CN107734665A - Resource instruction, determine method and device, network side equipment and mobile communication terminal - Google Patents

Abstract

The invention discloses a kind of instruction of resource, method and device, network side equipment and mobile communication terminal are determined, the resource indicating method, for network side equipment, the resource indicating method includes：Determine the frequency domain character of a transfer resource for being designated as down control channel distribution and the resource location instruction parameter of temporal signatures；Transmit the resource location and indicate that parameter determines the transfer resource to mobile communication terminal, instruction mobile communication terminal according to the frequency domain character indicated by resource location instruction parameter and temporal signatures.The present invention is time-multiplexed from Traffic Channel, and the angle of frequency division multiplexing and the multiplexing of discrete time-frequency gives the Resource Allocation Formula of down control channel, can solve the problem that due to TTI shorten may caused by subproblem.

Description

Resource instruction, determine method and device, network side equipment and mobile communication terminal

Technical field

The present invention relates to mobile communication, particularly a kind of resource instruction, method and device, network side equipment and movement are determined Communication terminal.

Background technology

In LTE (Long Term Evolution, Long Term Evolution) system, pass through PDCCH (Physical Downlink Control Channel, Physical Downlink Control Channel) PDSCH corresponding to instruction UE (User Equipment, user equipment) (Physical Downlink Shared Channel Physical Downlink Shared Channels) and PUSCH (Physical Uplink Shared Channel, Physical Uplink Shared Channel) position, transformat and power information in subframe etc..

UE sends data by reading the control information in PDCCH with correct demodulation.Got over now with delay requirement Come higher, either TDD ((Time Division Duplexing, time division multiplexing), or FDD ((Frequency Division Duplexing, frequency division multiplexing), all have determined the TTI (Transfer that the duration can be supported shorter Time Interval, Transmission Time Interval).

Existing PDCCH be each sub-frame transmission once, positioned at the original position of subframe.It is but shorter for the duration TTI, i.e. sTTI, industry is also without PDCCH design at present.

The content of the invention

In the embodiment of the present invention, it is time-multiplexed from Traffic Channel, the angle of frequency division multiplexing and the multiplexing of discrete time-frequency provides The Resource Allocation Formula of down control channel, can solve the problem that due to TTI shorten may caused by subproblem.

To achieve the above object, it is described for network side equipment the embodiments of the invention provide a kind of resource indicating method Resource indicating method includes：

Determine the frequency domain character for transfer resource and the resource location of temporal signatures for being designated as down control channel distribution Indicate parameter；

Transmit the resource location and indicate parameter to mobile communication terminal, instruction mobile communication terminal is according to the resource-niche Put the frequency domain character indicated by instruction parameter and temporal signatures determine the transfer resource.

To achieve the above object, the embodiment of the present invention additionally provides a kind of resource determining method, for mobile communication terminal, The resource determining method includes：

Resource location instruction parameter is received from network side；

Frequency domain according to the transfer resource for down control channel distribution indicated by resource location instruction parameter is special Temporal signatures of seeking peace determine the transfer resource.

To achieve the above object, the embodiment of the present invention additionally provides a kind of resource instruction device, for network side equipment, institute Stating resource instruction device includes：

Parameter determination module is indicated, for determining the frequency domain character of a transfer resource for being designated as down control channel distribution Parameter is indicated with the resource location of temporal signatures；

Parameter transport module is indicated, indicates parameter to mobile communication terminal, instruction movement for transmitting the resource location Communication terminal determines the transfer resource according to the frequency domain character indicated by resource location instruction parameter and temporal signatures.

To achieve the above object, the embodiment of the present invention additionally provides a kind of resource determining device, for mobile communication terminal, The resource determining device includes：

Frequency domain parameter receiving module, for receiving resource location instruction parameter from network side；

First resource determining module, for indicating that indicated by parameter be down control channel point according to the resource location The frequency domain character and temporal signatures for the transfer resource matched somebody with somebody determine the transfer resource.

To achieve the above object, the embodiment of the present invention additionally provides a kind of resource indicating method, for network side equipment, institute Stating resource indicating method includes：

It is that down control channel distributes original transmitted resource based on reference transmission resource collection；

The distribution instruction of one first resource is determined in the distribution of reference transmission resource collection according to the original transmitted resource；

Resource impact rule between the actual transmissions resource collection and reference transmission resource collection that are used according to current scheduling Then, determine in the actual transmissions resource collection to be actually the object transmission resource of down control channel distribution；

Transmit the first resource distribution instruction and arrive mobile communication terminal, by the mobile communication terminal according to described first Resource distribution instruction determines the original transmitted resource, and determines the actual transmissions resource set according to resource impact rule The object transmission resource in conjunction.

To achieve the above object, the embodiment of the present invention additionally provides a kind of resource determining method, for mobile communication terminal, The resource determining method includes：

First resource distribution instruction is received from network side；

The original transmitted resource distributed according to the first resource in instruction determination reference transmission resource collection；

According to the resource impact rule between the actual transmissions resource collection and reference transmission resource collection, it is determined that described It is corresponding with the original transmitted resource in actual transmissions resource collection, by the actual mesh for down control channel distribution of network side Mark transfer resource.

To achieve the above object, the embodiment of the present invention additionally provides a kind of resource instruction device, for network side equipment, institute Stating resource instruction device includes：

Distribute module, for being that down control channel distributes original transmitted resource based on reference transmission resource collection；

First instruction determining module, for being determined according to distribution of the original transmitted resource in reference transmission resource collection The distribution instruction of one first resource；

First mapping block, for the actual transmissions resource collection and reference transmission resource set used according to current scheduling Resource impact rule between conjunction, determine that the target in the actual transmissions resource collection actually for down control channel distribution passes Defeated resource；

First instruction transport module, mobile communication terminal is arrived for transmitting the first resource distribution instruction, by the shifting Mobile communication terminal distributes instruction according to the first resource and determines the original transmitted resource, and according to resource impact rule Determine the object transmission resource in the actual transmissions resource collection.

To achieve the above object, the embodiment of the present invention additionally provides a kind of resource determining device, for mobile communication terminal, The resource determining device includes：

First instruction receiving module, for receiving first resource distribution instruction from network side；

Original transmitted resource determination module, reference transmission resource collection is determined for distributing instruction according to the first resource In original transmitted resource；

Second mapping block, for according to the resource between the actual transmissions resource collection and reference transmission resource collection Mapping ruler, determine it is corresponding with the original transmitted resource in the actual transmissions resource collection, by network side it is actual be under The object transmission resource of row control channel distribution.

To achieve the above object, the embodiment of the present invention additionally provides a kind of resource indicating method, for network side equipment, institute Stating resource indicating method includes：

It is determined that it is recorded as the position of the transfer resource of down control channel distribution and the resource location relativeness of reference resources Put parameter；

The location parameter is transmitted to mobile communication terminal, instruction mobile communication terminal is according to transfer resource and reference resources Resource location relativeness determine the transfer resource.

To achieve the above object, the embodiment of the present invention additionally provides a kind of resource determining method, for mobile communication terminal, The resource determining method includes：

From network side receiving record transfer resource and the location parameter of the resource location relativeness of reference resources；

Institute is determined according to the resource location relativeness of the physical location of reference resources and transfer resource and reference resources State transfer resource.

To achieve the above object, the embodiment of the present invention additionally provides a kind of resource instruction device, for network side equipment, institute Stating resource instruction device includes：

Location parameter determining module, for determining to be recorded as the transfer resource and reference resources of down control channel distribution The location parameter of resource location relativeness；

Location parameter transport module, for transmitting the location parameter to mobile communication terminal, indicate mobile communication terminal The transfer resource is determined according to the resource location relativeness of transfer resource and reference resources.

To achieve the above object, the embodiment of the present invention additionally provides a kind of resource determining device, for mobile communication terminal, The resource determining device includes：

Location parameter receiving module, for relative with the resource location of reference resources from network side receiving record transfer resource The location parameter of relation；

Information resources determining module, for the physical location according to reference resources and the money of transfer resource and reference resources Source position relativeness determines the transfer resource.

To achieve the above object, the embodiment of the present invention additionally provides a kind of resource determining method, for network side or movement Communication terminal, including：

According to the actual overhead of current downlink control channel, from pre-defined resource allocation proposal corresponding with expense Selection satisfaction requires resource allocation proposal；

The distribution or confirmation of down control channel resources are carried out according to the resource allocation proposal for meeting to require.

To achieve the above object, the embodiment of the present invention additionally provides a kind of resource determining device, for network side or movement Communication terminal, including：

Scheme Choice module, for the actual overhead according to current downlink control channel, from pre-defined with expense pair Satisfaction is selected to require resource allocation proposal in the resource allocation proposal answered；

Execution module, for carrying out the distribution or true of down control channel resources according to the resource allocation proposal for meeting to require Recognize.

To achieve the above object, the embodiment of the present invention additionally provides a kind of network side equipment, including above-mentioned arbitrary resource Instruction device.

To achieve the above object, the embodiment of the present invention additionally provides a kind of mobile communication terminal, including above-mentioned arbitrary money Source determining device.

The embodiment of the present invention, it is time-multiplexed from Traffic Channel, the angle of frequency division multiplexing and the multiplexing of discrete time-frequency gives The Resource Allocation Formula of down control channel, can solve the problem that due to TTI shorten may caused by subproblem.

Brief description of the drawings

Fig. 1 represents the schematic flow sheet of the resource indicating method of first embodiment of the invention；

Fig. 2 represents that the embodiment of the present invention includes the structural representation of multiple TTI subframe；

Fig. 3 represents the schematic flow sheet of the resource determining method of second embodiment of the invention；

Fig. 4 represents the structural representation of the resource instruction device of third embodiment of the invention；

Fig. 5 represents the structural representation of the resource determining device of fourth embodiment of the invention；

Fig. 6 represents the schematic flow sheet of the resource indicating method of fifth embodiment of the invention；

Fig. 7 represents the schematic flow sheet of the resource determining method of sixth embodiment of the invention；

Fig. 8 represents the resource impact schematic diagram in the embodiment of the present invention；

Fig. 9 a and 9b represent the result schematic diagram that two spike-type cultivars map in the embodiment of the present invention；

Figure 10 represents the structural representation of the resource instruction device of seventh embodiment of the invention；

Figure 11 represents the structural representation of the resource determining device of eighth embodiment of the invention；

Figure 12 represents the schematic flow sheet of the resource indicating method of ninth embodiment of the invention；

Figure 13 a- Figure 13 j represent the schematic diagram of the various patterns of ninth embodiment of the invention；

Figure 14 represents the schematic flow sheet of the resource determining method of tenth embodiment of the invention；

Figure 15 represents the structural representation of the resource instruction device of eleventh embodiment of the invention；

Figure 16 represents the structural representation of the resource determining device of twelveth embodiment of the invention.

Embodiment

In the embodiment of the present invention, it is time-multiplexed from Traffic Channel, the angle of frequency division multiplexing and the multiplexing of discrete time-frequency provides The Resource Allocation Formula of down control channel, can solve the problem that due to TTI shorten may cause the problem of.

In the prior art, PDCCH and other channels carry out resource allocation by way of the time-division.But this mode for For sTTI there is resource utilization it is too low the problem of, this is described as follows.

For LTE-TDD systems, it supports the TTI (7 OFDM symbols) of 0.5ms length, and 2 OFDM symbols are grown The PDCCH of degree needs to take the resource of whole TTI 28.6% (2/7), along with the pilot tone measured for data demodulation, Transfer resource in TTI for data transfer is less than 70%.

And for LTE-FDD systems, because it supports that TTI shortest length is 2 OFDM symbols, therefore its resource Utilization rate is lower.

To improve resource utilization, the resource indicating method of first embodiment of the invention, for network side equipment, such as Fig. 1 Shown, the resource indicating method includes：

Step 101, the frequency domain character and temporal signatures of a transfer resource for being designated as down control channel distribution are determined Resource location indicates parameter；

Step 102, transmit the resource location and indicate parameter to mobile communication terminal, instruction mobile communication terminal is according to institute State the frequency domain character indicated by resource location instruction parameter and temporal signatures determine the transfer resource.

Unlike the prior art, in the resource indicating method of first embodiment of the invention, network side transmits in instruction During resource, no longer indicated with single frequency domain character or temporal signatures, but parameter is indicated simultaneously by resource location The frequency domain character and temporal signatures of transfer resource are indicated, this has been considerably improved the flexibility of transfer resource distribution, different fingers The mode of showing can solve the problem that the problem of different, and this is respectively described below.

When the method for the embodiment of the present invention is applied to the scene that the transfer resource is distributed using time division multiplexing mode, due to Resource location instruction parameter is not only able to indicate which symbol transfer resource is located at, while can also indicate that transfer resource exists Bandwidth on symbol, that is to say, that the resource of the down control channel of distribution no longer takes all bandwidth on frequency domain, but All or part of bandwidth can be used on frequency domain.And distribution of the transfer resource on frequency domain indicates to join by resource location Count to determine.

Therefore, using the resource indicating method of first embodiment of the invention, it can distribute and meet on frequency domain as needed The fractional bandwidth of data transfer demands carrys out bearing downlink control channel, and remaining part may be used as other purposes, improves The utilization rate of resource.

In the specific embodiment of the invention, above-mentioned transfer resource can be it is continuously distributed on frequency domain or from Distribution is dissipated, and different forms needs to design different resource location instruction parameters to indicate the distribution on frequency domain, to this point It is not described as follows.

<For down control channel distribution transfer resource on frequency domain it is continuously distributed>

When being the transfer resource that down control channel distributes when continuously distributed on frequency domain, there are several ways to indicate to pass Distribution of the defeated resource on frequency domain, such as：

1st, last part in a part or bandwidth will most be started by giving tacit consent in bandwidth distributes to down control channel, in frequency On domain, resource location instruction parameter only needs the bandwidth parameter for including indicating the bandwidth of the transfer resource；

This mode can simplify the design of frequency domain parameter.

2nd, on frequency domain, resource location instruction parameter (is used to determine the transfer resource in frequency including frequency point parameters simultaneously Starting point and/or terminal on domain) and bandwidth parameter；

Under this mode, the part for being capable of the flexible arbitrary continuation in nominated bandwidth distributes to down control channel, Improve the flexibility of resource allocation.

But regardless of mode, on frequency domain, the bit number of resource location instruction parametric distribution is more, then it can be carried For more diversified allocative decision, it is described as follows so that the width of down control channel is 1 OFDM symbol as an example.

It is assumed that acquiescence will most start a part and distribute to down control channel in bandwidth, then when resource location instruction parameter is used In instruction transfer resource when the bit number of the field of the distribution on frequency domain is 2,4 kinds of bandwidth occupancy ratios can be indicated, and are worked as When bit number is 3, then 8 kinds of bandwidth occupancy ratios can be indicated.

<For transfer resource discrete distribution on frequency domain of down control channel distribution>

When for the transfer resource that down control channel distributes in discrete distribution on frequency domain, also there are several ways to indicate Distribution of the transfer resource on frequency domain, such as：

1st, transfer resource is uniformly distributed on frequency domain, then on frequency domain, resource location instruction parameter is required to indicate Point, number of fragments and section gap.

2nd, transfer resource uneven distribution on frequency domain, then on frequency domain, resource location instruction parameter is required to indicate Bandwidth granularity between starting point, the bandwidth and adjacent sectional of each segmentation.

3rd, on frequency domain, resource location instruction parameter directly indicates the beginning and end of each segmentation.

Comparatively, for down control channel distribution transfer resource on frequency domain discrete distribution with bigger flexible Property, but it needs more expenses to carry out transfer resource position instruction parameter, and system design can select suitably to pass according to demand Defeated resource distribution mode.

In the specific embodiment of the invention, the specific implementation of bandwidth parameter is not limited, such as can be the transmission The bandwidth and the ratio of total bandwidth that the actual bandwidth taken of resource or description actually take, can also be others side Formula, such as on frequency domain, the bandwidth of the transfer resource and the ratio of total bandwidth are described using bandwidth parameter, this mode is with smaller Expense realize for down control channel distribution transfer resource bandwidth flexible configuration, be exemplified below.

It is assumed that when frequency domain parameter is 2bit, the width of down control channel is 1 OFDM symbol, and assignment 00 represents full band Width, assignment 01 represent 1/2 bandwidth, and assignment 10 represents 1/3 bandwidth, and assignment 11 represents 1/4 bandwidth, as shown in the table.

The assignment of bandwidth parameter	The bandwidth of down control channel
		00	Full bandwidth
01	1/2 bandwidth
		10	1/3 bandwidth
11	1/4 bandwidth

In first embodiment of the invention, the down control channel can include one or more in time domain and (be more than or wait In 2) resource units, the resource units are OFDM symbol herein, but the embodiment of the present invention is not limited thereto.

To reduce expense, in first embodiment of the invention, when down control channel includes multiple (being more than or waiting in time domain In 2) resource units when, the bandwidth parameter is used for the band for indicating that resource units in the multiple resource units take Width, and other resource units acquiescence in the multiple resource units takes whole bandwidth.

It is which that aforesaid way, which also needs to increase a field come the resource units indicated in the multiple resource units, One resource units, it is contemplated that expense, in first embodiment of the invention, it can arrange in network side and end side, it is the multiple A resource units in resource units are last in the multiple resource units.

I.e. when bandwidth parameter is 2bit, when the width of down control channel is 2 OFDM symbols, the implication of assignment is as follows Shown in table.

Bandwidth parameter assignment	The bandwidth of down control channel
		00	First OFDM symbol full bandwidth, second OFDM symbol full bandwidth
01	First OFDM symbol full bandwidth, second bandwidth of OFDM symbol 1/2
		10	First OFDM symbol full bandwidth, second bandwidth of OFDM symbol 1/3
11	First OFDM symbol full bandwidth, second bandwidth of OFDM symbol 1/4

It is of course also possible to which the different various information summaries of the width of down control channel are considered, resource location is such as set Instruction parameter is 3bit, and the implication that can be represented after resource location instruction parameter assignment is as follows：

000, the width corresponding to down control channel is the situation of 1 OFDM symbol, and down control channel takes entirely Bandwidth；

001, the width corresponding to down control channel is the situation of 2 OFDM symbols, and down control channel takes the The full bandwidth of one symbol, take the full bandwidth of second symbol；

010, the width corresponding to down control channel is the situation of 1 OFDM symbol, and down control channel takes 1/2 Bandwidth；

011, the width corresponding to down control channel is the situation of 2 OFDM symbols, and down control channel takes the The full bandwidth of one symbol, take 1/2 bandwidth of second symbol；

100, the width corresponding to down control channel is the situation of 1 OFDM symbol, and down control channel takes 1/3 Bandwidth；

001, the width corresponding to down control channel is the situation of 2 OFDM symbols, and down control channel takes the The full bandwidth of one symbol, take 1/3 bandwidth of second symbol；

110, the width corresponding to down control channel is the situation of 1 OFDM symbol, and down control channel takes 1/4 Bandwidth；

111, the width corresponding to down control channel is the situation of 2 OFDM symbols, and down control channel takes the The full bandwidth of one symbol, take 1/4 bandwidth of second symbol.

It can be found that above-mentioned resource location instruction parameter not only indicates temporal signatures (such as 000 expression of transfer resource Select first symbol), further indicates transfer resource frequency domain character (such as 111 can indicate take second symbol 1/4 band It is wide), therefore more flexible allocative decision can be realized than prior art.

In first embodiment of the invention, resource location instruction parameter can notify that mobile communication is whole in several ways End, is respectively described below.

<Pass through the control channel transmission of subframe>

In first embodiment of the invention, as shown in Fig. 2 wherein subframe includes multiple TTI, then it can utilize in subframe and be In resource reserved PDCCH increased frequency domain parameter is transmitted using PDCCH form (part that dotted line is filled in Fig. 2).

Due to every subframe can only transmission primaries, this mode be applied to each subframe in all sTTI expense in tradition Control channel scheduled transmission when fixed situation, can be that the consistent control of expense is set in same subframe in all sTTI Channel processed, it is only necessary to transmit a control channel expense instruction.

Can certainly be that each sTTI independently indicates control channel expense, these indication bits are multiplexed in same DCI In.This DCI can be transmitted in CSS (Common Search Space, public search space) domain of traditional control channel, It can transmit in USS (User Search Space, user search space) domain, be total to by supporting one of UE of sTTI transmission Same RNTI (Radio Network Tempory Identity, Radio Network Temporary Identifier) scramblings, support sTTI transmission UE can obtain sTTI control channel resource.What is be multiplexed in this DCI can also include what sTTI in present sub-frame took Bandwidth location etc..

<Pass through the control channel transmission of current transmission time interval>

And in another way, above-mentioned resource location instruction parameter can start to pass in each sTTI original position It is defeated, such as transmitted in the preceding n RE (Resource Element, resource element) of the frequency domain index of first OFDM symbol, again Distributed transmission (suitable for each sTTI the feelings of control channel expense dynamic number such as in sTTI first OFDM symbol Condition).

Second embodiment of the invention provides a kind of resource determining method, for mobile communication terminal, as shown in figure 3, institute Stating resource determining method includes：

Step 301, resource location instruction parameter is received from network side；

Step 302, the transfer resource for down control channel distribution indicated by parameter is indicated according to the resource location Frequency domain character and temporal signatures determine the transfer resource.

Network side no longer indicated with single frequency domain character or temporal signatures when indicating transfer resource, but Indicate that parameter indicates the frequency domain character and temporal signatures of transfer resource simultaneously by resource location, this has been considerably improved transmission money The flexibility of source distribution, different indicating modes can solve the problem that the problem of different, this are respectively described below.

When the method for the embodiment of the present invention is applied to the scene that the transfer resource is distributed using time division multiplexing mode, due to Resource location instruction parameter is not only able to indicate which symbol transfer resource is located at, while can also indicate that transfer resource exists Bandwidth on symbol, that is to say, that, the resource of the down control channel of distribution no longer takes all bandwidth on frequency domain, and It is that all or part of bandwidth can be used on frequency domain.And distribution of the transfer resource on frequency domain by frequency domain parameter come really It is fixed.

Therefore, using the resource indicating method of first embodiment of the invention, it can distribute and meet on frequency domain as needed The fractional bandwidth of data transfer demands carrys out bearing downlink control channel, and remaining part may be used as other purposes, improves The utilization rate of resource.

When the transfer resource is distributed using time division multiplexing mode, the resource location instruction parameter comprises at least a bandwidth Parameter, for determining the bandwidth of the transfer resource.

Resource location instruction parameter also includes a frequency point parameters, for determine the transfer resource on frequency domain Starting point and/or terminal.

The frequency domain parameter can be used for describing the bandwidth of the transfer resource and the ratio of total bandwidth.

And when the transfer resource is including multiple resource units (such as OFDM symbol) in time domain, the bandwidth parameter is used Other resources in the bandwidth for indicating the occupancy of a resource units in the multiple resource units, the multiple resource units Unit is full bandwidth.

To reduce the expense of frequency domain parameter, a resource units in the multiple resource units are the multiple resource list Position in last.

Certainly, the transfer resource can also the discrete distribution on frequency domain, its indicating mode has been described in before, It is not repeated herein.

The frequency domain parameter can also pass through the control of current transmission time interval by the control channel transmission of subframe Transmission processed.

Third embodiment of the invention additionally provides a kind of resource instruction device, for network side equipment, as shown in figure 4, institute Stating resource instruction device includes：

Parameter determination module is indicated, for determining the frequency domain character of a transfer resource for being designated as down control channel distribution Parameter is indicated with the resource location of temporal signatures；

Parameter transport module is indicated, indicates parameter to mobile communication terminal, instruction movement for transmitting the resource location Communication terminal determines the transfer resource according to the frequency domain character indicated by resource location instruction parameter and temporal signatures.

Above-mentioned resource instruction device, wherein, when the transfer resource is distributed using time division multiplexing mode, the resource-niche Put instruction parameter and comprise at least a bandwidth parameter, for determining the bandwidth of the transfer resource.

Above-mentioned resource instruction device, wherein, the resource location instruction parameter also includes a frequency point parameters, for determining Starting point and/or terminal of the transfer resource on frequency domain.

Above-mentioned resource instruction device, wherein, the bandwidth parameter is used for the bandwidth for describing the transfer resource and total band Wide ratio.

Above-mentioned resource instruction device, wherein, the transfer resource is when including multiple resource units in time domain, the band Wide parameter is used for the bandwidth for indicating that resource units in the multiple resource units take, in the multiple resource units Other resource units take whole bandwidth.

Above-mentioned resource instruction device, wherein, a resource units in the multiple resource units are the multiple money Last in the unit of source.

Above-mentioned resource instruction device, wherein, the transfer resource discrete distribution on frequency domain.

Above-mentioned resource instruction device, wherein, the frequency domain parameter can be by the control channel transmission of subframe, can also Pass through the control channel transmission of current transmission time interval.

Fourth embodiment of the invention additionally provides a kind of resource determining device, for mobile communication terminal, as shown in figure 5, The resource determining device includes：

Frequency domain parameter receiving module, for receiving resource location instruction parameter from network side；

First resource determining module, for indicating that indicated by parameter be down control channel point according to the resource location The frequency domain character and temporal signatures for the transfer resource matched somebody with somebody determine the transfer resource.

Above-mentioned resource determining device, wherein, the transfer resource can be continuously distributed on frequency domain, the resource location Instruction parameter comprises at least a bandwidth parameter, for determining the bandwidth of the transfer resource.

Above-mentioned resource determining device, wherein, the frequency domain parameter can also include a frequency point parameters, for described in determination The starting point and/or terminal on frequency domain of transfer resource.

Above-mentioned resource determining device, wherein, the bandwidth parameter is used for the bandwidth for describing the transfer resource and total band Wide ratio.

Above-mentioned resource determining device, wherein, the transfer resource is when including multiple resource units in time domain, the band Wide parameter is used for the bandwidth for indicating that resource units in the multiple resource units take, in the multiple resource units Other resource units are full bandwidth.

Above-mentioned resource determining device, wherein, a resource units in the multiple resource units are the multiple money Last in the unit of source.

Above-mentioned resource determining device, wherein, the transfer resource discrete distribution on frequency domain.

Above-mentioned resource determining device, wherein, frequency domain parameter described in the frequency domain parameter can be believed by the control of subframe Road transmits, and can also pass through the control channel transmission of current transmission time interval.

In the prior art, EPDCCH and other channels can carry out resource allocation by way of frequency division.But this mode The problem of resource of mobile communication terminal configuration is beyond sTTI scope can be existed for for sTTI, to this illustration such as Under.

It is assumed that at a time, the sTTI a width of 100RB of band, and a width of EPDCCH configurations of band of the network side based on 100RB Resource be the 30th and the 60th RB, and in subsequent time, sTTI bandwidth change turns to 50RB, it is found that last moment 60th RB of configuration has been not belonging to sTTI, but belongs to traditional PDSCH, ultimately results in mobile communication terminal address mistake Lose.

The resource indicating method of fifth embodiment of the invention, for network side equipment, as shown in fig. 6, the resource indicates Method includes：

Step 601, it is that down control channel distributes original transmitted resource based on reference transmission resource collection；

Step 602, a first resource point is determined in the distribution of reference transmission resource collection according to the original transmitted resource With instruction；

Step 603, the money between the actual transmissions resource collection and reference transmission resource collection that are used according to current scheduling Source mapping ruler, determine in the actual transmissions resource collection to be actually the object transmission resource of down control channel distribution；

Step 604, transmit first resource distribution instruction and arrive mobile communication terminal, by the mobile communication terminal according to The first resource distribution indicates to determine the original transmitted resource, and determines the actual biography according to resource impact rule The object transmission resource in defeated resource collection.

The resource determining method of sixth embodiment of the invention, for mobile communication terminal, as shown in fig. 7, the resource is true The method of determining includes：

Step 701, first resource distribution instruction is received from network side；

Step 702, the original transmitted resource distributed according to the first resource in instruction determination reference transmission resource collection；

It is step 703, regular according to the resource impact between the actual transmissions resource collection and reference transmission resource collection, Determine corresponding with the original transmitted resource in the actual transmissions resource collection, actual by network side is down control channel The object transmission resource of distribution.

In fifth embodiment of the invention, it is contemplated that TTI time-varying characteristics, network side can be based on reference transmission resource collection Down control channel distributes original transmitted resource, and according to the money between actual transmissions resource collection and reference transmission resource collection Source mapping ruler, determine in the actual transmissions resource collection to be actually the object transmission resource of down control channel distribution.And Mobile communication terminal, can be according to the reality when receiving the resource distribution instruction based on reference transmission resource collection from network side Between border sets of transmission resources and reference transmission resource collection resource impact rule, come determine in actual transmissions resource collection by The actual object transmission resource for down control channel distribution of network side.

By above-mentioned method, it is down control channel distribution that it is actual, which can be accurately positioned network side, for mobile communication terminal Transfer resource, avoid the appearance of mobile communication terminal address failure.

Meanwhile in fifth embodiment of the invention, network side can inherit original method, nothing in terms of resource distribution instruction Need to change, therefore simplify the modification during network evolution to network side.

To simplify mapping ruler, in fifth embodiment of the invention, distribute object transmission resource for down control channel and use The mode of frequency division multiplexing is distributed, i.e., described original transmitted resource and object transmission resource are continuously distributed in time domain.

In a particular embodiment of the present invention, should when using frequency division multiplexing mode to distribute resource for down control channel Mapping ruler needs to pay close attention to following two aspect：

1st, the quantity of the resource of distribution；

2nd, position of the resource of distribution in actual transmissions resource collection.

After above-mentioned two aspect determines, mobile communication terminal can determine that the actual transmissions resource collection is real by network side Border is the object transmission resource of down control channel distribution.

Two above-mentioned aspects are described as follows respectively below.

In the quantitative aspects of the resource of distribution, it should be ensured that the quantity of object transmission resource provides more than or equal to original transmitted The quantity in source, data transfer demands can not be met to avoid the occurrence of the resource of distribution.

Object transmission resource is distributed for down control channel to distribute by the way of frequency division multiplexing, i.e., described original transmitted money Source and target transfer resource is when continuously distributed in time domain, it is assumed that as shown in figure 8, the reference transmission resource collection is in time domain Including X1 time domain resource unit, the actual transmissions resource collection includes X2 time domain resource unit, the original in time domain Beginning transfer resource is N1 frequency domain resource units continuous on the X1 time domain resource unit, and the object transmission resource is N2 frequency domain resource units continuous on the X2 time domain resource unit, then the resource quantity of original transmitted resource be：N1* X1, and the resource quantity of object transmission resource is：N2*X2, therefore：N2 is more than or equal to N1*X1/X2.

But in order to avoid the waste of resource, N2 takes the minimum positive integer more than or equal to N1*X1/X2.

By above-mentioned rule, the object transmission money distributed in actual transmissions resource collection in a manner of frequency division multiplexing ensure that Source disclosure satisfy that the demand of data transfer.

And the position for object transmission resource in actual transmissions resource collection, can be with the specific embodiment of the invention Multiple rule is established to set position of the object transmission resource in actual transmissions resource collection, is illustrated below.

1st, it is continuously distributed on frequency domain, distribution of the object transmission resource in actual transmissions resource collection is configured on frequency domain Original position；

2nd, the equidistant discrete distribution on frequency domain, object transmission resource is configured on frequency domain in actual transmissions resource collection Distribution original position and an adjacent object transmission resource spacing；

3rd, the non-equally discrete distribution on frequency domain, object transmission resource is configured on frequency domain in actual transmissions resource collection In distribution original position and frequency domain on all adjacent object transmission resources spacing；

4th, it is distributed in a manner of frequency diversity gain highest；

……

In the specific embodiment of the invention, a kind of original transmitted resource in resource collection based on reference transmission is also provided It is distributed to determine the embodiment of position of the object transmission resource in actual transmissions resource collection, is described as follows.

As shown in Figure 8, it is assumed that the reference transmission resource collection includes Y1 frequency domain resource unit, the reality on frequency domain Border sets of transmission resources includes Y2 frequency domain resource unit on frequency domain, then in the N2 frequency domain resource unit and the N1 Corresponding frequency domain resource unit pair in frequency domain resource unit be present, the frequency domain resource unit centering belongs to object transmission resource Serial number of the frequency domain resource unit in the Y2 frequency domain resource unit：A1*Y2/Y1's rounds, and A1 is the frequency domain resource Unit is to belonging to sequence number of the frequency domain resource unit of original transmitted resource in the Y1 frequency domain resource unit.

It is illustrated below：

It is assumed that X1=14, X2=7, Y1=100, Y2=50, are assigned with the 5th and the 90th in reference transmission resource collection Individual frequency domain resource unit can then determine N2=2*14/7=4 first as original transmitted resource.

And for position, position corresponding to first frequency domain resource unit is in actual transmissions resource collection：(5*50/100 =2.5) round, can be 2, or 3.

And position corresponding to another frequency domain resource unit is：(90*50/100=45).

And two other frequency domain resource unit can then determine according to the frequency domain resource unit having determined, such as with The frequency domain resource unit of determination is adjacent, or be distributed between the frequency domain resource unit having determined etc..

Its corresponding mapping result is as illustrated in fig. 9.

And mapping result corresponding to a kind of example elongated in time domain TTI is as shown in figure 9b, it is described as follows.

If the position of first frequency domain unit in actual sets of transmission resources is according to first in reference transmission resource collection The position of frequency domain unit determines, and due to the proportionate relationship of the two duration in time domain, in reference transmission resource collection Second frequency domain unit can be substituted by first frequency domain unit in actual transmissions resource collection.Therefore actual transmissions resource collection In the position of second frequency domain unit determined according to the position of the 3rd frequency domain unit in reference transmission resource collection, with such Push away.

Above-mentioned first resource distribution instruction can be transmitted in the way of prior art, but can also be according to before It can also can be passed as description by the control channel transmission of subframe by the control channel of current transmission time interval It is defeated, it is not repeated to describe herein.

Seventh embodiment of the invention additionally provides a kind of resource instruction device, for network side equipment, as shown in Figure 10, institute Stating resource instruction device includes：

Distribute module, for being that down control channel distributes original transmitted resource based on reference transmission resource collection；

First instruction determining module, for being determined according to distribution of the original transmitted resource in reference transmission resource collection The distribution instruction of one first resource；

First mapping block, for the actual transmissions resource collection and reference transmission resource set used according to current scheduling Resource impact rule between conjunction, determine that the target in the actual transmissions resource collection actually for down control channel distribution passes Defeated resource；

First instruction transport module, mobile communication terminal is arrived for transmitting the first resource distribution instruction, by the shifting Mobile communication terminal distributes instruction according to the first resource and determines the original transmitted resource, and according to resource impact rule Determine the object transmission resource in the actual transmissions resource collection.

Eighth embodiment of the invention additionally provides a kind of resource determining device, for mobile communication terminal, as shown in figure 11, The resource determining device includes：

First instruction receiving module, for receiving first resource distribution instruction from network side；

Original transmitted resource determination module, reference transmission resource collection is determined for distributing instruction according to the first resource In original transmitted resource；

Second mapping block, for according to the resource between the actual transmissions resource collection and reference transmission resource collection Mapping ruler, determine it is corresponding with the original transmitted resource in the actual transmissions resource collection, by network side it is actual be under The object transmission resource of row control channel distribution.

In the 7th and the 8th above-mentioned embodiment, the original transmitted resource and object transmission resource are continuously divided in time domain Cloth.

In the 7th and the 8th above-mentioned embodiment, the reference transmission resource collection includes X1 time-domain resource in time domain Unit, the actual transmissions resource collection include X2 time domain resource unit in time domain, and the original transmitted resource is N1 The continuous frequency domain resource unit on the X1 time domain resource unit, the object transmission resource are N2 at described X2 Continuous frequency domain resource unit on the resource units of domain, N2 are the minimum positive integer more than or equal to N1*X1/X2.

In the 7th and the 8th above-mentioned embodiment, the reference transmission resource collection includes Y1 frequency domain resource on frequency domain Unit, the actual transmissions resource collection include Y2 frequency domain resource unit on frequency domain, the N2 frequency domain resource unit and Corresponding frequency domain resource unit pair in the N1 frequency domain resource unit be present, the frequency domain resource unit centering belongs to target biography Serial number of the frequency domain resource unit of defeated resource in the Y2 frequency domain resource unit：A1*Y2/Y1's rounds, and A1 is described Frequency domain resource unit is to belonging to sequence number of the frequency domain resource unit of original transmitted resource in the Y1 frequency domain resource unit.

The resource indicating method of ninth embodiment of the invention, for network side equipment, as shown in figure 12, the resource instruction Method includes：

Step 1201, it is determined that the transfer resource for being recorded as down control channel distribution is relative with the resource location of reference resources The location parameter of relation；

Step 1202, the location parameter is transmitted to mobile communication terminal, and instruction mobile communication terminal is according to transfer resource The transfer resource is determined with the resource location relativeness of reference resources.

In embodiment before, the transfer resource for down control channel distribution is either continuous in time domain or in frequency It is continuous on domain, and in the ninth embodiment of the present invention, transfer resource is determined according to the position where reference signal so that be The transfer resource of down control channel distribution can realize more flexible down control channel point in time domain and frequency domain simultaneously Cloth designs.

In the ninth embodiment of the present invention, it is thus necessary to determine that two factors, you can position actual transfer resource, respectively For：

Reference resources；

Relative to the position of reference resources.

In the ninth embodiment of the present invention, the selection for reference resources only needs to meet a condition, i.e.,：Eventually The resource that side can obtain according to existing procedure prior to down control channel.

If end side can obtain reference resources according to existing procedure prior to down control channel, end side can be entered One step is according to Relatively orientation transfer resource therebetween.

In the lte networks, network side be typically distribution system bandwidth a part of region to mobile communication terminal, i.e., one Individual special time distributes specific transfer resource to mobile communication terminal.

To ensure that mobile communication terminal can determine the position of these transfer resources, network side is needed to mobile communication terminal Send downlink reference signal, relevant detection and demodulation for end side etc..

Downlink reference signal includes CRS (the specific reference signal of cell, be also public reference signal) and DRS (is used Family reference signal), both downlink reference signals are that end side can obtain prior to down control channel.

Meanwhile for CRS, row subframe has in each of the lower, the descending pilot frequency time slot of special subframe also has.At one In resource block, there is one every six subcarriers on frequency domain, have one every three symbols in time domain, therefore in the advantage of quantity Also enable the mode of instruction transfer resource diversified.

Therefore, in the specific embodiment of the invention, the resource where both signals is selected as reference resources.

But it is to be understood that the resource where ninth embodiment of the invention can also select other downstream signals is used as ginseng Examine, as long as it can be obtained prior to down control channel, do not describe excessively herein.

After reference resources determination, it is necessary to determine position of the transfer resource relative to reference resources, believed herein with CRS It is respectively described below exemplified by number.

Figure 13 a- Figure 13 e represent various possible transfer resource design diagrams, and the RE of its bend filling represents CRS institutes Position, and round dot filling RE represent transfer resource where position.

As depicted in fig. 13 a, transfer resource is relative to the position relationship of reference resources：On frequency domain with reference resources phase Neighbour, and after reference resources；

As illustrated in fig. 13b, transfer resource is relative to the position relationship of reference resources：On frequency domain with reference resources phase Neighbour, and before reference resources；

As shown in figure 13 c, transfer resource is relative to the position relationship of reference resources：In time domain with reference resources phase Neighbour, and before reference resources；

As shown in figure 13d, transfer resource is relative to the position relationship of reference resources：In time domain with reference resources phase Neighbour, and after reference resources.

As shown in figure 13e, transfer resource is relative to the position relationship of reference resources：On frequency domain with reference resources phase It is adjacent；

In above pattern, Figure 13 a, Figure 13 b and Figure 13 e acquiescences full-time length in time domain are continuously distributed, and Figure 13 c and figure 13d acquiescences full bandwidth on frequency domain is continuously distributed.

Certainly, according to the embodiment of the present invention method, can also the discrete distribution in time domain and frequency domain, refer to figure 13f- Figure 13 i, wherein：

As shown in figure 13f, transfer resource is relative to the position relationship of reference resources：On frequency domain with reference resources phase Neighbour, and before reference resources, it is identical in time domain；

As shown in Figure 13 g, transfer resource is relative to the position relationship of reference resources：On frequency domain with reference resources phase Neighbour is identical in time domain；

As shown in Figure 13 h, transfer resource is relative to the position relationship of reference resources：In time domain with reference resources phase Neighbour, and after reference resources, it is identical on frequency domain；

As shown in Figure 13 i, transfer resource is relative to the position relationship of reference resources：In time domain or frequency domain with reference Resource is adjacent, and at least one identical in time domain or frequency domain.

In mode in Figure 13 f- Figure 13 i, transfer resource is arranged to adjacent with reference signal (transfer resource and the reference Resource is adjacent in time domain and/or frequency domain), be advantageous to the accurate demodulation of down control channel.

From the point of view of Figure 13 a- Figure 13 i, in the specific embodiment of the invention, the location parameter could be arranged to pattern ginseng Number, different pattern parameters correspond to different transfer resource quantity and/or different resource location relativenesses.Network side is only The numbering of the notice terminal pattern parameter is needed, terminal, relative to the position of reference resources, can be entered according to transfer resource is determined And the physical location of transfer resource is determined according to the position of reference resources.

All it is the unified configuration in whole bandwidth or whole time-domain, to enter one in figure 13 above a- Figure 13 i pattern Walk and improve flexibility, the acceptable further region where controlling transmission resource in the specific embodiment of the invention.

Under this mode, the resource indicating method of ninth embodiment of the invention, in addition to：

Determine Secondary resource distribution instruction；

Transmit the Secondary resource distribution instruction and arrive mobile communication terminal, instruction mobile communication terminal is according to Secondary resource point The region where the transfer resource is determined with instruction, and in the zone according to the resource location phase of transfer resource and reference resources The transfer resource is determined to relation.

By above-mentioned mode, the bandwidth of transfer resource and time span can be defined, can as shown in Figure 13 j To limit the allocation of transmission resources only on the preceding 1/X (such as 1/2,1/3 ...) of time domain.

It is of course also possible to be defined on frequency domain, or time domain and the scope of frequency domain are limited simultaneously, do not do herein into one Step is described in detail.

In the specific embodiment of the invention, the location parameter can also equally pass through the control channel transmission or logical of subframe The control channel transmission of current transmission time interval is crossed, is not repeated to describe herein.

The resource determining method of tenth embodiment of the invention, for mobile communication terminal, as shown in figure 14, the resource is true The method of determining includes：

Step 1401, join from the position of network side receiving record transfer resource and the resource location relativeness of reference resources Number；

Step 1402, closed according to the physical location of reference resources and transfer resource are relative with the resource location of reference resources System determines the transfer resource.

Above-mentioned resource determining method, wherein, the reference resources are cell reference signals or user reference signal place Transfer resource.

Above-mentioned resource determining method, wherein, transfer resource phase in time domain and/or frequency domain with the reference resources It is adjacent.

Above-mentioned resource determining method, wherein, in addition to：

Receive Secondary resource distribution instruction；

The region where instruction determines the transfer resource is distributed according to Secondary resource；

It is described true according to the physical location and transfer resource of reference resources and the resource location relativeness of reference resources The step of fixed transfer resource it is determined that region in perform.

Above-mentioned resource determining method, wherein, the location parameter is by the control channel transmission of subframe or by working as The control channel transmission of preceding Transmission Time Interval.

The resource instruction device of eleventh embodiment of the invention, for network side equipment, as shown in figure 15, the resource refers to Showing device includes：

Location parameter determining module, for determining to be recorded as the transfer resource and reference resources of down control channel distribution The location parameter of resource location relativeness；

Location parameter transport module, for transmitting the location parameter to mobile communication terminal, indicate mobile communication terminal The transfer resource is determined according to the resource location relativeness of transfer resource and reference resources.

Above-mentioned resource instruction device, wherein, the reference resources are cell reference signals or user reference signal place Transfer resource.

Above-mentioned resource instruction device, wherein, transfer resource phase in time domain and/or frequency domain with the reference resources It is adjacent.

Above-mentioned resource instruction device, wherein, in addition to：

Second instruction determining module, for determining Secondary resource distribution instruction；

Second instruction transport module, mobile communication terminal, instruction movement are arrived for transmitting the Secondary resource distribution instruction Communication terminal distributes the region where instruction determines the transfer resource according to Secondary resource, and in the zone according to transfer resource The transfer resource is determined with the resource location relativeness of reference resources.

Above-mentioned resource instruction device, wherein, the location parameter is by the control channel transmission of subframe or by working as The control channel transmission of preceding Transmission Time Interval.

The resource determining device of twelveth embodiment of the invention, for mobile communication terminal, as shown in figure 16, the resource Determining device includes：

Location parameter receiving module, for relative with the resource location of reference resources from network side receiving record transfer resource The location parameter of relation；

Information resources determining module, for the physical location according to reference resources and the money of transfer resource and reference resources Source position relativeness determines the transfer resource.

Above-mentioned resource determining device, wherein, the reference resources are cell reference signals or user reference signal place Transfer resource.

Above-mentioned resource determining device, wherein, transfer resource phase in time domain and/or frequency domain with the reference resources It is adjacent.

Above-mentioned resource determining device, wherein, in addition to：

Second instruction receiving module, for receiving Secondary resource distribution instruction；

Area determination module, for distributing the region where instruction determines the transfer resource according to Secondary resource；

The information resources determining module is specifically used in the region that the area determination module determines according to reference to money The physical location and transfer resource in source and the resource location relativeness of reference resources determine the transfer resource.

Above-mentioned resource determining device, wherein, the location parameter is by the control channel transmission of subframe or by working as The control channel transmission of preceding Transmission Time Interval.

In above-described embodiment, network side is at least part of to notify mobile communication terminal by way of display, works as the present invention The instruction and determination of resource can also be realized in embodiment in a manner of implicit completely.

The embodiment of the present invention additionally provides a kind of resource determining method, for network side or mobile communication terminal, including：

According to the actual overhead of current downlink control channel, from pre-defined resource allocation proposal corresponding with expense Selection satisfaction requires resource allocation proposal；

The distribution or confirmation of down control channel resources are carried out according to the resource allocation proposal for meeting to require.

To achieve the above object, the embodiment of the present invention additionally provides a kind of resource determining device, for network side or movement Communication terminal, including：

Scheme Choice module, for the actual overhead according to current downlink control channel, from pre-defined with expense pair Satisfaction is selected to require resource allocation proposal in the resource allocation proposal answered；

Execution module, for carrying out the distribution or true of down control channel resources according to the resource allocation proposal for meeting to require Recognize.

Under this mode, following parameter is preserved jointly in network side and end side：

1st, the minimum component unit (being described with sCCE) of control channel；

2nd, the resource impact of variable rule is used as using control channel expense.

It is illustrated below.

Assuming that a width of 50RB of sTTI band, for the minimum sCCE of time-multiplexed schema definition by time domain continuous 36 Individual RE compositions, and the relation between control channel expense and bandwidth ratio is defined, such as：

Control channel expense is less than or equal to A, then 1/4 bandwidth；

Control channel expense is more than or equal to A+Delta, then 1/3 bandwidth；

Control channel expense is more than or equal to A+2Delta, then 1/2 bandwidth；

Control channel expense is more than or equal to A+3Delta, then full bandwidth.

Assuming that current control channel expense is 16CCE, then there are 600 RE on each OS (assuming that no CRS, there are CRS feelings Under condition, only 400 RE), now can meet control channel expense using 1OS full bandwidths.Then base station and UE determine control letter Road expense is 1OFDM symbols and takes full bandwidth.

And for example, it is assumed that the sTTI a width of 50RB of band, time domain length are 7 OS, determine what is needed according to control channel expense SRB numbers, and these RB continuously or are dispersed in whole sTTI bandwidth, original position can number correlation with sTTI, Or by signaling.Equally it is the situation of 16 sCCE (assuming that each sCCE is made up of 36 RE) control channel expense Under, each sRB has 84RE (less during consideration CRS, DMRS), it is necessary to which 16*36/84=6.9, that is, need 7 sRB.

For another example, a width of 50RB of sTTI band, time domain length are 1 slot, i.e. 7 OS；Controlled for discrete time-frequency domain In the case of channel resource, it is assumed that the 1/2 of sTTI time domains is taken, according to control channel expense according to mapping control channel around CRS Resource pattern order chooses control channel resource.In this case the available RE in different patterns in each sPRB is different, then right In different expenses, selection meets desired pattern, and these RB can be that continuous or discrete uniform is distributed in whole sTTI In bandwidth.Possible various bandwidth all meets in some cases, then needs to define certain rule, such as same to these patterns When selected and sorted when meeting, or which kind of pattern used by signaling.

The network side equipment of thriteenth embodiment of the invention, including above-mentioned arbitrary resource instruction device.

The mobile communication terminal of fourteenth embodiment of the invention, including above-mentioned arbitrary resource determining device.

It should be noted that herein, term " comprising ", "comprising" or its any other variant are intended to non-row His property includes, so that process, method, article or device including a series of elements not only include those key elements, and And also include the other element being not expressly set out, or also include for this process, method, article or device institute inherently Key element.In the absence of more restrictions, the key element limited by sentence "including a ...", it is not excluded that including this Other identical element also be present in the process of key element, method, article or device.

The embodiments of the present invention are for illustration only, do not represent the quality of embodiment.

Through the above description of the embodiments, those skilled in the art can be understood that above-described embodiment side Method can add the mode of required general hardware platform to realize by software, naturally it is also possible to by hardware, but in many cases The former is more preferably embodiment.Based on such understanding, technical scheme is substantially done to prior art in other words Going out the part of contribution can be embodied in the form of software product, and the computer software product is stored in a storage medium In (such as ROM/RAM, magnetic disc, CD), including some instructions to cause a station terminal equipment (can be mobile phone, computer, clothes Be engaged in device, air conditioner, or network equipment etc.) perform method described in each embodiment of the present invention.

The foregoing is merely illustrative of the preferred embodiments of the present invention, is not intended to limit the invention, all essences in the present invention God any modification, equivalent substitution and improvements made etc., should be included in the scope of the protection with principle.

Claims (72)

1. a kind of resource indicating method, for network side equipment, it is characterised in that the resource indicating method includes：

Determine the resource location instruction of the frequency domain character and temporal signatures of a transfer resource for being designated as down control channel distribution Parameter；

Transmit the resource location and indicate that parameter refers to mobile communication terminal, instruction mobile communication terminal according to the resource location Show that the frequency domain character indicated by parameter and temporal signatures determine the transfer resource.

2. resource indicating method according to claim 1, it is characterised in that the transfer resource uses time division multiplexing mode During distribution, the resource location instruction parameter comprises at least a bandwidth parameter, for determining the bandwidth of the transfer resource.

3. resource indicating method according to claim 2, it is characterised in that the resource location instruction parameter also includes one Frequency point parameters, for determining starting point and/or terminal of the transfer resource on frequency domain.

4. the resource indicating method according to Claims 2 or 3, it is characterised in that the bandwidth parameter is described for describing The bandwidth of transfer resource and the ratio of total bandwidth.

5. the resource indicating method according to Claims 2 or 3, it is characterised in that the transfer resource includes in time domain During multiple resource units, the bandwidth parameter is used to indicate the band that a resource units in the multiple resource units take Width, other resource units in the multiple resource units take whole bandwidth.

6. resource indicating method according to claim 5 a, it is characterised in that resource in the multiple resource units Unit is last in the multiple resource units.

7. resource indicating method according to claim 1, it is characterised in that the resource location instruction parameter passes through subframe Control channel transmission or the control channel transmission that passes through current transmission time interval.

8. a kind of resource determining method, for mobile communication terminal, it is characterised in that the resource determining method includes：

Resource location instruction parameter is received from network side；

According to the resource location instruction parameter indicated by for down control channel distribution transfer resource frequency domain character and Temporal signatures determine the transfer resource.

9. resource determining method according to claim 8, it is characterised in that the transfer resource uses time division multiplexing mode During distribution, the resource location instruction parameter comprises at least a bandwidth parameter, for determining the bandwidth of the transfer resource.

10. resource determining method according to claim 9, it is characterised in that the resource location instruction parameter also includes One frequency point parameters, for determining the starting point and/or terminal on frequency domain of the transfer resource.

11. the resource determining method according to claim 9 or 10, it is characterised in that the bandwidth parameter is used to describe institute State the bandwidth of transfer resource and the ratio of total bandwidth.

12. the resource determining method according to claim 9 or 10, it is characterised in that the transfer resource wraps in time domain When including multiple resource units, the bandwidth parameter is used to indicate the band that a resource units in the multiple resource units take Width, other resource units in the multiple resource units are full bandwidth.

13. resource determining method according to claim 12 a, it is characterised in that money in the multiple resource units Source unit is last in the multiple resource units.

14. resource determining method according to claim 8, it is characterised in that the resource location instruction parameter passes through son The control channel transmission of frame or the control channel transmission for passing through current transmission time interval.

15. a kind of resource instruction device, for network side equipment, it is characterised in that the resource instruction device includes：

Indicate parameter determination module, for determine one be designated as down control channel distribution transfer resource frequency domain character and when The resource location instruction parameter of characteristic of field；

Parameter transport module is indicated, indicates that parameter to mobile communication terminal, indicates mobile communication for transmitting the resource location Terminal determines the transfer resource according to the frequency domain character indicated by resource location instruction parameter and temporal signatures.

16. resource instruction device according to claim 15, it is characterised in that the transfer resource uses time division multiplexing side When formula is distributed, the resource location instruction parameter comprises at least a bandwidth parameter, for determining the bandwidth of the transfer resource.

17. resource instruction device according to claim 16, it is characterised in that the resource location instruction parameter also includes One frequency point parameters, for determining starting point and/or terminal of the transfer resource on frequency domain.

18. the resource instruction device according to claim 16 or 17, it is characterised in that the bandwidth parameter is used to describe institute State the bandwidth of transfer resource and the ratio of total bandwidth.

19. the resource instruction device according to claim 16 or 17, it is characterised in that the transfer resource wraps in time domain When including multiple resource units, the bandwidth parameter is used to indicate the band that a resource units in the multiple resource units take Width, other resource units in the multiple resource units take whole bandwidth.

20. resource instruction device according to claim 19 a, it is characterised in that money in the multiple resource units Source unit is last in the multiple resource units.

21. resource instruction device according to claim 15, it is characterised in that the resource location instruction parameter passes through son The control channel transmission of frame or the control channel transmission for passing through current transmission time interval.

22. a kind of resource determining device, for mobile communication terminal, it is characterised in that the resource determining device includes：

Frequency domain parameter receiving module, for receiving resource location instruction parameter from network side；

First resource determining module, for according to the resource location instruction parameter indicated by for down control channel distribution The frequency domain character and temporal signatures of transfer resource determine the transfer resource.

23. resource determining device according to claim 22, it is characterised in that the transfer resource uses time division multiplexing side When formula is distributed, the resource location instruction parameter comprises at least a bandwidth parameter, for determining the bandwidth of the transfer resource.

24. resource determining device according to claim 23, it is characterised in that the resource location instruction parameter also includes One frequency point parameters, for determining the starting point and/or terminal on frequency domain of the transfer resource.

25. the resource determining device according to claim 23 or 24, it is characterised in that the bandwidth parameter is used to describe institute State the bandwidth of transfer resource and the ratio of total bandwidth.

26. the resource determining device according to claim 23 or 24, it is characterised in that the transfer resource wraps in time domain When including multiple resource units, the bandwidth parameter is used to indicate the band that a resource units in the multiple resource units take Width, other resource units in the multiple resource units are full bandwidth.

27. resource determining device according to claim 26 a, it is characterised in that money in the multiple resource units Source unit is last in the multiple resource units.

28. resource determining device according to claim 22, it is characterised in that the resource location instruction parameter passes through son The control channel transmission of frame or the control channel transmission for passing through current transmission time interval.

29. a kind of resource indicating method, for network side equipment, it is characterised in that the resource indicating method includes：

It is that down control channel distributes original transmitted resource based on reference transmission resource collection；

The distribution instruction of one first resource is determined in the distribution of reference transmission resource collection according to the original transmitted resource；

Resource impact rule between the actual transmissions resource collection and reference transmission resource collection that are used according to current scheduling, really It is actually the object transmission resource of down control channel distribution in the fixed actual transmissions resource collection；

Transmit the first resource distribution instruction and arrive mobile communication terminal, by the mobile communication terminal according to the first resource Distribution instruction determines the original transmitted resource, and is determined according to resource impact rule in the actual transmissions resource collection The object transmission resource.

30. resource indicating method according to claim 29, it is characterised in that the original transmitted resource and object transmission Resource is continuously distributed in time domain.

31. resource indicating method according to claim 30, it is characterised in that the reference transmission resource collection is in time domain Upper to include X1 time domain resource unit, the actual transmissions resource collection includes X2 time domain resource unit in time domain, described Original transmitted resource is N1 frequency domain resource units continuous on the X1 time domain resource unit, the object transmission resource For N2 frequency domain resource units continuous on the X2 time domain resource unit, N2 is the minimum more than or equal to N1*X1/X2 Positive integer.

32. resource indicating method according to claim 31, it is characterised in that the reference transmission resource collection is in frequency domain Upper to include Y1 frequency domain resource unit, the actual transmissions resource collection includes Y2 frequency domain resource unit on frequency domain, described Corresponding frequency domain resource unit pair, the frequency domain resource in N2 frequency domain resource unit and the N1 frequency domain resource unit be present Unit centering belongs to serial number of the frequency domain resource unit of object transmission resource in the Y2 frequency domain resource unit：A1*Y2/ Y1's rounds, and A1 is that the frequency domain resource unit provides to the frequency domain resource unit for belonging to original transmitted resource in the Y1 frequency domain Sequence number in the unit of source.

33. a kind of resource determining method, for mobile communication terminal, it is characterised in that the resource determining method includes：

First resource distribution instruction is received from network side；

The original transmitted resource distributed according to the first resource in instruction determination reference transmission resource collection；

According to the resource impact rule between actual transmissions resource collection and reference transmission resource collection, the actual transmissions are determined It is corresponding with the original transmitted resource in resource collection, provided by the actual object transmission for down control channel distribution of network side Source.

34. resource determining method according to claim 33, it is characterised in that the original transmitted resource and object transmission Resource is continuously distributed in time domain.

35. resource determining method according to claim 34, it is characterised in that the reference transmission resource collection is in time domain Upper to include X1 time domain resource unit, the actual transmissions resource collection includes X2 time domain resource unit in time domain, described Original transmitted resource is N1 frequency domain resource units continuous on the X1 time domain resource unit, the object transmission resource For N2 frequency domain resource units continuous on the X2 time domain resource unit, N2 is the minimum more than or equal to N1*X1/X2 Positive integer.

36. resource determining method according to claim 35, it is characterised in that the reference transmission resource collection is in frequency domain Upper to include Y1 frequency domain resource unit, the actual transmissions resource collection includes Y2 frequency domain resource unit on frequency domain, described Corresponding frequency domain resource unit pair, the frequency domain resource in N2 frequency domain resource unit and the N1 frequency domain resource unit be present Unit centering belongs to serial number of the frequency domain resource unit of object transmission resource in the Y2 frequency domain resource unit：A1*Y2/ Y1's rounds, and A1 is that the frequency domain resource unit provides to the frequency domain resource unit for belonging to original transmitted resource in the Y1 frequency domain Sequence number in the unit of source.

37. a kind of resource instruction device, for network side equipment, it is characterised in that the resource instruction device includes：

Distribute module, for being that down control channel distributes original transmitted resource based on reference transmission resource collection；

First instruction determining module, for determining one the in the distribution of reference transmission resource collection according to the original transmitted resource One resource distribution instruction；

First mapping block, between the actual transmissions resource collection and reference transmission resource collection that are used according to current scheduling Resource impact rule, determine in the actual transmissions resource collection to be actually the object transmission resource of down control channel distribution；

First instruction transport module, mobile communication terminal is arrived for transmitting the first resource distribution instruction, is led to by the movement Believe that terminal distributes instruction according to the first resource and determines the original transmitted resource, and determined according to resource impact rule The object transmission resource in the actual transmissions resource collection.

38. the resource instruction device according to claim 37, it is characterised in that the original transmitted resource and object transmission Resource is continuously distributed in time domain.

39. the resource instruction device according to claim 38, it is characterised in that the reference transmission resource collection is in time domain Upper to include X1 time domain resource unit, the actual transmissions resource collection includes X2 time domain resource unit in time domain, described Original transmitted resource is N1 frequency domain resource units continuous on the X1 time domain resource unit, the object transmission resource For N2 frequency domain resource units continuous on the X2 time domain resource unit, N2 is the minimum more than or equal to N1*X1/X2 Positive integer.

40. the resource instruction device according to claim 39, it is characterised in that the reference transmission resource collection is in frequency domain Upper to include Y1 frequency domain resource unit, the actual transmissions resource collection includes Y2 frequency domain resource unit on frequency domain, described Corresponding frequency domain resource unit pair, the frequency domain resource in N2 frequency domain resource unit and the N1 frequency domain resource unit be present Unit centering belongs to serial number of the frequency domain resource unit of object transmission resource in the Y2 frequency domain resource unit：A1*Y2/ Y1's rounds, and A1 is that the frequency domain resource unit provides to the frequency domain resource unit for belonging to original transmitted resource in the Y1 frequency domain Sequence number in the unit of source.

41. a kind of resource determining device, for mobile communication terminal, it is characterised in that the resource determining device includes：

First instruction receiving module, for receiving first resource distribution instruction from network side；

Original transmitted resource determination module, determined for distributing instruction according to the first resource in reference transmission resource collection Original transmitted resource；

Second mapping block, for being advised according to the resource impact between actual transmissions resource collection and reference transmission resource collection Then, determine corresponding with the original transmitted resource in the actual transmissions resource collection, actual by network side is descending control The object transmission resource of channel distribution.

42. resource determining device according to claim 41, it is characterised in that the original transmitted resource and object transmission Resource is continuously distributed in time domain.

43. resource determining device according to claim 42, it is characterised in that the reference transmission resource collection is in time domain Upper to include X1 time domain resource unit, the actual transmissions resource collection includes X2 time domain resource unit in time domain, described Original transmitted resource is N1 frequency domain resource units continuous on the X1 time domain resource unit, the object transmission resource For N2 frequency domain resource units continuous on the X2 time domain resource unit, N2 is the minimum more than or equal to N1*X1/X2 Positive integer.

44. resource determining device according to claim 43, it is characterised in that the reference transmission resource collection is in frequency domain Upper to include Y1 frequency domain resource unit, the actual transmissions resource collection includes Y2 frequency domain resource unit on frequency domain, described Corresponding frequency domain resource unit pair, the frequency domain resource in N2 frequency domain resource unit and the N1 frequency domain resource unit be present Unit centering belongs to serial number of the frequency domain resource unit of object transmission resource in the Y2 frequency domain resource unit：A1*Y2/ Y1's rounds, and A1 is that the frequency domain resource unit provides to the frequency domain resource unit for belonging to original transmitted resource in the Y1 frequency domain Sequence number in the unit of source.

45. a kind of resource indicating method, for network side equipment, it is characterised in that the resource indicating method includes：

It is determined that the position for being recorded as the transfer resource of down control channel distribution and the resource location relativeness of reference resources is joined Number；

The location parameter is transmitted to mobile communication terminal, indicates money of the mobile communication terminal according to transfer resource and reference resources Source position relativeness determines the transfer resource.

46. resource indicating method according to claim 45, it is characterised in that the reference resources are cell reference signals Or the transfer resource where user reference signal.

47. resource indicating method according to claim 45, it is characterised in that the transfer resource and the reference resources It is adjacent in time domain and/or frequency domain.

48. resource indicating method according to claim 45, it is characterised in that also include：

Determine Secondary resource distribution instruction；

Transmit the Secondary resource distribution instruction and arrive mobile communication terminal, instruction mobile communication terminal refers to according to Secondary resource distribution Show the region where the determination transfer resource, and closed in the zone according to transfer resource is relative with the resource location of reference resources System determines the transfer resource.

49. resource indicating method according to claim 45, it is characterised in that the location parameter is a pattern parameter, Different pattern parameters corresponds to different transfer resource quantity and/or different resource location relativenesses.

50. resource indicating method according to claim 45, it is characterised in that the control that the location parameter passes through subframe Transmission or the control channel transmission for passing through current transmission time interval.

51. a kind of resource determining method, for mobile communication terminal, it is characterised in that the resource determining method includes：

From network side receiving record transfer resource and the location parameter of the resource location relativeness of reference resources；

The biography is determined according to the resource location relativeness of the physical location of reference resources and transfer resource and reference resources Defeated resource.

52. resource determining method according to claim 51, it is characterised in that the reference resources are cell reference signals Or the transfer resource where user reference signal.

53. resource determining method according to claim 51, it is characterised in that the transfer resource and the reference resources It is adjacent in time domain and/or frequency domain.

54. resource determining method according to claim 51, it is characterised in that also include：

Receive Secondary resource distribution instruction；

The region where instruction determines the transfer resource is distributed according to Secondary resource；

It is described that institute is determined according to the physical location and transfer resource of reference resources and the resource location relativeness of reference resources The step of stating transfer resource it is determined that region in perform.

55. resource determining method according to claim 51, it is characterised in that the location parameter is a pattern parameter, Different pattern parameters corresponds to different transfer resource quantity and/or different resource location relativenesses.

56. resource determining method according to claim 51, it is characterised in that the control that the location parameter passes through subframe Transmission or the control channel transmission for passing through current transmission time interval.

57. a kind of resource instruction device, for network side equipment, it is characterised in that the resource instruction device includes：

Location parameter determining module, for determining to be recorded as the transfer resource of down control channel distribution and the resource of reference resources The location parameter of position relative relation；

Location parameter transport module, for transmitting the location parameter to mobile communication terminal, instruction mobile communication terminal according to The resource location relativeness of transfer resource and reference resources determines the transfer resource.

58. resource instruction device according to claim 57, it is characterised in that the reference resources are cell reference signals Or the transfer resource where user reference signal.

59. resource instruction device according to claim 57, it is characterised in that the transfer resource and the reference resources It is adjacent in time domain and/or frequency domain.

60. resource instruction device according to claim 57, it is characterised in that also include：

Second instruction determining module, for determining Secondary resource distribution instruction；

Second instruction transport module, mobile communication terminal is arrived for transmitting the Secondary resource distribution instruction, indicates mobile communication Terminal distributes the region where instruction determines the transfer resource according to Secondary resource, and in the zone according to transfer resource and ginseng The resource location relativeness for examining resource determines the transfer resource.

61. resource instruction device according to claim 57, it is characterised in that the location parameter is a pattern parameter, Different pattern parameters corresponds to different transfer resource quantity and/or different resource location relativenesses.

62. resource instruction device according to claim 57, it is characterised in that the control that the location parameter passes through subframe Transmission or the control channel transmission for passing through current transmission time interval.

63. a kind of resource determining device, for mobile communication terminal, it is characterised in that the resource determining device includes：

Location parameter receiving module, for the resource location relativeness from network side receiving record transfer resource and reference resources Location parameter；

Information resources determining module, for the physical location according to reference resources and the resource-niche of transfer resource and reference resources Put relativeness and determine the transfer resource.

64. resource determining device according to claim 63, it is characterised in that the reference resources are cell reference signals Or the transfer resource where user reference signal.

65. resource determining device according to claim 63, it is characterised in that the transfer resource and the reference resources It is adjacent in time domain and/or frequency domain.

66. resource determining device according to claim 63, it is characterised in that also include：

Second instruction receiving module, for receiving Secondary resource distribution instruction；

Area determination module, for distributing the region where instruction determines the transfer resource according to Secondary resource；

The information resources determining module is specifically used in the region that the area determination module determines according to reference resources Physical location and the resource location relativeness of transfer resource and reference resources determine the transfer resource.

67. resource determining device according to claim 63, it is characterised in that the location parameter is a pattern parameter, Different pattern parameters corresponds to different transfer resource quantity and/or different resource location relativenesses.

68. resource determining device according to claim 63, it is characterised in that the control that the location parameter passes through subframe Transmission or the control channel transmission for passing through current transmission time interval.

A kind of 69. resource determining method, for network side or mobile communication terminal, it is characterised in that including：

According to the actual overhead of current downlink control channel, selected from pre-defined resource allocation proposal corresponding with expense Satisfaction requires resource allocation proposal；

The distribution or confirmation of down control channel resources are carried out according to the resource allocation proposal for meeting to require.

A kind of 70. resource determining device, for network side or mobile communication terminal, it is characterised in that including：

Scheme Choice module, for the actual overhead according to current downlink control channel, from pre-defined corresponding with expense Satisfaction is selected to require resource allocation proposal in resource allocation proposal；

Execution module, for carrying out the distribution or confirmation of down control channel resources according to the resource allocation proposal for meeting to require.

71. a kind of network side equipment, it is characterised in that including any one in claim 15-21,37-40,57-62 and 70 Resource instruction device described in.

72. a kind of mobile communication terminal, it is characterised in that including any in claim 22-28,41-44,63-68 and 70 Resource determining device described in one.