Background of the Invention A growing problem within Public Land Mobile Networks (PLMN) today is that the available resources within certain radio spectrums are getting scarce. Several telecom equipment vendors and operators are trying to solve this problem. In one attempt of doing this, radio nodes, i. e. base stations or MSC, are moved out of the PLMN and in to the customer premises. The operator can thereafter give the customer a Service Level Agreement (SLA) that guarantees a certain level of capacity and therefore also charge as a premium service. If no precautions are taken then only a Best Effort Agreement (BEA) can be given, which in reality means virtually no guarantees at all.

As a result of the limited amount of resources within certain radio spectrums, the use of these radio spectrums have been regulated. For example, the regulations say that equipment that only somebody that has a license may own equipment that uses a bandwidth that requires a license. Thus, there are a number of. drawbacks with moving radio nodes out of the PLMN. For example, moving radio node out of the PLMN to a customer premise is expensive and the customer gets high initial costs. Furthermore, since an operator with a license has to own the equipment, the same operator that owns the PLMN has to deliver all parts of the solution and the customer cannot buy different parts from different operators, i. e. bandwidth. In addition to this, there has

to be a dedicated connection from customer premises to the operator equipment, which is inefficient in terms of bandwidth use, and since all call control is in the operator network, it will be hard to add new services.

Finally, parts of the enterprise services today are located in a PBX while some services are located in the PLMN. This creates inconsistency in service behaviour.

Object of the Invention Thus an object of the invention is to provide a new method and system for providing access to a public mobile telecommunication network from a customer premises, which are less expensive, more flexible in terms of combining parts from different operators and adding new services, and more efficient in terms of bandwidth usage than prior art systems.

Description of the Invention The object above is achieved by the method, the apparatus, the mobile unit and the system defined in the accompanying claims.

According to one aspect of the invention, a method of providing a mobile unit access to a public mobile telecommunications network is provided. The mobile unit is associated with a subscriber in the public mobile telecommunications network and the access is provided at least partly by means of short range radio communication.

By using short range radio communication, such as communication based on Bluetooth, there will be no need to have any radio communication within a radio frequency that requires a licence in order to provide access to a public mobile telecommunication network, for example from a restricted are such as a customer premises. Thus, equipment from any vendor can be used for providing the radio access and the solution will be more flexible and less expensive. At the same time, the mobile unit is associated to a subscriber in the public mobile

telecommunication network, and thus all of the functionality of the public mobile telecommunication network can be used.

The providing of access preferably comprises communicating short range radio signals to and from the mobile unit, converting the short range radio signals to other signals and vice versa, which other signals are adapted for a fixed network, and communicating the other signals to and from the public mobile telecommunications network. Furthermore the other signals are preferably communicated to and from the public mobile telecommunications network via a multi-service network.

Thus, the access can be divided into two parts. The first part comprising the short range radio access, e. g ; by means of Bluetooth, and a second part which is an access via a fixed multi-service network, such as an Internet Protocol (IP) Network. The signals from the mobile unit, may for example comprise coded speech, wherein the same coding as in the public mobile telecommunication network preferably has been used. The coded speech is transferred in the first part in the short range radio signals and is then in the second part in the other signals via the multi-service network to the public mobile telecommunication network. The transfer in the multi- service network for example uses the Session Initiation Protocol (SIP) for the set-up of a session. By using a multi-service network the traffic caused by the communication from said mobile unit to said public mobile telecommunication network may use transfer capacity that is shared with other traffic from the location where the mobile unit is situated. Thus the method according to the invention is more effective in terms of bandwidth usage.

According to another aspect of the invention, an apparatus for providing a mobile unit access to a public mobile telecommunications network is provided. The mobile unit is associated with a subscriber in the public mobile telecommunications network. The apparatus comprises short

range radio communication means for communicating short range radio signals to and from the mobile unit. The short range radio communication means are operatively connected to the public mobile telecommunications network. Thus, instead of providing a radio access in the frequency range that is used in the public mobile telecommunication network, short range radio signals are used which are in another frequency range. However, note that there is no need to alter the data that are to be transferred, i. e. if coded speech is to be transferred from the mobile unit in short range radio signals the coded speech need not be altered, only included in a short range radio signal instead of in a radio signal in the frequency range of the public mobile telecommunication network as will be the case in the public mobile telecommunication network.

The apparatus preferably further comprises converting means for converting the short range radio signals to other signals and vice versa, which other signals are adapted for a fixed network, and fixed communication means for communicating the other signals to and from the public mobile telecommunications network.

Furthermore, the communication of the other signals to and from the public mobile telecommunications network is preferably done via a multi-service network. In addition to means for the actual physical conversion from radio signals to electrical signals, optical signals etc., the converter also comprises means for adapting the data for transfer over the appropriate protocol in the multi- service network, such as incorporating the data in IP packets if the multi-service network uses IP.

According to yet another aspect of the invention, a mobile unit for communication in a public mobile telecommunication network, which mobile unit is associated with a subscriber in the public mobile telecommunications network, is provided. The mobile unit comprises first radio communication means for

communicating short range radio signals to and from the public mobile telecommunications network. Since the mobile unit comprises means for short range radio communication, such as communication based on Bluetooth, the mobile unit is capable of accessing a public mobile telecommunication network at least partly by means of short range radio communication. Thus, equipment from any vendor can be used for providing the radio access and the equipment need not be owned by the operator. Thus, the solution will be more flexible and less expensive. At the same time, the mobile unit is associated to a subscriber in the public mobile telecommunication network, and thus all of the functionality of the public mobile telecommunication network can be used. The short range radio signals from the mobile unit, may for example comprise coded speech, wherein the same coding as in the public mobile telecommunication network preferably has been used.

The mobile unit preferably further comprises second radio communication means for communicating radio signals associated with the public mobile telecommunications network, and selector means for selecting between communicating short range radio signals via the first radio communication means or radio signals associated with the public mobile telecommunications network via the second radio communication means. For example, the selector can be set so as to select the second radio communication means as a default, and to select the first communication means when a short range radio network is detected. It should be noted that the use of the mobile unit should be transparent to the selection of the selector, i. e. a user should not notice any difference between the case when the public mobile telecommunication network is accessed via the first radio communication means and when it is accessed via the second radio communication means.

According to another aspect of the invention, a system for providing a mobile unit access to a public mobile telecommunications network is provided. The system comprises a mobile unit, which in turn comprises internal radio communication means for communicating short range radio signals. The mobile unit is associated with a subscriber in the public mobile telecommunications network. The system further comprises external radio communication means for communicating short range radio signals to and from the internal radio communication means. The external radio communication means are operatively connected to the public mobile telecommunications network.

The system according to the invention preferably also comprises converter means for converting the short range radio signals to other signals and vice versa, which other signals are adapted for a fixed network, and fixed communication means for communicating the other signals to and from the public mobile telecommunications network. More preferably the mobile unit of the system further comprises radio communication means for communicating radio signals associated with the public mobile telecommunications network, and selector means for selecting between communicating short range radio signals via the internal radio communication means or the radio signals associated with the public mobile telecommunications network via the radio communication means. Furthermore, the communication of the other signals to and from the public mobile telecommunications network is preferably done via a multi-service network.

Brief Description of the Drawings The invention will be further elucidated in the following with reference to the accompanying drawings, in which: Fig. 1 shows a block diagram of a prior art system;

Fig. 2 shows a block diagram of an embodiment of a system according to the invention; Fig. 3 shows a block diagram of an embodiment of an apparatus according to the invention; and Fig. 4 shows a block diagram of an embodiment of a mobile unit according to the invention.

Description of Preferred Embodiments Fig. 1 shows a block diagram of a prior art network.

A customer premises node 100 comprises radio communication means 105, which communicate radio signals to and from a mobile unit 110. Furthermore, the customer premises node 100 is connected to a Public Land Mobile Network 115 (PLMN) via an interface 120 and a real time connection 125. The radio signals have a frequency within a frequency range that requires a license, i. e. the frequency is within the same frequency range as is used in the PLMN 115. Finally, the PLMN 115 is connected to a Public Switched Telecommunication Network 130 (PSTN).

Fig. 2 shows a block diagram of an embodiment of a system according to the invention. A customer premises node 200 comprises external radio communication means 205, which communicate short range radio signals to and from a mobile unit 210. The mobile unit 210 comprises internal radio communication means (not shown), which communicate short range radio signals to and from the external radio communication means 205. Furthermore, the customer premises node 200 is connected to a PLMN 215 via a service node 220 in a multi-service network. The mobile unit 210 is associated to a subscriber in the PLMN 215, i. e. the mobile unit 210 can be identified in the PLMN, associated to a subscriber, located in the network, etc.

The customer premises node 200 is connected to the service node via a connection 225 in the multi-service network. The connection may share resources with other connections from the customer premises to the service node, said other connections carrying other data-and

telecommunication traffic from the customer premises.

Furthermore, the PLMN 215 is connected to a PSTN 230 and the service node 220 is also connected to the PSTN 230.

Thus, when access is to be made from the mobile unit 210 to the PLMN 215 in Fig. 2, short range radio signals are sent from the internal radio communication means (not shown) in the mobile unit to the external radio communication means 205 in the customer premises node 200. The short range radio signals that are received in the external communication means 205, are converted to signals adapted to be sent on the connection 225 to the. service node 220. The mobile unite might be a combined module handling PLMN (GSM) and"short range radio".

Bluetooth is an access of this kind, an other type of accesses e. g. 802.11b. The converted signals are sent together with other signals to the service node 220, which in turn will extract the converted signals and forward them to the PLMN. Since the service node will generally serve more than one customer premises nodes the service node 220 will aggregate traffic from these customer premises nodes and send it to the PLMN on the connection 235.

Fig. 3 shows a block diagram of an embodiment of an apparatus 200 according to the invention. The apparatus 200 comprises short range radio communication means 205, which communicate short range radio signals to and from a mobile unit (not shown). Furthermore, the apparatus 200 comprises converter means 310 for converting the short range radio signals to other signals and vice versa, whereby the other signals being adapted for a fixed network, such as an IP network. Finally, the apparatus 200 comprises fixed communication means 315 for communicating the other signals to and from the public mobile telecommunications network on the connection 225, e. g. via said IP network.

Fig. 4 shows a block diagram of an embodiment of a mobile unit 210 according to the invention. The mobile

unit 210 comprises first radio communication means 405 for communicating short range radio signals to and from a PLMN (not shown). The mobile unit 210 also comprises second radio communication means 410 for communicating radio signals associated with the PLMN to and from the PLMN. Finally, the mobile unit 210 comprises selector means 420 for selecting between communicating data, such as coded speech, from a processing unit 430 in short range radio signals via the first radio communication means 405 or radio signals associated with the PLMN via the second radio communication means 410. The selected signals are finally sent via an antenna 440.

It is understood that a variety of modifications and combinations of the embodiments above are possible within the scope of the invention as is defined by the accompanying claims.