a cost-effective manner. 
     
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
         [0018]    These and other objects and advantages of the present invention will become more apparent and more readily appreciated from the following description of the preferred embodiments, taken in conjunction with the accompanying drawings of which: 
           [0019]      FIG. 1  a signal flow diagram of the method for exchange of messages between a mobile unit and a communications device; 
           [0020]      FIG. 2  a recorded image and an associated marked image; 
           [0021]      FIG. 3  two images with which a marking of the image object is undertaken with the aid of an image object tracking method. 
           [0022]      FIG. 4  two images, in which two image objects in an image are selected and marked in each case with a marking object; 
           [0023]      FIG. 5  a layout of the mobile unit and of the communications device respectively. 
       
    
    
     DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT 
       [0024]    Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to like elements throughout. 
         [0025]    An example of the method will be explained in greater detail with the aid of  FIG. 1 . It is assumed for this example that two people P 1 , P 2  each exchange voice messages by a telephone MG 1 , MG 2  using a telecommunications protocol TP. The relevant telephones are for example embodied as portable telephones, especially as mobile telephones which operate in accordance with the GSM standard (GSM—Global symbols for Mobile Communications), the UMTS standard (UMTS—Universal Mobile Telecommunications system) or the WLAN standard (WLAN—Wireless Local Area Network) for example. Generally the first telephone MG 1  is a mobile unit VA and the second telephone MG 2  a communications device VM. The voice messages are preferably transmitted in compressed form, with for example the AMR (Adaptive Multi Rate) codec or the ITU G.723.1 codec being used. 
         [0026]    Initially these two people P 1 , P 2  communicate with their telephones MG 1 , MG 2  by voice messages. This is indicated in  FIG. 1  by the reference symbol C(A). This communication is bidirectional. The first person P 1  is located for example in a market place and is looking for a specific house. The second person P 2  attempts by a verbal description to describe the house sought to the first person P 1 . Since the houses are very similar the first person P 1  cannot identify the correct house on the basis of the verbal description. 
         [0027]    In an alternative embodiment the voice communication can be omnidirectional and the voice messages are actually transmitted from the first telephone MG 1  to the second telephone MG 2 . 
         [0028]    In the following explanation the two people P 1 , P 2  use the proposed method to be able to determine the house sought. The mobile unit VA of the first person P 1  includes a camera K, with which at least one image B 1 , . . . , Bn of the houses on the market place is taken. The images will be generated for example after activation by the first person P 1 . Thereafter at least one of the created images B 1  is transferred from the mobile unit VA to the communications device VM. Thus the images can be transmitted with the aid of one or more picture messages NB. To this end for example a specific data connections is established between the mobile unit VA and the communications device VM which is used to exchange the messages needed for execution of the method. It is worthwhile in practice to compress the images, such as B 1  for example, before transmission and to decompress them after transmission. In such cases a plurality of compression methods is known, such as JPEG (JPEG—Joint Picture Expert Group) or ITU H.264 video codec for example. 
         [0029]    The communications device VM receives at least one of the images B 1  and typically displays this on the screen of the communications device VM of the second person P 2 . The second person P 2  selects, with the aid of the keypad for example, the desired image object SO, e.g. the second house from the left in the image B 1 . A position POS of the desired image object SO is thus known. Selection can be understood as the marking by a point within the image object SO and also the circling of an image object SO. In an alternative embodiment the selection is made automatically by the communications device VM without the second person P 2  taking any action. For example the image object to be selected is known to the communications device VM as a result of a stored photograph, so that by comparing the individual houses in the image B 1  with the stored photograph of the image object SO the position POS of the sought house can be detected. 
         [0030]    The position POS is represented for example by a two-dimensional count value which e.g. specifies the number of pixels measured from the upper left corner of the image B 1 . Thus for example the position POS={25, 50}. In an alternative the position POS, measured from a reference point such as for example the upper image corner, can be represented as a relative value in relation to image width and image height, such as position POS={12.5%, 50%} for an image width of 200 pixels and an image height of 100 pixels, i.e. 200×100 pixels for example. 
         [0031]    After selection of the image object SO the position POS determined is transmitted from the communications device VM to the mobile device VA by a position message NP. If a plurality of positions POS are generated by the communications device VM, these can either be transferred individually or jointly with a position message NP. It is worthwhile in practice compressing the value of the position POS before the transmission, e.g. by a Hufmann method. 
         [0032]    In a next step, after receipt of the position message NP a location OL is computed from the position POS. Thus for example the position POS={12.5%, 50%}. The image size of the image B 1  comprises a width of 200 pixels and a height of 100 pixels. From this the location OL, i.e. a position in the image to be marked at which the marking object MO is to appear can be calculated. This amounts for example to OL={25, 50} in pixels e.g. for an image to be marked with an image size of 200×100 pixels. If the image size of the image to be marked is 1000×150 pixels the location produced OL={125, 75}. The location OL makes it possible for that image which was taken into account for determining the position POS to have a different size from the image which is to be marked with the marking object MO. Thus, taking into account the transferred image B 1  used as a basis for selection of the image object and the position POS, the location OL has been determined. 
         [0033]    Subsequently the marking object MO is superimposed on the image B 1  at the location OL. The marking object MO can be an arrow which points to the selected image object SO or a border which surrounds the selected image object SO. Furthermore the marking object MO can have a transparent color, so that both the marking and also the marked image object SO remain visible. In the present example the second house from the left in the image B 1  is marked by a dashed framework. The original image B 1  and the image B 1 ′ onto which the marking object MO is superimposed are thus depicted in  FIG. 2 , with this image being referred to as the marked image B 1 ′. Subsequently the marked image B 1 ′ can be presented on a screen of the mobile unit VA of the first person P 1 . 
         [0034]    If a plurality of images B 1 , . . . , Bn are transmitted by the mobile unit VA to the communications device VM, the communications device can chose one of these images which will be taken into consideration for selection of the image object SO. In the images B 1 , B 2 , B 3  a specific house is hidden by a passing car. In image B 4  this house is visible without anything hiding it. Therefore the communications device VM or its user (person P 2 ) decides to use image B 4  for the selection of the image object SO. 
         [0035]    To exactly determine the location OL, an identifier NO of the underlying image B 4  used for the selection of the image object SO can be transmitted as well as the position POS by the position message NP. This identifier NO is a characteristic value of the image B 4 , e.g. an image number or a hash sequence obtained from the image B 4 . The use of the hash sequence is known from encryption technology so that it will not be discussed in any greater detail here. With the aid of the identifier NO the mobile unit VA can determine that image B 1  which has been used as a basis for the selection of the image object SO. This image defined by the identifier NO, e.g. B 1 , and the position POS are also used for creation of the location OL. 
         [0036]    Furthermore an image area describing the selected image object SO can be defined by the at least one selected position POS 1 , POS 2 . For example in  FIG. 3  in the image B 1  the second house from the left edge of the image is delimited by a dotted and dashed area of the image. This image area RX is described at its upper left corner by POS 1 ={10%, 40%} and at its lower right corner by POS 2 ={30%, 60%}. The selected image object SO can be marked more exactly in the image to be marked on the basis of the transferred image area RX i.e. in the form of its descriptive positions POS 1 , POS 2 , e.g. by a frame MO enclosing the image object SO, such as can be seen for example in the marked image B 1 ′ of  FIG. 2 . 
         [0037]    In addition or as an alternative more than one image object SO 1 , SO 2  can also be selected. As can be seen in  FIG. 4 , two windows of the large house are each selected by an image object SO 1 , SO 2  in the image B 1 . For each selected image object SO 1 , SO 2  a position POS 1 , POS 2  is transmitted to the mobile unit VA and there a respective location OL 1 , OL 2  for each of the image objects SO 1 , SO 2  is determined.  FIG. 4  also depicts the marked image B 1 ′ which at the respective location OL 1 , OL 2  shows an associated marking object MO 1 , MO 2 . These marking objects MO 1 , MO 2  are in this case depicted in the form of an arrow, with these marking objects MO 1 , MO 2  generally not having to have an identical appearance. 
         [0038]    In the previous example or variants the location for the image B 1  to be marked has been generated directly from the position POS and at least one of the underlying transferred images B 1  used for the selection of the image object SO. 
         [0039]    If the transferred image B 1  and the image to be marked B 5  have been taken at different times, then, especially with different image contents of the images B 1 , B 5 , the marking object MO can end up at an incorrect location in the image B 5  to be marked. This can be overcome using the following method, with the procedure being explained in greater detail with reference to  FIG. 3 . 
         [0040]    Thus in  FIG. 3  image B 1  the image object SO to be selected is defined by the positions POS 1 , POS 2 . The pixel figures for the positions are for example POS 1 ={20, 40} and POS 2 ={60, 60}. After receipt of these positions POS 1 , POS 2  a reference image area RX is first generated which determines the image area covered by the position POS 1 , POS 2  in the same image B 1  as used for selection of the image object SO. Subsequently in the image B 5  to be marked, which is not identical to that image B 1  which was included for the selection of the image object SO, an image search area X is defined. This image search area X is determined by the location OL 1 , OL 2 . The image search area X is shifted pixel-by-pixel over the image B 5  to be marked. This procedure is indicated in  FIG. 3  image  5  with an arrow. At one or more image positions the image area defined by the image search area X is compared to the reference image area RX. In this case an identity number is computed, which is created for example from the sum of the squared difference values of the corresponding pixels from the image search area X and the reference image area RX. Methods for determining an identity or identity are known from image coding by the term “block scan matching”, from [2] or [3]. If the identity number falls below a predeterminable threshold value, then an image area almost identical to the reference image area RX is present at the current image position. This means that the selected image object SO has been found at the current image position. Subsequently at least one marking object MO is superimposed onto the image B 5  to be marked. 
         [0041]    With this procedure the finding of the image object SO in an image to be marked can be applied to a currently taken image and the marking object MO can be presented together with the taken image. This means that the first person P 1 , despite variable image content, e.g. through to-and-fro movements of the telephone MG 1 , can regard the selected image object SO as reliable. This means that a selected image object SO can be traced in real time in its location, the marking object MO is permanently connected so to speak to the object to be selected. 
         [0042]      FIG. 5  shows the respective layout of the mobile unit VA and the communications device VM. The mobile unit VA includes the first, second, third and fourth units M 1 , M 2 , M 3 , M 4 , which are connected to a first connection network X 1  for exchange of data and information. The communications device VM includes the fifth, sixth and seventh units M 5 , M 6 , M 7 , which are connected to each other by the second connecting network X 2  for exchange of data and information. The mobile unit VA and the communications device VM exchange messages, such as picture messages NB and/or position messages NP for example. 
         [0043]    The invention has been described in detail with particular reference to preferred embodiments thereof and examples, but it will be understood that variations and modifications can be effected within the spirit and scope of the invention covered by the claims which may include the phrase “at least one of A, B and C” as an alternative expression that means one or more of A, B and C may be used, contrary to the holding in Superguide v. DIRECTV, 69 USPQ2d 1865 (Fed. Cir. 2004).