SE521806C2 - Method and apparatus for controlling data connections in a digital cellular communication network between a user terminal and a remote network - Google Patents

Abstract

A procedure and a device for control of data connections is shown. The procedure and the device are utilised in a digital, cellular communication network in which need of data transmission between a user terminal and a long-distance network is detected. A data connection between the user terminal and the long-distance network is set up and its characteristics are changed depending on the detected need.

Description

10 15 20 25 30 = s21 8063: interface to the digital cellular communication network.

Finally, it is also required that there is an interface between the user and the user terminal.

Various terminal manufacturers have developed terminal-specific software for handling data transmission in a digital, cellular communication network. Since the data transmission is done via a network operator's digital, cellular communication networks, these communication networks must be able to handle data transmission between several different types of terminals, which leads to adaptation problems when new terminal-specific solutions are introduced. A user may also be forced to use different interfaces for one and the same service for terminals from different manufacturers.

A general and overarching problem with data transfer technologies is further that users perceive them as expensive and difficult to use.

DISCLOSURE OF THE INVENTION The object of the present invention is to eliminate the above-mentioned problems that communication networks must be able to handle data transmission between several different types of terminals and that a user may be forced to use different interfaces for one and the same service for terminals from different manufacturers. users experience the data transfer technologies as expensive and difficult to use.

These objects are achieved according to the invention by a method for controlling data connections in a digital, cellular communication network in which data transmission needs between the user terminal and the remote network are detected. A data connection between the user terminal and the remote network is connected and its characteristics change depending on the detected need. 5 15 20 25 30 35 521 806 Advantages of this method are that a data connection between the user terminal and the remote network is only connected when an access to the remote network is needed. The user thus does not need to be connected before the need arises, which leads to lower resource utilization and thus also lower cost. The connection is made without the user having to enter any commands in the terminal, which simplifies the operation for the user.

In one embodiment of the method according to the invention, the data transmission need is detected as a need for transmission speed between the user terminal and the remote network. The characteristics of the data connection are then changed by increasing the transmission speed of the data connection when the need for transmission speed between the user terminal and the remote network is greater than the current transmission speed of the data connection and reducing the transmission speed of the data connection when the need for transmission speed between the user terminal and the data transmission network is less. An advantage of this method where the transmission speed of the data connection connected between the user terminal and the remote network is dynamically adapted to the transmission speed needed at the moment is that the transmission speed of the data connection never exceeds the need for transmission speed. The resource access can thus be reduced, in relation to a data connection with a fixed transmission speed. Another and thus also costs, advantage is that the user does not have to change the transfer speed manually, which leads to easier handling for the user.

In another embodiment of the method according to the invention, the data connection is disconnected when a lack of a need for data transfer between the user terminal and the remote network has been detected for a predetermined period of time. An advantage of this is that the method results in the data connection being connected only if a data transmission need exists. Resource utilization is thus further reduced and thus also costs. Another advantage of this embodiment is that the user does not have to find out when there is a need for data transfer, which leads to easier handling for the user.

In a further embodiment of a method according to the invention, it is detected if an interruption occurs. If an interruption is detected, a data connection is connected between the user terminal and the remote network depending on the data transmission need between the user terminal and the remote network. An advantage of this is that the user does not have to initiate the connection of a connection manually if an interruption occurs. This leads to easier handling for the user.

In a further embodiment of the method according to the invention where the data connection in the first digital cellular communication network is connected between the user terminal and the remote network via a second digital cellular communication network, information on available digital cellular communication networks, such as available digital , cellular communication networks and billing conditions for resource utilization in the various communication networks. Depending on the information on available digital cellular communication networks, together with predetermined criteria, a network is used among the available digital cellular communication networks. For example, the network that provides the lowest cost can be used. An advantage of this method is that it provides an opportunity for the user to always use the network which gives the lowest cost when the user is outside the area where the first network in which he is a subscriber is available and the user thus has to use a second network for to reach the first network, so-called roaming. In a further embodiment of the method according to the invention, an application is detected which has an intermittent need for data transmission between the user terminal and the remote network. This application's data transfers between the user terminal and the remote network are then filtered. An advantage of this is that applications that make regular attempts to reach a remote network, which attempts are not necessary for the user, can be regulated so that unnecessary connections of connections are avoided. This reduces the cost to the user.

In a further embodiment of the method according to the invention, depending on a user input, data connection-related information, such as billing conditions, error handling tables and data connection costs since last invoicing, is collected. A number of parameters of the data link, such as the data rate of the data link at each time point and the time that the data link has the same transfer rate, are measured. Depending on the data connection related information, characteristic data of the data connection, such as transmission speed, cost so far for the current data connection and cost so far over a predetermined period of time, are then calculated and these characteristic data are presented to the user on a status screen. An advantage of this embodiment is that the user gets a better basis for making decisions, such as deciding whether the data connection should be disconnected when the cost exceeds a level.

The objects are also achieved according to the invention by means of a device for controlling data connections in a first digital cellular communication network, which comprises a means for detecting data transmission needs between the user terminal and the remote network, a means connected to the means for detecting data transmission needs for 10 15 20 25 30 35 = 521 806 changing the characteristics of the data connection based on the detected need for data transmission between the user terminal and the remote network and a connection means for connecting / disconnecting a data connection between the user terminal and a remote network connected to the means for changing the characteristics of the data connection. The up / down means (9) connects a data connection between the user terminal and a remote network when a data transmission need is detected and disconnects the data connection when a lack of data transmission need has been detected for a predetermined period of time. The device also comprises a means for managing the interface with the digital cellular communication network connected to the means for changing the characteristics of the data connection and to the connection / disconnecting means (9). An advantage of this device is that it means that a data connection between the user terminal and the remote network is only connected when there is a data transmission need, which leads to lower resource utilization and thus also lower cost.

Another advantage is that the connection of the connection takes place without the user having to enter any commands in the terminal, which simplifies the operation for the user. Another advantage of this device is that the means for handling the interface to the digital cellular network is arranged before the up / down means (9) and is therefore transparent to the user with respect to said up / down means.

This simplifies handling for the user, for example if different connection / disconnecting means are used.

An embodiment of the device according to the invention also comprises a demand detecting means for detecting the need for transmission speed between the user terminal and the remote network and a control means for increasing and decreasing the transmission speed of the data connection when the need for transmission speed between the user terminal and the remote network is greater and smaller. than the current transfer rate of the data connection. An advantage is that this embodiment further reduces the resource access because the transmission speed of the data connection is controlled so that it only covers the need transmission speed and thus that no excess transmission capacity is connected.

In this way, the costs of the data connection are also reduced in relation to a data connection with a fixed transmission speed.

Another embodiment of the device according to the invention also comprises an interrupt detection means for detecting interruptions. The up / down means (9) connects, depending on the detected data transmission need, a data connection between the user terminal when an interruption is detected. An advantage of this embodiment is that the user does not have to initiate a connection of a connection manually if an interruption occurs. This leads to easier handling for the user.

A further embodiment of a device according to the invention for use in connecting a data connection in the first digital cellular communication network between the user terminal and the remote network via a second digital cellular communication network, also comprises a means for obtaining information about available digital cellular communication networks, such as available digital, cellular communication networks and charging conditions for resource utilization in the various communication networks, in response to a user input via a user input control unit. The device also comprises a means for selecting a network from among the available digital cellular communication networks based on the information on available digital cellular communication networks together with predetermined criteria. For example, 10 15 20 25 30 35 “521 806 _ the network that provides the lowest cost can be used. An advantage of this embodiment is that it provides an opportunity for the user to always use the network which gives the lowest cost when the user is outside the area where the first network in which he is a subscriber is available and the user thus has to use a second network for to reach the first network, so-called roaming.

A further embodiment of a device according to the invention also comprises a means for detecting an application which has an intermittent need for data transmission between the user terminal and the remote network and a means for filtering the transmissions of these applications between the user terminal and the remote network. An advantage of this embodiment is that applications that make regular attempts to reach a remote network which are not necessary for the user can be regulated so that unnecessary connections of connections are avoided. This reduces the cost to the user.

A further embodiment of a device according to the invention also comprises. a means for retrieving data connection related information, such as billing conditions, error handling tables and accumulated data connection costs since last invoicing, in response to a user input via a user input controller. The device also includes a means for measuring parameters of the data link, such as the data rate of the data link at each time and the time the data link has the same transfer rate, a means of calculating characteristic cost data so far for the current connection and the cost of the data link. a predetermined period of time, based on the connection-related information and means for presenting these characteristic data to the user for use as a decision basis for the user. An advantage of this embodiment is that the user gets a better basis for making decisions, such as deciding whether the data connection should be disconnected when the cost has exceeded a level.

BRIEF DESCRIPTION OF THE DRAWINGS The invention will be described in more detail below with reference to the accompanying schematic drawings which, by way of example, show preferred embodiments of the invention.

Figure 1 is a general view of an environment in which an invention can be used.

Figure 2 shows an overview of another environment in which the invention can be used.

Figure 3 shows a block diagram of an embodiment of a device according to the invention.

Figure 4 shows a flow chart of a method according to the invention.

PREFERRED EMBODIMENTS Figure 1 shows an environment in which an embodiment of the invention can be used. A user terminal 1 comprising a computer 2, connected to a mobile terminal 3.

The mobile terminal 3 is in turn connected to a first GSM network 4. Different types of remote networks are connected to the GSM network. and a LAN 6. Connections can be connected via the GSM network The figure shows two examples, the Internet 4 from the user terminal 1 to these remote networks.

Figure 2 shows another environment in which the invention can be used. In this figure the user terminal 1 is connected to a second GSM network 7 which in turn is connected to the first GSM network 4. This environment 10 15 20 25 30 35: S21 eos 10 occurs, for example, when a user is located outside the area where the first GSM network 4 in which he is a subscriber is available and the user thus has to use a second GSM network 7 to reach the first network 4, so-called roaming.

Figure 3 shows an embodiment of a device 8 according to the invention. The device 8 controls data connections in a GSM network 4, between a user terminal 1 and a remote network, in this case the Internet 5 or a LAN 6. The device comprises a connection means 9 located in it (3 in Figures 1 and 2). also comprises a demand detection means 10, a mobile terminal The device 8 control means 11, an interrupt detection means 12 and an interface management means 13 which are located in the computer 2 (2 in Figures 1 and 2). applications 14, The computer 2 also includes some of which need data connections to any of the remote networks.

When the user starts up the user terminal, the demand detecting means 10 begins to detect the need for data transfer rate for the applications 14 in the user terminal. If the demand detecting means 10 detects that any of the applications 14 in the user terminal 1 has a data transfer need between the user terminal 1 and a remote network, it notifies this to the control means 11 which controls the up / down means 9 via the interface means 13 to connect a data connection. When a data connection is connected, the demand detecting means 10 detects the needs of the applications 14 for transmission speed and notifies this to the control means 11 which increases and decreases the transmission speed of the data connection if the need for transmission speed is greater or less than the current speed of the data connection. The control means 11 utilizes hysteresis levels and delay in the increase and decrease of the data connection's transmission speed, respectively, which means that the applications' need for transmission speed must exceed or fall below the data connection's transmission speed during a predetermined period of time in order to increase and decrease the data connection. . If the demand detecting means 10 detects a lack of data transmission need for a predetermined period of time, it notifies the control means 11 which controls the up / down means 9 to disconnect the data connection. The interrupt detecting means 12 if so, provided that it detects if an interruption has occurred and, notifies this to the control means 11 which, the needs detecting means 10 notifies that data transmission need exists, controls the up / down means 9 to connect a new data connection from the user terminal 1 to a remote network terminal the network 3.

Figure 4 describes a method according to the invention for controlling data connections in a GSM network 4 between a user terminal 1 and a remote network (see Figure 1). When a user turns on the user terminal, the method is started and a detection step 15 detects the data transfer need between the user terminal and a remote network and notifies this need to a routing step 16 which directs the method back to the detection step 15 if a lack of data transfer needs is detected and further controls the connection to a connection step. data transfer needs detected.

The data transmission need is detected as the applications of the applications in the user terminal for the transfer speed between the user terminal and the remote network. In the connection step 17, a data connection is connected between the user terminal and the remote network via the GSM network.

In a demand detection step 18, the need for transmission speed between the user terminal and the remote network for the applications in the user terminal is then detected and notifies this need to a path selection step 19. The path selection step 19 notifies if the need for transmission speed is higher than the data connection's current transmission speed. a demand increase step 20 which increases the transmission speed of the data connection. If the need for transfer rate is not higher than the transfer rate of the data connection, the path selection step 19 guides the procedure on to a further path selection step 21. The path selection step 21 announces whether the need for transfer rate is lower than the current transfer rate of the data connection to a demand reduction step 22 which reduces the data connection transfer rate. If the need for transmission speed is not lower than the transmission speed of the data connection, the path selection step 21 controls the method to an interrupt step 23. The increase and decrease of the data connection transmission speed in the demand increase stage 20 and the demand reduction stage 22 is made by signaling to the GSM network to allocate more data connections.

Hysteresis levels and delays are utilized in the increase and decrease of the data connection transfer rate in the demand increase step 20 and the demand decrease step 22, respectively.

In the interrupt step 23, interruptions in the data connection are detected. If an interruption is detected, the method is passed on to the detection step 15 where the data transfer need is detected. If a data transfer need is detected, a new data connection between the user terminal and the remote network is connected.

Finally, in the path selection step 24, it is detected if data transfer needs have been absent for a predetermined 10 15 20 20 521 eos 13 time, which can be adjusted by the user. In the event of such a absence, the data connection is disconnected in a disconnection step 25. If a need is still detected, the connection is maintained and the method is controlled to the need detection step 18, the procedure continuing until a lack of data transfer need is detected and the data connection is disconnected. Although a number of specific embodiments have been described above, those skilled in the art will recognize that a variety of modifications to the above-described embodiments of the invention are possible within the scope of the invention, as defined by the appended claims. For example, a device has been described in which the various means have been implemented in a computer and a mobile terminal. These means can of course be implemented in a computer only, a mobile terminal only or in a combination of these.

The embodiments are also described for GSM technology.

The invention can of course also be implemented for such as those (Digtal-Advanced Mobile some other time-multiplexed, cellular technology, American technologies D-AMPS and PCS or the Japanese PDC Phone System) (Personal Communication Services) (Personal Digital Cellular).

Finally, the embodiments have also been described with the Internet and a LAN as a remote network. These are to be considered as examples only and not as a limitation of the invention.

Claims (47)

and 521 806 H PATENT REQUIREMENTS A method for controlling data connections in a first digital cellular communication network (4) between a user terminal (1) and a remote network (5,6) comprising the steps of: detecting (15) data transmission needs between the user terminal (1) and the remote network (5). , 6), to connect (17) a data connection between the user terminal (1) and the remote network (5,6) depending on the detected data transmission need between the user terminal (1) and the remote network (5,6) and to change (20,22) the characteristics of the data connection depending on the detected data transmission need between the user terminal (1) and the remote network (5,6), the data connection in the first digital cellular communication network between the user terminal (1) and the remote network (5,6) being connected via a second digital cellular communication network (7), which method also comprises the steps of:, depending on a user input, obtaining information about available digital cellular communication networks, the formation of available digital, cellular communication networks together with predetermined criteria utilize a network among the available digital, cellular communication networks. The method of claim 1, wherein the step of detecting transmission needs comprises the step of: detecting the need for transmission speed between the user terminal (1) and the remote network (5,6), and wherein the step of changing the data connection characteristics comprises the steps of: increasing (20) the data connection transmission speed when the need for transmission speed between the user terminal (1) smdsoe / 0 and the remote network (5,6) is greater than the current transmission speed of the data connection and to reduce (22) the transmission speed of the data connection when the need for transmission speed between the user terminal (1) and the remote network (5,6) is less than the current transfer rate of the data connection. A method according to claim 2, wherein the steps (20,22) of increasing and decreasing the transmission rate of the data connection are performed by means of hysteresis levels and with a delay for limiting the number of changes in transmission rate. The method of claim 1, wherein the step of changing the characteristics of the data connection comprises the step of: disconnecting the data connection when a lack of data transfer needs between the user terminal (1) and the remote network (5,6) is detected for a predetermined period of time. A method according to claim 1, further comprising the steps of: detecting an interruption in the data connection, when a disconnection is detected, connecting a data connection between the user terminal (1) and the remote network (5,6) depending on the detected data transfer need between the user terminal (l) and the remote network (5,6). A method according to claim 1, wherein the data transfer need between the user terminal (1) and the remote network (5,6) is detected as in the user terminal (1) located at least one application (14) data transfer need between the user terminal (1) and the remote network (5,6). A method according to claim 2, wherein the need for transmission speed between the user terminal (1) and the remote network (5,6) is detected as located in the user terminal (1) located at least one application (14) for the transfer speed between the user terminal (1) and the remote network (5). 6). 521 806 16 The method of claim 1, wherein the information on available digital cellular communication networks comprises available digital cellular communication networks and billing conditions for resource utilization in the different communication networks. A method according to any one of claims 78, wherein the network that provides the lowest cost is utilized. A method according to claim 1, further comprising the steps of: detecting an application having an intermittent need for data transmission between the user terminal (1) and the remote network (5,6), filtering the transmissions of this application between the user terminal (1) and the remote network (5, 6). 11. ll. A method according to claim 1 which also comprises the steps of:, depending on a user input, obtaining data connection related information, measuring parameters of the data connection, calculating characteristic data of the data connection depending on the data connection related and presenting these characteristic data to the user on a status screen for use as a decision basis for the user. The method of claim 11, wherein the measured parameters of the data link include the data rate of the data link at each time point and the time that the data link has the same transfer rate. The method of claim 11, wherein the data connection related information comprises at least one of the billing conditions and error handling tables. The method of claim 11, wherein the characteristic data of the data connection comprises in 521 806 / I at least some of the transmission rate, cost hitherto for the current data connection and cost hitherto for a predetermined period of time. The method of claim 11, further comprising the steps of obtaining current billing data from the first communication network (4) and presenting this billing data to the user for use as a decision basis for the user. The method of claim 15, wherein the current billing data comprises accumulated data connection costs since last invoicing. The method of claim 1, wherein the data connection is connected to a digital, cellular communication network with time division multiplex access. The method of claim 2, wherein the data connection is connected to a digital, cellular communication network with time division multiplex access, and wherein the steps (20,22) for increasing and decreasing the data connection transmission speed are performed by increasing and decreasing the number of time slots allocated to the data connection. The method of claim 17 or 18, wherein the digital cellular communication network is any of a GSM network, a D-AMPS network, a PCS network or a PDC network. The method of claim 1, wherein the data connection is connected via a separate terminal for digital cellular communication. The method of claim 20, wherein the separate terminal is any of a GSM terminal, a D-AMPS terminal, a PCS terminal or a PDC terminal. The method of claim 1, wherein the data connection is connected over an HSCSD service. i 521 806 fr Method according to claim 1, wherein use without the need for any manual changes of settings in the user terminal (1) is present. An apparatus for controlling data connections in a first digital cellular communication network (4) comprising: a means (10) for detecting data transmission needs between a user terminal (1) and the remote network (5,6), one for the means (10) for detecting data transmission need connected means (11) for changing the characteristics of the data connection depending on the detected data transmission need between the user terminal (1) and the remote network (5,6) a means / connection means (9) connected to the means (11) for changing the data connection characteristics (9) for connecting / disconnecting a data connection between the user terminal (1) and a remote network (5,6), the up / disconnecting means (9) connecting a data connection between the user terminal (1) and a remote network (5,6) when a data transmission need is detected and switches the data connection when a lack of data transmission needs has been detected for a predetermined period of time and one to the means (11) for changing the data connection characteristics and interface management means (13) connected to the up / down means (9) for managing the interface to the digital cellular communication network (4), that the device also comprises: a means for detecting an application having an intermittent need for data transfer between the user terminal ( 1) and the remote network (5,6), a means for filtering the transmissions of this application between the user terminal (1) and the remote network (5,6). The apparatus of claim 24, wherein the means (10) for detecting transmission needs is a demand detecting means for detecting the need for 521 806 f. transmission speed between the user terminal (1) and the remote network (5,6), and in which the means (11) for changing the characteristics of the data connection is a control means for increasing and decreasing the transmission speed of the data connection when the need for transmission speed between the user terminal (1) and the remote network (5, 6) is greater or less than the current transmission speed of the data connection. Device according to claim 25, in which the control means (11) utilizes hysteresis levels and a delay for limiting the number of changes in transmission speed. An apparatus according to claim 24, further comprising: an interrupt detecting means (12) for detecting interruptions in the data connection, wherein the up / down means (9), depending on the detected data transmission need, connects a data connection between the user terminal (1) and the remote network ( 5.6) when an interruption is detected. The device according to claim 24, wherein the means (10) for detecting the need for data transfer between the user terminal (1) and the remote network (5,6) detects the data transfer needs of the applications (1) located between the user terminal (1) between the user terminal (1) and the remote network ( 5.6). Device according to claim 25, wherein the demand detecting means (10) detects the need for transmission speed between the user terminal (1) and the remote network (5,6) located in the user terminal (1) located applications (14). Device according to claim 24 for use in connecting a data connection in the first digital cellular communication network (4) between the user terminal (1) and the remote network (5,6) via a second digital cellular communication network, which device also comprises: i 521 806 3.0 a means for retrieving information about available digital cellular communication networks in response to a user input via a user input control unit, a means for selecting a network from among the available digital cellular communication networks based on the information about available digital cellular communication networks together with predetermined criteria. The device of claim 30, wherein the information on available digital cellular communication networks comprises available digital cellular communication networks and billing conditions for resource utilization in the different communication networks. Device according to claim 30, in which the means for selecting a network selects the network which provides the lowest cost is utilized. '' "'42 ++ - An apparatus according to claim 24, further comprising: a means for retrieving data connection-related information in response to a user input via a user input control unit, a means for measuring parameters of the data connection, a means for calculating characteristic data of the data connection from the connection-related information. and means for presenting these characteristic data to the user for use as a decision basis for the user. The apparatus of claim 33, wherein the measured parameters of the data link include the data rate of the data link at each time and the time that the data link has the same transfer rate. The apparatus of claim 33, wherein the data connection related information comprises at least one of the billing conditions and error handling tables. 521 806: u The apparatus of claim 33, wherein the characteristic data for the data connection comprises at least some of the transmission rate, cost hitherto for the current connection and cost so far for a predetermined period of time. The apparatus of claim 33, wherein the data connection related information also includes current billing data from the first communication network. The apparatus of claim 37, wherein the current billing data includes accumulated data connection costs since last billing. The device of claim 24, wherein the digital cellular communication network (4) has a tiered multiplex access. The apparatus of claim 24, wherein the digital cellular communication network has tiered multiplex access, and wherein the means for increasing and decreasing the transmission rate of the data link utilizes increasing and decreasing the number of time slots allocated to the data link, respectively. The device of claim 24 or 25, wherein the digital cellular communication network is any of a GSM network, a D-AMPS network, a PCS network or a PDC network. Device according to claim 24, in which the user terminal (1) comprises a separate terminal (3) for digital, cellular communication. Device according to claim 42, in which the separate terminal (3) is one of a GSM terminal, a D-AMPS terminal, a PCS terminal or a PDC terminal. The device of claim 24, wherein the user terminal (1) is a computer. ^ 521 806 -22 The device of claim 24, wherein the user terminal (1) is a mobile terminal. A device according to any one of claims 24-45, wherein at least one of the means is arranged in a computer and at least one of the means is arranged in a mobile terminal. Use of a device according to any one of claims 24-45 for data connections over an HSCSD service.