Abstract:
A method allows a user of a mobile terminal to switch from a communication service currently active between that mobile terminal and another mobile terminal to a different communication service in such a manner that the end to end connection between terminals appears unbroken to the user. The user initiates the switch by inputting an appropriate command at the mobile terminal. The mobile terminal then transfers a request to the other mobile terminal. The request invokes a user interface on the other mobile terminal and prompts the user of the other mobile terminal to indicate whether or not they agree to switch from the currently active communication service to the other communication service. After receiving the user&#39;s response to the prompt, the other mobile terminal sends back a reply indicating the user&#39;s response. Signaling to perform the switch is initiated in response to the reply. The active communication service is terminated at the first and second mobile terminal at substantially the same time that the second communication service is initiated at the first and second mobile terminal.

Description:
CROSS-REFERENCE TO RELATED APPLICATION 
   This application is a divisional of application Ser. No. 10/237,126 filed on Sep. 9, 2002 now U.S. Pat. No. 6,879,828 which is incorporated herein by reference in its entirety. 

   BACKGROUND 
   1. Field of the Invention 
   The present invention relates generally to the field of wireless communications. In particular, the invention relates to the user interaction with a mobile terminal when switching between communication services. 
   2. Discussion of the Related Art 
   In the development of wireless communications, there is a trend towards supporting various communication services in addition to a conventional voice call. Some communications services, such as short message service (SMS), multimedia message service (MMS), e-mail, network operator messages, push services, etc., are not continuous services and can be provided in secondary connections which are simultaneous with the primary connection and which do not require disconnection of the primary connection. Depending on the particular air interface, multiple simultaneous connections may be possible to/from a wireless communication terminal. For example, GSM wireless communication networks can provide a primary circuit switched (CS) connection for a voice/data call and a simultaneous secondary connection which can send and receive SMS messages during the call to a mobile terminal with a headset. 
   Some communications services, such as voice, instant messaging (such as chat), and video messaging, can only be provided through primary connections because the user interaction in the service is expected to be substantially continuous without any lengthy interruption. GSM and other conventional wireless communication networks can only provide one primary connection at a time to a mobile terminal. Thus, the primary connection for one communication service must be ended before the primary connection for another communication service is initiated. Furthermore, a communication service, such as a chat session, may be automatically terminated by an incoming phone call and cannot be resumed after the incoming phone call has ended. 
   A Wideband Code Division Multiplex Access (WCDMA) air interface has been proposed in the 3rd Generation Partnership Project (www.3gpp.org) which can provide several simultaneous primary connections to a single wireless communication terminal. However, even though multiple primary connections may be available over a WCDMA air interface, the user experience at the terminal when switching between primary connections may not be fluent or otherwise satisfactory, especially when a user wishes to continue communicating with the same person but through a different type of communication service. A person may desire to switch from a voice service to a chat service because they no longer wish to speak out loud. A person may desire to switch from a voice service to a video service so that they can see something, such a person&#39;s face, or to switch from a video service to a voice service so that something will not be seen. 
   Even if multiple primary connections are available in a wireless communication network, the user interaction necessary to switch between communication services consists of performing two separate methods, the first method consisting of those steps necessary to terminate the first communication service and the second method consisting of those steps necessary to activate the second communication service. Although the network allows different types of communication services, there is still a disadvantage that the user interaction is cumbersome at least because different methods and several steps are necessary to switch between the communication services. The lack of immediacy in switching is a concern because the user may believe that he has lost contact with the other person if there is a long period of time without contact while the switching occurs. 
   There are now numerous communication services which carry various forms and combinations of multimedia content such as video, web content, graphics and text. As used in this application, the term “multimedia” refers to any content having a visual element. The mobile terminals of wireless communication networks, particularly phones of cellular networks, are now capable of transporting data, including multimedia data in various communication services. Many types of mobile terminals are being used, such as cellular phones, cordless telephones, personal digital assistants (PDAs), palm-held computers and laptop computers. The strong push in current wireless technology development is to use mobile terminals for varied applications and to allow users of such devices to seamlessly integrate events and needs in their lives while maintaining adequate communications power to receive and transmit all of the data and information which has an impact on them. 
   An advanced mobile terminal supported by so-called third generation (3G) and fourth generation (4G) networks and using the latest innovations in computers, software, displays and other technologies may access and receive a variety of many different communication services. Unfortunately, the manner and duration (apparent to the user) of the procedure necessary for switching among the communication services may vary widely and unpredictably. These communication services may be provided by different information sources in other networks and may be based on and built upon a variety of data transfer techniques. This introduces more delay and uncertainty into mobile terminal switching among different communication services. 
   For at least these reasons, present methods of switching between different communication services at a mobile terminal have disadvantages. Accordingly, there is a need for effective solutions that allow for easy and substantially immediate mobile terminal switching between different communication services without it appearing to the user that the connection is broken at any time. 
   BRIEF SUMMARY OF THE PREFERRED EMBODIMENTS 
   To overcome limitations in the prior art described above, and to overcome other limitations that will be apparent upon reading and understanding the present specification, it is therefore an object of the following described preferred and exemplary embodiments to overcome the above mentioned disadvantages. In particular, an object of the preferred and exemplary embodiments is to provide a solution which facilitates mobile terminal switching among various communication services which appears, to the users of the mobile terminals, to be substantially immediate and the end-to-end connection unbroken. 
   In the preferred and exemplary embodiments, a method allows a user of a mobile terminal to switch from a communication service currently active between the mobile terminal and another mobile terminal to a different communication service in such a manner that the end to end connection between appears unbroken to the user. The user initiates the switch by inputting an appropriate command at the mobile terminal. The mobile terminal then transfers a request to the other mobile terminal. The request invokes a user interface on the other mobile terminal and prompts the user of the other mobile terminal to indicate whether or not they agree to switch from the currently active communication service to the other communication service. After receiving the user&#39;s response to the prompt, the other mobile terminal sends back a reply indicating the user&#39;s response. Signaling to perform the switch is initiated in response to the reply. The active communication service is terminated at the first and second mobile terminal at substantially the same time that the second communication service is initiated at the first and second mobile terminal. 
   A particular aspect of the preferred and exemplary embodiments involves a software application on the mobile terminal which carries out a method of switching between communication services in which the new communication service is substantially immediately presented to the users on the mobile terminals when the previous communication service is terminated without particular requests needing to be made by the user. Preferably, the user can make a simple selection on a displayed user interface to switch from a currently active communication service to one of a number of available communication services. 
   This and other features of the preferred and exemplary embodiments of the invention will become apparent and better understood from the following detailed description when considered in conjunction with the accompanying drawings. It is to be understood, however, that the detailed description and drawings are designed solely for the purposes of illustration and not as a definition of the limits of the invention, for which reference should be made to the appended claims. 

   
     BRIEF DESCRIPTION OF THE DRAWINGS 
     In the drawings, wherein like reference numerals identify similar elements throughout the several views: 
       FIG. 1  is a block diagram of a network environment according to a 3GPP all IP reference model in which the preferred embodiments of the invention may be practiced. 
       FIG. 2  is an illustration of a possible user interface which may be deployed on the display of a mobile terminal during a voice call. 
       FIG. 3  is an illustration of a possible user interface which may be deployed on the display of a mobile phone in response to a request from another mobile terminal to switch from a voice call to a video call according to an embodiment of the present invention. 
       FIG. 4  is an illustration of a possible user interface which may be deployed on the display of the mobile terminal after the voice call has been switched to a video call. 
       FIG. 5  is a flowchart illustrating a method of switching the communication services between mobile terminals according to a preferred embodiment of the invention. 
       FIG. 6  is an illustration of the composition by a user of a request for a communication service at a first mobile terminal making the request according to a preferred embodiment of the invention. 
       FIG. 7  is an illustration of the request composed in  FIG. 6  as it appears on the display of the first mobile terminal. 
       FIG. 8  is an illustration of the request composed in  FIG. 6  as it appears on the display of a second mobile terminal receiving the request. 
       FIG. 9  is an illustration of the request for a second communication service made on the first mobile terminal during the communication service in  FIG. 6 . 
       FIG. 10  is an illustration of the display on the second mobile terminal at the time the request for the second communication service is made. 
       FIG. 11  is an illustration of the display on the first mobile terminal during the second communication service. 
       FIG. 12  is an illustration of the display on the second mobile terminal during the second communication service. 
       FIG. 13  is an illustration of the action taken at the first mobile terminal to end the second communication service and return to the first communication service. 
       FIG. 14  illustrates a method of switching the communication services between two mobile terminals from a video call service to an audio call service between two mobile terminals. 
       FIG. 15  is illustrating a method of switching the communication services between two mobile terminals from an audio call service to a video call service. 
       FIG. 16  illustrates a schematic of a mobile tenninal that may be used in accordance with aspects of the present invention. 
   

   DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS 
   In the following description of the various preferred embodiments, reference is made to the accompanying drawings which form a part hereof, and in which is shown by way of illustration various preferred embodiments in which the invention may be practiced. It is to be understood that other embodiments may be utilized and structural and functional modifications may be made without departing from the scope of the present invention. 
   Looking first at  FIG. 16 , a simplified schematic of a mobile terminal  2  is depicted. A housing  1615  supports a display  1620  that is mounted to the housing  1615 . A selector  1630  is mountad to the housing  1615  and the display  1620  and the selector  1630  are in commmnication with a processor  1640  and a memory  1650  that are positioned in the housing  1615 . As is common with mobile terminals, the memory  1650  may include one or more software applications  1660  and/or computer instructions for a user interface that can cause the processor  1640  to perform desirable steps and functions, including the displaying of information on the display  1620 . Actuation of the selector  1630 , which may be a button, can also cause the trocessor  1640  to perform desirable functions in a known manner. 
   According to  FIG. 1 , an Internet Protocol (IP) terminal device or terminal equipment  1  is connected to a third generation (3G) mobile terminal  2  which provides a bi-directional radio connection to an Universal Terrestrial Radio Access Network (UTRAN)  3  of the Universal Mobile Terrestrial Service, (UMTS) System. The mobile terminal is preferably capable of receiving any one or more of various communication services and providing corresponding received data to the user. The UTRAN  3  comprises at least one Radio Network Controller (RNC, not shown) for providing a switching function to e.g. a General Packet Radio Service (GPRS) network comprising a Serving GPRS Support Node (SGSN)  5  having a switching and mobility mangement function in the GPRS core network of the Universal Mobile Terrestrial Service (UMTS) system. Furthermore, the SGSN  5  is connected to a Gateway GPRS Support Node (GGSN)  6  which provides an access function to a multimedia IP-based network  12 , such as the Internet. 
   Additionally, the RNC of the UTRAN  3  may establish a connection to a circuit switched (CS) terminal equipment  11  via a fixed network or PSTN/ISDN network  10  and a Media Gateway (MGW)  4  arranged for adapting the PS multimedia connection of the UMTS network (including the SGSN  5  and the GGSN  6 ) to the CS connection of the PSTN/ISDN  10 . Similarly, the packet switched (PS) multimedia connection can be adapted to a CS connection of a CS mobile network such as the UMTS release 1999 CS domain or a GSM network. In particular, the MGW  4  may allow a PS H.323 or a Session Initiation Protocol, (SIP) system defined by 3GPP for use in the IP multimedia (IM) Core Network (CN) to interoperate with PSTN/ISDN terminals such as the CS terminal equipment  22  which may be a H.324 (H.324/I) compliant terminal. The gateway functionality of the MGW  4  is addressed e.g. in the ITU-T recommendation H.246 for the case of an interworking of H-series multimedia terminals with H-series multimedia terminals and voice/voice-band terminals on PSTN and ISDN. 
   The MGW  4  is connected to a Media Gateway Control Function (MGCF)  9  which is connected via a Transmission Signaling Gateway (T-SGW, not shown) to the PSTN/ISDN  10 . The MGCF  9  may be connected via a Call State Control Function (CSCF)  7  to a Home Subscriber Server (HSS)  8  comprising a subscriber multimedia profile database  80 . 
   The preferred embodiments of the invention are concerned with improving the switching between a variety of communication services. For example, users on a call may want to make silent comments in a chat session or drawings that are forwarded for display on the mobile terminal  2  of the other user. To accomplish this, a software application/user interface is preferably stored in mobile terminal  2 . Having the application resident on the mobile terminal  2  increases the speed of switching between the communication services, and allows the user interface to be well designed with suitable graphical elements for the characteristics of mobile terminal  2 . 
     FIG. 2  illustrates an exemplary display  200  of a mobile terminal  2  of a user (Eric Williams) having an active voice call to another person (Susan Adkins). The display  200  preferably includes a window  201  relating to the voice call. The window may contain, for example, the name of the other person, a preexisting picture of the other person (the picture is not a live picture), and an indication of the current duration of the call. The displayed text may be “Active Susan Adkins” as shown in  FIG. 1 , or “Audio call to Susan Atkins” or something similar. As will be explained more below, display  200  preferably includes tabs  202 - 205  corresponding to other available communication services (for example, a video call, a chat session, a whiteboard application and a shared view application as shown in  FIG. 2 ). The other tabs  202 - 205  have closed connections and only the voice call tab with window  201  has an active connection. Alternatively, there may be a drop-down menu or some other method provided to allow easy selection and requesting of other available communication services. The variety of available communication services may vary greatly from one network environment to another. For example, a 2.5 G network may have only a chat service and whiteboard application service while a 3G network may also have a video call service and a shared view application service. 
   A example of the user interfaces on the mobile terminals in a preferred embodiment of the method of switching between communications services is shown in  FIGS. 3 and 4 . In the example, Eric having a voice call communication service with Susan wants to switch to a video call communication service with Susan. Eric enters a command on his mobile terminal  2  to send a request to Susan&#39;s terminal indicating his desire to switch from a voice call to a video call. In the example of a mobile terminal having a software application/user interface to provide display  200  as shown In  FIG. 2 , Eric makes the request by simply selecting the tab corresponding to the desired service. 
   Various information may be contained in the request message transmitted by the mobile terminal  2 , such as details of the mobile terminal related to carrying out the suggested service (video format type, etc). The request may be logged in the receiving mobile terminal. It is a design choice when to remove request entries; for example a request can be removed when that session is completed, plus some predetermined time. 
     FIG. 3  illustrates a simple example of a display  300  at Susan&#39;s mobile terminal  2  upon receipt of the request to switch to another communication service. The display  300 , which is mounted on a housing  315 , includes a window  301  which may contain, for example, the name and a preexisting picture of Eric. The window  301  preferably automatically includes a prompt such as “Change to video call” without the user of the receiving terminal having to take any action. Also, although the user interface is shown in  FIG. 3  as being rather simple, the user interface may take a variety of forms and be in any number and combination of multimedia formats (video, audio, graphics, animation, etc.). The content may, for example, announce the identity or source of the other party or service provider with video programming, either with text, audio, video or graphics. There are several general methods in which either Eric or Susan, by accessing the multimedia subscriber profile  80  for Susan&#39;s terminal, is able to exert some control over the user interface and prompt on Susan&#39;s terminal, including window  301 . The prompt typically includes at least a display shown to the user on the display of the mobile terminal, but it may also consist of tactile notification, such as vibration of the mobile terminal, or a distinctive ringing tone, which may be produced by a speaker  330 . As is known, the mobile terminal  2  may include a processor and memory such as is depicted in  FIG. 16 . 
   It is particularly preferable that the user interface, including prompt, be available on Susan&#39;s terminal substantially immediately after the request is made at Eric&#39;s terminal. Susan can then respond to the prompt by simply pressing YES button  302 - 1  or NO button  302 - 2 , the buttons being example of a selector, or taking any other action appropriate for the user interface utilized on her terminal for the request to indicate whether or not she agrees to switch the communication service. 
     FIG. 4  shows an example of the resulting display  400  on Eric&#39;s mobile terminal immediately after the switch from the voice call communication service to the video call communication service has been completed. Unlike the preexisting pictures of the users in  FIGS. 2 and 3 , the pictures in  FIG. 4  are “live” pictures according to the specification of the video call communication service. There may also be other information displayed or otherwise provided during the video call, such as, for example, the duration of the video call and/or the cumulative duration of the video call and the previous voice call. As explained below, at any time, the users may again switch to another communication service in the same manner as described above with respect to  FIGS. 2-4 . 
   The method of switching communication service may utilize software application in a network element (e.g., MGCF a) to adapt the existing resources by releasing part of the used connection resources. Alterntively, the MGCF a may reserve new resources new resources and release earlier reserved resources. Another alternative is that the MGCF a reserves an additional portion of the required network connection resources in respect to an earlier used network connection in such a way that newly reserved and earlier provisional network connection resources are used together to satisfy the connection resource needs to support the newly switched service requirements. 
   The software application carrying out the above method of switching communication services may itself be able to perform one or more of the communication services or there may be one or more other software applications on mobile terminal  2  to perform one or more of the communication services. For example, there may be one software application to perform the video call service, another software application to perform the chat session, etc. Alternatively, a software application may perform more than one communication service. In any event, such software applications may interact with the software application carrying out the above method of switching communication services through application programming interfaces (APIs) or similar methods. Alternatively, each of such software applications may be revised or developed to include user interface commands for each one of the communication service change request. The mobile terminal  2  may have any one of a variety of different software application managers for managing the software applications resident on the mobile terminal  2  or downloaded to the mobile terminal  2 . Such a software manager may be terminal and implementation dependent. 
   Once stored in the mobile terminal  2 , the software application for carrying out the method of switching communications services can be launched at any time as long as a primary connection is active. The launch can be user activated or activated automatically whenever a primary connection is opened. However, it is preferred that some elements of user interface do not have to always be present. For example, as shown in  FIGS. 2 and 4 , a clock or timer in the upper right of the display, the function buttons on the left side (for printing, navigation, etc.) and the right side of the display (volume control, adding member, ending call, etc.) may be constant. The various windows  201 ,  301 , and  401  are present and absent according to the state of communications. Furthermore, the tabs  202 - 205 , the Yes button  302 - 1 , the NO button  302 - 2 , and the function buttons for diverting a call are also present according to the state of communications. As indicated in  FIG. 3 , there may be a background, either fixed or at the user&#39;s preference, on the display when the elements are not present. 
   It is preferred that once the software application performing the method for switching communication services is launched, it remains in the background until the method is invoked, for example, a change in communication service is requested. Preferably, neither user has to provide complicated inputs. It is a particular feature of the preferred embodiments that the software application utilizes previously obtained information and requires only one single action by the appropriate user at the various steps in the method. This can be done as shown in  FIGS. 2-4 , for example, by providing a plurality of tabs  202 - 205  each corresponding to an available communication service which may be requested and YES and NO buttons  302 - 1  and  302 - 2  for the reply to the request. In order to switch to a particular service according to a preferred embodiment of the invention, the user merely selects one of the tabs  202 - 205 , and in order to reply, the user selects one of the YES and NO buttons  302 - 1  and  302 - 2 . However, the implementation of  FIGS. 2-4  is merely exemplary and others may be used instead. 
     FIG. 5  is a flowchart illustrating the general method of the preferred embodiments without specific reference to the implementation in  FIGS. 2-4 . The first step in the method is the receipt of a user command at a first terminal to switch communication services (step  501 ). The second step is the transfer of the request to switch communication services from the first terminal to the second terminal (step  502 ). When the request is received at the second terminal, a prompt is provided to the user of the second terminal to obtain an indication from the user indicating whether or not the user agrees to switch communication services (step  503 ). If the user reply is NO (step  504 ), then the method reverts back to the initial state. If the user reply is YES (step  504 ), then the signaling is initiated to set up the change in communication services (step  505 ). The preferred embodiments for the signaling are addressed further below, but the signaling in step  505  is such that it enables the communication resources of the services to be modified in such a manner that the service switching appears to be substantially immediate on the displays of the mobile terminals (step  506 ). 
   Of course,  FIG. 5  is a simple flowchart illustrating a single change of communication services according to a preferred embodiment of the invention. However, the communication service may be changed several times during a single end to end mobile terminal session.  FIGS. 6-13  illustrate an example of a session in which the communication service is changed several times service or vise versa between two mobile terminals in the communication network system. 
     FIG. 6  illustrates the composition of an original multimedia call at Eric&#39;s mobile terminal  2 . As indicated, the mobile terminal  2  includes a menu  610  that supports a variety of options for implementing calls. The options include the option to make a call accompanied by a message. Once this option is selected, a composition screen  601  appears which includes a message area  602  for adding a message to accompany the text. The message may be a simple text: “Next weeks meeting. Important!” or it may be a selected picture or other content. Preferably, the content has a size small enough to allow it to be included in the payload of a Session Initiation Protocol (SIP) signaling message as an IP multimedia message supported in the core network. Once the message is composed, the request can be sent by selecting the call button  603 . 
     FIG. 7  shows the display, including the composed message, in window  701  at Eric&#39;s mobile terminal at the time that the call is made.  FIG. 8  shows the display of Susan&#39;s terminal upon receipt of the request. The display includes the call request, including the individually composed message as well as pre-determined picture and name, in window  801  and answer button  802  for answering the call (other buttons available for diverting the call, silencing the call, or rejecting the call also available). After Susan&#39;s selection of answer button  802 , the display of Eric&#39;s terminal may be as set forth in  FIG. 9 , including window  901 , and the display of Susan&#39;s terminal may be as set forth in  FIG. 10 , including window  1001 . 
   As indicated by element  902  in  FIG. 9 , Eric may request a whiteboard service during the call by selecting tab  204 . After making a drawing, such as the map shown in  FIG. 11 , Eric may request a share view (step  1102 ) communication service. Assuming that the request for a change to the share view communication service is accepted by Susan, the display on her terminal may become as shown in  FIG. 12 , including the map shown in window  1201 . As indicated in  FIG. 13 , Eric may at the appropriate time activate the end share button  1302  to discontinue the shared view and return to the original call. 
   Some example implementations of steps  501 - 504  of  FIG. 5  are provided above with respect to  FIGS. 2-4  and to  FIGS. 6-13 . As indicated therein, the software application carrying out the method of switching communication services preferably sends the request and reply upon a simple input by the user and without any further actions necessary by the user. Any one of several available signaling methods (such as GPRS, SMS, etc.) may be employed in the network and in the terminals to transfer the initial request to change communication services from the first terminal to the second terminal and to transfer the reply from the second terminal to the first terminal if the invention is implemented software in the mobile terminals only and no extra support is required in the network (e.g., MGCF a). 
   As indicated at step  505  of  FIG. 5 , the method includes signaling to set up a change in communication resources of the services applying the information received originally from user command therefore at step  501  and possibly, information available in the network (e.g., MGCF a or any other entity) and an affirmative reply at step  504 . As indicated at step  506  of  FIG. 5 , this signaling enables the switching of communication services on the displays of the terminals to appear to be substantially immediate. Exemplary, but non-limiting, implementations of steps  505  and  506  will now be discussed. 
   In a preferred embodiment, the request to change communication services is combined with a message or other information specific to the request and is synchronized with the request to be presented at substantially the same time that the prompt is provided to the receiving user. The presentation of this message or other information in a synchronized manner gives an impression of continuity to the receiving user. 
   The communication services may be established generally as described in published patent application W002052825, where there would be a circuit switched connection from the caller&#39;s terminal to the switch and the call leg from the switch to called party is a packet switched connection and the invention is implemented in the software of a mobile terminal. However, when a communication service is switched according to steps  501 - 504 , the software application at Eric&#39;s terminal provides a SETUP message including instructions to, for example, MGCF  9  in  FIG. 1 . In MGCF  9 , a SIP INVITE message is sent to Susan&#39;s mobile terminal. Feedback is signaled by sending a session progress message from Susan&#39;s mobile terminal to MGCF  9  to Eric&#39;s mobile terminal. Then, the physical call connection resources for the first communication service that are not required any more are released (disconnected) and the resources required for the second communication service are reserved. Next, alerting is signaled to Eric&#39;s mobile terminal and to Susan&#39;s mobile terminal. Preferably, the alert is not a ringing tone to be played, but instead some content (such as text or picture) drawn on the display of the mobile terminal. The presentation of this content is preferably synchronized with the availability of the second communication service in the manner described in pending U.S. patent application Ser. No. 10/026,912 filed on Dec. 27, 2001, and assigned to the same assignee (Nokia Corporation) as this application, the disclosure of which is hereby incorporated by reference into this application in its entirety. Preferably, the resources for the first communication service are disconnected only after a second CONNECT message is sent to the mobile terminals. Otherwise, during a very busy traffic hour, the connection from MGCF  9  to the mobile terminals may drop and the call connection may be released. 
     FIGS. 14-15  illustrate a method of switching the communication services from the video call service to audio call service or vise versa between two mobile terminals in the communication network system. 
   The method of switching communication services may require new software application in a network (e.g., MGCF a) to adapt the existing resources by releasing part of the used connection resources. Alternatively, (MGCF a) may reserve new resources and release earlier reserved resources. This is illustrated in detail in  FIG. 14 . The method starts with set up message sending (step  1401 ) from a first mobile terminal as result of its user wanting to establish a video call including audio a second mobile terminal. The MGCF  9  receives the originally sent set up message and it may retrieve the media profile of the calling mobile terminal (step  1402 ) that is applied for configuring the video call connection and is mapped from the Logical Link Control (LLC) Protocol from the Bearer Control Protocol H.324 to Session Description Protocol (SDP). The SDP is a session connection that may comprise one or more Radio Transfer Protocol (RTP) sessions and configured according to service requiring settings and consisting as many RTP sessions as required to satisfy the connection resource requirements. The MGCF a sends a SIP INVITE message to the called terminal (step  1403 ). The Session to be established, the second mobile terminal is signaled backwards to MGCF (step  1404 ) in a SESSION PROGRESS message and the MGCF a signals a CALL PROCEEDING message to the first mobile terminal (step  1405 ). When the first terminal has received the backward signaling from the second mobile terminal, it understands that the IP bearer is established from end to end between the first and second mobile terminals. The (first) (calling) mobile terminal is marked to include a user interface. UI  1 A receives an alerting signaling (such as an audio indication) from the network (step  1407 ) that is originally signaled from the second mobile terminal (marked to include user interface, UI  1 B) (step  1406 ). When the second mobile terminal (e.g., Eric) answers the initiated video call of the first mobile terminal owned by Susan, an OK SIP message is sent at step  1408  to MGCF and the network element MGCF sends CONNECT message of LLC to first mobile terminal (Susan). Now finally local channels from the first mobile terminal of Susan is established via MGCF  9  (step  1410 ) and MGCF  9  acknowledges the multimedia connection to be created to the second mobile terminal (the Eric&#39;s phone) by sending ACK SIP message (step  1411 ). 
   Now assume after a moment Susan wants to change from video call to audio for instance, because of battery power getting low or money being spent or for any other reason. She selects, from her user interface, a request to switch to an audio alternitive. A setup message is sent from the first mobile terminal (step  1412 ), including audio e.g. G.  723  request to the MGCF. Now the audio profile maybe retrieved from Home Subscriber Server, (HSS) (step  1413 ) (step  1513 ) and used in configuring the mapping the Logical Link Control audio connection setup request to Service Description Protocol of an audio connection. The MGCF a sends a SIP INVITE message of audio IP bearer request (step  1414 ) to the second mobile terminal (Eric). The session going to be established to the second (called) mobile terminal is signaled backwards first to the network element MGCF (step  1415 ) in SESSION PROGRESS messse and MGCF  9  signals CALL PROCEEDINGS message to the first mobile terminal (step  1416 ). When the first terminal has received the backward signaling from the second mobile terminal, it means that the audio IP bearer is established from end to end between mobile terminals, first and second mobile terminals. The first (calling) mobile terminal marked to include user interface, UI  1 A receives alerting signaling audio indication from the network (step  1418 ) that is originally signaled from the second mobile terminal (marked to include user interfaced UI  1 B) (step  1417 ). When the called mobile terminal user (e.g., Eric) switches from the video call to the audio an OK SIP message is sent (step  1419 ) to MGCF  9  and the network element MGCF  9  sends CONNECT message of LLC to first mobile terminal (Susan) (step  1420 ). Now finally local channels from the first mobile terminal of Susan is established as H. 245  type audio connection via network element MGCF  9  (step  1422 ) and MGCF  9  acknowledges an audio to be created to the second mobile terminal (the Eric&#39;s phone) by sending ACK SIP message (step  1424 ). The second mobile terminal may disconnect video connection (including the audio connection) immediately after having sent the SIP OK message of the audio connection (step  1419 ). Alternatively, an old audio part of the video connection is maintained concerning the RTP audio connections and a only the moving picture part of the multimedia connection is disconnected (step  1421 ). The old video connection (including the audio as well) H. 324  is disconnected (step  1423 ) between MGCF and first mobile terminal after the audio connection H. 245  is established (step  1422 ). Alternatively, only the moving picture part of the bearer connection H. 324  is disconnectect in such a way that radio transfer protocol (RTP) connection used for audio is kept on and used for H. 245  audio. 
   Another method of the invention is illustrated in  FIG. 15 . The MGCF  9  reserves new resources and release earlier reserved resources or the MGCF  9  reserven additional portion of the required network connection resources in respect to earlier used network connection in such a way that newly reserved and earlier provisional network connection resources are used together to satify the connection resource needs to support the newly switched service requirements. The method starts with set up message sending (step  1501 ) from first mobile terminal as result of its user wanting to establish an audio call to the second mobile terminal. The MGCF  9  receives the originally sent set up message. The MGCF  9  may retrieve the medial profile of calling mobile terminal (step  1502 ) that is applied for configuring an audio call connection to be mapped from the Logical Link Control Protocol (LLC) and the Bearer Control Protocol H. 245  to Session Description Protocol (SDP). The SDP is a session connection that may comprise one or more Radio Transfer Protocol (RTP) sessions and which are configured according to service required settings. The SDP connection consists of as many RTP sessions as required to satisfy the connection resource requirements. The MGCF  9  sends an SIP INVITE message to be sent to the called terminal (step  1503 ). The Session going to be established to the (called) second mobile terminal is signaled backwards first to the network element MGCF (step  1504 ) in SESSION PROGRESS message and the MGCF signals CALL PROCEEDING message to the first mobile terminal (step  1505 ). When the first terminal has received the backward signaling from the second mobile terminal, it is understood that the IP bearer is established from end to end between first mobile terminals and second mobile terminals. The (calling) mobile terminal marked to include user interface, UI  1 C receives alerting signaling audio indication from the network (step  1507 ) that is originally signaled from the second mobil terminal (marked to include user interface UI  1 D) (step  1506 ). When the called mobile terminal user (e.g. Eric) answers the initiated audio call of the first mobile terminal owned by Susan, an OK SIP message is sent (step  1508 ) to MGCF  9  and the MGCF  9  sends CONNECT message of LLC to first mobile terminal (Susan). Now finally local channels from the first mobile terminal of Susan are established via MGCF  9  (step  1510 ) and MGCF  9  acknowledges the multimedia connection to be created to the second mobile terminal (the Eric&#39;s phone) by sending ACK SIP message (step  1511 ). Now assume that after a moment, Susan wants to change from audio call to video. She selects, from her user interface, a connection request to video alternative. A setup message is sent from the first mobile terminal including video (e.g. H. 324 ) request to the MGCF  9 . Now the audio profile may be retrieved from Home Subscriber Server (HSS) (step  1513 ) and it is used in configuring the mapping the Logical Link Control audio connection setup request to Description Protocol of an audio connection. The MGCF sends a SIP INVITE message of audio IP bearer request (step  1514 ) to the second mobile terminal (of Eric&#39;s). The Session going to be established to the second (called) mobile terminal is signaled backwards first to MGCF  9  at step  1515  in SESSION PROGRESS message and the MGCF  9  signals CALL PROCEEDING message to the first mobile terminal (step  1516 ). When the first terminals has received the backward signaling from the second mobile terminals, it means that the video IP bearer is established from end to end between the mobile terminals first and second mobile terminals. The first (calling) mobile terminal marked to include user interface UI  2 C receives alerting signaling video indication from the network (step  1518 ) that is originally signaled from the second mobile terminal (marked to include user interface UI  2 D) (step  1517 ). When the called mobile terminal user (e.g. Eric) switches from the audio call to the video, an OK SIP message is sent (step  1519 ) to MGCF  9  and the network element MGCF  9  sends CONNECT message of LLC to first mobile terminal (Susan) (step  1520 ). Now finally local channels from the first mobile terminal of Susan are established as H. 324  type video connection via network element MGCF  9  (step  1522 ) and MGCF  9  acknowledges a video connection to be created to the second mobile terminal (Eric&#39;s phone) by sending ACK SIP message (step  1524 ). The second mobile terminal may disconnect the audio connection immediately after having sent the SIP OK message of the video connection (step  1519 ). Alternatively the audio connection is kept on concerning the RTP connections and only the moving picture part of the multimedia connection is connected (step  1520 ). However if the established video connection H. 324  is connected with totally new radio transfer resources, then the old audio connection H. 245  is disconnected (step  1523 ) between MGCF  9  and the first mobile terminal after the video connection H. 324  is established. 
   While the invention has been described with reference to example embodiments, the description is illustrative and is not to be construed as limiting the invention. In particular, the various references to mobile terminals and Java refer merely to the terminology used in association with the preferred embodiments and is not meant to imply that the method according to the example embodiments must only be used with certain types of mobile terminals or implementing technologies.