DEDICATED CARRIER CONFIGURATION METHOD AND DEVICE AND MULTIMEDIA BROADCAST MULTICAST SERVICE TRANSMISSION METHOD

TECHNICAL FIELD

The present invention relates to a technology for transmitting Multimedia Broadcast Multicast Service (MBMS) by mobile communication systems, more specifically, to a MBMS dedicated carrier configuration method and device and a MBMS transmission method for dedicated carriers assigned bundling information based on said configuration method.

BACKGROUND ART

To effectively utilize mobile communication network resources, the third generation mobile communication global standardization organization (3GPP) Release6 brings forward the MBMS of mobile communication networks, and thus a point-to-multipoint service of sending data from one data source to multiple users is provided in mobile communication networks, which can share network resource, improve the utilization of network resources, especially can share air interface resource.

FIG. 1 is a schematic view of the architecture of the radio network which supports broadcast multicast services. As shown in FIG. 1, in current 3GPP, the architecture of the radio network which supports broadcast multicast services comprises a broadcast multicast service server (BM-SC) 101 which is connected with a Gateway GPRS Support Node (GGSN) 102 via an interface Gmb or an interface Gi, wherein one BM-SC 101 can be connected with multiple GGSNs 102; the GGSN 102 is connected with a Serving GPRS Support Node (SGSN) 103 via an interface Gn/Gp, wherein one GGSN 102 can be connected with multiple SGSNs 103; the SGSN 103 is connected with a Universal Mobile Telecommunication System (UMTS) Terrestrial Radio Access Network (UTRAN) 104 via an interface Iu, and then the UTRAN 104 is connected with a user equipment (UE) 106 via an interface Uu, and the SGSN 103 can also be connected with a Global System for Mobile Communication System (GSM) Enhancement Radio Access Network (GERAN) 105 via interface Iu/Gb, and then it can be connected with a UE 107 via an interface Um. Wherein, the GGSN and the SGSN are nodes in the core network (CN) of radio networks.

It can be seen from the network architecture shown in FIG. 1 that in order to support the MBMS service, a mobile network functional entity, in particular a broadcast multicast service center, i.e. BM-SC, is added into the third generation mobile communication systems, the BM-SC is an entrance for content providers, which is used for authorizing and initiating a MBMS service and transmitting the MBMS content according to a predetermined time plan. In addition, MBMS-related functions are added into functional entities such as UE, UTRAN, GERAN, SGSN and GGSN.

The MBMS put forward in 3GPP can realize not only multicast and broadcast of message in plaintext at low rate, but also multicast and broadcast of multimedia services at high rate, which doubtlessly conforms to the development trend of mobile data in future. In order to further improve the transmission rate of the MBMS data, a solution of adopting dedicated independent carriers to bear the MBMS is currently put forward in 3GPP for Frequency Division Duplex (FDD) and 3.84 Mcps Time Division Duplex (TDD), that is, a frequency layer dedicated for transmitting the MBMS is individually established in the coverage area of current universal mobile communication systems, and the UE has the ability of receiving the MBMS transmitted through conventional carriers and dedicated carriers.

In 3GPP Release7, IPWireless puts forward a new frame structure (burst type) for 3.84 Mcps TDD to support MBMS dedicated carrier systems. The frame structure put forward by IPWireless does not relate to the changes of the transmission principle of the MBMS high layer control information in 3GPP Release6. No specific frame structure actually available has been proposed and the research of the configuration information thereof is still in theoretical phase.

In 3GPP Release7 TR 25.905, a MBMS dedicated carrier mechanism suitable for WCDMA and HCR TDD systems is detailed, and the dedicated carrier can be the downlink carrier of WCDMA or HCR TDD carrier (all being downlink). To identify whether a carrier is a dedicated one, a system information block SIB3 in system information is proposed to be used for transmitting a MBSFN mark indicating whether the carrier is a dedicated carrier or not. If a carrier is dedicated for transmitting MBMS data services in a SFN mode, its specific information, such as the configuration of MBMS point-to-multipoint Control Channel (MCCH) and configuration of the scrambling code of MBMS point-to-multipoint Traffic Channel (MTCH), is carried in the system information block SIB5. Information carried in SIB3 and SIB5 substantially includes resources configuration states for MBMS data services transmission. The above solution also requires transmitting a dedicated carrier frequency list and an inter-Freq and intra-Freq measurement cell information list by SIB11. Except SIB3, SIB5 and SIB11, SIB information blocks currently transmitted in other conventional cells are not transmitted on MBMS dedicated carriers.

To simplify the MCCH signaling for the dedicated carriers, the dedicated carrier will not be directly used for uplink transmission, and MBMS access information will not be carried in the system information. Due to the MBMS signal transmitted for the dedicated carriers, when receiving data signals, the UE needs to take MBSFN multi-path signals in neighboring cells as conventional multi-path signals and perform physical layer-related process to it, and thus there is no need for the MCCH to transmit the RB information of neighboring cells for multi-path combining, i.e. MBMS neighboring cell P-T-M RB information.

Currently 3GPP does not propose a method for transmitting the MBMS at MBMS dedicated carriers in TDD systems.

SUMMARY OF THE INVENTION

In view of this, the present invention mainly aims to provide a MBMS dedicated carrier configuration method and device, wherein all configured MBMS dedicated carriers in a cell are bundled by the configuration of MBMS dedicated carriers, which can make it convenient for a UE to sense all MBMS services carried in the MBMS dedicated carrier in the cell.

Another object of the present invention is to provide a MBMS transmission method based on dedicated carriers assigned bundling information, which transmit MBMS services by using said dedicated carriers assigned bundling information, and thus lowers the sense switching frequency of the UE, and the UE complexity is not high.

To realize the above objects, the technical solution of the present invention is realized as follows:

A multimedia broadcast multicast service MBMS dedicated carrier configuration method includes:

dedicated carrier bundling information is assigned to the downlink timeslot of at least one MBMS dedicated carrier frame (also called “the downlink timeslot of the radio frame of at least one MBMS dedicated carrier”) in a cell.

Wherein, the dedicated carrier bundling information includes: MBMS control information of all dedicated carriers and MBMS system information.

Wherein, the MBMS control information of all dedicated carriers and the MBMS system information are assigned to one downlink timeslot of the MBMS dedicated carrier frame.

Wherein, the downlink timeslot, assigned the MBMS control information of all dedicated carriers and the MBMS system information, is used for a MBMS broadcast control channel BCCH and a MBMS point-to-multipoint control channel MCCH, and the MBMS system information is carried on the BCCH and mapped to a primary common control physical channel PCCPCH via a broadcast channel BCH; the MBMS control information is carried on the MCCH and mapped to a secondary common control physical channel SCCPCH via a forward access channel FACH.

Wherein, the PCCPCH is located at a fixed position of the downlink timeslot, and the fixed position information is set to respective MBMS mobile terminals.

Wherein, the downlink timeslot, assigned the MBMS control information of all dedicated carriers and the MBMS system information, is assigned MBMS service notice information or program guidance information, which is mapped to the secondary common control physical channel SCCPCH via a MBMS point-to-multipoint service channel MTCH.

Wherein, the downlink timeslot, assigned the MBMS control information of all dedicated carriers and the MBMS system information, is used for one or more of a MBMS point-to-multipoint scheduling channel MSCH, a MBMS notification indicator channel MICH, a MBMS point-to-multipoint service channel MTCH and a conventional service paging channel.

Said method further includes:

The frequency information and the scrambling code group ID information of the MBMS dedicated carriers is assigned to conventional service carriers in the cell, wherein at least one of the MBMS dedicated carrier is assigned the MBMS system information and the MBMS control information of all dedicated carriers.

Wherein, the MBMS system information is carried in system information blocks SIB. The system information blocks carrying the MBMS system information include at least a SIB5 and a master information block.

Wherein, the MBMS control information includes MBMS modified services information, MBMS unmodified services information, MBMS general information, MBMS common point-to-multipoint radio bearer information, MBMS current cell point-to-multipoint radio bearer information, and MBMS neighboring cell point-to-multipoint radio bearer information.

A MBMS dedicated carrier configuration device includes:

a bundling information configuration unit is used for assigning MBMS control information of all MBMS dedicated carriers and MBMS system information to at least one MBMS dedicated carrier in a cell; and

a bundling carrier information configuration unit is used for assigning the frequency information and the scrambling code group ID information of at least one MBMS dedicated carriers, assigned the MBMS control information of all MBMS dedicated carriers and the MBMS system information, to conventional service carriers in the cell.

Wherein the MBMS control information of all dedicated carriers and the MBMS system information are assigned to one downlink timeslot of a MBMS dedicated carrier frame.

Wherein, the PCCPCH is located at a fixed position of the downlink timeslot, and the fixed position information is set in respective MBMS mobile terminals.

Wherein, the MBMS system information is carried in the system information blocks SIB.

A MBMS transmission method based on dedicated carriers assigned bundling information includes:

MBMS control information of all MBMS dedicated carriers and MBMS system information is assigned to at least one MBMS dedicated carrier;

The frequency information and the scrambling code group ID information of the MBMS dedicated carriers, at least one of which is assigned the MBMS control information of all dedicated carriers and the MBMS system information, is assigned to conventional service carriers in the cell; and

MBMS data is sent.

The above method further includes:

a UE is synchronized to the conventional service carriers and acquires the frequency information and the scrambling code group ID information of the MBMS dedicated carriers, which is assigned the MBMS system information and control information, and UE is synchronized to a dedicated carrier according to the time synchronization information of the conventional service carriers, the frequency information and the scrambling code group ID information of the MBMS dedicated carriers, and senses the MBMS control information of all the MBMS dedicated carriers and the MBMS system information to obtain the configuration information of the MBMS services, and receives the MBMS data on the dedicated carrier.

Wherein, the UE senses the carriers in a discontinuous reception DRX manner.

By configuring MBMS dedicated carriers, the MBMS dedicated carrier configuration method and device according to the present invention make at least one MBMS dedicated carrier in each cell carry the service information of all MBMS dedicated carriers in the cell, that is, the MBMS dedicated carriers in the cell are bundled, and in this way, the UE can receive the MBMS services transmitted on all MBMS dedicated carriers in the cell as long as it senses the MBMS dedicated carriers assigned the bundling information. If needed, the bundling information also can be assigned to one MBMS dedicated carrier in the cell, and the bundling information can be assigned to multiple or all of the MBMS dedicated carriers. In the case that all the MBMS dedicated carriers in the cell are assigned the bundling information, the UE can select any MBMS dedicated carrier for sensing. Said bundling information is only assigned to one downlink timeslot of the MBMS dedicated carriers, and all the other downlink timeslots can be used to transmit the MBMS services, which greatly improves the transmission rate of the MBMS service. Of course, idle resource can also be used to transmit the MBMS services if it still existed in the timeslot assigned the bundling information.

The present invention provides MBMS services for a terminal user within radio coverage area in a manner of combining conventional service carriers with MBMS dedicated carriers, wherein the carrier information and the scrambling code group ID information of the MBMS dedicated carriers are assigned to and sent in the conventional service carriers, and such information is broadcast within the cell via the system broadcast message of the conventional service carriers, and the UE gets the synchronization channel of the conventional service carriers after it turns on, and is then directly synchronized to the dedicated carrier assigned the bundling information according to a predetermined time sequence relationship after receiving the carrier information and the scrambling code group ID information of the MBMS dedicated carriers, and thereby senses the configuration information of the MBMS services, so that the UE is used to receive the MBMS services. The UE in the present invention does not need to sense the conventional service carriers and the MBMS dedicated carriers all the time, and can sense the MBMS services in the discontinuous reception manner, which can make low design complexity and low power consumption of the UE.

BRIEF DESCRIPTION OF THE ACCOMPANYING DRAWINGS

FIG. 1 illustrates an architecture of a radio network supporting broadcast multicast services;

FIG. 2 illustrates a structure of a MBMS dedicated carrier frame provided for a TDD system;

FIG. 3 illustrates a structure of a MBMS service timeslot in the frame structure shown in FIG. 2;

FIG. 4 illustrates a structure of a MBMS short timeslot in the frame structure shown in FIG. 2;

FIG. 5 illustrates a structure of a configuration device of the MBMS dedicated carrier frame according to an embodiment of the present invention;

FIG. 6 illustrates a flow chart of a configuration method for the MBMS dedicated carrier frame according to an embodiment of the present invention;

FIG. 7 illustrates a flow chart of a method for transmitting MBMS based on dedicated carriers assigned bundling information according to an embodiment of the present invention;

FIG. 8 illustrates a structure of a system for transmitting MBMS corresponding to the method for transmitting MBMS according to an embodiment of the present invention; and

FIG. 9 illustrates another structure of a system for transmitting MBMS corresponding to the method for transmitting MBMS according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE INVENTION

The core idea of the present invention lies in that provide MBMS services to terminal users within a radio coverage area in a manner of combining conventional service carriers with a MBMS dedicated carrier, wherein carrier information and scrambling code group ID information of the MBMS dedicated carriers are assigned to and sent on the conventional service carrier, and MBMS control information of the dedicated carrier and MBMS system information are carried on the MBMS dedicated carrier. Especially, if there are multiple MBMS dedicated carriers, MBMS dedicated carrier frames in a TDD system are suitably configured so that all MBMS dedicated carriers in a cell are bundled to transmit MBMS services, therefore there is no need for UE to often switch between the dedicated carriers during sensing the MBMS dedicated carriers. The technical solution of the present invention will be detailed hereinafter in conjunction with the drawings thereof.

FIG. 2 illustrates a structure of a MBMS dedicated carrier frame provided for TDD systems. As shown in FIG. 2, the MBMS service frame structure has some difference from the TDD conventional service frame structure, a 96 chip downlink pilot timeslot DwPTS, a 96 chip uplink pilot timeslot UpPTS and a 96 chip guard period GP between the downlink and the uplink in traditional frame structures do not exist, and they are combined as a short timeslot, which is shown as the shadow part in FIG. 2. The length of the short timeslot is 0.275 ms, which is mainly used for control information transmission. The frame structure of 1.28 Mcps includes 8 timeslots, wherein 7 timeslots are service timeslots, and all timeslots are used for downlink transmission and omnidirection transmit. FIG. 3 illustrates a structure of the MBMS service timeslot in the frame structure shown in FIG. 2. As shown in FIG. 3, the channel estimation code of the service timeslot is of 96 chips, which is followed by data symbols of 768 chips, wherein Tc=675 ms, being the reciprocal of chip rate. FIG. 4 illustrates a structure of a MBMS short timeslot in the frame structure shown in FIG. 2. As shown in FIG. 4, the channel estimation code of the short timeslot is also of 96 chips, which is followed by data symbols of 256 chips, wherein Tc=275 ms.

A configuration device and method for a MBMS service frame according to the present invention will be detailed hereinafter.

FIG. 5 illustrates a structure of the configuration device of the MBMS dedicated carrier frame according to the embodiment of the present invention. As shown in FIG. 5, the configuration device of the MBMS dedicated carrier frame according to the embodiment of the present invention includes a bundling information configuration unit 50, a bundling carrier information configuration unit 51 and a carrier sending unit 52, wherein the bundling information configuration unit 50 is used for selecting at least one MBMS dedicated carrier in a cell and assigning MBMS control information of all the MBMS dedicated carriers and MBMS system information to it; the bundling carrier information configuration unit 51 is used for assigning the frequency information and the scrambling code group ID information of at least one MBMS dedicated carriers configured by the bundling information configuration unit 50 to the conventional service carriers in the cell. The carrier sending unit 52 is used for transmitting the dedicated carriers and conventional service carriers configured by the bundling information configuration unit 50 and the bundling carrier information configuration unit 51.

In the embodiment of the present invention, each cell is configured with multiple carriers, that is, one conventional service carrier and at least one MBMS dedicated carrier. In view of the available resources of the system, generally each cell is configured with 2 to 3 dedicated carriers. The bundling information configuration unit 50 assigns bundling information to at least one MBMS dedicated carrier in the cell. Wherein, assigning the bundling information to the MBMS dedicated carriers in the embodiment of the present invention is that the bundling information, such as the MBMS control information of all the MBMS dedicated carriers and the MBMS system information, are assigned to one MBMS dedicated carrier in the cell. As shown in FIG. 2, in the present invention, the above bundling information is assigned to a short timeslot of the MBMS dedicated carrier frame, and specifically the short timeslot is mainly used for a Broadcast Control Channel (BCCH) and a MCCH. The short timeslot adopts 16 code division channels in which the spreading factor SF is 16. The BCCH on the short timeslot is mapped to a Primary Common Control Physical Channel (PCCPCH) via a transmission channel broadcast channel (BCH), wherein the PCCPCH physical channel is located at a fix position of the code division channel of the short timeslot, for example, the first channel in which SF=16, and the position will not be changed if it is determined. All the PCCPCH physical channels in the system are all located at fixed positions in the frame and of fixed coding and modulating manners. The information of said fixed positions and coding and modulating manners are set to respective MBMS mobile terminals as parameters, so that the UE can decode this channel. The PCCPCH physical channel can also be located at the other code channels of the 16 code channels. If it is determined, the PCCPCH are located on the same positions of all the MBMS service frames in the system. The MCCH channel in the short timeslot is mapped to a Secondary Common Control Physical Channel (SCCPCH) via a Forward Access Channel (FACH) transmission channel.

The short timeslot is also used for a MBMS notification Indicator Channel (MICH) or a MBMS point-to-multipoint Scheduling Channel (MSCH), so that the terminal can receive MBMS in DRX manner. According to the requirement of the system, conventional service paging channels can also be configured: Paging Indicator Channel (PICH) and Paging Channel (PCH), so that users are notified of conventional services through the dedicated carriers when the users are receiving the MBMS services.

If the above PCCPCH and the SCCPCH have not taken up all the code division channels, the remaining channel resources of the short timeslot can be used for the MTCH channel. In the embodiment of the present invention, the PCCPCH physical channel in the short timeslot is mainly used to carry system information and will not be used for a beacon channel. The service timeslot of the MBMS service frame is used for a MTCH channel, and it is mapped to the SCCPCH physical channel via the FACH transmission channel. All service timeslots are used to transmit the MBMS service.

Before transmitting the MBMS service, generally the BM-SC needs to notify UE the service, and in a traditional 3GPP Release6 system, the notification is generally carried in packet data protocol context. In the MBMS dedicated carrier system, according to the embodiment of the present invention, such kind of MBMS service notification or program guidance information can be assigned to the short timeslot. Due to downlink features of the short timeslot, such information can be broadcast in respective SFN cells at RNC level. Said MBMS service notification or program guidance information is mapped to the secondary common control physical channel SCCPCH via the MBMS point-to-multipoint service channel MTCH.

It is noted that in one cell, the above bundling information can be assigned to one MBMS dedicated carrier or two (if there are two or more) MBMS dedicated carriers. When there are multiple MBMS dedicated carriers, they all can be assigned the bundling information.

One skilled in the art should understand that the structure of the MBMS dedicated carrier frame is considered as illustrative explanation. In the embodiment of the present invention, the bundling information can be assigned to other downlink timeslots.

The case that single frequency network SFN technology is adopted in the MBMS dedicated carrier system is called a MBSFN mode. In traditional MBSFN technology, the service channels in the cells for the SFN transmission occupy the same frequency and the same resource, i.e. occupying same frequencies, using same channels or timeslots, and being assigned same scrambling code resource. In the embodiment of the present invention, when the MBMS dedicated carrier system adopts MBSFN technology, the service channel and the control channel both adopt the SFN mode to transmit. That is to say, when several cells in the MBMS dedicated carrier system need to adopt the SFN for transmission, the channels for transmitting the MBMS service in the dedicated carrier cells should adopt the same scrambling code, and all short timeslots in these dedicated carrier cells must also adopt the same scrambling code.

In the embodiment of the present invention, relevant information of the above dedicated carriers assigned the bundling information need further be assigned to the conventional service carriers, so that it is convenient for the UE to sense the relevant information of the dedicated carriers assigned the bundling information. In the embodiment of the present invention, the bundling carrier information configuration unit 51 is used to configure the conventional service carriers.

The UE supporting a conventional service carrier network and a MBMS dedicated carrier network should support double receivers. Since the MBMS dedicated carriers in the embodiment of the present invention has no synchronization channel, the UE only can be synchronized to the MBMS dedicated carriers after being synchronized to the conventional service carriers. This requires the associated cells in the conventional service carrier network to insert the frequency information of the MBMS dedicated carrier network cells associated with them and corresponding MBSFN cell parameter ID into their system information to broadcast. The MBSFN cell parameter ID is the scrambling code group ID assigned to the short timeslots in the MBMS dedicated carrier network cells. After being synchronized in the conventional service carrier network, the UE receives the frequency information of the dedicated carriers and the MBSFN cell parameter ID from the conventional service carriers, and searches the signal of the MBMS dedicated carriers and then is synchronized with it.

The MBMS dedicated carrier network will not configure a beacon channel and the UE supporting the conventional carrier network and the MBMS dedicated carrier network only resides in the cells of the conventional carrier network. The cells in the MBMS dedicated carrier network do not serve as the object for residing, selecting and reselecting. All operations on the MBMS dedicated carriers by the UE can be deemed to occur in an idle mode and there is no Radio Resource Control (RRC) connection with the network.

Since in the cells of the MBMS dedicated carrier network in the embodiment of the present invention can transmit the MBMS services born by other MBMS dedicated carriers and the corresponding radio bearer (RB) configuration information, the UE can know the situation of the services transmitted by other dedicated carriers by only sensing one dedicated carrier without switching the carriers, and the UE can obtain the transmission situation of the services on said other MBMS dedicated carriers and the configuration of the associated RB by reading control signaling in the current MBMS dedicated carrier. The services associated with the UE can be received by switching directly to the service channels on other dedicated carriers, there is no need for the UE to switch to the MCCH control channels on other carriers and then receive the services by reading the RB configuration of relevant services, which could save the switch time of the UE.

When multiple MBMS dedicated carriers in the cell are assigned the bundling information, the UE selects one such MBMS dedicated carrier for sensing.

MBMS-related channels and the mapping relationship therebetween will be briefly introduced hereinafter, so as to better understand the transmission of the MBMS data services in the embodiment of the present invention.

The MBMS mainly relates to MICH, MCCH, MTCH and MSCH, wherein, MICH is a physical channel similar to the paging channel PICH, and MCCH, MTCH and MSCH are three logic channels.

The MCCH is used for transmitting point-to-multipoint (P-T-M) control plane information in downlink between the network and the user equipment UE under the radio resource control (RRC) connection mode or idle mode. Generally, the MCCH is mapped to a specific forward access channel (FACH) of the secondary common control physical channel SCCPCH, which is marked on the broadcast control channel BCCH.

The MTCH is used for transmitting point-to-multipoint MBMS service information of user plane in downlink between the network and multiple user equipments UE under the RRC connection mode or idle mode, and the MTCH is always mapped to a specific FACH of the SCCPCH, which is marked on the MCCH.

The MSCH is used for transmitting point-to-multipoint MBMS service transmission scheduling information in downlink between the network and multiple user equipments UE under the RRC connection mode or idle mode, and the MSCH is always mapped to a specific FACH of the SCCPCH, which is marked on the MCCH.

In the embodiment of the present invention, the system information in the MBMS dedicated carrier network cell is mainly carried on a Master Information Block, a SIB3, a SIB5 and a SIB11. The information carried on the Master Information Block is the same as that carried on the master information blocks in 3GPP Release6, please refer to the relevant description in protocol TS25.331. Parameters carried in traditional SIB3 are mainly used for cell selection and reselection, while the MBMS dedicated carrier network cells do not participate in these processes, thus many parameters may not be transmitted. In the embodiment of the present invention, the SIB3 is mainly used to transmit a cell ID, cell access restriction parameters and a MBSFN only indication. The specific contents of the SIB3 are shown in table 1:

TABLE 1

Information

Element/

Type and
Semantics

Group name
Need
Multi
reference
description
Version

Cell identity
MP

Cell identity

10.3.2.2

Cell Access
MP

Cell Access

Restriction

Restriction

10.3.2.1

MBSFN only
OP

Enumerated
Indicates if the
REL-7

service

(true)
cell provides only

MBSFN

The SIB5 in the MBMS dedicated carrier network cells is used to transmit the configuration information of the SCCPCH on the short timeslots, a frequency band indication and TDD MBSFN information. Please refer to relevant description in TS25.331 for the specific IE of the SIB5. The configuration information of PCCPCH need not to be transmitted on the SIB5, as the PCCPCH is mainly used for indicating diversity information and cell code group information, while the MBMS dedicated carrier network cells do not adopt TSTD and SCTD diversities, and their cell code group information is transmitted on their associated conventional carriers. The specific contents of the SIB5 are shown in table 2:

TABLE 2

Information

Type and
Semantics

Element/Group name
Need
Multi
reference
description
Version

Frequency band indicator
OP

Frequency

REL-6

band

indicator

10.3.6.35b

Frequency band
OP

Frequency

REL-6

indicator 2

band

indicator 2

10.3.6.35c

Secondary CCPCH
OP

Secondary
Included if MCCH is
REL-6

system information

CCPCH
on an S-CCPCH

MBMS

system
used only for

information
MBMS.

MBMS

10.3.6.72a

TDD MBSFN
OP

TDD
TDD only: included
REL-7

information

MBSFN
only if all timeslots

Information
are designated to

10.3.6.78b
MBSFN.

Main parameter information of the TDD MBSFN is shown in table 3:

TABLE 3

Information Element/Group

Type and
Semantics

name
Need
Multi
reference
description
Version

Time slot list
MP
1 . . . <maxTS>

REL-7

>Timeslot Number
MP

Timeslot

REL-7

Number

10.3.6.84

>MBSFN Cell parameter ID

MP

Only for 1.28

REL-7

Mcps TDD.

MBSFN Cell

parameter Id

10.3.9a.y

See Note 1

The italics in the table refer to newly amended contents with respect to the embodiment of the present invention.

The SIB11 in the MBMS dedicated carrier network cells is used for transmitting measurement control information in the short timeslots and a MBSFN frequency list. The information format of the SIB11 is shown in table 4:

TABLE 4

Information

Element/Group

Type and
Semantics

name
Need
Multi
reference
description
Version

Measurement
MP

Measurement

control system

control

information

system

information

10.3.7.47

MBSFN
OP

MBSFN
If present
Rel-7

frequency list

frequency
contains all

list list
neighbouring

frequencies

providing

MBMS service

in MBSFN

mode

Wherein, the main parameters included by the MBSFN frequency list in table 4 are shown in table 5:

TABLE 5

Information

Element/Group

Type and
Semantics

name
Need
Multi
reference
description

MBSFN TDD
MP
<0 . . . 12>

frequency list

>UARFCN (Nt)
MP

Integer(0 . . .

16383)

>MBSFN Cell

MP

Only for 1.28

parameter ID

Mcps TDD.

MBSFN Cell

parameter Id

10.3.9a.y

See Note 1

The italics in the table refer to newly amended content with respect to the embodiment of the present invention.

In the embodiment of the present invention, the system information included in the master information block and the SIB5 is the content that must be transmitted, while the SIB3 and SIB11 may select whether need transmit the information according to different service demands.

MBMS control signaling transmitted on the MCCH includes: MBMS MODIFIED SERVICES INFORMATION, MBMS UNMODIFIED SERVICES INFORMATION, MBMS GENERAL INFORMATION, MBMS COMMON P-T-M RB INFORMATION, MBMS CURRENT CELL P-T-M RB INFORMATION, and MBMS NEIGHBOURING CELL P-T-M RB INFORMATION. The above MBMS control signaling will be briefly introduced hereinafter.

The MBMS MODIFIED SERVICES INFORMATION is mainly used for indicating MBMS service amendment and can be used for DRX and notification. The content of the message transmitted by the MBMS dedicated carrier system in the embodiment of the present invention is simpler than the content of the corresponding message in 3GPP Release6, and the main reason is that the dedicated carrier cell do not support the carriers selected, but the MBMS dedicated carrier system proposed in the present invention supports carrier association by adopting a specific technology. In addition, since all MBMS carriers in the MBMS dedicated carrier system are used for downlink transmission, the UE can not be required to uplink feedback, and thus associated cells need not be transmitted. However, during specific transmission, the MBMS control signaling should include not only the service changes of current cell but also the service activation of MBMS dedicated carrier cells on neighboring frequencies. When the system conducts carrier association, it is required to number the frequencies of all associated MBMS dedicated carrier cells, and thus indicating specific service changes should also carry the neighbor frequency information, which is directed to the frequency information list transmitted in the SIB11. The specific information format is shown in table 6:

TABLE 6

Information

Type and

Element/Group name
Need
Multi
reference
Semantics description
Version

Message type
MP

Message

REL-6

Type

Modified service list
OP
1 . . .

REL-6

<maxMBMS

serv

Modif>

>MBMS Transmission
MP

MBMS

REL-6

identity

Transmission

identity

10.3.9a.12

>MBSFN inter

OP

Integer(1 . . .

Absence of this information

REL-7

frequency neighbour

<maxMBMS-

element means the currently

Freq>)

used frequency. Value n

corresponds with the n
^th

frequency included in the IE

New inter-frequency cells

that is specified within SIB

11

>Continue MCCH
MP

BOOLEAN
MCCH in-band notification.
REL-6

reading

Indicates whether or not the

UE should continue reading

MCCH in the next

modification period.

Not applicable when sent on

the DCCH

MBMS re-acquire
CV-MCCHOP

Enumerated

REL-6

MCCH

(True)

End of modified
OP

Integer
If present: the UE may
REL-6

MCCH information

(1 . . . 16)
assume that, in each

repetition period, all the

MCCH information

preceding the MBMS

UNMODIFIED SERVICES

INFORMATION message is

transmitted within the

indicated number of TTIs.

MBMS all unmodified

CV-MCCHOP

Enumerated
True means that the UE
REL-6

p-t-m services

(True)
should re-acquire the PtM

information for all services

listed in the message MBMS

UNMODIFIED SERVICES

INFORMATION with the IE

“MBMS required UE action”

set to “Acquire PTM RB

info”

MBMS p-t-m activation

CV-MCCHOP

MBMS

REL-6

time

p-t-m

activation

time

10.3.9a.7o

The italics in the table refer to newly amended contents with respect to the embodiment of the present invention.

The MBMS UNMODIFIED SERVICES INFORMATION is mainly used for indicating unmodified MBMS services. The content of the message transmitted by the MBMS dedicated carrier system in the embodiment of the present invention is simpler than the content of the corresponding message in 3GPP Release6, and the main reason is that the dedicated carrier cells do not support carriers selected, but the MBMS dedicated carrier system proposed in the present invention supports carrier association by adopting a specific technology. In addition, since all MBMS carriers in the MBMS dedicated carrier system are used for downlink transmission, the UE can not be required to uplink feedback, and thus associated cells need not be transmitted. However, during transmission, the MBMS control signaling should include not only the unmodified MBMS services of the current cell, but also the unmodified MBMS services of MBMS dedicated carrier cells on neighbor frequencies. The specific information format is shown in table 7:

TABLE 7

Information

Type and

Element/Group name
Need
Multi
reference
Semantics description
Version

Message type
MP

Message

REL-6

Type

Unmodified services
OP
1 to

If the IE “MBMS all unmodified
REL-6

list

<maxMBMS

p-t-m services” is included in the

serv

MBMS MODIFIED SERVICES

Unmodif>

INFORMATION message in this

modification period, the services

with the IE “MBMS required UE

action” set to “Acquire PTM RB

info” in the message MBMS

UNMODIFIED SERVICES

INFORMATION should be

considered as modified.

>MBMS Transmission
MP

MBMS

REL-6

identity

Transmission

identity

10.3.9a.12

>MBSFN inter

OP

Integer(1 . . .

Absence of this information

REL-7

O frequency neighbour

<maxMBMS-

element means the currently used

Freq>)

frequency. Value n corresponds

with the n
^thfrequency included in

the IE New inter-frequency cells

that is specified within SIB 11

The italics in the table refer to newly amended contents with respect to the embodiment of the present invention.

The MBMS GENERAL INFORMATION is mainly used for the general configuration in the MBMS dedicated carrier cells, and the content thereof is similar to that defined in 3GPP Release6, but a carrier notification indicator is added, and when the MBSFN services notified corresponding to a certain carrier are TRUE, it represents that the service notification on this carrier will be transmitted in current cell. The specific information format is shown in table 8:

TABLE 8

Information

Type and

Element/Group name
Need
Multi
reference
Semantics description
Version

Message type
MP

Message

REL-6

Type

MBMS timers and
MP

MBMS

REL-6

counters

specific

timers and

counters

10.3.9a.11

MICH configuration
MP

MICH

REL-6

information

configuration

information

10.3.9a.14

Cell group identity
MP

Bit string
Identifies the group of cells
REL-6

(12)
for which the same common

RLC and PDCP entity is used

as the current cell

Default MSCH
OP

MSCH
The default MSCH
REL-6

configuration

configuration
configuration

information

information

10.3.9a.16

CHOICE MBSFN

OP

services notification

>MBSFN inter

OP

Integer(1 . . .

Value n corresponds with the

REL-7

frequency neighbour

<maxMBMS-

n
^thfrequency included in the

Freq>)

IE New inter-frequency cells

that is specified within SIB 11

>MBSFN services

Enumerated

TRUE Indicates the

REL-7

notified

(TRUE,

notification of all MBSFN

FALSE)

services in this

inter-frequency cell will be

notified in current frequency.

The italics in the table refer to newly amended content with respect to the embodiment of the present invention.

The format of MBMS COMMON P-T-M RB INFORMATION is the same as that defined in 3GPP Release6, please refer to relevant description in protocol TS25.331 in 3GPP.

The MBMS CURRENT CELL P-T-M RB INFORMATION is mainly used for indicating the RB configured in this dedicated carrier cell and the information of relevant logic channels MTCH, MSCH, transmission channels and physical channel SCCPCH. The specific information format is shown in table 9:

TABLE 9

Information

Type and

Element/Group name
Need
Multi
reference
Semantics description
Version

Message type
MP

Message
Current cell PTM RB info
REL-6

Type

S-CCPCH list
OP
1 to

Absent in case MTCH are
REL-6

<maxSCCPCH>

only mapped to the

S-CCPCH(s) included in

SIB type 5 or 5bis

>Secondary CCPCH
MP

MBMS
Refers to a configuration in
REL-6

info

Common
the common RB info

PhyCh

identity

10.3.9a.2

>TrCh information
MD

MBMS
Refers to a (TFCS)
REL-6

common for all TrCh

Common
configuration in the

CCTrCh
common RB info

identity
The default value of the

10.3.9a.1
TFCS is specified in

subclause 14.10.1

>TrCH information list
MP
1 to

List of FACH transport
REL-6

<maxFACHPCH>

channels carrying one or

more MTCH and optionally

one MSCH

>>TrCh information
MP

MBMS
Refers to a (TFS)
REL-6

Common
configuration in the

TrCh identity
common RB info

10.3.9a.4

>>RB information list
OP
1 to

The IE is absent if
REL-6

<maxRB

temporarily no RBs are

perTr

mapped to this TrCh or if

Ch>

the TrCH only carries

MSCH

>>>RB information
MP

MBMS

REL-6

p-t-m RB

information

10.3.9a.7a

>>MSCH configuration
OP

MSCH

REL-6

information

configuration

information

10.3.9a.16

The MBMS NEIGHBOURING CELL P-T-M RB INFORMATIONMBM is mainly used for indicating the service activation and configuration in the associated MBMS dedicated carrier cells on neighboring frequencies. Compared with 3GPP Release6, the usage of this message changes. In 3GPP Release6, this message is used for transmitting the configuration of RB in neighboring cells, which is convenient for the UE conduct physical layer combining process; while in the embodiment of the present invention, the UE has no demand for the combining process at the physical layer. The content of this message is substantially the same as that of the MBMS NEIGHBOURING-ING CELL P-T-M RB INFORMATION in 3GPP Release6, but the frequency indicator (frequency neighbour) for the RB information is added. The frequency neighbour is directed to the frequency information list transmitted in the SIB11. The MBMS NEIGHBOURING CELL P-T-M RB INFORMATIONMBM indicates the configuration information of current services on other MBMS dedicated carriers, and in this way, the UE can obtain the configuration information of other dedicated carriers from the present carrier, and if the services on other dedicated carriers is wanted to be received, the UE can receive corresponding MBMS services by being synchronized with the dedicated carrier. The specific information format is shown in table 10:

Information

Type and

Element/Group name
Need
Multi
reference
Semantics description
Version

Message type
MP

Message

REL-6

Type

Neighbouring cell
MP

Integer
The intra-frequency cell id of
REL-6

identity

(0 . . .
the cell obtained from the IE

<maxCellMeas−1>)
‘Intra-frequency Cell Info

list’ in SIB 11.

If the cell is operating in

MBSFN only mode the UE

behaviour upon reception of

this IE is unspecified.

Neighbouring cell's
MP
1 to

If the cell is operating in
REL-6

S-CCPCH list

<maxSCCPCH>

MBSFN only mode the UE

behaviour upon reception of

this IE is unspecified.

>Secondary CCPCH
MP

MBMS
S-CCPCH configuration
REL-6

info

Common
used in neighbouring cell.

PhyCh
Refers to a configuration in

identity
the common RB info of the

10.3.9a.2
current cell

>Secondary CCPCH
MD

Integer
Difference (Pn-Of)
REL-6

power Offset

(−6, −3, 3, 6)
between the S-CCPCH

Difference

Power offset (Pn) of the

neighboring cell S-CCPCH

and the S-CCPCH power

offset (Of) of the serving cell

that is going to be combined

to this neighbour cell

S-CCPCH, in dB.

Default value is 0.

Note 3 and 4.

>L1 combining
OP

L2-combining applies if the
REL-6

IE is absent

>>CHOICE mode
MP

REL-6

>>>FDD

REL-6

>>>>MBMS Soft
MP

MBMS Soft
Timing offset applied in the
REL-6

Combining Timing

Combining
CFN calculation in subclause

Offset

Timing
8.5.15.5

Offset

10.3.9a.10a

>>>>MBMS
MP

Integer
Indicates the time difference
REL-6

transmission time

(0 . . . 3)
between the TTIs on the

difference

current and the neighbouring

cell's SCCPCH that can be

L1-combined

>>>>MBMS L1
OP

MBMS L1
If included partial layer 1
REL-6

combining schedule

combining
combining applies, in which

schedule
case this IE indicates when

10.3.9a.7
L1-combining applies. If the

IE is absent, L1 combining

applies continuously

>>>TDD

(no data)
REL-6

>CHOICE L23
MP

REL-6

configuration

>>SameAs Current cell

Apart from the physical
REL-6

channel configuration and

the MSCH configuration

information, the same

configuration as for the

indicated S-CCPCH used in

the current cell applies. The

MSCH is mapped on the

same transport channel as in

the current cell.

>>>Current cell's
MP

MBMS
Reference to the S-CCPCH
REL-6

S-CCPCH

Current cell
in the current cell which uses

S-CCPCH
exaclty the same

identity
configuration (excluding

10.3.9a.5
MSCH configuration).

>>>MSCH
OP

MSCH

REL-6

configuration

configuration

information

information

10.3.9a.16

>>Different

REL-6

>>>TrCh information
MD

MBMS
Refers to a (TFCS)
REL-6

for common for all

Common
configuration in the common

TrCh

CCTrCh
RB info

identity
The default value of the

10.3.9a.1
TFCS is specified in

subclause 14.10.1

>>>TrCH information
MP
1 to

List of FACH transport
REL-6

list

<maxFACHPCH>

channels carrying one or

more MTCH and optionally

one MSCH

>>>>TrCh information
MP

MBMS
Refers to a (TFS)
REL-6

Common
configuration in the common

TrCh
RB info

identity

10.3.9a.4

>>>>TrCh combining
MP

BOOLEAN
Value TRUE means that
REL-6

status

TrCh combining is used for

this transport channel (TDD

only). Note 2.

The IE shall be ignored in

FDD mode.

>>>>RB information
OP
1 to

The IE is only present for the
REL-6

list

<maxRB

radio bearers for which

perTr

selection (FDD) or transport

Ch>

channel (TDD) combining

applies.

>>>>>RB information
MP

MBMS

REL-6

p-t-m RB

information

10.3.9a.7a

>>>>MSCH
OP

MSCH
Included if the TrCH carries
REL-6

configuration

configuration
MSCH

information

information

10.3.9a.16

S-CCPCH list
OP
1 to

The IE is only present for the
REL-7

<maxSCCPCH>

cell operating in MBSFN

only mode for 1.28 Mcps

TDD.

Absent in case only the

MBMS services over current

MBSFN cluster are notified.

>MBSFN inter

OP

Integer(1 . . .

Value n corresponds with the

REL-7

frequency neighbour

<maxMBMS-

n
^thfrequency included in

Freq>)

the IE New inter-frequency

cells that is specified within

SIB 11

>Secondary CCPCH
MP

MBMS
Refers to a configuration in
REL-7

info

Common
the common RB info

PhyCh

identity

10.3.9a.2

>TrCh information
MD

MBMS
Refers to a (TFCS)
REL-7

common for all TrCh

Common
configuration in the common

CCTrCh
RB info

identity
The default value of the

10.3.9a.1
TFCS is specified in

subclause 14.10.1

>TrCH information list
MP
1 to

List of FACH transport
REL-7

<maxFACHPCH>

channels carrying one or

more MTCH and optionally

one MSCH

>>TrCh information
MP

MBMS
Refers to a (TFS)
REL-7

Common
configuration in the common

TrCh
RB info

identity

10.3.9a.4

>>RB information list
OP
1 to

The IE is absent if
REL-7

<maxRB

temporarily no RBs are

perTr

mapped to this TrCh or if the

Ch>

TrCH only carries MSCH

>>>RB information
MP

MBMS

REL-7

p-t-m RB

information

10.3.9a.7a

>>MSCH configuration
OP

MSCH

REL-7

information

configuration

information

10.3.9a.16

FIG. 6 illustrates a flow chart of the configuration method for the MBMS dedicated carrier frame according to an embodiment of the present invention. As shown in FIG. 6, the configuration method for the MBMS dedicated carrier frame in the embodiment of the present invention includes the following steps:

Step 601, at least one of MBMS dedicated carriers in a cell is chose and MBMS control information of all MBMS dedicated carriers and MBMS system information is assigned to it.

Each cell is configured with multiple carriers, that is, one conventional service carrier and at least one MBMS dedicated carrier. In view of the available resources of the system, generally each cell is configured with 2 to 3 dedicated carriers, to ensure high bandwidth for the MBMS transmission. In the coverage area of one multi-carrier, at least one MBMS dedicated carrier is selected to configure the bundling information, such as the MBMS control information of all the MBMS dedicated carriers and the MBMS system information. The above bundling information can be assigned to one MBMS dedicated carrier or two (if there are two or more) MBMS dedicated carriers. When there are multiple MBMS dedicated carriers in current cell, they can all be assigned the bundling information. The above bundling information is assigned to the short timeslot of the MBMS dedicated carrier frame. One skilled in the art should understand that the structure of the MBMS dedicated carrier frame according to the embodiment of the present invention is considered as an illustrative example. The bundling information in the embodiment of the present invention can be assigned to other downlink timeslots. As to the specific configuration method for the bundling information, please refer to relevant description about the configuration of the MBMS dedicated carrier frame in the preceding text, which is omitted here.

Step 602, the frequency information and the corresponding scrambling code group ID information of at least one of the MBMS dedicated carriers assigned bundling information is assigned to conventional service carriers in the cell. After assigning the bundling information to the dedicated carriers in step 601, the information of at least one dedicated carrier assigned with the bundling information needs to be sent to a UE. As to the specific configuration method, please refer to relevant description about the configuration of the MBMS dedicated carrier frame in the preceding text, which is omitted here. In the embodiment of the present invention, a conventional service carrier is used to transmit the information of the dedicated carrier assigned the bundling information.

FIG. 7 illustrates a flow chart of the method for transmitting MBMS based on dedicated carriers assigned bundling information according to the embodiment of the present invention. As shown in FIG. 7, the method for transmitting the MBMS according to the embodiment of the present invention includes:

Step 701, at least one of MBMS dedicated carriers in a cell is chose and MBMS control information of all MBMS dedicated carriers and MBMS system information is assigned to it. As to the specific configuration method, please refer to relevant description about the configuration of the MBMS dedicated carrier frame in the preceding text, which is omitted here.

Step 702, the frequency information and the corresponding scrambling code group ID information of at least one of the MBMS dedicated carriers configured with bundling information is assigned to conventional service carriers in the cell. As to the specific configuration method, please refer to relevant description about the configuration of the MBMS dedicated carrier frame in the preceding text, which is omitted here.

Step 703, the cell transmits conventional carriers and dedicated carriers.

Step 704, the UE is synchronized to the conventional service carriers and acquires the frequency information and the scrambling code group ID information of the MBMS dedicated carriers assigned the MBMS system information and control information, and the UE is synchronized to one dedicated carrier according to the frequency information and the scrambling code group ID information of the MBMS dedicated carriers, and the UE obtains the configuration information of the MBMS services according to the MBMS control information of all the MBMS dedicated carriers and the sensed MBMS system information, and receives the MBMS data on the dedicated carriers. The above configuration information includes timeslot information, channel information, modulation method, and etc.

As for the UE being of double receivers supporting conventional services and the MBMS, before synchronized to the MBMS dedicated carrier system, the UE first should be synchronized to a conventional carrier associated with the MBMS dedicated carrier system, and then is synchronized quickly to the MBMS dedicated carrier system according to the MBSFN cell parameter ID of the MBMS dedicated carrier system indicated on the conventional carriers. In the embodiment of the present invention, when there are multiple MBMS dedicated carriers assigned the bundling information, any one of them can be selected for sensing.

After synchronized to the MBMS dedicated carrier system, the UE first decodes the PCCPCH physical channel, reads the content in the BCCH, and checks whether the carrier is the MBMS dedicated carrier system using the MB SFN only indicator in the SIB3; then the UE decides how to sense the MCCH channel using the frequency band indicator in the SIB5 and the SCCPCH physical channel corresponding to the MCCH.

The UE obtain the selectable services of the cell by receiving the service indicator on the MCCH, and can also obtain the service activation of the MBMS dedicated carrier cells on neighboring frequencies. The UE can determine whether the cell is able to inform the service activation of the MBMS dedicated carrier cells of neighboring frequencies, according to the MBSFN services notified in the MBMS GENERAL INFORMATION.

If the UE found no interesting service, it senses the MCCH in the DRX mode; if the services the UE interested are within the current cell, it directly receives relevant services according to the RB configuration and channel parameters for the services in the MBMS CURRENT CELL P-T-M RB INFORMATION, and after receiving the services, the UE may select the DRX mode to sense suitable MCCH, so as to understand the activation of the MBMS services.

If the services the UE interested are within the MBMS dedicated carrier cells on neighboring frequencies, the UE directly receives relevant services according to the RB configuration and channel parameters for the services in the MBMS NEIGHBOURING CELL P-T-M RB INFORMATIONMBMS, and after receiving the services, the UE may select the DRX mode to sense suitable MCCH, so as to understand the activation of the MBMS services. Which MCCH to be sensed depends on the configuration of the MBMS services by the UE and which service notified by the MBMS dedicated carrier cell is mostly associated with the UE.

In the embodiment of the present invention, the UE adopts the discontinuous reception DRX mode to sense the carriers. To know about the MBMS transmissions on the dedicated carriers, the UE needs to periodically sense the control signaling of the MCCH on a bearer carrier assigned the bundling information. The UE can sense the MBMS MODIFIED SERVICES INFORMATION transmitted by the MCCH on the carriers during each Modification period, to decide whether it is necessary to continue reading the MCCH during the subsequent time of the Modification period. A mechanism similar to that in 3GPP Release6 can be adopted for the DRX mode.

FIG. 8 illustrates a structure of the system for transmitting MBMS corresponding to the method for transmitting MBMS according to the embodiment of the present invention. As shown in FIG. 8, the system for transmitting multimedia broadcast multicast services according to the embodiment of the present invention includes: a core network CN 74, a Node B 71 for conventional services, a Node B 72 for the MBMS, a Node B for controlling the conventional services, a radio network controller RNC 73 of the MBMS Node B, and a user equipment UE 70. The RNC 73 is connected with the CN 74 via interface Iu, the conventional service Node B and the MBMS Node B 72 are connected with the RNC 73 via interface Iub, and the UE 70 is connected with the conventional service Node B 71 and the MBMS Node B 72 respectively via interface Uu.

FIG. 9 illustrates another structure of the system for transmitting MBMS corresponding to the method for transmitting MBMS according to the embodiment of the present invention. As shown in FIG. 9, the system for transmitting multimedia broadcast multicast services according to the embodiment of the present invention includes a core network CN 74, a Node B 71 for conventional services, a MBMS dedicated Node B 72 and a user equipment UE 70. Compared with the structure shown in FIG. 8, the structure shown in FIG. 9 does not include the RNC. With the development and evolution of 3G networks, the functions of the Node B become stronger and stronger, and the functions of the RNC are transformed into the Node B. The structure shown in FIG. 9 will in favor of realizing the MBMS service networking.

The description above is just a preferred embodiment of the present invention, and is not intended to restrict the scope of protection of the present invention.

DEDICATED CARRIER CONFIGURATION METHOD AND DEVICE AND MULTIMEDIA BROADCAST MULTICAST SERVICE TRANSMISSION METHOD

Information

Publication Number

Date Filed

Date Published

Inventors

Original Assignees

CPC

US Classifications

International Classifications

Abstract

Description

Claims

Priority Claims (1)

PCT Information