Patent Application
20150043340
The present disclosure relates to a wireless communication network and particularly to a method of accessing in a wireless communication network.
In access networks of a wireless communication network, there are access sub-networks adopting different wireless communication access technologies, e.g., a Global System for Mobile communication (GSM) access network, a Universal Mobile Telecommunications System (UMTS) access network, a Time Division Duplex (TDD)-Synchronous Code Division Multiple Access (TD-SCDMA) access network, a Long Term Evolution (LTE) access network, a Worldwide Interoperability for Microwave Access (WiMax) access network, etc. These access sub-networks are respectively provided with a link to a core network and are respectively capable of establishing a link to a user equipment to establish an access of the user equipment to the access networks.
However in the prior art, the independence of these access sub-networks results in that the data rate of the user equipment is limited to the data rate of the access sub-network to which the user equipment has an access. Besides, a handover of the user equipment between the respective access sub-networks may result in a handover relay, and even a service required for the user equipment may be interrupted when the user needs various types of services.
For example due to a limited rate of the GSM network, when the user equipment has established a link with the GSM access network to transmit voice data, if the user equipment further requests a new LTE data service, then the user equipment has to disconnect the link with the GSM network and then establish a link with the LTE access network, thus the voice service is interrupted. Or when the user equipment has established a link with the LTE access network to transmit LTE data service, if the user equipment requests a voice communication service, then the user equipment has to disconnect the link with the LTE access network and further establish a link with the GSM access network, thus the data service is interrupted.
It has been proposed in a communication standard to build a Base Band Unit (BBU) pool using BBUs of access sub-networks adopting various wireless access technologies as a whole. However a method of increasing the data rate of a user equipment using the communication between BBUs has not yet been proposed.
In light of the foregoing understanding of the prior art and the technical problem thereof, it will be very beneficial if a method of accessing can be provided to increase the data rate of a user equipment, to alleviate or avoid a handover delay and to enable a user to access various services at the same time without interrupting any service.
According to a first aspect of the invention, there is provided a method of accessing, in a first access sub-network of a wireless communication network, the method comprising the steps of: a. establishing an initial link with a user equipment; b. receiving first service downlink data from a core network or first service uplink data from the user equipment; c. transmitting the first service downlink data to the user equipment or transmitting the first service uplink data to the core network; d. receiving a second service request from the user equipment; e. forwarding the second service request to the core network; f. receiving second service downlink data from the core network or second service uplink data from a second access sub-network; and g. transmitting the second service downlink data to the second access sub-network or transmitting the second service uplink data to the core network, wherein, the first access sub-network and the second access sub-network adopt different wireless communication access technologies.
According to a second aspect of the invention, there is provided a method of accessing, in a second access sub-network of a wireless communication network, the method comprising the steps of: A. receiving a first notification message from a first access sub-network or a core network for instructing the second access sub-network to establish a link with a user equipment, or receiving a link establishing request from the user equipment; B. establishing a link with the user equipment; C. receiving second service downlink data from the first access sub-network or second service uplink data from the user equipment; and D. transmitting the second service downlink data to the user equipment or transmitting the second service uplink data to the first access sub-network; wherein, the first access sub-network and the second access sub-network adopt different wireless communication access technologies.
According to a third aspect of the invention, there is provided a method assisting in accessing, in a core network of a wireless communication network, the method comprising the steps of: i. receiving a second service request from a first access sub-network, which is originated from a user equipment and forwarded by the first access sub-network; ii. determining whether the second service request needs to be processed by the second access sub-network according to a predetermined parameter; iii. if the second service request needs to be processed by the second access sub-network, transmitting a first notification message to the second access sub-network to instruct the second access sub-network to establish a link with the user equipment; and iv. receiving second service uplink data from the first access sub-network or transmitting second service downlink data to the first access sub-network, wherein, the first access sub-network and the second access sub-network adopt different wireless communication access technologies.
According to a fourth aspect of the invention, there is provided a method of assisting in accessing, in a user equipment of a wireless communication network, the method comprising the steps of: I. establishing an initial link with a first access sub-network; II. receiving first service downlink data from the first access sub-network or transmitting first service uplink data to the first access sub-network; III. transmitting a second service request to the first access sub-network; IV. establishing a link with a second access sub-network; and VI. receiving second service downlink data from the second access sub-network or transmitting second service uplink data to the second access sub-network, wherein, the first access sub-network and the second access sub-network adopt different wireless communication access technologies.
According to a fifth aspect of the invention, there is provided a method of accessing in an access network of a wireless communication network, wherein, the access network at least comprises a first access sub-network and a second access sub-network between which communication can be performed, and wherein the first access sub-network and the second access sub-network adopt different wireless communication access technologies.
With the solution of the invention, there is proposed a solution for a multi-standard wireless communication access network. A user equipment can enjoy different types of services concurrently without being handed over between access sub-networks adopting different wireless access technologies. Specifically, the user equipment can obtain data of a second service without interrupting an initial link with a first access sub-network. With the solution of the invention, a gap between the different wireless access technologies is removed, and the data transmission rate of the access network can be increased to the sum of data transmission rates under different wireless access technologies. Thus the data rate of the user equipment will not be limited to the network data rate of the access sub-network to which the user equipment is linked.
Furthermore, with the solution of the invention, a simpler network architecture can be implemented. At the user side and the core network side, the access sub-networks adopting the various wireless access technologies can be regarded as a whole without distinguishing the different access sub-networks. For the operator, different wireless access technologies constitute a shared pool of resources, so that both the investment of operating assets and the investment of fixed assets can be reduced.
Other features, objects and advantages of the invention will become more apparent from the following detailed description of non-limiting embodiments taken in conjunction with the drawings in which:
Throughout the different figures in the drawings, identical or like reference numerals will denote identical or like devices (modules) or steps.
As can be appreciated, an implementation of the invention will not be limited to the type of the access sub-network. The first access sub-network and the second access sub-network may adopt any of GSM, UMTS, LTE, WiMax, TD-SCDMA and other known wireless access technologies or any other wireless access technology to be possibly developed in the future. For illustrating embodiments of the invention by way of an example, hereinafter the first access sub-network adopts the GSM access technology, and the second access sub-network adopts the LTE access technology. The first service is a voice communication service, and The second service is a LTE data service.
The base band unit 131 in the first access sub-network can receive data from the user equipment 150 through the remote radio head 141 and can transmit data to the user equipment 150 through the remote radio head 141, wherein, the data is a GSM Protocol Data Unit (PDU) encapsulated according to the GSM access technology. The base band unit 132 in the second access sub-network can receive data from the user equipment 150 through the remote radio head 142 and can transmit data to the user equipment 150 through the remote radio head 142, wherein, the data is a LTE Protocol Data Unit encapsulated according to the LTE access technology.
A flow of a method according to an embodiment of the invention will be described below with reference to
Those skilled in the art can appreciate that if the user equipment 150 is a callee of voice communication, then before the GSM base band unit 131 establishes an initial link with the user equipment 150, it is possible for the core network 110 to transmit a called access request to the GSM base band unit 131 to instruct the GSM base band unit 131 to establish an initial link with the user equipment 150.
After the GSM base band unit 131 establishes an initial link with the user equipment 150, it is possible for the GSM base band unit 131 to receive downlink data of the voice communication service from the core network 110 in the step S204 and subsequently transmit the downlink data of the voice communication service to the user equipment 150 in the step S205. It is also possible for the GSM base band unit 131 to receive uplink data of the voice communication service from the user equipment 150 in the step S205 and subsequently transmit the uplink data of the voice communication service to the core network 110 in the step S204.
In the step S206, the user equipment 150 transmits a second service request to the GSM base band unit 131 to request a LTE data service. In the step S207, the GSM base band unit 131 transmits the received second service request to the core network 110.
In the step S208, the GSM base band unit 131 determines whether the second service request needs to be processed by the LTE base band unit 132 according to a predetermined parameter, wherein, the predetermined parameter comprises: quality of service requested by the second service request, a capability of accessing the second access sub-network of the user equipment, network capabilities of the first access sub-network and the second access sub-network and a current network load.
If the second service request needs to be processed by the second access sub-network, then the GSM base band unit 131 transmits a first notification message to the LTE base band unit 132 in the step S209 to instruct the LTE base band unit 132 to establish a link with the user equipment 150. Those skilled in the art shall appreciate that in addition to instructing the LTE base band unit 132 to establish a link with the user equipment 150, it is also possible that if the second service request needs to be processed by the LTE base band unit 132, then the GSM base band unit 131 transmits a second notification message to the user equipment 150 to instruct the user equipment to establish a link with the LTE base band unit 132. The user equipment transmits a link establishing request to the LTE base band unit 132 upon reception of the second notification message. In the step S210, the LTE base band unit 132 establishes a link with the user equipment 150.
Those skilled in the art can appreciate that alternatively the core network 110 may determine whether the second service request needs to be processed by the LTE base band unit 132. For example, the core network 110 determines whether the second service request needs to be processed by the LTE base band unit 132 according to a predetermined parameter upon reception of the second service request, wherein, the predetermined parameter comprises: quality of service requested by the second service request, a capability of accessing the second access sub-network of the user equipment, network capabilities of the first access sub-network and the second access sub-network and a current network load. If the second service request needs to be processed by the LTE base band unit 132, then the GSM base band unit 131 transmits a first notification message to the LTE base band unit 132, to instruct the LTE base band unit 132 to establish a link with the user equipment 150.
After the LTE base band unit 132 establishes a link with the user equipment 150, it is possible for the core network 110 to transmit downlink data of the LTE data service to the GSM base band unit 131 in the step S211. In the step S212, the GSM base band unit 131 transmits the downlink data of the LTE data service to the LTE base band unit 132, and in the step S213, the LTE base band unit 132 transmits the downlink data of the LTE data service to the user equipment 150.
Those skilled in the art can appreciate that it is also possible that the user equipment 150 transmits uplink data of the LTE data service to the LTE base band unit 132 in the step S213, the LTE base band unit 132 transmits the uplink data of the LTE data service to the GSM base band unit 131 in the step S212, and the GSM base band unit 131 transmits the uplink data of the LTE data service to the core network 110 in the step S211.
With the solution of the invention, there is proposed a solution for a multi-standard wireless communication access network. A user equipment can enjoy different types of services concurrently without being handed over between access sub-networks adopting different wireless access technologies. Specifically, the user equipment can obtain the data of the LTE service without interrupting the initial link with the GSM base band unit 131. With the solution of the invention, a gap between the different wireless access technologies is removed, and the data transmission rate of the access network can be increased to the sum of data transmission rates under the different wireless access technologies. Thus the data rate of the user equipment will not be limited to the network data rate of the access sub-network to which the user equipment is linked.
Among the steps of the method described above with reference to
There are various possible implementations of communication between the GSM base band unit 131 and the LTE base band unit 132. In an embodiment of the invention, a communication interface between the GSM base band unit 131 and the LTE base band unit 132 is defined similar to a X2 interface between eNodeBs in the LTE protocol. The GSM base band unit 131 adds a header corresponding to the above mentioned communication interface to a user-layer Protocol Data Unit which is then transmitted to the LTE base band unit 132 and vice versa. The GSM base band unit 131 adds a Media Access Control (MAC) header of the GSM protocol to a user-layer Protocol Data Unit, which is processed at the physical layer and then transmitted to the user equipment 150. The LTE base band unit 132 adds a MAC-layer header of the LTE protocol to a user-layer Protocol Data Unit, which is processed at the physical layer and then transmitted to the user equipment 150.
It is also possible to connect the respective access sub-networks adopting the different wireless access technologies together via the interface described above to form a unified access network. Processing operations internal to the access network is transparent to the user equipment and the core network.
With the solution of the invention, a simpler network architecture can be implemented. At the user side and the core network side, the access sub-networks adopting the various wireless access technologies can be regarded as a whole without distinguishing the different access sub-networks. For the operator, different wireless access technologies constitute a shared pool of resources, so that both the investment of operating assets and the investment of fixed assets can be reduced.
It is evident to those skilled in the art that the invention will not be limited to the exemplary embodiments described above but can be implemented in other specific forms without departing from the spirit or essence of the invention. Accordingly the embodiments shall be construed in any sense to be exemplary but not limiting. Furthermore apparently the term “comprise” will not preclude another element(s) or step(s), and the term “a” or “an” will not preclude plural. A plurality of elements stated in an apparatus claim can be embodied by a single element. The terms “first”, “second”, etc., are intended to designate a name but not to suggest any specific order.
| Number | Date | Country | Kind |
|---|---|---|---|
| 201210002253.3 | Jan 2012 | CN | national |
| Filing Document | Filing Date | Country | Kind |
|---|---|---|---|
| PCT/IB2012/002869 | 12/20/2012 | WO | 00 |
