CN108028738A - Signaling methods for flexible provided for radio resources management - Google Patents

Abstract

A kind of user equipment (UE), including one or more processors are described, for being generated to the transmission of enode b (eNB), which lists the service specific resources subregion supported by UE.ENB can include one or more processors, for handling the transmission for listing service specific resources subregion from UE.In response, the one or more processors of eNB can be also used for the transmission of generation zone configuration to configure service specific resources subregion.Then the one or more processors of UE can be also used for processing zone configuration and send.

Description

Signaling methods for flexible provided for radio resources management

Prioity claim

The application according to 35U.S.C. § 119 (e) requirements on October 8th, 2015 is submitting, Serial No. 62/239, 213rd, it is entitled " to be used for signal method (the SIGNAL METHODS FOR FLEXIBLE RADIO of flexible provided for radio resources management RESOURCE MANAGEMENT) " U.S. Provisional Patent Application priority, entire contents pass through quote merge and this.

Background technology

The various radio honeycomb communication systems for having been carried out or proposing include third generation partner program (3GPP) Universal Mobile Telecommunications System (UMTS), 3GPP Long Term Evolutions (LTE) system, advanced (LTE-A) systems of 3GPP LTE- and the 5th generation Generation mobile network (5G) system of wireless system/the 5th.5G systems (or other radio honeycomb communication systems) can support various clothes Business, for example, extreme mobile broadband (eMBB), heavy-duty machines type communication (MMC/mMTC), super reliable machine type communication (uMTC), key task communication (MCC), car to X communication (V2X, for example, the communication between vehicle and another entity X) etc..Often The service of a support can be directed to some Key Performance Indicators (KPI).

Brief description of the drawings

According to the attached drawing of detailed description given below and the various embodiments of the disclosure, this public affairs will be more fully understood The embodiment opened.However, although attached drawing contributes to explanation and understanding, they be only it is a kind of help, and should not be by Think the disclosure being limited to wherein discribed specific embodiment.

Fig. 1 is shown to be mapped according to the radio resource with multiple resource partitionings of some embodiments of the present disclosure.

Fig. 2 shows the example partition based on Orthogonal Frequency Division Multiplexing (OFDM) waveform according to some embodiments of the present disclosure Subframe structure.

Fig. 3 shows the example demodulation reference of the resource block (RB) for type 2 according to some embodiments of the present disclosure Signal (DMRS) pattern.

Fig. 4 shows the example sync signal (SS) and thing of the RB for type 2 according to some embodiments of the present disclosure Manage broadcast channel (PBCH) periodically.

Fig. 5 shows example SS and the PBCH pattern of the RB for type 2 according to some embodiments of the present disclosure.

Fig. 6 shows example SS and the PBCH periodicity according to the RB for type 3-7 of some embodiments of the present disclosure.

Fig. 7 shows example SS and the PBCH pattern of the RB for type 3-7 according to some embodiments of the present disclosure.

Fig. 8 shows the example channels state information references of the RB for type 2 according to some embodiments of the present disclosure Signal (CSI-RS) pattern.

Fig. 9 is shown gathers polymerization according to some embodiments of the present disclosure for 5G radio access technologies (RAT) The signaling diagram of extending physical downlink control channels (xPDCCH).

Figure 10 shows the letter of the extension carrier aggregation (CA) polymerizeing for subregion according to some embodiments of the present disclosure Order figure.

Figure 11 shows the enode b (eNB) and user equipment (UE) according to some embodiments of the present disclosure.

Figure 12 is shown is used for what flexible provided for radio resources management signaled according to some embodiments of the present disclosure Hardware handles circuit for eNB.

Figure 13 shows the use signaled with flexible provided for radio resources management according to some embodiments of the present disclosure In the hardware handles circuit of UE.

Figure 14 is shown is used for what flexible provided for radio resources management signaled according to some embodiments of the present disclosure Method for eNB.

Figure 15 is shown is used for what flexible provided for radio resources management signaled according to some embodiments of the present disclosure Method for UE.

Figure 16 shows the exemplary components of the UE equipment according to some embodiments of the present disclosure.

Embodiment

Can be favourable in a different manner according to different requirements (for example, different Key Performance Indicator (KPI) requirements) Ground manages different radio resources.For example, the service of delayed key type can from very short transmission time interval (TTI) by Benefit, to reduce air interface delay.As another example, the arrowband machine type communication sent for fragmentary small data packets (MTC) less subcarrier spacing and relatively long TTI may be benefited from.

Flexible radio resource subregion frame (such as flexible radio access technologies are proposed for 5G (xRAT)), so as to manage radio resource by different way for different services.It is based primarily upon new Master Information Block (MIB), is Block of information of uniting (SIB), radio resource control (RRC) signaling, and/or physical channel design, it is also proposed that some dynamically to believe The method of order notice radio resource subregion.These focuses proposed are based primarily upon the design to face the future, rather than simultaneous backward Hold.

Meanwhile in order to support the different services with different KPI, various LTE-A specifications are continuously developed.For example, pin The carrier aggregation (CA) further enhanced of up to 32 component carriers is being developed to LTE specification, for device-to-device (D2D) enhancing of function, for MTC new physical layer enhancing and other features.In addition, some existing features are (for example, double Connection or multi-link, coordinate multipoint (CoMP) function and enhancing physical downlink control channel (E-PDCCH)) it can provide Extensible framework is with many potential further improvement of combination.

It is discussed below realizing the various of the signaling methods of enhancing by using the feature in prior art frame Method and mechanism.These methods and mechanism can advantageously improve backward compatibility, while provide more flexible radio resource Division.

In the following description, many details are discussed to provide the more thorough explanation to embodiment of the disclosure.However, It should be apparent to those skilled in the art that it may be practiced without these specific details embodiment of the disclosure. In other instances, in order to avoid obscuring embodiment of the disclosure, known knot is shown in form of a block diagram rather than at large Structure and equipment.

Note that in the respective drawings of embodiment, signal is represented by lines.Some lines can more slightly indicate most The composition signal path of amount, and/or some lines can have arrow with the direction of configured information stream in one or more ends. Such explanation is not limiting.But these lines are used in combination with one or more exemplary embodiments, in order to more It is readily appreciated that circuit or logic unit.The signal of (as indicated as design requirement or preference) any expression can substantially include can With the one or more signals propagated in either direction, and can be realized using the signaling plan of any suitable type.

Throughout the specification, and in detail in the claims, term " connection " refer to connection things between it is direct Electric, mechanical or magnetic connection, without any intermediate equipment.Term " coupling " refer to connection things between it is straight Electric, mechanical or magnetic connection is connect, or is indirectly connected with via one or more is passive or active intermediate equipment.Term " circuit " or " module " can refer to one or more passive and/or active blocks, it is arranged to coordination with one another to provide expectation Function.Term " signal " can refer at least one current signal, voltage signal, magnetic signal or data/clock signal." one ", The implication of "one" and "the" includes plural reference." ... in " implication include " ... in " and " ... on ".

Term " substantially ", " close ", " general ", " being similar to " and " about " it is often referred in +/- the 10% of desired value.Remove It is non-otherwise indicated, common object otherwise is described using ordinal adjectives " first ", " second " and " the 3rd " etc., is merely indicative The different instances of analogical object are cited, and be not intended to imply that description object necessarily be in (it is temporal, spatially, It is in sequence or other modes) give order.

It should be appreciated that the term so used is interchangeable in the appropriate case so that invention described herein Embodiment can for example operate on other directions different from those directions shown in this article or described otherwise above.

Term "left", "right", "front", "rear", " top ", " bottom " in specification and claims, " ... On ", " ... under " it is used for descriptive purpose, and not necessarily for the permanent relative position of description.

For the purpose of embodiment, various circuits, module and logic transistor in the block are tunnelling FET (TFET).It is various Some transistors of embodiment can include metal-oxide semiconductor (MOS) (MOS) transistor, it includes drain electrode end, source terminal, grid Extreme and crystal terminal.Transistor can also include three grids and FinFET transistors, grid surround cylinder transistor (Gate entirely All Around Cylindrical Transistor), square line or rectangular strip shape transistor or realize transistor function The other equipment of such as carbon nanotubes or spintronic devices etc.The symmetrical source terminals of MOSFET and drain electrode end, are identical End, and used interchangeably herein.On the other hand, TFET devices have asymmetric source terminal and drain electrode end.This area Technical staff will be understood that, without departing from the scope of the disclosure, can use other transistors, such as dipole Transistor-BJT PNP/NPN, BiCMOS, CMOS etc..

For purposes of this disclosure, phrase " A and/or B " and " A or B " refer to (A), (B) or (A and B).For the disclosure Purpose, " A, B and/or C " mean (A), (B), (C), (A and B), (A and C), (B and C) or (A, B and C) phrase.

In addition, the combinational logic and the various elements of sequential logic that are discussed in the disclosure can be related to physical arrangement (for example, AND gate, OR or XOR gate), or it is related to the synthesis for the equipment for realizing logical construction (it is boolean's equivalent of discussed logic) Or optimization set.

The temporal frequency resource impact for 5G systems RAT proposed can be divided into different for different services Resource partitioning or region.Different subregions can be by the numerology (numerology) of the set including physical layer parameter come table Sign limits, which includes but not limited to：Subcarrier spacing；TTI length；On the dimension in time domain and frequency domain And/or cyclic periodicity various resource allocation parameters (for example, the quantity of Orthogonal Frequency Division Multiplexing (OFDM) symbol of each TTI, The quantity of the bandwidth of each resource block (RB), and/or the subcarrier of each RB)；The quantity of the resource element of each RB；Corresponding ripple Shape；And the antenna port of subregion and/or the subregion specific quantity of antenna beam for support.

Fig. 1 is shown to be mapped according to the radio resource with multiple resource partitionings of some embodiments of the present disclosure.Nothing Line electric resources mapping 100 can have time dimension and frequency dimension, and can periodically be circulated in time dimension.Nothing Line electric resources mapping 100 can include the first subregion 110, the second subregion 120, the 3rd subregion 130, the 4th subregion 140, the 5th point 150 and the 6th subregion 160 of area.First subregion 110, the second subregion 120 and the 3rd subregion 130 can be directed to whole time dimension Across the part of the frequency dimension of radio resource mapping 100, and can be defined accordingly for institute's having time.

In contrast, the 4th subregion 140, the 5th subregion 150 and the 6th subregion 160 can be directed to the subset of time dimension Across the part of the frequency dimension of radio resource mapping 100.As a result, the 4th subregion 140, the 5th subregion 150 and the 6th Subregion 160 can be defined only for particular time range.Because radio resource mapping 100 can on time dimension the cycle Circulate to property, so the 4th subregion 140, the 5th subregion 150 and the 6th subregion 160 can also be on time dimensions periodically Circulation.

Each subregion can support one or more services.In certain embodiments, the first subregion 110 can be in tradition The legacy User Equipment (UE) using traditional voice and/or data service is supported under LTE operation, and can also support various nothings Line electric control plane function (RRC connection managements, safety certification etc.).

Then other subregions can support a variety of services, such as user plane data flow.For example, the second subregion 120 and the 3rd subregion 130 can support the extreme broadband service with low-down delay.Meanwhile the 4th subregion the 140, the 5th 150 and the 6th subregion 160 of subregion can support mMTC services, uMTC services and V2X services respectively.These subregions each other can be with It is not overlapping, or can partly overlap, or can be completely overlapped.

In certain embodiments, some carrier frequencies (for example, frequency of below 6GHz) can include main partition, and can To use and the existing corresponding numerology of LTE numerologies (for example, above-mentioned parameter for resource allocation).Subpartition is then It can be designed as supporting other services, such as low latency application.For example, subpartition can be supported between the subcarrier of bigger Every, such as 75kHz subcarrier spacings.

Fig. 2 shows the subframe structure of the example partition based on OFDM waveforms according to some embodiments of the present disclosure.Pin To the first example, the first subframe structure 210 can be six cyclic prefix (CP) 212 in a TTI and six OFDM symbols 214 (numbering is 0 to 5) are divided into one group, and wherein symbol time is about 13.3us, and the CP times are about 3.3us.Sampling rate is about 153.6MHz can support 512 samplings.6 CP and 6 OFDM symbols can correspondingly correspond approximately to the TTI of 0.1ms.

As the second example, the second subframe structure 220 can be based on less subcarrier spacing (for example, 3.0kHz) so as to Support MTC services.Second subframe structure 220 (it can be the subframe structure for subpartition) can be in a TTI 14 CP 222 and 14 OFDM symbols 224 (numbering is 0 to 13) are divided into one group.Symbol time be about 333.3us simultaneously And the CP times, when being about 23.8us, 14 CP and 14 OFDM symbols can correspondingly correspond approximately to the TTI of 5.0ms.

Based on these examples, various TTI can be implemented.For example, the first subframe structure 210 can expand to by 12 CP 212 and 12 OFDM symbols 214 are divided for one group, it can correspondingly correspond approximately to the TTI of 0.2ms.

Any particular UE requires no knowledge about all resource partitionings that radio resource mapping 100 is supported.For example, except control Plane radio is electrically accessed outside technology (RAT), and MTC device may only just know that MTC particular zones.Meanwhile disappear with high data The UE equipment of consumption requires no knowledge about any MTC particular zones.On resource partitioning configuration signaling can correspondingly with specific to The mode of UE is performed to reduce system signaling expense.

Expanding resource blocks define

The radio resource form of various supports defined in radio honeycomb communication standard is to support flexible nothing Line electric resources divide, it can inherently support the various KPIs related with handling capacity, delay and reliability.The collection of the TTI of support Conjunction can be about 0.2ms, about 1.0ms, about 2.0ms and about 5.0ms, and the set for the subcarrier spacing supported Can be about 3.0kHz, about 7.5kHz, about 7.5kHz, about 15kHz, about 75kHz, about 750kHz and about 1.5MHz。

Less subcarrier spacing (for example, 3.0kHz and 7.5KHz) may be advantageously used with low bandwidth and low-power consumption MTC.Larger subcarrier spacing (for example, 750kHz and 1.5MHz) may be advantageously used with high frequency band service (for example, using The service of the frequency of more than 30GHz).

Resource block (RB) can be defined as the least unit for subregion distribution.It is assumed that one of them when frequency symbol can be with It is referred to as the class OFDM waveforms of resource element, table 1 to table 7 below provides the RB for supporting different TTI and subcarrier spacing Definition.(it should be noted that these forms can be expanded to including more information, such as CP length and the ripple of other supports Shape.)

1. resource block type 1 of table

(traditional mobile broadband (MBB), low-frequency band, normal delay --- TTI 1ms)

2. resource block type 2 of table

(MCC/V2X, low-frequency band, low latency --- TTI 0.2ms)

Subcarrier spacing	15kHz
		TTI	0.2ms
The quantity of the OFDM symbol of each TTI	2
		The quantity of the subcarrier of each RB	72
The bandwidth of each RB	1080kHz
		The quantity of the RE of each RB	144=72x2

3. resource block type 3 of table

(MBB/MCC/V2X, low frequency take midband to, low latency --- TTI 0.2ms)

Subcarrier spacing	75kHz
		TTI	0.2ms
The quantity of the OFDM symbol of each TTI	14
		The quantity of the subcarrier of each RB	12
The bandwidth of each RB	900kHz
		The quantity of the RE of each RB	168=12x14

4. resource block type 4 of table

(MBB, high frequency band, low latency --- TTI 20us)

Subcarrier spacing	750kHz
		TTI	20us
The quantity of the OFDM symbol of each TTI	14
		The quantity of the subcarrier of each RB	12
The bandwidth of each RB	9MHz
		The quantity of the RE of each RB	168=12x14

5. resource block type 5 of table

(MBB, high frequency band, low latency --- TTI 20us)

Subcarrier spacing	1500kHz
		TTI	10us
The quantity of the OFDM symbol of each TTI	14
		The quantity of the subcarrier of each RB	12
The bandwidth of each RB	18MHz
		The quantity of the RE of each RB	168=12x14

6. resource block type 6 of table

(MCC, low cost --- TTI 2ms)

Subcarrier spacing	7.5kHz
		TTI	2ms
The quantity of the OFDM symbol of each TTI	14
		The quantity of the subcarrier of each RB	12
The bandwidth of each RB	90kHz
		The quantity of the RE of each RB	168=12x14

7. resource block type 7 of table

(MCC, low cost --- TTI 4ms)

Subcarrier spacing	3.75kHz
		TTI	4ms
The quantity of the OFDM symbol of each TTI	14
		The quantity of the subcarrier of each RB	12
The bandwidth of each RB	36kHz
		The quantity of the RE of each RB	168=12x14

The DMRS patterns of extension

Each RB can require some embedded demodulated reference signals (DMRS) and be directed to the control sent and data to realize The channel estimation of the coherent demodulation of signal.RB Class1 defined above and 3 to 7 has across 12 subcarriers in each TTI Resource block with 14 OFDM symbols.Because existing LTE resource blocks have 14 across 12 subcarriers in each TTI OFDM symbol, so can be currently reused for existing DMRS patterns as defined in LTE for RB Class1 and 3 to 7.So And RB types 2 defined above are with crossing over resource block of 72 subcarriers with 2 OFDM symbols in each TTI, and Therefore may not be reused for existing DMRS patterns as defined in LTE by the RB for type 2.

Fig. 3 shows the example demodulation reference of the resource block (RB) for type 2 according to some embodiments of the present disclosure Signal (DMRS) pattern.Fig. 3 depicts the first DMRS RB patterns 310 and the 2nd DMRS RB patterns 320.First DMRS RB moulds 310 and the 2nd DMRS RB patterns 320 of formula all include multiple resource elements 302 across resource block 301.According in above-mentioned table 2 Definition, TTI (wherein each TTI with two OFDM symbols) of each resource block 301 with about 0.2ms, and with big The subcarrier spacing of about 15kHz (wherein each RB has 72 subcarriers).(although this is different with existing LTE, The DMRS signal sequence generation methods of LTE can expand to the RB of type 2.)

For both the first DMRS RB patterns 310 and the 2nd DMRS RB patterns 320, DMRS symbols can cross over the frequency of RB Rate bandwidth is placed in every 6th subcarrier.In the first DMRS RB patterns 310, DMRS symbols can be placed on from In two OFDM symbols of every 6th subcarrier that subcarrier 5 starts.In contrast, in the 2nd DMRS RB patterns 320, DMRS symbols can be placed on since the first OFDM symbol of every 6th subcarrier subcarrier 0, while DMRS is accorded with Number it can be placed on since the second OFDM symbol of every 6th subcarrier subcarrier 3.

Synchronizing signal and PBCH covering extensions for the RB types of extension

Although each supported there are potential difference in terms of TTI and subcarrier spacing compared with primary resource subregion Subregion can send its synchronizing signal (SS) in a manner of so that UE can realize downlink synchronization.As described above, based on spy Resource partitioning configuration due to UE can advantageously reduce system signaling expense, and therefore any specific UE is required no knowledge about All resource partitionings supported by radio resource mapping.Each resource partitioning can be operated correspondingly in an independent way So as to support the UE intelligence instrument or sensor of MMC (for example, support) of various single services be directly connected to network without Main partition is accessed first.The PBCH specific to resource partitioning can correspondingly be used.

SS expenses and synchronized tracking ability present in LTE are similar in order to retain, can be with every five for RB types 3 to 7 A TTI sends a SS.For RB types 2, a SS can be sent with every 25 TTI, and (it can be with terms of resource element It is substantially similar to five TTI of RB types 3 to 7).

MIB present in LTE and/or PBCH coverings are similar in order to retain, can be in resource point for RB types 3 to 7 A PBCH sub-block is sent in six center RB in area (as in existing LTE)., can be in resource point for RB types 2 A PBCH sub-block is sent in the central RB in area.

For RB types 3 to 7, a code block of PBCH can include four PBCH sub-blocks, and be directed to RB types 2, PBCH A code block can include eight PBCH sub-blocks.PBCH expenses present in LTE are similar in order to retain, for RB types 3 To 7, a PBCH sub-blocks can be sent with every ten TTI, and be directed to RB types 2, can be with every 25 TTI one PBCH of transmission Block.

Time interval between two adjacent PBCH sub-blocks can define frame length.In addition, multiple PBCH in PBCH codes Number or PBCH the sub-blocks index of sub-block can impliedly represent frame number.Therefore, for RB types 3 to 7, two of frame number are most Low order can not be included in MIB, and be directed to RB types 2, and three least significant bits of frame number can not be included in MIB In.Following table 8 summarizes the radio frame duration for difference RB types defined above.

Table 8. is directed to the radio frame duration of different RB types

RB Class1 (TTI 1.0ms)	10ms
		RB types 2 (TTI 0.2ms)	5.0ms
RB types 3,4 and 5 (TTI 0.2ms)	2.0ms
		RB types 6 (TTI 2.0ms)	20ms
RB types 7 (TTI 5.0ms)	50ms

Some coverings extension design for various RB types has been also provided below.In certain embodiments, for new RB Cell specific reference signal (CRS) can be not required in type, this can advantageously save overhead.

Designed for the SS and PBCH of RB types 2

Fig. 4 shows the example sync signal (SS) and thing of the RB for type 2 according to some embodiments of the present disclosure Manage broadcast channel (PBCH) periodically.First sub-block 410 can correspond to without covering extension (for example, 0dB covers divergence (degree of coverage extension)), the second sub-block 420 can correspond to 3dB covering divergences, and the 3rd son Block 430 can correspond to 6dB covering divergences.

As described above, being directed to RB types 2, a PBCH code block can include eight PBCH sub-blocks, and wherein PBCH sub-blocks are every 25 TTI are sent.Each in first sub-block 410, the second sub-block 420 and the 3rd sub-block 430 can include multiple Resource block 401, starts from SS RB and is followed by PBCH RB.Each sub-block can expand to 25 RB, then repeat.

Second sub-block 420 and the 3rd sub-block 430 can repeat PBCH RB based on covering divergence.Cover and expand for 3dB The latitude of emulsion, the second sub-block 420 can repeat PBCH RB on the 12nd RB after initial p BCH RB.Cover and expand for 6dB The latitude of emulsion, the 3rd sub-block 430 can be in every 6th RB the (including the after initial p BCH RB the 12nd after initial p BCH RB RB PBCH RB are repeated on).

PBCH RB can correspond to PBCH sub-blocks index, and PBCH sub-blocks index can represent the PBCH in PBCH code blocks The number of sub-block, 7 are incremented to since 0 and during 8 PBCH sub-blocks are sent.8th PBCH sub-block can be correspondingly PBCH codes last PBCH sub-blocks in the block.

Fig. 5 shows example SS and the PBCH pattern of the RB for type 2 according to some embodiments of the present disclosure.Fig. 5 Depict SS RB patterns 510, the first PBCH RB patterns 520 and the 2nd PBCH RB patterns 530, each of which can be with Including multiple resource elements 502 on resource block 501.

SS RB patterns 510 can include the SS OFDM symbols being placed on central 60 subcarriers, but can not wrap Include any DMRS symbols.First PBCH RB patterns 520 can include being placed on most of subcarriers (except having put on it Being equipped with those subcarriers of DMRS, (these subcarriers may be largely analogous to retouch for the first DMRS RB patterns 310 of Fig. 3 That paints is placed with those subcarriers of DMRS on it) outside) on PBCH symbols.Similarly, the 2nd PBCH RB patterns 530 It can include being placed on most of subcarriers that ((these subcarriers can except those subcarriers for being placed with DMRS on it To be substantially similar to those subcarriers for being placed with DMRS on it for being directed to the 2nd DMRS RB patterns 320 of Fig. 3 and describing) Outside) on PBCH symbols.

With reference to figure 4 and Fig. 5, can be evenly distributed on eight PBCH sub-blocks of 240 in the time window of 40ms, this PBCH coding gains can be allowed to be similar to existing PBCH coding gains in LTE.In addition, two DMRS patterns can be used for PBCH coherent demodulations.

Designed for the SS and PBCH of RB types 3-7

Fig. 6 shows example SS and the PBCH periodicity according to the RB for type 3-7 of some embodiments of the present disclosure. First sub-block 610 can correspond to without covering extension (for example, 0dB covers divergence), and the second sub-block 620 can correspond to 3dB Divergence is covered, and the 3rd sub-block 630 can correspond to 6dB covering divergences.PBCH covering extensions can be conducive to middle height Frequency mobile broadband (MBB) and low cost MMC.

As described above, being directed to RB types 3-7, a PBCH code block can include four PBCH sub-blocks, and each PBCH Sub-block can be sent with every 10 TTI.Each in first sub-block 610, the second sub-block 620 and the 3rd sub-block 630 can wrap Include multiple resource blocks 601, and can be since SS and PBCH with (the first DMRS patterns or the 2nd DMRS patterns) RB.

For the first sub-block 610 without covering extension, the 5th RB after initial SS and PBCH with DMRS RB can To be SS RB.After another five RB, the first sub-block 610 can be repeated.Divergence is covered for 3dB, the second sub-block 620 can With after the initial SS and PBCH with DMRS RB on the 5th RB repeat with DMRS RB SS and PBCH patterns (and It is not to place SS RB as the first sub-block 610).After another five RB, the second sub-block 620 can be repeated.Covered for 6dB Lid divergence, the 3rd sub-block 630 can be put on the 3rd after the initial SS and PBCH with DMRS RB and the 8th RB The PBCH with DMRS RB is put, and can also be repeated on the 5th RB after the initial SS and PBCH with DMRS RB SS and PBCH with DMRS RB.

SS and PBCH with the DMRS RB and PBCH with DMRS RB can correspond to PBCH sub-blocks index, should PBCH sub-blocks index can represent the number of the PBCH sub-blocks in PBCH code blocks, be sent since 0 and in four PBCH sub-blocks Period is incremented to 3.4th PBCH sub-block can be correspondingly PBCH codes last PBCH sub-blocks in the block.

Fig. 7 shows example SS and the PBCH pattern of the RB for type 3-7 according to some embodiments of the present disclosure.Figure 7 depict the first SS and PBCH mode 7 20, SS of SS the and PBCH mode 7s 10, second with DMRS RB with DMRS RB PBCH mode 7 40 and second PBCH mode 7 50 with DMRS RB of the RB mode 7s 30, first with DMRS RB, they In each can include resource block 701 on multiple resource elements 702.

Due to the similitude between RB types 3 to 7 and the size of existing LTE RB, the placement of SS and PBCH in RB can be with Similar to the placement in existing LTE RB.First the 10, second SS with DMRS RB of SS and PBCH mode 7s with DMRS RB It can include all subcarriers for the 6th and the 7th symbol for being placed on RB with PBCH mode 7s 20 and SS RB mode 7s 30 On SS OFDM symbols.First SS and PBCH mould of the SS and PBCH mode 7s 10 and second with DMRS RB with DMRS RB Formula 720 is additionally may included in PBCH the and DMRS OFDM on the 8th to all subcarriers of the 11st OFDM symbol of RB Symbol, wherein DMRS symbols can be placed in every 6th subcarrier in the frequency bandwidth of RB.

For the first SS and PBCH mode 7s 10 with DMRS RB, DMRS symbols can be placed on the 8th OFDM symbol Number into the 6th of the 11st OFDM symbol and the 12nd subcarrier.For the second SS and PBCH with DMRS RB Mode 7 20, DMRS symbols can be placed on first and the 7th son of the 8th OFDM symbol and the tenth OFDM symbol In carrier wave, while DMRS symbols can be placed on the 9th OFDM symbol and the 4th of the 11st OFDM symbol and the tenth In a subcarrier.

As RB types 2, two exemplary DMRS patterns can be used for PBCH coherent demodulations.

The specific CSI-RS signal of resource partitioning

Subregion specifically finds that signal or CSI-RS can realize that the radio resource for particular zones resource measures (RRM).For RB types 3 to 7, the CSI-RS similar with existing LTE CSI-RS can be used.RB types 2 possibly can not use Existing LTE CSI-RS.

Fig. 8 shows the example channels state information references of the RB for type 2 according to some embodiments of the present disclosure Signal (CSI-RS) pattern.Fig. 8 depicts the first CSI-RS RB patterns 810 and the 2nd CSI-RS RB patterns 820.First CSI- Both RS RB patterns 810 and the 2nd CSI-RS RB patterns 820 include multiple resource elements 802 on resource block 801.

With reference to figure 3, according to the first DMRS RB patterns 310 and the 2nd DMRS RB patterns 320, the first CSI-RS RB patterns 810 and the 2nd CSI-RS RB patterns 820 can include various DMRS symbols.CSI antenna ports can on following subcarrier quilt Support：On these sub-carriers DMRS is not placed for any OFDM symbol., can be with for the first CSI-RS RB patterns 810 Correspondingly support ten CSI-RS antenna ports (it can be numbered as x15 to x24).In contrast, for the 2nd CSI-RS RB patterns 820, can support eight CSI-RS antenna ports (it can be numbered as x15 to x22).Support various antenna ports Resource element can be repeated with every 12 subcarriers.

Extension main partition SIB for subpartition signaling

It is for support multiple resource partitionings (for example, subregion based on a variety of RB types discussed above) System, a resource partitioning can become the main partition of system and can service resident most of UE in systems, and other Resource partitioning can become auxiliary resources subregion.The low-frequency resources subregion for providing received pronunciation and data service covering can conduct The main partition of system.For example, the resource partitioning 1 of Fig. 1 can be as the main partition in exemplary system.

In some cases, resource partitioning can be overlapping in the time and/or frequency domain.For example, as shown in Figure 1, resource point Area 6 can be completely embedded in resource partitioning 1.In an actual scene, completely overlapped resource partitioning can include complete Some arrowbands (1.4MHz) the MMC resource partitionings being embedded in the primary resource subregion of broadband.

Overlapping resource partitioning can also be active at the same time.In order to ensure in the primary physical resource block of distribution (PRB) UE when overlapping with one or more auxiliary resources subregions in main partition is mapped with clear and definite RE, can be in main partition SIB in send resource allocation information on embedded subpartition.This is signaled with the dedicated signaling via UE Category information (this may cause big signaling consumption) is compared, this can advantageously improve efficiency.

Multiple service specific resources subregion polymerizations

Sometimes, be able to can be arranged to from the UE to be communicated using multiple services of different RB type operations and these Service is carried out at the same time communication.As an example, an application of UE can perform MBB services (image height clarity live video stream), And another background application of UE can perform MTC services (for example, MMC/MCC/V2X is serviced).

Two methods are described below to help UE to perform multiple services at the same time and be led to from different resource partitionings Letter.First method is related to the xPDCCH for 5G PDCCH set (set) polymerization, it, which can be applied to polymerization, has scheduling Access multiple resource partitionings.Subpartition can be considered as in main partition the special data resource point with different RB types Area.

Fig. 9 is shown gathers polymerization according to some embodiments of the present disclosure for 5G radio access technologies (RAT) The signaling diagram of extending physical downlink control channels (xPDCCH).Method 900, which can be related to, undertakes various steps (various steps Suddenly can be divided into and/or be merged into each stage of method) enode b (eNB) 901 and UE 902.

The first stage of method 900 can involve setting up RRC connections and indicate UE abilities to network.In first step 910 In, UE 902 can be via main partition (main partition can be responsible for one or more control plane functions) and the eNB of selection 901 (eNB 901 of the selection can be 5G eNB) establish RRC connections.Main partition can be directed to system information (SI), connect at random Enter channel (RACH) response and paging sends the public xPDCCH search spaces provided for 5G RAT.Initial UE is specific XPDCCH search spaces can be dispensed in main partition.In second step 920, UE 902 can be signaled to network It is used for the ability for supporting various service particular zones.

The second stage of method 900 can be related to xPDCCH and be reconfigured for configuring multiple xPDCCH set.The 3rd In step 930, the ability for being used to support various service particular zones based on the UE 902 being signaled, eNB 901 can The specific search spaces of UE are reconfigured to gather by UE dedicated RRC signalings using multiple xPDCCH.It is each such XPDCCH set can be dispensed in specific resources subregion, which is considered subpartition.For The xPDCCH set each added, following information can be included but is not limited to by reconfiguring：

The RB types of xPDCCH set and the subregion of its scheduling；

Resource allocation (running time-frequency resource position and the cyclic periodicity of subregion；Can it is not overlapping with main partition, partly overlap or It is completely overlapped)；

The resource allocation of xPDCCH set in subregion；With

(it can include the specific CSI-RS configurations of (quasi-collocated) subregion the standard of subregion side by side：CSI-RS sequences Arrange ID；The quantity of antenna port；With the temporal frequency resource allocation for CSI-RS, for example, TTI in bandwidth, frame and according to The sending cycle of the quantity of RB and/or TTI defined in subregion).

In action 932, UE 902 can confirm that this is reconfigured.

The phase III of method 900 can be related to the xPDCCH set that UE 902 monitors multiple configurations.In four steps 940 In, UE 902 can monitor the multiple xPDCCH set reconfigured distributed in a variety of resource partitionings.In set XPDCCH can dispatch gather with xPDCCH the downlink data packet that is sent in corresponding resource partitioning and/or on Downlink packet.

UE is used to help to perform multiple services at the same time and relate to from the second method that different resource partitionings communicates And extension carrier aggregation, it can be adapted for various resource partitioning polymerizations.Each resource partitioning can be supported to be based on complete physical Independent operation as defined in passage and reference signal.

Figure 10 shows the letter of the extension carrier aggregation (CA) polymerizeing for subregion according to some embodiments of the present disclosure Order figure.Method 1000 can be related to the various steps of carrying, and (the various steps can be divided into and/or be merged into each of method Stage) eNB 1001 and UE 1002.

The first stage of this method can be related to RRC connections foundation and UE 1002 signals its ability to network. In first step 1010, UE 1002 can via main partition (main partition can be responsible for one or more control plane functions, And may be used as the main plot of UE 1002) with select eNB 1001 (eNB 1001 of the selection can be 5G eNB) build Vertical RRC connections.In second step 1020, UE 1002 can signal it to network and be used to support that various services are specific The ability of RB types.

The second stage of method 1000 can be related to the polymerization of auxiliary resources subregion.In third step 1030, primary resource point Area can ask UE 1002 to perform RRM and report measurement results to one or more subpartitions supported.On auxiliary The measurement solicited message of subregion can include but is not limited to following information：

The RB types (index for the RB types supported in standard) of subregion；

(it can include for SS and the PBCH configuration of subregion：Define the SS serial IDs of partition id；The PBCH coverings of support are expanded Exhibition；(form is SS and radio frame side in the quantity to main region according to RB and TTI with the resource allocation for SS and PBCH The frequency location and radio frame boundary of the relative distance on boundary；SS and the PBCH distribution of subpartition can be from its RB type and nothings Line electricity frame boundaries export))；

The specific CSI-RS configurations of subregion；

CSI-RS serial IDs；

Antenna port quantity；With

For the time-frequency resource allocating of CSI-RS, for example, TTI in bandwidth, frame and according to the RB defined in subregion and/ Or the sending cycle of the quantity of TTI.

In action 1032, UE 1002 may search for the SS of subpartition and be held based on the specific CSR-RS of subregion Row RRM.In action 1034, UE 1002 can return to requested measurement to eNB 1001.

In four steps 1040, based on the measurement result provided by UE 1002, eNB 1001 can be selected and configured One or more services specific resource partitioning, and as assisted cell (SCell), (UE 1002 should by partition id mark SCell), each SCell configurations include but is not limited to following parameter：

Partition id；And alternatively,

The following information that can be received from the MIB/SIB of subpartition：

Resource allocation (running time-frequency resource position and the cyclic periodicity of subregion；Can it is not overlapping with main partition, partly overlap or It is completely overlapped)；

(downlink is sent the link direction of support, uplink is sent or downlink is sent and uplink hair Send)；

Physical down link/(it can include for uplink control channel configuration：The specific public search space in region is matched somebody with somebody Put；Resource block distributes；And/or subregion specific SI-RNTI, RA-RNTI, and/or P-RNTI, it can be in specification (specification) it is typically hard coded in)；

The specific search space configurations of UE (it can include resource block distribution and/or C-RNTI)；With

(it can include resource pool and distribute and/or for 5G Physical Random Access Channels for random access resource configuration (xPRACH) configuration).

In the 5th step 1050, if supporting uplink to send in subpartition, UE 1002 can be to correspondingly The Scell of configuration performs competition-based or uncompetitive random access procedure.

The phase III of method 1000 can be related to the assisted cell that UE 1002 monitors multiple configurations.In the 6th step In 1060, UE 1002 can monitor the downlink data allocation or uplink for the SCell using auxiliary resources zone configuration Link data distributes.This kind of downlink data allocation or uplink distribution can pass through the thing in main plot or assisted cell Reason downlink control channel is signaled.In some cases, cross partitions scheduling mechanism can be applied, wherein can be with The resource allocation in assisted cell is explicitly indicated with downlink control designator (DCI) form.

Figure 11 shows the eNB and UE according to some embodiments of the present disclosure.Figure 11 include it is operable with coexist each other with And the eNB 1110 and the block diagram of UE 1130 coexisted with the other elements of LTE network.Describe eNB's 1110 and UE 1130 Advanced Simple framework, to avoid embodiment is obscured.It should be noted that in certain embodiments, eNB 1110 can be fixed Non-mobile device.

ENB 1110 is coupled to one or more antennas 1105, and UE 1130 is similarly coupled into one or more days Line 1125.However, in certain embodiments, eNB 1110 can merge or including antenna 1105, and in various embodiments UE 1130 can merge or including antenna 1125.

In certain embodiments, antenna 1105 and/or antenna 1125 can include one or more orientations or omnidirectional antenna, Including unipole antenna, dipole antenna, loop aerial, paster antenna, microstrip antenna, coplanar wave antenna or suitable for send RF letter Number other kinds of antenna.In some MIMO (multi input and multi output) embodiments, antenna 1105 is separated to utilize sky Between diversity.

ENB 1110 and UE 1130 is operable to be communicated with each other on network (for example, wireless network).eNB 1110 It can be communicated with each other with UE 1130 by radio communication channel 1150, which has from eNB 1110 to UE 1130 downlink path and from UE 1130 to eNB 1110 uplink path.

As shown in figure 11, in certain embodiments, eNB 1110 can include physical layer circuit 1112, MAC (media interviews Control) circuit 1114, processor 1116, memory 1118 and hardware handles circuit 1120.Those skilled in the art will manage Solution, in addition to the component shown, unshowned other assemblies can be used to form complete eNB.

In certain embodiments, physical layer circuit 1112 includes transceiver 1113, for providing to and from UE 1130 Signal.Transceiver 1113 provides the signal to and from UE or other equipment using one or more antennas 1105. In some embodiments, MAC circuit 1114 controls the access to wireless medium.Memory 1118 can be or can include one or Multiple storage mediums, for example, magnetic storage medium (for example, tape or disk), optical storage media (for example, CD), Electronic saving Medium (for example, conventional hard disc drive, solid magnetic disc driver or storage medium based on flash memory) or any tangible storage Medium or non-transient storage media.Hardware handles circuit 1120 can include logical device or circuit to perform various operations. In some embodiments, processor 1116 and memory 1118 are arranged to perform the operation of hardware handles circuit 1120, for example, this The operation of logical device and circuit description of the text with reference to eNB 1110 and/or in hardware handles circuit 1120.

Also as shown in figure 11, in certain embodiments, UE 1130 can include physical layer circuit 1132, MAC circuit 1134th, processor 1136, memory 1138, hardware handles circuit 1140, wave point 1142 and display 1144.Ability Field technique personnel will be understood that, in addition to the component shown, unshowned other assemblies can be used to form complete UE.

In certain embodiments, physical layer circuit 1132 includes transceiver 1133, for providing to and from eNB The signal of 1110 (and other eNB).Transceiver 1133 using one or more antennas 1125 providing to and from eNB or The signal of other equipment.In certain embodiments, MAC circuit 1134 controls the access to wireless medium.Memory 1138 can be with It is or one or more storage mediums can be included, for example, magnetic storage medium (for example, tape or disk), optical storage media (example Such as, CD), electronic storage medium is (for example, conventional hard disc drive, solid magnetic disc driver or storage based on flash memory are situated between Matter) or any tangible media or non-transient storage media.Wave point 1142 can be arranged to allow processor with it is another One equipment communicates.Display 1144 can provide a user and the visions interacted of UE 1130 and/or tactile display Device, such as touch-screen display.Hardware handles circuit 1140 can include logical device or circuit to perform various operations.One In a little embodiments, processor 1136 and memory 1138 can be arranged to the operation for performing hardware handles circuit 1140, for example, The operation described herein with reference to the logical device in UE 1130 and/or hardware handles circuit 1140 and circuit.

The element (and element of the other accompanying drawings with same names or reference numeral) of Figure 11 can be with herein for appointing The mode that this kind of attached drawing describes of anticipating is operated or is worked (although the operation of these elements and function are not limited to this kind of description). For example, Figure 12,13 and 16 also illustrate the implementation of the hardware handles circuit of the hardware handles circuit of eNB, eNB, UE, and/or UE Example, and can be in a manner of herein for any this kind of attached drawing description with reference to the embodiment that figure 11 and Figure 12,13 and 16 describe Operated or worked.

In addition, although eNB 1110 and UE 1130 are each described as having some single function element, one Or multiple function element can be combined, and can be by the element of combinations of software-configured and/or other hardware elements come real It is existing.In some embodiments of the present disclosure, function element can refer to one or more operated on one or more treatment elements A processing.The example of software and/or the element of hardware configuration includes digital signal processor (DSP), one or more microprocessors Device, DSP, field programmable gate array (FPGA), application-specific integrated circuit (ASIC), RF IC (RFIC) etc..

Figure 12 is shown is used for what flexible provided for radio resources management signaled according to some embodiments of the present disclosure Hardware handles circuit for eNB.Hardware handles circuit 1200 can include logical device and/or circuit, can be used to hold The various operations of row.For example, with reference to figure 11 and Figure 12, eNB 1110, (or one of the various elements or component are (for example, hardware handles Circuit 1120) or element therein or component combination) can include hardware handles circuit 1200 part or all. In some embodiments, processor 1116 and memory 1118 (and/or other elements or component of eNB 1110) can be arranged To perform the operation of hardware handles circuit 1200, such as described herein with reference to the equipment in hardware handles circuit 1200 and circuit Operation.For example, the one or more equipment or circuit of hardware handles circuit 1200 can by the element of combinations of software-configured and/ Or other hardware elements are realized.

In certain embodiments, hardware handles circuit 1200 can include one or more antenna ports 1205, operable For providing various transmissions by radio communication channel (for example, radio communication channel 1150).Antenna port 1205 can couple To one or more antennas 1207 (it can be antenna 1105).In certain embodiments, hardware handles circuit 1200 can close And antenna 1207, and in other embodiments, hardware handles circuit 1200 can only be coupled to antenna 1207.

Antenna port 1205 and antenna 1207 can be operated for providing the signal from eNB to radio communication channel And/or UE, and can operate for providing the signal from UE and/or radio communication channel to eNB.For example, antenna end Mouthfuls 1205 and antenna 1207 can operate for by the transmission from eNB 1110 provide radio communication channel 1150 (and from Radio communication channel 1150 goes to UE 1130 or to another UE).Similarly, antenna 1207 and antenna port 1205 can operate Transmission for that will come from radio communication channel 1150 (and before this, from UE 1130 or another UE) is provided to eNB 1110。

The device of eNB 1110 (or another eNB or base station) can operate on a wireless network with UE communication, and It can include hardware handles circuit 1200.In certain embodiments, eNB (or other base stations) can be include application processor, Memory, one or more antenna port and for allowing setting for interface that application processor communicates with another equipment It is standby.

With reference to figure 12, hardware handles circuit 1200 can include the first circuit 1210, second circuit 1220, tertiary circuit 1230 and the 4th circuit 1240.First circuit 1210 can be operated for establishing with UE's (for example, UE 1130 or another UE) RRC connections.RRC connections can be by being supplied to the one or more of second circuit 1220 to send via RRC connecting interfaces 1215 To establish.

Second circuit 1220 can be operated for receiving the transmission from UE 1130, which is listed in radio honeycomb and leads to The one or more service specific resources subregions supported in letter system bandwidth by UE 1130.It is specific on one or more service The information of resource partitioning can be provided to tertiary circuit 1230 via resource partitioning interface 1225.In certain embodiments, one A or multiple service specific resources subregions can have at least one in the following to be determined different from tradition LTE resource blocks The resource block definition of justice：Subcarrier spacing, TTI, the quantity of OFDM symbol of each TTI, each RB subcarrier quantity, every The bandwidth of a RB, each RB resource element (RE) quantity and circulating prefix-length.For various embodiments, one or more A service specific resources subregion can be subpartition.

Tertiary circuit 1230 can be operated sends 1235 for providing zone configuration to the 4th circuit 1240, for configuration Service one or more of specific resources subregion.In certain embodiments, tertiary circuit 1230 can be operated for being sent out in SIB Resource allocation information of the middle offer at least one subpartition is provided.

4th circuit 1240 can be operated to be sent for sending zone configuration to UE 1130.In certain embodiments, the 4th Circuit 1240 can be operated to be sent for sending SIB to UE 1130 in main partition.

In certain embodiments, tertiary circuit 1230 can be operated for via downlink transmission interface 1235 to the 4th Circuit 1240 provides the specific PBCH of resource partitioning and sends.In this kind of embodiment, the 4th circuit 1240, which can operate, to be used for UE 1130, which send the specific PBCH of the resource partitioning received via downlink transmission interface 1235, sends.

In certain embodiments, tertiary circuit 1230 can operate more for being provided via downlink transmission interface 1235 A PBCH is sent.In this kind of embodiment, the 4th circuit 1240, which can operate, to be used under the first covering divergence with the first weight Multiple rate to send PBCH transmissions to UE 1130, and can also operate and be used under the second covering divergence with the second repetitive rate To send PBCH transmissions to UE 1130.Second repetitive rate can be more than the first repetitive rate, and the second covering divergence can be big Divergence is covered in first.

For various embodiments, tertiary circuit 1230 can be operated for providing pin via downlink transmission interface 1235 The set sent to the xPDCCH of a service specific resources subregion in service specific resources subregion.In this kind of embodiment, 4th circuit 1240 can be operated is sent to UE 1130 for the set for sending xPDCCH.The set that the xPDCCH is sent can With including at least one in the following：Service the resource block type of specific resources subregion；Service the money of specific resources subregion Source is distributed；Configured with accurate subregion particular channel state information reference signal (CSI-RS) side by side.

Tertiary circuit 1230 can be operated for providing primary resource subregion request hair via downlink transmission interface 1235 Send, and the 4th circuit 1240 can be operated and sent for sending the request of primary resource subregion to UE 1130.For this kind of implementation Example, the request transmission of primary resource subregion can include one or more of the following items：Service the resource block of specific resources subregion Type；Define synchronizing signal (SS) ID of partition id；The PBCH covering divergences of support；The resource point sent for SS and PBCH Match somebody with somebody；Configured with subregion particular channel state information reference signal (CSI-RS).

In certain embodiments, the first circuit 1210, second circuit 1220,1230 and the 4th circuit 1240 of tertiary circuit can To be implemented as single circuit.In other embodiments, the first circuit 1210, second circuit 1220,1230 and of tertiary circuit One or more of 4th circuit 1240 can be combined and be implemented in circuit together, the sheet without changing embodiment Matter.In various embodiments, processor 1116 (and/or eNB 1110 can include other one or more processors) can be with It is arranged to perform the operation of the first circuit 1210, second circuit 1220,1230 and/or the 4th circuit 1240 of tertiary circuit. In this kind of embodiment, the first circuit 1210, second circuit 1220,1230 and/or the 4th circuit 1240 of tertiary circuit can be corresponding Ground is by the element (for example, processor 1116 and/or other one or more processors) of software configuration and/or other hardware elements Various combinations realize.In various embodiments, (and/or the one or more that eNB 1110 can include of processor 1116 Other processors) can be baseband processor.

Figure 13 is shown is used for what flexible provided for radio resources management signaled according to some embodiments of the present disclosure Hardware handles circuit for UE.Hardware handles circuit 1300 can include logical device and/or circuit, can be used to perform Various operations.For example, with reference to figure 11 and Figure 13, UE1130, (or one of the various elements or component are (for example, hardware handles circuit 1140) or element therein or component combination) can include hardware handles circuit 1300 part or all.At some In embodiment, processor 1136 and memory 1138 (and/or other elements or component of UE 1130) can be arranged to perform The various operations of hardware handles circuit 1300, such as herein with reference to the behaviour that the equipment in hardware handles circuit 1300 and circuit describe Make.For example, the one or more equipment or circuit of hardware handles circuit 1300 can by the element of combinations of software-configured and/or Other hardware elements are realized.

In certain embodiments, hardware handles circuit 1300 can include one or more antenna ports 1305, operable For providing various transmissions by radio communication channel (for example, radio communication channel 1150).Antenna port 1305 can couple To one or more antennas 1307 (it can be antenna 1105).In certain embodiments, hardware handles circuit 1300 can close And antenna 1307, and in other embodiments, hardware handles circuit 1300 can only be coupled to antenna 1307.

Antenna port 1305 and antenna 1307 can operate for by the signal from UE provide radio communication channel and/ Or eNB, and can operate for providing the signal from eNB and/or radio communication channel to UE.For example, antenna port 1305 and antenna 1307 can operate for providing the transmission from UE 1130 to radio communication channel 1150 (and from nothing Line communication channel 1150 goes to eNB 1110 or to another eNB).Similarly, antenna 1307 and antenna port 1305 can operate Transmission for that will come from radio communication channel 1150 (and before this, from eNB 1110 or another eNB) is provided to UE 1130。

The device of UE 1130 (or another UE or cell phone) can be operated for being led on a wireless network with eNB Letter, and hardware handles circuit 1300 can be included.In certain embodiments, UE (or other cell phones) can include answering With processor, memory, one or more antenna, for allowing what application processor communicated with another equipment wirelessly to connect The equipment of mouth and touch-screen display.

With reference to figure 13, hardware handles circuit 1300 can include the first circuit 1310, second circuit 1320, tertiary circuit 1330 and the 4th circuit 1340.First circuit 1310 can be operated for establishing and eNB (for example, eNB 1110 or another eNB) RRC connections.RRC connections can be by being supplied to the one or more of the 4th circuit 1340 to send out via RRC connecting interfaces 1315 Send foundation.

Second circuit 1320 can be operated to be supported to send for the subregion provided for eNB 1110, which supports to send It is listed in the one or more service specific resources subregions supported in radio honeycomb communication system bandwidth by UE 1230.Subregion branch Tertiary circuit 1330 can be provided to via subregion supporting interface 1325 by holding transmission.Then tertiary circuit 1330 can operate use Support to send in sending subregion to eNB 1110.

In certain embodiments, one or more service specific resources subregions have at least one in the following Defined different from the resource block that traditional LTE resource blocks define：Subcarrier spacing, TTI, each TTI OFDM symbol quantity, every The quantity of the subcarrier of a RB, the bandwidth of each RB, each RB RE quantity and circulating prefix-length.For various implementations One or more of example, service specific resources subregion can be subpartition.

4th circuit 1340 can operate special for receiving the service of one or more of configuration service specific resources subregion The zone configuration for determining resource partitioning is sent.Zone configuration sends and can be received from antenna port 1305 and/or antenna 1307.One In a little embodiments, the 4th circuit 1340 can be operated to be sent for receiving SIB from eNB 1110, and then the 4th circuit 1340 can be with SIB is sent by zone configuration interface 1345 and is forwarded to second circuit 1320.SIB, which is sent, to be included at least one auxiliary Help the resource allocation information of subregion.

In certain embodiments, the 4th circuit 1340 can be operated for receiving the specific PBCH of resource partitioning from eNB 1110 Send.In various embodiments, the 4th circuit 1340 can operate for first covering divergence under with the first repetitive rate from ENB 1110 receives multiple PBCH and sends, and can operate under the second covering divergence with the second repetitive rate from ENB1110 receives multiple PBCH and sends.Second repetitive rate can be more than the first repetitive rate, and the second covering divergence can be big Divergence is covered in first.

In various embodiments, the 4th circuit 1340 can be operated for for a clothes in service specific resources subregion Business specific resources subregion receives the set of PDCCH transmissions from eNB 1110.In this kind of embodiment, the set of xPDCCH transmissions It can include at least one in the following：Service the resource block type of specific resources subregion；Service specific resources subregion Resource allocation；With the specific CSI-RS configurations of accurate subregion side by side.

In certain embodiments, the 4th circuit 1340 can be operated for receiving primary resource subregion request hair from eNB 1110 Send.In this kind of embodiment, the request of primary resource subregion sends at least one that can include in the following：Service specific resources The resource block type of subregion；Define the SS ID of partition id；The PBCH covering divergences of support；The money sent for SS and PBCH Source is distributed；CSI-RS configurations specific with subregion.

In certain embodiments, the first circuit 1310, second circuit 1320,1330 and the 4th circuit 1340 of tertiary circuit can To be implemented as single circuit.In other embodiments, the first circuit 1310, second circuit 1320,1330 and of tertiary circuit One or more of 4th circuit 1340 can be combined and be implemented in circuit together, the sheet without changing embodiment Matter.In various embodiments, processor 1136 (and/or UE 1130 can include other one or more processors) can be with It is arranged to perform the operation of the first circuit 1310, second circuit 1320,1330 and/or the 4th circuit 1340 of tertiary circuit. In this kind of embodiment, the first circuit 1310, second circuit 1320,1330 and/or the 4th circuit 1340 of tertiary circuit can be corresponding Ground is by the element (for example, processor 1136 and/or other one or more processors) of software configuration and/or other hardware elements Various combinations realize.In various embodiments, processor 1136 (and/or UE 1130 can include it is one or more its His processor) can be baseband processor.

Figure 14 is shown is used for what flexible provided for radio resources management signaled according to some embodiments of the present disclosure Method for eNB.Method 1400 can include establishing 1410, receive 1415, provide 1420 and transmission 1425.Establishing 1410 In, eNB (for example, eNB 1110 or another eNB) can be directed to and established and the RRC of UE (for example, UE 1130 or another UE) companies Connect.In receiving 1415, the transmission from UE 1130 can be received, which is listed in radio honeycomb communication system bandwidth The one or more service specific resources subregions supported by UE 1130.In providing 1420, configuration one or more can be provided The zone configuration of a service specific resources subregion is sent.In sending 1425, zone configuration, which is sent, can be sent to UE 1130。

In the various embodiments of method 1400, one or more service specific resources subregion can be directed in the following At least one of have and be different from the resource block that defines of tradition LTE resource blocks and define：Subcarrier spacing, TTI, each TTI The quantity of OFDM symbol, the quantity of subcarrier of each RB, the bandwidth of each RB, each RB RE quantity and cyclic prefix Length.

Some embodiments of method 1400 can include providing 1430 and transmission 1435, wherein one or more services are specific Resource partitioning can be subpartition.In providing 1430, it can be provided in SIB transmissions at least one subpartition Resource allocation information.In sending 1435, SIB can be sent to UE 1130 in main partition and sent.

In various embodiments, method 1400 can also include providing 1440 and transmission 1445., can be with when providing 1440 There is provided the specific PBCH of resource partitioning to send, and in sending 1445, the specific PBCH of resource partitioning can be sent to UE 1130 and is sent out Send.Similarly, in certain embodiments, method 1400 can include providing 1450 and transmission 1455., can be with providing 1450 There is provided multiple PBCH to send, and in sending 1455, can be come under the first covering divergence with the first repetitive rate to UE 1130, which send PBCH, sends, and to send to the transmissions of UE 1130 PBCH with the second repetitive rate under the second covering divergence. In this kind of embodiment, the second repetitive rate can be more than the first repetitive rate, and the second covering divergence can be more than the first covering Divergence.

In certain embodiments, method 1400 can include providing 1460 and transmission 1465.In providing 1460, Ke Yiti For the set sent for the xPDCCH of a service specific resources subregion in service specific resources subregion, and sending 1465 In, the xPDCCH set sent can be sent to UE 1130.In this kind of embodiment, the set which sends can be with Including at least one in the following：Service the resource block type of specific resources subregion；Service the resource of specific resources subregion Distribution；With the specific CSI-RS configurations of accurate subregion side by side.

Some embodiments of method 1400 can include providing 1470 and transmission 1475.In providing 1470, it can provide The request of primary resource subregion is sent, and in sending 1475, the request of primary resource subregion can be sent to UE 1130 and is sent.At this In class embodiment, the request of primary resource subregion sends at least one that can include in the following：Service specific resources subregion Resource block type；Define the SS ID of partition id；The PBCH covering divergences of support；The resource allocation sent for SS and PBCH； CSI-RS configurations specific with subregion.

Figure 15 is shown is used for what flexible provided for radio resources management signaled according to some embodiments of the present disclosure Method for UE.Method 1500 can include establishing 1510, provide 1515, send 1520 and reception 1525.Establishing 1510 In, UE (for example, UE 1130 or another UE) can be directed to and established and the RRC of eNB (for example, eNB 1110 or another eNB) companies Connect.In providing 1515, the subregion that can be provided for eNB 1110 is supported to send, which supports transmission to list radio honeycomb The one or more service specific resources subregions supported by UE 1130 in communication bandwidth.In sending 1520, Ke Yixiang ENB 1110 sends subregion and supports to send.In receiving 1525, the one or more service specific resources subregions of configuration can be received Zone configuration send.

In the various embodiments of method 1500, one or more service specific resources subregion can be directed in the following At least one of have and be different from the resource block that defines of tradition LTE resource blocks and define：Subcarrier spacing, TTI, each TTI The quantity of OFDM symbol, the quantity of subcarrier of each RB, the bandwidth of each RB, each RB RE quantity and cyclic prefix Length.In some embodiments of method 1500, one or more service specific resources subregion can be subpartition.

The various embodiments of method 1500 can include receive 1530, receive 1540, receive 1550, receive 1560, and/or Receive one or more of 1570.In receiving 1530, SIB can be received from eNB 1110 and sent.SIB, which is sent, to be included Resource allocation information at least one subpartition.

In receiving 1540, the specific PBCH of resource partitioning can be received from eNB 1110 and is sent., can be with receiving 1550 Multiple PBCH are received from eNB 1110 to send, and can work as and be covered second when under a covering divergence with the first repetitive rate Multiple PBCH are received when under lid divergence from eNB 1110 with the second repetitive rate to send.In this kind of embodiment, the second repetitive rate The first repetitive rate can be more than, and the second covering divergence can be more than the first covering divergence.

In receiving 1560, can be directed in service specific resources subregion one services specific resources subregion from eNB 1110 receive the set that PDCCH is sent.The set that the xPDCCH is sent can include at least one in the following：Service is special Determine the resource block type of resource partitioning；Service the resource allocation of specific resources subregion；With the specific CSI-RS configurations of accurate subregion side by side.

Finally, in receiving 1570, the request of primary resource subregion can be received from eNB 1110 and is sent.Primary resource subregion is asked Send at least one that can include in the following：Service the resource block type of specific resources subregion；Define the SS of partition id ID；The PBCH covering divergences of support；The resource allocation sent for SS and PBCH；CSI-RS configurations specific with subregion.

Although the action of reference chart 14 and 15 is gone out with particular order in flow chart, the order of action can be repaiied Change.Therefore, shown embodiment can be performed in a different order, and some actions can perform parallel.Figure 14 and Some actions and/or operation listed in 15 are optional according to specific embodiment.The numbering of the action proposed is in order to clear Chu Qijian, rather than to provide the operation order that various actions must occur.In addition, the operation from various flows can be with each Kind combination is utilized.

In addition, in certain embodiments, machinable medium can have executable instruction, which exists It is performed so that eNB 1110 and/or hardware handles circuit 1120 perform the operation for including method 1400.Similarly, at some In embodiment, machinable medium can have executable instruction, which causes UE 1130 when executed And/or hardware handles circuit 1140 performs the operation for including method 1500.This kind of machinable medium can include any Multiple storage mediums, for example, magnetic storage medium (for example, tape or disk), optical storage media (for example, CD), Electronic saving Medium (for example, conventional hard disc drive, solid magnetic disc driver or storage medium based on flash memory) or any other is tangible Storage medium or non-transient storage media.

Figure 16 shows the exemplary components of the UE equipment 1600 according to some embodiments of the present disclosure.In some embodiments In, UE equipment 1600 can include application circuit 1602, baseband circuit 1604, the radio being at least coupled as shown in the figure Frequency (RF) circuit 1606, front-end module (FEM) circuit 1608, low power wake-up receiver (LP-WUR) and one or more Antenna 1610.In certain embodiments, UE equipment 1600 can include add ons, for example, storage/memory, display Device, video camera, sensor, and/or input/output (I/O) interface.

Application circuit 1602 can include one or more application processor.For example, application circuit 1602 can include electricity Road, such as, but not limited to：One or more single or multiple core processors.(one or more) processor can include general procedure Any combination of device and application specific processor (for example, graphics processor, application processor etc.).Processor can be with memory/deposit Storage device is coupled and/or can include storage/memory, and can be configured as execution storage/memory The instruction of middle storage is so that various applications and/or operating system can be run in system.

Baseband circuit 1604 can include circuit, such as, but not limited to：One or more single or multiple core processors.Base band Circuit 1604 can include one or more baseband processor and/or control logic, be believed with the reception handled from RF circuits 1606 The baseband signal that number path receives, and generate the baseband signal of the transmission signal path for RF circuits 1606.At base band Reason circuit 1604 can with for generate and handle baseband signal and for control RF circuits 1606 operation application circuit 1602 interfaces connect.For example, in certain embodiments, baseband circuit 1604 can include the second generation (2G) baseband processor 1604a, the third generation (3G) baseband processor 1604b, forth generation (4G) baseband processor 1604c, and/or for other existing generation (one or more) in generation, the generation in exploitation or the following generation (for example, the 5th generation (5G), 6G etc.) that will be developed other Baseband processor 1604d.Baseband circuit 1604 (for example, one or more of baseband processor 1604a to 1604d) can be located Reason supports the various radio control functions to communicate via RF circuits 1606 with one or more radio nets.Radio Control function can include but is not limited to：Signal modulation/demodulation, coding/decoding, radio frequency displacement etc..In certain embodiments, The modulation/demodulation circuit of baseband circuit 1604 can include Fast Fourier Transform (FFT) (FFT), precoding, and/or constellation mapping/ Demapping function.In certain embodiments, the coding/decoding circuit of baseband circuit 1604 can include convolution, tail biting convolution, Turbo, Viterbi, and/or low-density checksum (LDPC) coder/decoder functionalities.Modulating/demodulating and encoder/solution The embodiment of code device function is not limited to these examples, and can include other appropriate functions in other embodiments.

In certain embodiments, baseband circuit 1604 can include the key element of protocol stack, for example, EUTRAN agreements are wanted Element, it may for example comprise：Physics (PHY), M AC (MAC), radio link control (RLC), Packet Data Convergence Protocol (PDCP), and/or RRC key elements.Central processing unit (CPU) 1604e of baseband circuit 1604 can be configured as operation agreement The key element of the signaling for being used for PHY, MAC, RLC, PDCP, and/or rrc layer of stack.In certain embodiments, baseband circuit can wrap Include one or more audio digital signal processors (DSP) 1604f.(one or more) audio DSP 1604f can include using In compression/de-compression and the element of echo cancellor, and other appropriate treatment elements can be included in other embodiments. In some embodiments, the component of baseband circuit can be combined as suitable in one single chip, one single chip group or by suitably It is arranged on same circuit board.In certain embodiments, one in the composition component of baseband circuit 1604 and application circuit 1602 A little or whole components that form can be achieved, for example, on system-on-chip (SOC).

In certain embodiments, baseband circuit 1604 can provide the communication compatible with one or more radiotechnics. For example, in certain embodiments, baseband circuit 1604 can support with evolved universal terrestrial radio access network (EUTRAN) and/ Or the communication of other wireless MANs (WMAN), WLAN (WLAN), wireless personal area network (WPAN).Wherein baseband circuit 1604 are configured as supporting the embodiment of the radio communication of multiple wireless protocols can be referred to as multimode baseband circuit.

RF circuits 1606 can be supported to communicate with wireless network using modulated electromagnetic radiation by non-solid medium. In various embodiments, it is logical with wireless network to aid in can to include interchanger, wave filter, amplifier etc. for RF circuits 1606 Letter.RF circuits 1606 can include receiving signal path, it can include carrying out lower change to the RF signals received from FEM circuits Baseband signal frequently and is supplied to the circuit of baseband circuit 1604.RF circuits 1606 can also include sending signal path, its The baseband signal that can include providing baseband circuit 1604 carries out up-conversion and RF output signals is supplied to FEM circuits 1608 for transmission circuit.

In certain embodiments, RF circuits 1606 can include receiving signal path and send signal path.RF circuits 1606 reception signal path can include mixer 1606a, amplifier circuit 1606b and filter circuit 1606c.The transmission signal path of RF circuits 1606 can include filter circuit 1606c and mixer 1606a.RF circuits 1606 can also include condensating synthesizering circuit 1606d, it is used to synthesize frequency spectrum for by reception signal path and transmission signal path Mixer 1606a use.In certain embodiments, receiving the mixer 1606a of signal path can be configured Lower change is carried out to the RF signals received from FEM circuits 1608 for the frequency synthesis that are provided based on condensating synthesizering circuit 1606d Frequently.Amplifier circuit 1606b, which can be configured as, amplifies downconverted signal, and filter circuit 1606c can be by It is configured to remove unwanted signal from downconverted signal to generate the low-pass filter (LPF) or band of output baseband signal Bandpass filter (BPF).Output baseband signal can be supplied to baseband circuit 1604 for further processing.In some embodiments In, output baseband signal can be zero-frequency baseband signal, but this is not required.In certain embodiments, signal path is received Mixer 1606a can include passive frequency mixer, but the scope of embodiment is not limited in this respect.

In certain embodiments, the mixer 1606a for sending signal path can be configured as based on synthesizer electricity The frequency synthesis that road 1606d is provided carry out up-conversion to input baseband signal, are exported with the RF generated for FEM circuits 1608 Signal.Baseband signal can be provided by baseband circuit 1604 and can filtered by filter circuit 1606c.Filter circuit 1606c can include low-pass filter (LPF), but the scope of embodiment is not limited in this respect.

In certain embodiments, the mixer 1606a for receiving signal path and the frequency mixer electricity for sending signal path Road 1606a can include two or more frequency mixers, and can be arranged and be respectively used to quadrature frequency conversion and/or upper change Frequently.In certain embodiments, receive the mixer 1606a of signal path and send the mixer of signal path 1606a can include two or more frequency mixers, and can be arranged to image and suppress (for example, Hartley images press down System).In certain embodiments, receive the mixer 1606a of signal path and send the mixer of signal path 1606a, which can be arranged, is respectively used to Direct-conversion and/or Direct conversion.In certain embodiments, signal path is received Mixer 1606a and send signal path mixer 1606a can be arranged to superheterodyne operation.

In certain embodiments, it can be analog baseband signal to export baseband signal and input baseband signal, but embodiment Scope do not limited in this respect.In some alternative embodiments, it can be several to export baseband signal and input baseband signal Word baseband signal.In these alternate embodiments, RF circuits 1606 can include analog-digital converter (ADC) and digital analog converter (DAC) circuit, and baseband circuit 1604 can include the digital baseband interface that communicates with RF circuits 1606.

In some bimodulus embodiments, single radio IC (IC) circuit can be provided to handle for one Or the signal of multiple frequency spectrums, but the scope of embodiment is not limited in this respect.

In certain embodiments, condensating synthesizering circuit 1606d can be fractional N synthesizer or fraction N/N+1 synthesizers, but real The scope for applying example is not limited in this respect, because other types of frequency synthesizer is probably appropriate.For example, synthesizer is electric Road 1606d can be delta-sigma synthesizer, frequency multiplier or the synthesizer for including the phaselocked loop with frequency divider.

Condensating synthesizering circuit 1606d can be configured as based on frequency input and frequency divider control input to synthesize output frequency Rate, for being used by the mixer 1606a of RF circuits 1606.In certain embodiments, condensating synthesizering circuit 1606d can be Fraction N/N+1 synthesizers.

In certain embodiments, frequency input can be provided by voltage controlled oscillator (VCO), but this is not required.According to Desired output frequency, frequency divider control input can be provided by baseband circuit 1604 or application processor 1602.In some realities Apply in example, frequency divider control input (for example, N) can be determined from look-up table based on the channel indicated by application processor 1602.

The condensating synthesizering circuit 1606d of RF circuits 1606 can include frequency divider, delay lock loop (DLL), multiplexer and Phase accumulator.In certain embodiments, frequency divider can be dual-mode frequency divider (DMD), and phase accumulator can be several Word phase accumulator (DPA).In certain embodiments, DMD can be configured as input signal divided by N or N+1 (for example, base In carry-out) to provide score division ratio.In some example embodiments, DLL can include the tunable of one group of cascade Delay element, phase detectors, charge pump and D flip-flop.In these embodiments, delay element can be configured as The VCO cycles are at most resolved into Nd equal phases to be grouped, wherein, Nd is the number of the delay element in delay line.With this Kind mode, it is a VCO cycle that DLL, which provides negative-feedback to assist in ensuring that the total delay by delay line,.

In certain embodiments, condensating synthesizering circuit 1606d can be configured as generation carrier frequency as output frequency, and In other embodiments, output frequency can be carrier frequency several times (for example, twice of carrier frequency, the four of carrier frequency Times), and can with reference to orthogonal maker and divider circuit come use with carrier frequency generation have it is multiple each other not Multiple signals of same-phase.In certain embodiments, output frequency can be LO frequencies (fLO).In certain embodiments, RF electricity Road 1606 can include IQ/ polarity switch.

FEM circuits 1608 can include receiving signal path, it can include being configured as operation from one or more days The signal and be supplied to RF electric the signal received of amplified version that RF signals that line 1610 receives, amplification receive Road 1606 is for the circuit further handled.FEM circuits 1608 can also include sending signal path, it can include being configured It is the signal being used for transmission that is provided of amplification RF circuits 1606 with by one or more of one or more antennas 1610 day The circuit of line transmission.

In certain embodiments, FEM circuits 1608 can include transmission/reception (TX/RX) converter with sending mode Switch between reception pattern operation.FEM circuits 1608 can include receiving signal path and send signal path.FEM circuits 1608 reception signal path can include low-noise amplifier (LNA) to amplify the RF signals received, and provide through putting The big RF signals received are as (for example, to RF circuits 1606) output.The transmission signal path of FEM circuits 1608 can be with Including power amplifier (PA) to amplify (for example, being provided by RF circuits 1606) input rf signal, and one can be included Or multiple wave filters with generate be used for subsequent transmission (for example, by one or more antennas 1610) RF signals.

In certain embodiments, UE 1600 includes multiple power save mechanisms.If UE 1600 is in RRC connection status (RRC_Connected state) (wherein UE 1600 is still attached to eNB, because it is expected soon to receive flow), then UE 1600 can enter the state for being referred to as discontinuous reception pattern (DRX) after a period of time is inactive.In this state, Equipment can close in of short duration time interval, so as to save electric power.

If not having data traffic activity within the extended period, UE 1600 may be converted to RRC idle conditions (RRC_Idle state) (wherein UE 1600 is disconnected from network, and does not perform such as channel-quality feedback, switching etc Operation).The low-down state of 1600 ingoing powers of UE and paging is performed, wherein UE 1600 periodically wakes up to receive again Auditory network and then power off again.Since equipment may not receive data in this condition, in order to receive data, equipment RRC connection status should be converted back.

Additional power saving mode can allow equipment being longer than the period of paging interval (from several seconds to a few houres) It is interior unavailable for network.During this period, equipment cannot connect to network completely, and can be fully powered-off.Send out during this period Any data sent can all produce larger delay, and assume that the delay is acceptable.

Reference meaning in specification to " embodiment ", " one embodiment ", " some embodiments " or " other embodiment " The a particular feature, structure, or characteristic described in conjunction with the embodiments to be included at least some embodiments, but be not necessarily institute There is embodiment.The various statements of " embodiment ", " one embodiment " or " some embodiments " are not necessarily all referring to identical implementation Example.If specification state " can with ", " possibility " or " can " include component, feature, structure or characteristic, necessarily wrap Include the specific components, feature, structure or characteristic.If specification or claim quote "a" or "an" element, not Mean an only element.If specification or claim quote " additional " element, multiple additional members are not excluded the presence of Element.

In addition, in one or more embodiments, special characteristic, structure, function or characteristic can be with any suitable sides Formula combines.For example, first embodiment can be combined with second embodiment, wherein special characteristic relevant with two embodiments, knot Structure, function or characteristic be not mutually exclusive.

Although having been combined specific embodiment describes the disclosure, those of ordinary skill in the art are according to above Many replacements, the modifications and variations of these embodiments are known in description by showing.For example, other memory architectures are (for example, dynamic ram (DRAM)) discussed embodiment can be used.Embodiment of the disclosure is intended to fall into the extensive model of appended claims All these replacements, modifications and variations in enclosing.

In addition, in order to illustrate the simplicity with discussion and in order not to obscure the disclosure, integrated circuit (IC) chip and its Conventional power source/grounding connection of his component can show in shown attached drawing or not show.In addition, in order to avoid obscuring this public affairs Open, and in view of the fact that the details on the realization of this kind of block diagram arrangement is highly dependent on the platform that the wherein disclosure is implemented (that is, these details should be known to those skilled in the art), can show to arrange in block diagram form.In sets forth specific details In the case that (for example, circuit) is to describe the example embodiment of the disclosure, it should be apparent to those skilled in the art that can be with Implementing the disclosure without these details or in the case of the variation with these details.Therefore description is considered It is illustrative and not restrictive.

The example below is related to further embodiment.Details in example can be in one or more embodiments it is any Place uses.All optional features of device described herein can also be realized for method or process.

Example 1 provides the enode that one kind can be used to communicate with user equipment (UE) on a wireless network The device of B (eNB), including：One or more processors, are used for：Foundation is connected with the radio resource control (RRC) of UE；Place The transmission from UE is managed, the one or more services supported by UE which is listed in radio honeycomb communication system bandwidth are special Determine resource partitioning；And generation is sent for the zone configuration of UE, it is specific which sends the one or more services of configuration Resource partitioning.

In example 2, the device of example 1, wherein one or more service specific resources subregions are directed in the following At least one, which has, is different from the resource block definition that tradition LTE resource blocks define：Subcarrier spacing, transmission time interval (TTI), The quantity of Orthogonal Frequency Division Multiplexing (OFDM) symbol of each TTI, the quantity of the subcarrier of each resource block (RB), the band of each RB The quantity or circulating prefix-length of the resource element (RE) of wide, each RB.

In example 3, the device of any one of example 1 or 2, wherein one or more service specific resources subregions are auxiliary Subregion；Wherein one or more processors are used to during the system information block (SIB) for UE in main partition is sent generate to close The resource allocation information of at least one subpartition in subpartition.

In example 4, the device of any one of example 1 to 3, wherein one or more processors are used to generate for UE's The special Physical Broadcast Channel of resource partitioning (PBCH) is sent.

In example 5, the device of any one of example 1 to 4, wherein one or more processors are used to expand in the first covering Sent under the latitude of emulsion with the first repetitive rate come the multiple Physical Broadcast Channel PBCH generated for UE；Wherein one or more processors For second covering divergence under with the second repetitive rate come generate go to UE multiple PBCH send；Wherein second covering extension Degree is more than the first covering divergence；And wherein the second repetitive rate is more than the first repetitive rate.

In example 6, the device of any one of example 1 to 5, wherein one or more processors are used for specific for servicing One in resource partitioning services specific resources subregion to generate the extending physical downlink control channels for UE (xPDCCH) set sent；And the set that wherein xPDCCH is sent includes at least one in the following：Service specific The resource block type of resource partitioning；Service the resource allocation of specific resources subregion；Or accurate subregion particular channel state information side by side Reference signal (CSI-RS) configures.

In example 7, the device of any one of example 1 to 6, wherein one or more processors are used to generate for UE's The request of primary resource subregion is sent；And wherein primary resource subregion request sends at least one included in the following：Service is special Determine the resource block type of resource partitioning；Define synchronizing signal (SS) ID of partition id；The Physical Broadcast Channel (PBCH) of support covers Lid divergence；The resource allocation sent for SS and PBCH；Or subregion particular channel state information reference signal (CSI-RS) is matched somebody with somebody Put.

Example 8 provides a kind of eNB equipment, including：Application processor；Memory；One or more antenna ports；And Interface, for allowing application processor to communicate with another equipment；ENB equipment includes the dress according to any one of example 1 to 7 Put.

Example 9 provides a kind of machinable medium with machine-executable instruction, and machine-executable instruction exists It is performed so that one or more processors perform operation, operation includes：The nothing with UE is established for enode b (eNB) Line electric resources control (RRC) connection；The transmission from UE is handled, the wherein transmission is listed in radio honeycomb communication system bandwidth The one or more service specific resources subregions supported by UE；And generation is sent for the zone configuration of UE, the zone configuration Send the one or more service specific resources subregions of configuration.

In example 10, the machinable medium of example 9, wherein one or more service specific resources subregions are directed to At least one in the following has the resource block definition defined different from tradition LTE resource blocks：When subcarrier spacing, transmission Between be spaced (TTI), the quantity of Orthogonal Frequency Division Multiplexing (OFDM) symbol of each TTI, each resource block (RB) subcarrier number Amount, the bandwidth of each RB, each RB resource element (RE) quantity or circulating prefix-length.

In example 11, the machinable medium of any one of example 9 or 10, wherein one or more services are specific Resource partitioning is subpartition, and operation includes：During system information block (SIB) for UE in main partition is sent generation on The resource allocation information of at least one subpartition in subpartition.

In example 12, the machinable medium of any one of example 9 to 11, operation includes：Generation is for UE's The special Physical Broadcast Channel of resource partitioning (PBCH) is sent.

In example 13, the machinable medium of any one of example 9 to 12, operation includes：Expand in the first covering Sent under the latitude of emulsion with the first repetitive rate come the multiple Physical Broadcast Channel PBCH generated for UE；And cover divergence second Under with the second repetitive rate come generate go to UE multiple PBCH send, wherein second covering divergence be more than first covering extend Degree, and wherein the second repetitive rate is more than the first repetitive rate.

In example 14, the machinable medium of any one of example 9 to 13, operation includes：It is specific for servicing One in resource partitioning services specific resources subregion to generate the extending physical downlink control channels for UE (xPDCCH) set sent, the set that wherein xPDCCH is sent include at least one in the following：Service specific resources The resource block type of subregion；Service the resource allocation of specific resources subregion；Or accurate subregion particular channel state information reference side by side Signal (CSI-RS) configures.

In example 15, the machinable medium of any one of example 9 to 14, operation includes：Generation is for UE's The request of primary resource subregion is sent；Wherein primary resource subregion request sends at least one included in the following：Service specific money The resource block type of source partition；Define synchronizing signal (SS) ID of partition id；Physical Broadcast Channel (PBCH) covering of support is expanded The latitude of emulsion；The resource allocation sent for SS and PBCH；Or subregion particular channel state information reference signal (CSI-RS) configuration.

Example 16 provides a method that, including：The radio resource control with UE is established for enode b (eNB) (RRC) connect；The transmission from UE is handled, the wherein transmission is listed in one supported in radio honeycomb communication system bandwidth by UE A or multiple service specific resources subregions；Generation is sent for the zone configuration of UE, and wherein the zone configuration sends configuration one Or multiple service specific resources subregions.

In example 17, the method for example 16, wherein one or more service specific resources subregions are directed in the following At least one of have and be different from the resource block that defines of tradition LTE resource blocks and define：Subcarrier spacing, transmission time interval (TTI), the quantity of Orthogonal Frequency Division Multiplexing (OFDM) symbol of each TTI, each resource block (RB) subcarrier quantity, each The bandwidth of RB, each RB resource element (RE) quantity or circulating prefix-length.

In example 18, the method for any one of example 16 or 17, wherein one or more, which service specific resources subregions, is Subpartition, method include：Generation is in subpartition during the system information block (SIB) for UE in main partition is sent At least one subpartition resource allocation information.

In example 19, the method for any one of example 16 to 18, method includes：Generation is special for the resource partitioning of UE Physical Broadcast Channel (PBCH) is sent.

In example 20, the method for any one of example 16 to 19, method includes：With first under the first covering divergence Repetitive rate sends come the multiple Physical Broadcast Channel PBCH generated for UE；And repeated under the second covering divergence with second Rate is gone to multiple PBCH of UE and is sent to generate, wherein the second covering divergence is more than the first covering divergence, and wherein the Two repetitive rates are more than the first repetitive rate.

In example 21, the method for any one of example 16 to 20, method includes：For in service specific resources subregion One services specific resources subregion to generate the set of extending physical downlink control channels (xPDCCH) transmission for UE, The set that wherein xPDCCH is sent includes at least one in the following：Service the resource block type of specific resources subregion；Clothes The resource allocation of business specific resources subregion；Or accurate subregion particular channel state information reference signal (CSI-RS) configuration side by side.

In example 22, the method for any one of example 16 to 21, method includes：Generation please for the primary resource subregion of UE Ask transmission；Wherein primary resource subregion request sends at least one included in the following：Service the resource of specific resources subregion Block type；Define synchronizing signal (SS) ID of partition id；Physical Broadcast Channel (PBCH) the covering divergence of support；For SS and The resource allocation that PBCH is sent；Or subregion particular channel state information reference signal (CSI-RS) configuration.

Example 23 provides a kind of machinable medium for being stored with machine-executable instruction on it, which can Execute instruction causes one or more processors to perform the method according to any one of example 16 to 22 when executed.

Example 24 provides the evolution section that one kind can be used to communicate with user equipment (UE) on a wireless network The equipment of point B (eNB), including：For establishing the device being connected with the radio resource control (RRC) of UE；Come from for handling The device of the transmission of UE, it is specific which is listed in the one or more service supported in radio honeycomb communication system bandwidth by UE Resource partitioning；The device sent for the zone configuration generated for UE, the zone configuration send the one or more services of configuration Specific resources subregion.

In example 25, the equipment of example 24, wherein one or more service specific resources subregions are directed in the following At least one of have and be different from the resource block that defines of tradition LTE resource blocks and define：Subcarrier spacing, transmission time interval (TTI), the quantity of Orthogonal Frequency Division Multiplexing (OFDM) symbol of each TTI, each resource block (RB) subcarrier quantity, each The bandwidth of RB, each RB resource element (RE) quantity or circulating prefix-length.

In example 26, the equipment of any one of example 24 or 25, wherein one or more, which service specific resources subregions, is Subpartition, equipment include：Generation is on auxiliary point in being sent for the system information block (SIB) for UE in main partition The device of the resource allocation information of at least one subpartition in area.

In example 27, the equipment of any one of example 24 to 26, equipment includes：For generating the resource partitioning for UE The device that special Physical Broadcast Channel (PBCH) sends.

In example 28, the equipment of any one of example 24 to 27, equipment includes：For first covering divergence under with First repetitive rate come generate for UE multiple Physical Broadcast Channel PBCH transmission device；And in the second covering extension The device for the multiple PBCH transmissions for going to UE is generated under degree with the second repetitive rate, wherein the second covering divergence is covered more than first Lid divergence, and wherein the second repetitive rate is more than the first repetitive rate.

In example 29, the equipment of any one of example 24 to 28, equipment includes：For for service specific resources subregion In one service specific resources subregion come generate for UE extending physical downlink control channels (xPDCCH) transmission The set that the device of set, wherein xPDCCH are sent includes at least one in the following：Service the money of specific resources subregion Source block type；Service the resource allocation of specific resources subregion；Or accurate subregion particular channel state information reference signal (CSI- side by side RS) configure.

In example 30, the equipment of any one of example 24 to 29, equipment includes：For generating the primary resource point for UE The device that area's request is sent；Wherein primary resource subregion request sends at least one included in the following：Service specific resources The resource block type of subregion；Define synchronizing signal (SS) ID of partition id；Physical Broadcast Channel (PBCH) the covering extension of support Degree；The resource allocation sent for SS and PBCH；Or subregion particular channel state information reference signal (CSI-RS) configuration.

Example 31 provides the user that one kind can be used to communicate with enode b (eNB) on a wireless network The device of equipment (UE), including：One or more processors, are used for：Foundation is connected with the radio resource control (RRC) of eNB； Generation is supported to send for the subregion of eNB, and wherein subregion supports transmission to be listed in radio honeycomb communication system bandwidth by UE branch The one or more service specific resources subregions held；And the subregion of the one or more service specific resources subregions of processing configuration is matched somebody with somebody Put transmission.

In example 32, the device of example 31, wherein one or more service specific resources subregions are directed in the following At least one of have and be different from the resource block that defines of tradition LTE resource blocks and define：Subcarrier spacing, transmission time interval (TTI), the quantity of Orthogonal Frequency Division Multiplexing (OFDM) symbol of each TTI, each resource block (RB) subcarrier quantity, each The bandwidth of RB, each RB resource element (RE) quantity or circulating prefix-length.

In example 33, the device of any one of example 31 or 32, wherein one or more, which service specific resources subregions, is Subpartition；And wherein one or more processors are used to handle system information block (SIB) transmission from eNB, SIB is sent Including the resource allocation information at least one subpartition in subpartition.

In example 34, the device of any one of example 31 to 33, wherein one or more processors come from for processing The special Physical Broadcast Channel of resource partitioning (PBCH) of eNB is sent.

In example 35, the device of any one of example 31 to 34, wherein one or more processors are used to cover first Sent under lid divergence with the first repetitive rate to handle a Physical Broadcast Channel (PBCH) more than first from eNB；One of them Or multiple processors are used to send out to handle a PBCH more than second from eNB with the second repetitive rate under the second covering divergence Send；Wherein second covering divergence is more than the first covering divergence；And wherein the second repetitive rate is more than the first repetitive rate.

In example 36, the device of any one of example 31 to 35, wherein one or more processors come from for processing The extending physical downlink control channels for a service specific resources subregion in service specific resources subregion of eNB (xPDCCH) set sent；And the set that wherein xPDCCH is sent includes at least one in the following：Service specific The resource block type of resource partitioning；Service the resource allocation of specific resources subregion；Or accurate subregion particular channel state information side by side Reference signal (CSI-RS) configures.

In example 37, the device of any one of example 31 to 36, wherein one or more processors come from for processing The primary resource subregion request of eNB is sent；And wherein primary resource subregion request sends at least one included in the following：Clothes The resource block type of business specific resources subregion；Define synchronizing signal (SS) ID of partition id；The Physical Broadcast Channel of support (PBCH) divergence is covered；The resource allocation sent for SS and PBCH；Or subregion particular channel state information reference signal (CSI-RS) configure.

Example 38 provides a kind of UE equipment, including：Application processor；Memory；One or more antennas；Wirelessly connect Mouthful, for allowing application processor to communicate with another equipment；And touch-screen display；UE equipment is included according to example 31 To any one of 37 device.

Example 39 provides a kind of machinable medium with machine-executable instruction, and machine-executable instruction exists It is performed so that one or more processors perform operation, operation includes：For user equipment (UE) foundation and enode b (eNB) radio resource control (RRC) connection)；Generation is supported to send for the subregion of eNB, and subregion supports transmission to be listed in The one or more service specific resources subregions supported in radio honeycomb communication system bandwidth by UE；And processing configuration one or The zone configuration of multiple service specific resources subregions is sent.

In example 40, the machinable medium of example 39, wherein one or more service specific resources subregion tools Have to have at least one in the following and be different from the resource block definition that tradition LTE resource blocks define：Subcarrier spacing, Transmission time interval (TTI), the quantity of Orthogonal Frequency Division Multiplexing (OFDM) symbol of each TTI, the son of each resource block (RB) carry The quantity of ripple, the bandwidth of each RB, each RB resource element (RE) quantity or circulating prefix-length.

In example 41, the machinable medium of any one of example 39 or 40, wherein one or more services spy It is subpartition to determine resource partitioning, and operation includes：Handle the system information block (SIB) from eNB to send, which, which sends, includes Resource allocation information at least one subpartition in subpartition.

In example 42, the machinable medium of any one of example 39 to 41, operation includes：Processing is from eNB's The special Physical Broadcast Channel of resource partitioning (PBCH) is sent.

In example 43, the machinable medium of any one of example 39 to 42, operation includes：In the first covering extension Sent under degree with the first repetitive rate to handle a Physical Broadcast Channel (PBCH) more than first from eNB；And in the second covering Sent under divergence with the second repetitive rate to handle a PBCH more than second from eNB；Wherein second covering divergence is more than the One covering divergence；And wherein the second repetitive rate is more than the first repetitive rate.

In example 44, the machinable medium of any one of example 39 to 43, operation includes：Processing is from eNB's For the extending physical downlink control channels of a service specific resources subregion in service specific resources subregion (xPDCCH) set sent, the set that wherein xPDCCH is sent include at least one in the following：Service specific resources The resource block type of subregion；Service the resource allocation of specific resources subregion；Or accurate subregion particular channel state information reference side by side Signal (CSI-RS) configures.

In example 45, the machinable medium of any one of example 39 to 44, operation includes：Processing is from eNB's The request of primary resource subregion is sent, and wherein primary resource subregion request sends at least one included in the following：Service specific money The resource block type of source partition；Define synchronizing signal (SS) ID of partition id；Physical Broadcast Channel (PBCH) covering of support is expanded The latitude of emulsion；The resource allocation sent for SS and PBCH；Or subregion particular channel state information reference signal (CSI-RS) configuration.

Example 46 provides a method that, including：Established for user equipment (UE) wireless with enode b (eNB) Electric resources control (RRC) connection；Generation is supported to send for the subregion of eNB, and subregion supports transmission to be listed in radio honeycomb communication The one or more service specific resources subregions supported in system bandwidth by UE；And the one or more services of processing configuration are specific The zone configuration of resource partitioning is sent.

In example 47, the method for example 46, wherein one or more service specific resources subregions are directed in the following At least one of have and be different from the resource block that defines of tradition LTE resource blocks and define：Subcarrier spacing, transmission time interval (TTI), the quantity of Orthogonal Frequency Division Multiplexing (OFDM) symbol of each TTI, each resource block (RB) subcarrier quantity, each The bandwidth of RB, each RB resource element (RE) quantity or circulating prefix-length.

In example 48, the method for any one of example 46 or 47, wherein one or more, which service specific resources subregions, is Subpartition, operation include：Handle the system information block (SIB) from eNB to send, which, which sends, is included on subpartition In at least one subpartition resource allocation information.

In example 49, the method for any one of example 46 to 48, method includes：It is special to handle the resource partitioning from eNB Physical Broadcast Channel (PBCH) is sent.

In example 50, the method for any one of example 46 to 49, method includes：With the first weight under the first covering divergence Multiple rate sends to handle a Physical Broadcast Channel (PBCH) more than first from eNB；And with the under the second covering divergence Two repetitive rates send to handle a PBCH more than second from eNB；Wherein second covering divergence is more than the first covering divergence； And wherein the second repetitive rate is more than the first repetitive rate.

In example 51, the method for any one of example 46 to 50, method includes：Processing is specific for servicing from eNB The set that the extending physical downlink control channels (xPDCCH) of a service specific resources subregion in resource partitioning are sent, The set that wherein xPDCCH is sent includes at least one in the following：Service the resource block type of specific resources subregion；Clothes The resource allocation of business specific resources subregion；Or accurate subregion particular channel state information reference signal (CSI-RS) configuration side by side.

In example 52, the method for any one of example 46 to 51, method includes：Handling the primary resource subregion from eNB please Transmission is asked, wherein primary resource subregion request sends at least one included in the following：Service the resource of specific resources subregion Block type；Define synchronizing signal (SS) ID of partition id；Physical Broadcast Channel (PBCH) the covering divergence of support；For SS and The resource allocation that PBCH is sent；Or subregion particular channel state information reference signal (CSI-RS) configuration.

Example 53 provides a kind of machinable medium for being stored with machine-executable instruction on it, which can Execute instruction causes one or more processors to perform the method according to any one of example 46 to 52 when executed.

Example 54 provides the user that one kind can be used to communicate with enode b (eNB) on a wireless network The equipment of equipment (UE), including：For establishing the device being connected with the radio resource control (RRC) of eNB；It is directed to for generating The subregion of eNB supports the device sent, and subregion is supported to send one for being listed in and being supported by UE in radio honeycomb communication system bandwidth A or multiple service specific resources subregions；And the zone configuration of one or more service specific resources subregions is configured for handling The device of transmission.

In example 55, the equipment of example 54, wherein one or more service specific resources subregions are directed in the following At least one of have and be different from the resource block that defines of tradition LTE resource blocks and define：Subcarrier spacing, transmission time interval (TTI), the quantity of Orthogonal Frequency Division Multiplexing (OFDM) symbol of each TTI, each resource block (RB) subcarrier quantity, each The bandwidth of RB, each RB resource element (RE) quantity or circulating prefix-length.

In example 56, the equipment of any one of example 54 or 55, wherein one or more, which service specific resources subregions, is Subpartition, equipment include：The device sent for handling the system information block (SIB) from eNB, which, which sends, includes closing The resource allocation information of at least one subpartition in subpartition.

In example 57, the equipment of any one of example 54 to 56, equipment includes：For handling the resource partitioning from eNB The device that special Physical Broadcast Channel (PBCH) sends.

In example 58, the equipment of any one of example 54 to 57, equipment includes：For under the first covering divergence with the One repetitive rate handles the device that a Physical Broadcast Channel (PBCH) sends more than first from eNB；And for being covered second The device that a PBCH is sent more than second from eNB is handled with the second repetitive rate under lid divergence；Wherein second covering extension Degree is more than the first covering divergence；And wherein the second repetitive rate is more than the first repetitive rate.

In example 59, the equipment of any one of example 54 to 58, equipment includes：For handling service is directed to from eNB What the extending physical downlink control channels (xPDCCH) of a service specific resources subregion in specific resources subregion were sent The set that the device of set, wherein xPDCCH are sent includes at least one in the following：Service the money of specific resources subregion Source block type；Service the resource allocation of specific resources subregion；Or accurate subregion particular channel state information reference signal (CSI- side by side RS) configure.

In example 60, the equipment of any one of example 54 to 59, equipment includes：For handling the primary resource from eNB point The device that area's request is sent, wherein primary resource subregion request send at least one included in the following：Service specific resources The resource block type of subregion；Define synchronizing signal (SS) ID of partition id；Physical Broadcast Channel (PBCH) the covering extension of support Degree；The resource allocation sent for SS and PBCH；Or subregion particular channel state information reference signal (CSI-RS) configuration.

In example 61, the device of any one of example 1 to 7,24 to 30,31 to 37 and 54 to 60, wherein, one or Multiple processors include baseband processor.

Summary is provided to allow reader to determine property disclosed in technology and main points.The summary is not to be used for limitation power It is submitted in the case of scope or implication that profit requires.Following claim is hereby incorporated into detailed description, wherein often A claim is used as single embodiment in itself.

Claims (24)

1. one kind can be used to the device of the enode b (eNB) to communicate on a wireless network with user equipment (UE), Including：

One or more processors, are used for：

Foundation is connected with the radio resource control (RRC) of UE；

The transmission from the UE is handled, wherein the transmission is listed and supported in radio honeycomb communication system bandwidth by the UE One or more service specific resources subregions；And

Generation is sent for the zone configuration of the UE, and the zone configuration sends the one or more of specific moneys of service of configuration Source partition.

2. device according to claim 1,

Wherein one or more of service specific resources subregions have at least one in the following is different from tradition The resource block definition that LTE resource blocks define：Subcarrier spacing, transmission time interval (TTI), the Orthogonal Frequency Division Multiplexing of each TTI (OFDM) quantity of symbol, the quantity of subcarrier of each resource block (RB), the bandwidth of each RB, the resource element of each RB (RE) quantity or circulating prefix-length.

3. device according to claim 1,

Wherein one or more of service specific resources subregions are subpartitions；

Wherein one or more of processors are used in system information block (SIB) transmission for the UE in main partition Generate the resource allocation information at least one subpartition in the subpartition.

4. device according to claim 1,

Wherein one or more of processors are used to generate the special Physical Broadcast Channel of resource partitioning for the UE (PBCH) send.

5. device according to claim 1,

Wherein one or more of processors be used under the first covering divergence with the first repetitive rate come generate be directed to it is described Multiple Physical Broadcast Channel PBCH of UE are sent；

Wherein one or more of processors be used under the second covering divergence with the second repetitive rate come generate go to it is described The multiple PBCH of UE is sent；

Wherein described second covering divergence is more than the described first covering divergence；And

Wherein described second repetitive rate is more than first repetitive rate.

6. device according to claim 1,

Wherein one or more of processors are used for for a service specific resources in the service specific resources subregion Subregion come generate for the UE extending physical downlink control channels (xPDCCH) transmission set；And

The set that wherein described xPDCCH is sent includes one or more of the following items：The service specific resources subregion Resource block type；The resource allocation of the service specific resources subregion；Or accurate subregion particular channel state information reference letter side by side Number (CSI-RS) configuration.

7. device according to claim 1,

Wherein one or more of processors are used to generate the primary resource subregion request transmission for the UE；And

Wherein described primary resource subregion request, which is sent, includes one or more of the following items：The service specific resources subregion Resource block type；Define synchronizing signal (SS) ID of partition id；Physical Broadcast Channel (PBCH) the covering divergence of support；Pin The resource allocation sent to SS and PBCH；Or subregion particular channel state information reference signal (CSI-RS) configuration.

8. a kind of eNB equipment, including：Application processor；Memory；One or more antenna ports；And interface, for allowing The application processor communicates with another equipment；The eNB equipment is included according to any one of claim 1 to 7 Device.

9. a kind of machinable medium with machine-executable instruction, the machine-executable instruction make when executed Obtain one or more processors and perform operation, the operation includes：

Establish for enode b (eNB) and be connected with the radio resource control (RRC) of UE；

The transmission from the UE is handled, wherein the transmission is listed and supported in radio honeycomb communication system bandwidth by the UE One or more service specific resources subregions；And

Generation is sent for the zone configuration of the UE, and the zone configuration sends the one or more of specific moneys of service of configuration Source partition.

10. machinable medium according to claim 9, wherein one or more of service specific resources subregions Have at least one in the following and be different from the resource block definition that tradition LTE resource blocks define：Subcarrier spacing, hair Send time interval (TTI), the quantity of Orthogonal Frequency Division Multiplexing (OFDM) symbol of each TTI, the subcarrier of each resource block (RB) Quantity, the bandwidth of each RB, each RB resource element (RE) quantity or circulating prefix-length.

11. the machinable medium according to any one of claim 9 or 10, wherein one or more of services Specific resources subregion is subpartition, and the operation includes：

In main partition for the UE system information block (SIB) send in generation in the subpartition at least The resource allocation information of one subpartition.

12. the machinable medium according to any one of claim 9 or 10, the operation includes：

Generation is sent for the special Physical Broadcast Channel of resource partitioning (PBCH) of the UE.

13. one kind can be used to the dress of the user equipment (UE) to communicate on a wireless network with enode b (eNB) Put, including：

One or more processors, are used for：

Foundation is connected with the radio resource control (RRC) of eNB；

Generation is supported to send for the subregion of the eNB, wherein the subregion supports transmission to list radio honeycomb communication system band The one or more service specific resources subregions supported by the UE in width；And

The zone configuration of the one or more of service specific resources subregions of processing configuration is sent.

14. device according to claim 13,

Wherein one or more of service specific resources subregions have at least one in the following is different from tradition The resource block definition that LTE resource blocks define：Subcarrier spacing, transmission time interval (TTI), the Orthogonal Frequency Division Multiplexing of each TTI (OFDM) quantity of symbol, the quantity of subcarrier of each resource block (RB), the bandwidth of each RB, the resource element of each RB (RE) quantity or circulating prefix-length.

15. device according to claim 13,

Wherein one or more of service specific resources subregions are subpartitions；And

Wherein one or more of processors are used to handle system information block (SIB) transmission from the eNB, the SIB Send the resource allocation information included at least one subpartition in the subpartition.

16. device according to claim 13,

Wherein one or more of processors are used to handle the special Physical Broadcast Channel of resource partitioning from the eNB (PBCH) send.

17. device according to claim 13,

Wherein one or more of processors be used under the first covering divergence with the first repetitive rate come handle come from it is described A Physical Broadcast Channel (PBCH) sends more than the first of eNB；

Wherein one or more of processors be used under the second covering divergence with the second repetitive rate come handle come from it is described A PBCH is sent more than the second of eNB；

Wherein described second covering divergence is more than the described first covering divergence；And

Wherein described second repetitive rate is more than first repetitive rate.

18. device according to claim 13,

Wherein one or more of processors are used to handle being serviced for described in specific resources subregion from the eNB The set that the extending physical downlink control channels (xPDCCH) of one service specific resources subregion are sent；And

The set that wherein described xPDCCH is sent includes at least one in the following：The money of the service specific resources subregion Source block type；The resource allocation of the service specific resources subregion；Or accurate subregion particular channel state information reference signal side by side (CSI-RS) configure.

19. device according to claim 13,

Wherein one or more of processors are used to handle the primary resource subregion request from the eNB and send；And

Wherein described primary resource subregion request sends at least one included in the following：The service specific resources subregion Resource block type；Define synchronizing signal (SS) ID of partition id；Physical Broadcast Channel (PBCH) the covering divergence of support；For The resource allocation that SS and PBCH is sent；Or subregion particular channel state information reference signal (CSI-RS) configuration.

20. a kind of UE equipment, including：Application processor；Memory；One or more antennas；Wave point, it is described for allowing Application processor communicates with another equipment；And touch-screen display；The UE equipment include according to claim 13 to Device any one of 19.

21. a kind of machinable medium with machine-executable instruction, the machine-executable instruction is when executed So that one or more processors perform operation, the operation includes：

Establish for user equipment (UE) and be connected with the radio resource control (RRC) of enode b (eNB)；

Generation is supported to send for the subregion of the eNB, wherein the subregion supports transmission to list radio honeycomb communication system band The one or more service specific resources subregions supported by the UE in width；And

The zone configuration of the one or more of service specific resources subregions of processing configuration is sent.

22. machinable medium according to claim 21,

Wherein one or more of service specific resources subregions have at least one in the following is different from tradition The resource block definition that LTE resource blocks define：Subcarrier spacing, transmission time interval (TTI), the Orthogonal Frequency Division Multiplexing of each TTI (OFDM) quantity of symbol, the quantity of subcarrier of each resource block (RB), the bandwidth of each RB, the resource element of each RB (RE) quantity or circulating prefix-length.

23. the machinable medium according to claim 21 or 22, wherein one or more of specific moneys of service Source partition is subpartition, and the operation includes：

Handle the system information block (SIB) from the eNB to send, the SIB, which is sent, to be included in the subpartition The resource allocation information of at least one subpartition.

24. the machinable medium according to any one of claim 21 or 22, the operation includes：

The special Physical Broadcast Channel of resource partitioning (PBCH) from the eNB is handled to send.