CN107734660A - Resource allocation method, device and equipment - Google Patents

Abstract

The embodiment of the present invention provides a kind of resource allocation method, device and equipment.Resource allocation method provided by the invention, including obtain the configuration of at least two parts resource；It is identical with the transmission direction of the resource of same time range in Part II resource to configure Part I resource；Wherein, Part I resource and Part II resource are：At least adjacent two parts resource of two parts resource frequency domain.The embodiment of the present invention can reduce the transmission interference of Adjacent resource, improve efficiency of transmission.

Description

Resource allocation method, device and equipment

Technical field

The present embodiments relate to the communication technology, more particularly to a kind of resource allocation method, device and equipment.

Background technology

Multiple business defined in 5G technologies, different business for service quality (Quality of Service, referred to as QoS) need difference.Such as：Delay requirement, the reliability requirement of different business are different.Can be effective in order that obtaining 5G frame structures 5G business diversity is supported on ground, and different parameters can be configured to different business, such as：It is short to the business configuration of delay sensitive Subframe, the business configuration long subframe insensitive to time delay.

Several scenes defined in 5G technologies, the attribute of different scenes are different.Such as：The carrier frequency of different scenes, translational speed, Cell range, transmission mode are different.In order that 5G scene diversity can effectively be supported by obtaining 5G frame structures, difference can be given The different parameter of scene configuration.Such as：Larger subcarrier spacing (subcarrier spacing, abbreviation are configured for High-speed Circumstance SC), the small SC of low speed scene configuration；The big channel circumstance configuration long loop prefix of delay spread (cyclic prefix, referred to as CP), the small channel circumstance of delay spread configures short CP.

In 5G communication systems, it is contemplated that backwards compatibility, in short-term delay characteristics, unified hybrid automatic repeat-request (Hybrid Auto Repeat Request, abbreviation HARQ) sequential, more uplink chances etc., propose that one kind is applied to Self-contained (self-contained) subframe of time division duplex (Time Division Duplexing, abbreviation TDD) system.Should Self-contained subframe includes up self-contained subframe and descending self-contained subframe, wherein, the up biography of up self-contained sub-frame configuration Defeated resource, can be with configuration protection interval (guard period, abbreviation GP) resource or/and downlink transfer resource；It is descending to wrap certainly The resource of downlink transfer containing sub-frame configuration, can be with GP configuring resource or/and uplink transmission resource.

Continuous frequency spectrum can be divided into several adjacent or neighbouring frequency bands, the different ginseng of each band configurations by 5G technologies Number, the parameter include but is not limited to CP length, subframe lengths, subcarrier spacing, symbol numbers, waveform and bandwidth.When upper State and above-mentioned self-contained subframe has been used in nearby frequency bands, and during the different parameter of self-contained sub-frame configuration of each frequency band, may It is different to there is the data transfer direction of upper different frequency bands of identical or neighbouring time, so as to cause in the time phase between different frequency bands Mutually interference.For example, in identical subframe, the uplink of one configuration of adjacent two frequency bands, another is configured descending Transmission.Can so there is the interference between up-downgoing between frequency band, cause the efficiency of transmission on two frequency bands to reduce.

The content of the invention

The embodiment of the present invention provides a kind of resource allocation method, device and equipment, to reduce transmission interference, improves transmission effect Rate.

In a first aspect, the embodiment of the present invention provides a kind of resource allocation method, including：

Obtain the configuration of at least two parts resource；

It is identical with the transmission direction of the resource of same time range in Part II resource to configure Part I resource；Its In, Part I resource and Part II resource are：At least adjacent two parts resource of two parts resource frequency domain.

In this method, the transmission direction of the resource of same time range in Part I resource and Part II resource is configured It is identical, two parts resource that at least two parts resource frequency domain is adjacent, that is, Part I resource and Part II can be avoided Transmission interference of the resource in same time range, improve efficiency of transmission.

In a kind of achievable mode of first aspect, the same time in Part I resource and Part II resource is configured The transmission direction of the resource of scope is identical, including：

The resource of symbol a time range includes in configuration Part I resource：Protection interval GP resources；

Resource in configuration Part II resource with symbol a identical time ranges in the Part I resource includes： It is at least one in GP resources, up UL transfer resources and descending DL transfer resources.

In mode can be achieved in the another kind of first aspect, configure in Part I resource and Part II resource with for the moment Between scope resource transmission direction it is identical, including：

The resource of symbol a time range includes in configuration Part I resource：UL transfer resources；

Resource in configuration Part II resource with symbol a identical time ranges in Part I resource includes：GP is provided Source and/or UL transfer resources.

Another in first aspect can realize mode, configure in Part I resource and Part II resource with for the moment Between scope resource transmission direction it is identical, including：

The resource of symbol a time range includes in configuration Part I resource：GP resources and UL transfer resources；

Resource in configuration Part II resource with symbol a identical time ranges in Part I resource includes：GP is provided Source and/or UL transfer resources.

Another in first aspect can realize mode, configure in Part I resource and Part II resource with for the moment Between scope resource transmission direction it is identical, including：

The resource of symbol a time range includes in configuration Part I resource：DL transfer resources；

Resource in configuration Part II resource with symbol a identical time ranges in Part I resource includes：GP is provided Source and/or DL transfer resources.

Another in first aspect can realize mode, configure in Part I resource and Part II resource with for the moment Between scope resource transmission direction it is identical, including：

The resource of symbol a time range includes in configuration Part I resource：GP and DL transfer resources；

Resource in configuration Part II resource with symbol a identical time ranges in Part I resource includes：GP is provided Source and/or DL transfer resources.

Another in first aspect can realize mode, obtain the configuration of at least two parts resource, including following any：

Obtain the configuration of predefined at least two parts resource；

The configuration of at least two parts resource is obtained according to notice signaling；

The configuration of the part resource in predefined at least two parts resource is obtained, at least two are obtained according to notice signaling The configuration for remaining resource divided in resource.

Another in first aspect can realize mode, and the configuration at least in two parts resource per part resource is included such as Under it is at least one：Position per part resource, the parameter per part resource and the resource impact per part resource configure.

Another in first aspect can realize mode, and the parameter per part resource includes following at least one：Circulation Symbol numbers that prefix CP length, subcarrier spacing SC, chronomere's length, each chronomere include, per part resource block Including subcarrier number and waveform.

Another in first aspect can realize mode, and at least the configuration of different piece resource includes in two parts resource At least one different parameter.

Another in first aspect can realize mode, and this method also includes：

Shared resource is configured in Part I resource and/or Part II resource, shared resource is used to transmit first The information divided at least a portion resource in resource and Part II resource.

Second aspect, the embodiment of the present invention also provide a kind of resource allocation method, including：

Obtain the configuration of at least two parts resource；

Configure the resource bag of Part I resource and the adjacent resource of Part II resource frequency domain in same time range Include：Non-data transfer resource；Wherein, Part I resource and Part II resource are that at least two parts resource frequency domain is adjacent Two parts resource.

In this method, Part I resource and the adjacent resource of Part II resource frequency domain are configured in same time range Resource include non-data transfer resource, can be in the different directions of the adjacent two parts resource of at least two parts resource frequency domain Increase protection band between transmission, that is, reduce the transmission of Part I resource and Part II resource in same time range Interference, improve efficiency of transmission.

In a kind of achievable mode of second aspect, configure Part I resource and Part II resource frequency domain is adjacent Resource include in the resource of same time range：Non-data transfer resource includes：

Configure time of the part or all of resource adjacent with Part II resource frequency domain in Part I resource in symbol a The resource of scope includes：Non-data transfer resource；

Resource in configuration Part II resource with symbol a identical time ranges in Part I resource includes：Protection It is spaced at least one in GP resources, up UL transfer resources and descending DL transfer resources.

In mode can be achieved in the another kind of second aspect, Part I resource and Part II resource frequency domain phase are configured Adjacent resource includes in the resource of same time range：Non-data transfer resource includes：

The resource of symbol a time range includes in configuration Part I resource：GP resources, UL transfer resources and DL transmission It is at least one in resource；

Configure in Part II resource the part or all of resource adjacent with Part I resource frequency domain with Part I The resource of the symbol a identical time ranges of resource includes：Non-data transfer resource.

Another in second aspect can realize mode, configure Part I resource and Part II resource frequency domain phase Adjacent resource includes in the resource of same time range：Non-data transfer resource includes：

Configure the time range of the first resource adjacent with Part II resource frequency domain in Part I resource in symbol a Resource includes：Non-data transfer resource；

Time range of other resources in symbol a in configuration Part I resource outside first resource includes：GP resources, UL It is at least one in transfer resource and DL transfer resources；

Secondary resource adjacent with Part I resource frequency domain in Part II resource is configured in symbol a identical time models The resource enclosed includes：Non-data transfer resource；

Time range of other resources in symbol a in configuration Part II resource outside Secondary resource includes：GP resources, UL It is at least one in transfer resource and DL transfer resources.

The third aspect, the embodiment of the present invention also provide a kind of resource allocation method, including：

Obtain the configuration of at least two parts resource；

It is identical with the transmission direction of the resource of adjacent time scope in Part II resource to configure Part I resource；Its In, Part I resource and the Part II resource are：The adjacent two parts resource of time domain at least in two parts resource.

In this method, the transmission direction of the resource of adjacent time scope in Part I resource and Part II resource is configured It is identical, two parts resource that time domain is adjacent at least two parts resource, that is, Part I resource and Part II can be avoided Transmission interference of the resource in the range of adjacent time, improve efficiency of transmission.

In a kind of achievable mode of the third aspect, adjacent time in Part I resource and Part II resource is configured The transmission direction of the resource of scope is identical, including：

The resource of symbol a time range includes in configuration Part I resource：Protection interval GP；

The resource of symbol b time range includes in configuration Part II resource：GP, up UL transfer resources and descending DL It is at least one in transfer resource；Wherein, symbol b is adjacent with symbol a time domains.

In mode can be achieved in the another kind of the third aspect, when configuring adjacent in Part I resource and Part II resource Between scope resource transmission direction it is identical, including：

The resource of symbol a time range includes in first piece of resource of configuration：UL transfer resources；

The resource of symbol b time range includes in second piece of resource of configuration：GP and/or UL transfer resources；Wherein, symbol B is adjacent with symbol a time domains.

Another in the third aspect can realize mode, when configuring adjacent in Part I resource and Part II resource Between scope resource transmission direction it is identical, including：

The resource of symbol a time range includes in configuration Part I resource：GP and UL transfer resources；

The resource of symbol b time range includes in configuration Part II resource：GP and/or UL transfer resources；Wherein, accord with Number b is adjacent with symbol a time domains.

Another in the third aspect can realize mode, when configuring adjacent in Part I resource and Part II resource Between scope resource transmission direction it is identical, including：

The resource of symbol a time range includes in configuration Part I resource：DL transfer resources；

The resource of symbol b time range includes in configuration Part II resource：GP and/or DL transfer resources；Wherein, accord with Number b is adjacent with symbol a time domains.

Another in the third aspect can realize mode, when configuring adjacent in Part I resource and Part II resource Between scope resource transmission direction it is identical, including：

The resource of symbol a time range includes in configuration Part I resource：GP and DL transfer resources；

The resource of symbol b time range includes in configuration Part II resource：GP and/or DL transfer resources；Wherein, accord with Number b is adjacent with symbol a time domains.

Another in the third aspect can realize mode, and this method also includes：

At least one independent transfer resource is configured at least two parts resource；Wherein, each independent transfer resource In Part I resource and/or Part II resource；Each corresponding user equipment (UE) or one of independent transfer resource Individual UE groups.

Another in the third aspect can realize mode, and each independent transfer resource includes following at least one：DL Transfer resource, GP resources and UL transfer resources.

Another in the third aspect can realize mode, configure at least one independent biography at least two parts resource Defeated resource, including：

Configured at least two parts resource at least one independent transfer resource in each independent transfer resource At least one of in GP length, DL length, UL length.

Another in the third aspect can realize mode, configure at least one independent biography at least two parts resource Defeated resource, including it is following any：

Pass through at least one independent transfer resource of preset configuration；

At least one independent transfer resource is configured by notice signaling.

Fourth aspect, the embodiment of the present invention provide a kind of resource allocation method, including：

Obtain the configuration of at least two parts resource；

Configuration Part I resource includes in the resource of very first time scope：Up UL transfer resources；

The resource of the second time range includes in configuration Part II resource：Protection interval GP resources, UL transfer resources and It is at least one in descending DL transfer resources；Wherein, when Part I resource and Part II resource are at least in two parts resource The adjacent two parts resource in domain；Very first time scope and second time range are adjacent two time ranges of time domain.

In this method, configuring the resource of very first time scope of Part I resource includes UL transfer resources, can avoid to The adjacent two parts resource of time domain in few two parts resource, that is, Part I resource and Part II resource are in adjacent time In the range of transmission interference, improve efficiency of transmission.

In a kind of achievable mode of fourth aspect, resource bag of the configuration Part I resource in very first time scope Include：UL transfer resources, including：

Configuration Part I resource includes in the resource of very first time scope：GP and UL transfer resources.

In mode can be achieved in the another kind of fourth aspect, very first time scope includes：Symbol a time range；Second Time range includes：Symbol b time range；Wherein, symbol b is adjacent with symbol a time domains.

5th aspect, the embodiment of the present invention provide a kind of device for allocating resources, including：

Acquisition module, for obtaining the configuration of at least two parts resource；

Configuration module, for configuring the transmission of the resource of same time range in Part I resource and Part II resource Direction is identical；Wherein, Part I resource and Part II resource are：At least adjacent two parts money of two parts resource frequency domain Source.

In a kind of achievable mode of the 5th aspect, configuration module, specifically for symbol a in configuration Part I resource The resource of time range include：Protection interval GP resources；Configure Part II resource in symbol a phases in Part I resource The resource of same time range includes：It is at least one in GP resources, up UL transfer resources and descending DL transfer resources.

In mode can be achieved in the another kind of the 5th aspect, configuration module, specifically for being accorded with configuration Part I resource The resource of number a time range includes：UL transfer resources；Configure Part II resource in symbol a phases in Part I resource The resource of same time range includes：GP resources and/or UL transfer resources.

In another in terms of the 5th can realize mode, configuration module, specifically for being accorded with configuration Part I resource The resource of number a time range includes：GP resources and UL transfer resources；Configure Part II resource in in Part I resource The resource of symbol a identical time ranges includes：GP resources and/or UL transfer resources.

In another in terms of the 5th can realize mode, configuration module, specifically for being accorded with configuration Part I resource The resource of number a time range includes：DL transfer resources；Configure Part II resource in symbol a phases in Part I resource The resource of same time range includes：GP resources and/or DL transfer resources.

In another in terms of the 5th can realize mode, configuration module, specifically for being accorded with configuration Part I resource The resource of number a time range includes：GP and DL transfer resources；Configure Part II resource in symbol in Part I resource The resource of a identical time ranges includes：GP resources and/or DL transfer resources.

In another in terms of the 5th can realize mode, acquisition module, specifically for being obtained using following either type At least configuration of two parts resource：Obtain the configuration of predefined at least two parts resource；At least two are obtained according to notice signaling The configuration of part resource；The configuration of the part resource in predefined at least two parts resource is obtained, is obtained according to notice signaling The configuration of remaining resource at least in two parts resource.

In another in terms of the 5th can realize mode, the configuration at least in two parts resource per part resource is included such as Under it is at least one：Position per part resource, the parameter per part resource and the resource impact per part resource configure.

In another in terms of the 5th can realize mode, the parameter per part resource includes following at least one：Circulation Symbol numbers that prefix CP length, subcarrier spacing SC, chronomere's length, each chronomere include, per part resource block Including subcarrier number and waveform.

In another in terms of the 5th can realize mode, at least the configuration of different piece resource includes in two parts resource At least one different parameter.

In another in terms of the 5th can realize mode, configuration module, it is additionally operable in Part I resource and/or second Shared resource is configured on part resource, shared resource is used to transmit at least one in Part I resource and Part II resource The information divided in resource.

6th aspect, the embodiment of the present invention also provide a kind of device for allocating resources, including：

Acquisition module, for obtaining the configuration of at least two parts resource；

Configuration module, for configuring Part I resource and the adjacent resource of Part II resource frequency domain in the same time The resource of scope includes：Non-data transfer resource；Wherein, Part I resource and Part II resource are at least two parts resource The adjacent two parts resource of frequency domain.

In a kind of achievable mode of the 6th aspect, configuration module, specifically in configuration Part I resource with the The resource of time range of the adjacent part or all of resource of two part resource frequency domains in symbol a includes：Non-data transfer resource； Resource in configuration Part II resource with symbol a identical time ranges in Part I resource includes：Protection interval GP is provided It is at least one in source, up UL transfer resources and descending DL transfer resources.

In mode can be achieved in the another kind of the 6th aspect, configuration module, specifically for being accorded with configuration Part I resource The resource of number a time range includes：It is at least one in GP resources, UL transfer resources and DL transfer resources；Configure Part II The part or all of resource adjacent with Part I resource frequency domain is in the symbol a identical times with Part I resource in resource The resource of scope includes：Non-data transfer resource.

Another at the 6th aspect can realize mode, configuration module, specifically in configuration Part I resource with The adjacent first resource of Part II resource frequency domain includes in the resource of symbol a time range：Non-data transfer resource；Configuration Time range of other resources in symbol a in Part I resource outside first resource includes：GP resources, UL transfer resources and DL It is at least one in transfer resource；Secondary resource adjacent with Part I resource frequency domain in Part II resource is configured in symbol a The resource of identical time range includes：Non-data transfer resource；Configure other moneys in Part II resource outside Secondary resource Time range of the source in symbol a includes：It is at least one in GP resources, UL transfer resources and DL transfer resources.

7th aspect, the embodiment of the present invention also provide a kind of device for allocating resources, including：

Acquisition module, for obtaining the configuration of at least two parts resource；

Configuration module, for configuring the transmission of the resource of adjacent time scope in Part I resource and Part II resource Direction is identical；Wherein, Part I resource and the Part II resource are：Two that at least time domain is adjacent in two parts resource Divide resource.

In a kind of achievable mode of the 7th aspect, configuration module, specifically for symbol a in configuration Part I resource The resource of time range include：Protection interval GP；The resource of symbol b time range includes in configuration Part II resource： It is at least one in GP, up UL transfer resources and descending DL transfer resources；Wherein, symbol b is adjacent with symbol a time domains.

In mode can be achieved in the another kind of the 7th aspect, configuration module, specifically for symbol a in first piece of resource of configuration The resource of time range include：UL transfer resources；The resource of symbol b time range includes in second piece of resource of configuration：GP And/or UL transfer resources；Wherein, symbol b is adjacent with symbol a time domains.

In another in terms of the 7th can realize mode, configuration module, specifically for being accorded with configuration Part I resource The resource of number a time range includes：GP and UL transfer resources；Configure the money of symbol b time range in Part II resource Source includes：GP and/or UL transfer resources；Wherein, symbol b is adjacent with symbol a time domains.

In another in terms of the 7th can realize mode, configuration module, specifically for being accorded with configuration Part I resource The resource of number a time range includes：DL transfer resources；Configure the resource bag of symbol b time range in Part II resource Include：GP and/or DL transfer resources；Wherein, symbol b is adjacent with symbol a time domains.

In another in terms of the 7th can realize mode, configuration module, specifically for being accorded with configuration Part I resource The resource of number a time range includes：GP and DL transfer resources；Configure the money of symbol b time range in Part II resource Source includes：GP and/or DL transfer resources；Wherein, symbol b is adjacent with symbol a time domains.

In another in terms of the 7th can realize mode, configuration module, it is additionally operable to configure at least two parts resource At least one independent transfer resource；Wherein, each independent transfer resource is located at Part I resource and/or Part II money In source；Each corresponding user equipment (UE) of independent transfer resource or a UE group.

In another in terms of the 7th can realize mode, each independent transfer resource includes following at least one：DL Transfer resource, GP resources and UL transfer resources.

In another in terms of the 7th can realize mode, configuration module, specifically for matching somebody with somebody at least two parts resource Put at least one independent transfer resource at least one in GP length in each independent transfer resource, DL length, UL length .

In another in terms of the 7th can realize mode, configuration module, specifically for using following either type extremely At least one independent transfer resource is configured in few two parts resource：Pass through at least one independent transfer resource of preset configuration； At least one independent transfer resource is configured by notice signaling.

Eighth aspect, the embodiment of the present invention provide a kind of device for allocating resources, including：

Acquisition module, for obtaining the configuration of at least two parts resource；

Configuration module, include for configuring Part I resource in the resource of very first time scope：Up UL transfer resources； The resource of the second time range includes in configuration Part II resource：Protection interval GP resources, UL transfer resources and descending DL are passed It is at least one in defeated resource；Wherein, Part I resource and Part II resource are that time domain is adjacent at least in two parts resource Two parts resource；Very first time scope and second time range are adjacent two time ranges of time domain.

In a kind of achievable mode of eighth aspect, configuration module, specifically for configuration Part I resource first The resource of time range includes：GP and UL transfer resources.

In mode can be achieved in the another kind of eighth aspect, very first time scope includes：Symbol a time range；Second Time range includes：Symbol b time range；Wherein, symbol b is adjacent with symbol a time domains.

9th aspect, the embodiment of the present invention also provide a kind of resource distribution equipment, including processor and memory；Processor It is connected with memory；

Memory instructs for storage program；

Processor, for calling the programmed instruction stored in memory to perform any resource that above-mentioned first aspect provides Collocation method.

Tenth aspect, the embodiment of the present invention also provide a kind of resource distribution equipment, including processor and memory；Processor It is connected with memory；

Memory instructs for storage program；

Processor, for calling the programmed instruction stored in memory to perform any resource that above-mentioned second aspect provides Collocation method.

Tenth on the one hand, and the embodiment of the present invention also provides a kind of resource distribution equipment, including processor and memory；Processing Device is connected with memory；

Memory instructs for storage program；

Processor, for calling the programmed instruction stored in memory to perform any resource that the above-mentioned third aspect provides Collocation method.

12nd aspect, the embodiment of the present invention also provide a kind of resource distribution equipment, including processor and memory；Processing Device is connected with memory；

Memory instructs for storage program；

Processor, for calling the programmed instruction stored in memory to perform any resource that above-mentioned fourth aspect provides Collocation method.

Resource allocation method, device and equipment provided in an embodiment of the present invention, acquisition at least two parts resource can be passed through Configuration, configuration Part I resource is identical with the transmission direction of the resource of same time range in Part II resource, or, match somebody with somebody Put Part I resource and the adjacent resource of Part II resource frequency domain and include non-data in the resource of same time range and pass Defeated resource, the Part I resource and the Part II resource for this at least two parts resource frequency domain it is adjacent two parts money Source, thus, it can eliminate and disturb between the transmission between the adjacent two parts resource of frequency domain, improve the transmission effect of the adjacent two parts resource of frequency domain Rate.

Brief description of the drawings

In order to illustrate more clearly about the embodiment of the present invention or technical scheme of the prior art, below will be to embodiment or existing There is the required accompanying drawing used in technology description to be briefly described, it should be apparent that, drawings in the following description are this hairs Some bright embodiments, for those of ordinary skill in the art, without having to pay creative labor, can be with Other accompanying drawings are obtained according to these accompanying drawings.

Fig. 1 is a kind of flow chart for resource allocation method that the embodiment of the present invention one provides；

Fig. 2 is a kind of resource schematic diagram of the adjacent frequency band of two frequency domains；

Fig. 3 is a structural representation of the self-contained subframe of two frequency bands；

Fig. 4 is another structural representation of the self-contained subframe of two frequency bands；

Fig. 5 is a kind of flow chart for resource allocation method that the embodiment of the present invention two provides；

Fig. 6 is the flow chart for another resource allocation method that the embodiment of the present invention two provides；

Fig. 7 is the flow chart for another resource allocation method that the embodiment of the present invention two provides；

Fig. 8 is the flow chart for another resource allocation method that the embodiment of the present invention two provides；

Fig. 9 is the flow chart for another resource allocation method that the embodiment of the present invention two provides；

Figure 10 is the transfer resource schematic diagram one of the subframe of nearby frequency bands in the embodiment of the present invention two；

Figure 11 is the transfer resource schematic diagram two of the subframe of nearby frequency bands in the embodiment of the present invention two；

Figure 12 is the transfer resource schematic diagram three of the subframe of nearby frequency bands in the embodiment of the present invention two；

Figure 13 is the transfer resource schematic diagram four of the subframe of nearby frequency bands in the embodiment of the present invention two；

Figure 14 is the transfer resource schematic diagram five of the subframe of nearby frequency bands in the embodiment of the present invention two；

Figure 15 is the transfer resource schematic diagram six of the subframe of nearby frequency bands in the embodiment of the present invention two；

Figure 16 is the transfer resource schematic diagram seven of the subframe of nearby frequency bands in the embodiment of the present invention two；

Figure 17 is the transfer resource schematic diagram eight of the subframe of nearby frequency bands in the embodiment of the present invention two；

Figure 18 is the transfer resource schematic diagram nine of the subframe of nearby frequency bands in the embodiment of the present invention two；

Figure 19 is the transfer resource schematic diagram ten of the subframe of nearby frequency bands in the embodiment of the present invention two；

Figure 20 is the transfer resource schematic diagram 11 of the subframe of nearby frequency bands in the embodiment of the present invention two；

Figure 21 is the transfer resource schematic diagram 12 of the subframe of nearby frequency bands in the embodiment of the present invention two；

Figure 22 is the transfer resource schematic diagram 13 of the subframe of nearby frequency bands in the embodiment of the present invention two；

Figure 23 is the transfer resource schematic diagram 14 of the subframe of nearby frequency bands in the embodiment of the present invention two；

Figure 24 is the transfer resource schematic diagram 15 of the subframe of nearby frequency bands in the embodiment of the present invention two；

Figure 25 is the transfer resource schematic diagram 16 of the subframe of nearby frequency bands in the embodiment of the present invention two；

Figure 26 is a kind of flow chart for resource allocation method that the embodiment of the present invention three provides；

Figure 27 is the flow chart for another resource allocation method that the embodiment of the present invention three provides；

Figure 28 is the flow chart for another resource allocation method that the embodiment of the present invention three provides；

Figure 29 is the transfer resource schematic diagram one of the subframe of nearby frequency bands in the embodiment of the present invention three；

Figure 30 is the transfer resource schematic diagram two of the subframe of nearby frequency bands in the embodiment of the present invention three；

Figure 31 is the transfer resource schematic diagram three of the subframe of nearby frequency bands in the embodiment of the present invention three；

Figure 32 is the transfer resource schematic diagram four of the subframe of nearby frequency bands in the embodiment of the present invention three；

Figure 33 is the transfer resource schematic diagram five of the subframe of three adjacent frequency band of the embodiment of the present invention；

Figure 34 is the transfer resource schematic diagram six of the subframe of three adjacent frequency band of the embodiment of the present invention；

Figure 35 is the transfer resource schematic diagram seven of the subframe of three adjacent frequency band of the embodiment of the present invention；

Figure 36 is the transfer resource schematic diagram eight of the subframe of three adjacent frequency band of the embodiment of the present invention；

Figure 37 is the transfer resource schematic diagram nine of the subframe of three adjacent frequency band of the embodiment of the present invention；

Figure 38 is the transfer resource schematic diagram ten of the subframe of three adjacent frequency band of the embodiment of the present invention；

Figure 39 is the transfer resource schematic diagram 11 of the subframe of three adjacent frequency band of the embodiment of the present invention；

Figure 40 is the transfer resource schematic diagram 12 of the subframe of three adjacent frequency band of the embodiment of the present invention；

Figure 41 is the transfer resource schematic diagram 13 of the subframe of nearby frequency bands in the embodiment of the present invention three；

Figure 42 is the transfer resource schematic diagram 14 of the subframe of nearby frequency bands in the embodiment of the present invention three；

Figure 43 is the transfer resource schematic diagram 15 of the subframe of nearby frequency bands in the embodiment of the present invention three；

Figure 44 is the transfer resource schematic diagram 16 of the subframe of nearby frequency bands in the embodiment of the present invention three；

Figure 45 is the transfer resource schematic diagram 17 of the subframe of nearby frequency bands in the embodiment of the present invention three；

Figure 46 is the transfer resource schematic diagram 18 of the subframe of nearby frequency bands in the embodiment of the present invention three；

Figure 47 is the transfer resource schematic diagram 19 of the subframe of nearby frequency bands in the embodiment of the present invention three；

Figure 48 is the transfer resource schematic diagram 20 of the subframe of nearby frequency bands in the embodiment of the present invention three；

Figure 49 is the transfer resource schematic diagram 21 of the subframe of nearby frequency bands in the embodiment of the present invention three；

Figure 50 is the transfer resource schematic diagram 22 of the subframe of nearby frequency bands in the embodiment of the present invention three；

Figure 51 is the transfer resource schematic diagram 23 of the subframe of nearby frequency bands in the embodiment of the present invention three；

Figure 52 is the transfer resource schematic diagram 24 of the subframe of nearby frequency bands in the embodiment of the present invention three；

Figure 53 is a kind of flow chart for resource allocation method that the embodiment of the present invention four provides；

Figure 54 is a kind of resource schematic diagram of the adjacent resource block of two time domains；

Figure 55 is a structural representation of the adjacent resource block of two time domains；

Figure 56 is a kind of flow chart for resource allocation method that the embodiment of the present invention five provides；

Figure 57 is the flow chart for another resource allocation method that the embodiment of the present invention five provides；

Figure 58 is the flow chart for another resource allocation method that the embodiment of the present invention five provides；

Figure 59 is the flow chart for another resource allocation method that the embodiment of the present invention five provides；

Figure 60 is the flow chart for another resource allocation method that the embodiment of the present invention five provides；

Figure 61 is the transfer resource schematic diagram one of resource block adjacent in time domain in the embodiment of the present invention five；

Figure 62 is the transfer resource schematic diagram two of resource block adjacent in time domain in the embodiment of the present invention five；

Figure 63 is the transfer resource schematic diagram three of resource block adjacent in time domain in the embodiment of the present invention five；

Figure 64 is the transfer resource schematic diagram four of resource block adjacent in time domain in the embodiment of the present invention five；

Figure 65 is the transfer resource schematic diagram five of resource block adjacent in time domain in the embodiment of the present invention five；

Figure 66 is the transfer resource schematic diagram six of resource block adjacent in time domain in the embodiment of the present invention five；

Figure 67 is the transfer resource schematic diagram seven of resource block adjacent in time domain in the embodiment of the present invention five；

Figure 68 is the transfer resource schematic diagram eight of resource block adjacent in time domain in the embodiment of the present invention five；

Figure 69 is a kind of flow chart for resource allocation method that the embodiment of the present invention six provides；

Figure 70 is the flow chart for another resource allocation method that the embodiment of the present invention six provides；

Figure 71 is the transfer resource schematic diagram one of resource block adjacent in time domain in the embodiment of the present invention six；

Figure 72 is the transfer resource schematic diagram two of resource block adjacent in time domain in the embodiment of the present invention six；

Figure 73 is the transfer resource schematic diagram three of resource block adjacent in time domain in the embodiment of the present invention six；

Figure 74 is the transfer resource schematic diagram four of resource block adjacent in time domain in the embodiment of the present invention six；

Figure 75 is a kind of structural representation for device for allocating resources that the embodiment of the present invention seven provides；

Figure 76 is a kind of structural representation for resource distribution equipment that the embodiment of the present invention eight provides.

Embodiment

To make the purpose, technical scheme and advantage of the embodiment of the present invention clearer, below in conjunction with the embodiment of the present invention In accompanying drawing, the technical scheme in the embodiment of the present invention is clearly and completely described, it is clear that described embodiment is Part of the embodiment of the present invention, rather than whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art The every other embodiment obtained under the premise of creative work is not made, belongs to the scope of protection of the invention.

The method of the embodiment of the present invention is applied to wireless communication system, and the communication system includes base station and terminal.Wherein, base Station equipment (for example, access point, transmitting-receiving point) can refer in access network in the air on interface by one or more sectors and nothing The equipment of line terminal communication.Base station equipment can also coordinate the attribute management to air interface, for example, base station equipment can be long Evolved base station (evolutional Node B, abbreviation eNB in phase evolution (Long Term Evolution, abbreviation LTE) Or e-NodeB).It should be noted that the base station described in the embodiment of the present invention can be not only base station equipment, in can also be After equipment, or possess other network element devices of base station functions, the application does not limit.Terminal can be that wireless terminal can also It is catv terminal, wireless terminal can refer to the equipment for providing a user voice or/and data connectivity, have wireless connection work( The portable equipment of energy or other processing equipments for being connected to radio modem.Wireless terminal can be through wireless access network (Radio Access Network, abbreviation RAN) is communicated with one or more core nets, and wireless terminal can be mobile whole End, as mobile phone (or be " honeycomb " phone) and have mobile terminal computer, for example, it may be portable, pocket Formula, hand-held, built-in computer or vehicle-mounted mobile device, they exchange language or/and data, example with wireless access network Such as, PCS (Personal Communication Service, abbreviation PCS) phone, wireless phone, session setup Agreement (Session Initiation Protocol, abbreviation SIP) phone, WLL (Wireless Local Loop, abbreviation WLL) stand, the equipment such as personal digital assistant (Personal Digital Assistant, abbreviation PDA).It is wireless whole End be referred to as system, subscri er unit (Subscriber Unit, abbreviation SU), subscriber station (Subscriber Station, Abbreviation SS), movement station (Mobile Station, abbreviation MB), mobile station (Mobile), distant station (Remote Station, letter Claim RS), access point (Access Point, abbreviation AP), remote terminal (Remote Terminal, abbreviation RT), access terminal (Access Terminal, abbreviation AT), user terminal (User Terminal, abbreviation UT), user agent (User Agent, Abbreviation UA), terminal device (User Device, abbreviation UD) or subscriber's installation (User Equipment, abbreviation UE).

It is appreciated that " at least two " that occur in the embodiment of the present invention refer to " two " or " two or more ".

Communication means involved by the embodiment of the present invention, it is intended to if solve prior art due to wireless communication technology can pair Dry time domain or the adjacent or neighbouring part resource of frequency domain, interference when different parameters are configured per part resource reduce problem. The wherein above-mentioned parameter includes but is not limited to CP length, subframe lengths, subcarrier spacing, the symbol numbers that each subframe includes And waveform.

How to be solved to technical scheme and technical scheme with specifically embodiment below above-mentioned Technical problem is described in detail.These specific embodiments can be combined with each other below, for same or analogous concept Or process may repeat no more in certain embodiments.

Fig. 1 is a kind of flow chart for resource allocation method that the embodiment of the present invention one provides.The resource allocation method can be by Base station equipment performs.As shown in figure 1, the resource allocation method of the present embodiment can include：

S101, the configuration for obtaining at least two parts resource.

Wherein, it at least in two parts resource per part resource can be a frequency band or a frequency domain part, that is, Say, at least two parts resource can be the resource of at least two frequency bands for this.

Optionally, the configuration of at least two parts resource is obtained in S101, it may include following any：

Obtain the configuration of predefined at least two parts resource；

The configuration of at least two parts resource is obtained according to notice signaling；

The configuration of the predefined part resource at least in two parts resource is obtained, this is obtained at least according to notice signaling The configuration of remaining resource in two parts resource.

For example, base station equipment can get the configuration of predefined at least two parts resource when upper electric, Dynamic or the semi-static configuration for changing this two parts resource, the present invention it can not limit in the process of running.UE equipment can be with The configuration of predefined at least two parts resource is got when upper electric, base station equipment hair can also be received in the process of running The notice signaling signaling sent obtains the configuration of at least two parts resource, can also be get when upper electric obtain it is predefined The configuration of the part resource at least in two parts resource, receiving that the notice signaling that key-course is sent obtains in the process of running should The configuration of remaining resource at least in two parts resource.

Optionally, the configuration at least in two parts resource per part resource may include following at least one：This is per part The resource impact of the position of resource, the parameter per part resource and every part resource configures.Wherein, the position per part resource Put time-frequency location and bandwidth including every part resource.

In wireless communication system, it is contemplated that backwards compatibility, in short-term delay characteristics, unified HARQ sequential, more up Transmission opportunity etc., propose a kind of self-contained subframe applied to TDD system.The self-contained subframe includes up (Uplink, abbreviation UL) self-contained subframe and descending (Downlink, abbreviation DL) self-contained subframe, wherein, the self-contained sub-frame configuration UL transmission moneys of UL Source, can be with GP configuring resource and/or DL transfer resources；The self-contained sub-frame configuration DL transfer resources of DL, can be provided with GP configuring Source and/or UL transfer resources.

In the present embodiment, base station equipment determines time-frequency location and the configuration of two parts resource first.Wherein, if being provided per part The configuration in source includes the parameter per part resource, then base station equipment can also obtain the parameter of at least two parts resource, and according to The subframe structure of at least two parts resource is respectively configured in the parameter per part resource.

Optionally, the parameter of every part resource may include following at least one：It is CP length, SC, chronomere's length, every Symbol numbers, the subcarrier number that often part resource block includes and waveform and the waveform that individual chronomere includes.This is at least The configuration of different piece resource may include at least one different parameter in two parts resource.

For adjacent in frequency domain or similar part resource, when resource has used self-contained subframe, and every part resource block Self-contained sub-frame configuration different parameter when, it is understood that there may be the data transfer of upper different piece resource of identical or neighbouring time Direction is different, so as to cause to be interfered in the time between different piece resource.For example, in identical subframe, phase in frequency domain A part of resource distribution is uplink in adjacent two parts resource, and another part resource distribution is downlink transfer, and this is adjacent Interference between two parts resource be present, cause the efficiency of transmission in adjacent two parts resource to reduce.Wherein, two parts resource Frequency domain position it is adjacent, the wherein most narrow spacing of the border frequency domain point of Part I resource and the border frequency domain point of Part II resource From less than pre-set bandwidths.Or, Part III resource using the third parameter is not configured among two parts resource.The pre-set bandwidths Supported transmission bandwidth or the remaining bandwidth value that system defines can be referred to, the transmission bandwidth defined such as LTE is 1.4MHz, It is any in 3MHz, 5MHz, 10MHz, 15MHz, 20MHz.

For example, using a frequency band as a part of resource, the adjacent two parts resource of frequency domain can be that frequency domain is adjacent Two frequency bands resource.Fig. 2 is a kind of resource schematic diagram of the adjacent frequency band of two frequency domains.As shown in Fig. 2 when frequency band 1 The minimum range of border frequency domain point and the border frequency domain point of frequency band 0, it is, the minimum between the frequency band border of frequency band 1 and frequency band 0 Distance is less than pre-determined distance, then frequency band 1 and frequency band 0 are two resources adjacent on frequency domain.

In order that each several part resource subframe structure can effectively support wireless communication technology scene diversity or/ With business diversity or/and frequency spectrum diversity, different parameters can be configured by marking off at least two parts resource come, the parameter Symbol numbers that including but not limited to CP length, chronomere's length, SC, each chronomere include, per part resource block Including subcarrier number and waveform.

For example, Fig. 3 is a structural representation of the self-contained subframe of two frequency bands.As shown in figure 3, base station equipment It is configured with frequency band 0 and frequency band 1 adjacent on frequency domain, and according to parameter configuration frequency band 0 and frequency band 1, its midband 0 and frequency band 1 Subframe lengths it is identical, SC is identical, CP length is identical, symbol lengths are identical.Fig. 4 is the another of the self-contained subframe of two frequency bands Individual structural representation.As shown in figure 4, base station equipment is according to parameter configuration frequency band 0 and frequency band 1, the son of its mid band 0 and frequency band 1 Frame length is identical, and the SC0 of frequency band 0 is two times of the SC1 of frequency band 1, the CP length of frequency band 0 be the CP length of frequency band 1 two/ One, the symbol lengths 0 of frequency band 0 are the halfs of the symbol lengths 1 of frequency band 1.

Step 102, configuration Part I resource and Part II resource, meet the first preparatory condition or the second default bar Part, the Part I resource and the Part II resource are at least adjacent two parts resource of two parts resource frequency domain.

Wherein, if the resource impact that the configuration per part resource includes per part resource configures.Base station equipment can be according to this Resource impact at least in the configuration of two parts resource per part resource configures, and configures Part I resource and Part II money Source, meet the first preparatory condition or the second preparatory condition.

In one implementation, it can configure Part I resource and Part II resource meet the first preparatory condition, example As configured at least two parts resource so that this is same in Part I resource and Part II resource at least in two parts resource The transmission direction of the resource of time range is identical.

Specifically, Part I resource is identical with the transmission direction of the resource of same time range in Part II resource can With including following any：Resource bag of any portion resource in a time range in Part I resource and Part II resource Include：GP resources；Part I resource and Part II resource include in the resource of same time range：UL transfer resources；The A part of resource and Part II resource include in the resource of same time range：DL transfer resources.

In this method, the transmission direction of the resource of same time range in Part I resource and Part II resource is configured It is identical, two parts resource that at least two parts resource frequency domain is adjacent, that is, Part I resource and Part II can be avoided Transmission interference of the resource in same time range, improve efficiency of transmission.

In another implementation, configurable Part I resource and Part II resource meet the second preparatory condition, Such as configuration Part I resource and the adjacent resource of Part II resource frequency domain include in the resource of same time range：It is non- Data transmission resources.

Specifically, Part I resource and the adjacent fractional bandwidth of Part II resource frequency domain or whole bandwidth resources exist The resource of same time range may include：Non-data transfer resource.

In this method, Part I resource and the adjacent resource of Part II resource frequency domain are configured in same time range Resource include non-data transfer resource, can be in the different directions of the adjacent two parts resource of at least two parts resource frequency domain Increase protection band between transmission, that is, reduce the transmission of Part I resource and Part II resource in same time range Interference, improve efficiency of transmission.

Optionally, this method may also include：

Shared resource is configured in the Part I resource and/or the Part II resource, the shared resource is used to transmit The information at least a portion resource in the Part I resource and the Part II resource.

For example, for the self-contained subframes of DL, the DL transfer resources of each frequency band, available for transmission DL data channels, DL At least one of control channel, DL reference signals.The DL data channels, which refer to DL parts, can transmit based on dynamic dispatching, static tune DL data in degree and semi-persistent scheduling scheduled in any scheduling mode, the UL transfer resources of each frequency band can be configured between frequency band Shared resource.For the self-contained subframes of UL, each frequency band UL part can be UL transfer resources, available for transmit UL data channels, At least one of UL control channels, UL reference signals.The UL data channels, which refer to UL parts, can transmit the UL data based on competition And/or the UL data based on scheduling.UL data based on scheduling can be based on dynamic dispatching, static scheduling and semi-persistent scheduling In UL data scheduled in any scheduling mode.Each frequency band DL transfer resources can be configured to shared resource between frequency band.It is of the invention real The method that the offer of example one is provided, Part I resource and Part II money can be configured by the configuration of acquisition at least two parts resource The transmission direction of the resource of same time range is identical in source, or, configure Part I resource and Part II resource intermediate frequency The adjacent resource in domain includes non-data transfer resource, the Part I resource and the Part II in the resource of same time range Resource is at least adjacent two parts resource of two parts resource frequency domain, thus, it can eliminate between the adjacent two parts resource of frequency domain Disturbed between the transmission of different directions, improve the efficiency of transmission of the adjacent two parts resource of frequency domain.

On the basis of the method described in above-described embodiment one, the embodiment of the present invention two may also provide a kind of resource distribution side Method.Fig. 5 is a kind of flow chart for resource allocation method that the embodiment of the present invention two provides.As shown in figure 5, it is optional, above-mentioned In a kind of implementation, the transmission direction of the resource of same time range in Part I resource and Part II resource can configure It is identical, it can include：

S501, the resource for configuring symbol a time range in the Part I resource include：GP resources；

S502, configure the resource with symbol a identical time ranges in the Part I resource in the Part II resource Including：It is at least one in GP resources, up UL transfer resources and descending DL transfer resources.

Alternately, on the basis of the method described in above-described embodiment one, the embodiment of the present invention two may also provide one kind Resource allocation method.Fig. 6 is the flow chart for another resource allocation method that the embodiment of the present invention two provides.As shown in fig. 6, can Choosing, in a kind of above-mentioned implementation, it can configure the money of same time range in Part I resource and Part II resource The transmission direction in source is identical, can include：

S601, the resource for configuring symbol a time range in the Part I resource include：UL transfer resources.

S602, configure in the Part II resource with symbol a's identical time ranges described in the Part I resource Resource includes：GP resources and/or UL transfer resources.

Alternately, on the basis of the method described in above-described embodiment one, the embodiment of the present invention two may also provide one kind Resource allocation method.Fig. 7 is the flow chart for another resource allocation method that the embodiment of the present invention two provides.As shown in fig. 7, can Choosing, in a kind of above-mentioned implementation, it can configure the money of same time range in Part I resource and Part II resource The transmission direction in source is identical, can include：

S701, the resource for configuring symbol a time range in the Part I resource include：GP resources and UL transmission moneys Source.

S702, configure the money with symbol a identical time ranges in the Part I resource in the Part II resource Source includes：GP resources and/or UL transfer resources.

Alternately, on the basis of the method described in above-described embodiment one, the embodiment of the present invention two may also provide one kind Resource allocation method.Fig. 8 is the flow chart for another resource allocation method that the embodiment of the present invention two provides.As shown in figure 8, can Choosing, in a kind of above-mentioned implementation, it can configure the money of same time range in Part I resource and Part II resource The transmission direction in source is identical, can include：

S801, the resource for configuring symbol a time range in the Part I resource include：DL transfer resources.

S802, configure the money with symbol a identical time ranges in the Part I resource in the Part II resource Source includes：GP resources and/or DL transfer resources.

Alternately, on the basis of the method described in above-described embodiment one, the embodiment of the present invention two may also provide one kind Resource allocation method.Fig. 9 is the flow chart for another resource allocation method that the embodiment of the present invention two provides.As shown in figure 9, can Choosing, in a kind of above-mentioned implementation, it can configure the money of same time range in Part I resource and Part II resource The transmission direction in source is identical, can include：

S901, the resource for configuring symbol a time range in the Part I resource include：GP resources and DL transmission moneys Source.

S902, configure the money with symbol a identical time ranges in the Part I resource in the Part II resource Source includes：GP resources and/or DL transfer resources.

In order to realize the transmission of the resource of same time range in above-mentioned configuration Part I resource and Part II resource Direction is identical, and the present invention can use the collocation method embodiment of the transfer resource of following several tdd systems.Need Bright, following embodiments are described as example, collocation method not limited to this of the invention, as long as meeting above-mentioned condition Belong to protection scope of the present invention, this is not especially limited.

For example, by taking the self-contained subframes of DL as an example, base station equipment can be according to the configuration pair of two adjacent frequency bands of frequency domain Two frequency bands are configured.Two frequency bands for example can be：The subframe of frequency band 0 and frequency band 1, frequency band 0 and frequency band 1 is DL Self-contained subframe.The subframe of frequency band 0 is the self-contained subframes 0 of DL, and the subframe of frequency band 1 is the self-contained subframes 1 of DL.Frequency band 0 and frequency band 1 The DL transfer resources of middle configuration are at least one in DL data channels, DL control channels and DL reference signals available for transmitting, and UL resources are shared between configuration frequency band on frequency band 0 and/or frequency band 1, the shared resource is used to transmit UL data channels, UL control letters It is at least one in road and UL reference signals.

Figure 10 below~Figure 17 is by taking the self-contained subframes of DL as an example, and the resource distribution of adjacent to frequency domain two frequency bands is carried out Illustrate.

Figure 10 is the transfer resource schematic diagram one of the subframe of nearby frequency bands in the embodiment of the present invention two.As shown in Figure 10, originally Base station equipment can be according to the subframe lengths and the self-contained subframes of DL of the self-contained subframes 0 of parameter configuration DL of two frequency bands in embodiment 1 subframe lengths are identical, and the SC of the self-contained subframes of the two DL is identical with symbol numbers that each subframe includes.Base station equipment It can be DL transfer resources by the resource distribution of the time range of the Part I symbol of frequency band 0, the Part I of frequency band 1 can be accorded with Number the resource distribution of time range be DL transfer resources；Base station equipment can be by the time range of the Part II symbol of frequency band 0 Resource distribution be GP resources, can be GP resources by the resource distribution of the time range of the Part II symbol of frequency band 1；Base station is set Standby can be UL transfer resources by the resource distribution of the time range of the Part III symbol of frequency band 0, and the Part III of frequency band 0 is accorded with Number the resource distribution of time range be UL transfer resources.Two such nearby frequency bands are not in difference in same time period The transmission in direction, thus the transmission interference of different directions on different frequency bands can be avoided, improve efficiency of transmission.

Figure 11 is the transfer resource schematic diagram two of the subframe of nearby frequency bands in the embodiment of the present invention two.As shown in figure 11, originally Base station equipment can be according to the subframe lengths and the self-contained subframes of DL of the self-contained subframes 0 of parameter configuration DL of two frequency bands in embodiment 1 subframe lengths are identical, and the SC1 of the self-contained subframe 1 of SC0 and DL of the self-contained subframes 0 of DL meets：SC0=2*SC1, DL are certainly The symbol numbers 1 of the self-contained subframes 1 of symbol numbers 0 and DL comprising subframe 0 meet：Symbol numbers 0=2* symbol numbers 1.Base The resource distribution of the time range of the Part I symbol of frequency band 0 can be DL transfer resources by station equipment, by first of frequency band 1 The resource distribution for dividing the time range of symbol is DL transfer resources；By the resource of the time range of the Part II symbol of frequency band 0 GP resources are configured to, are GP resources by the resource distribution of the time range of the Part II symbol of frequency band 1；By the 3rd of frequency band 0 the The resource distribution of the time range of partial symbols is UL transfer resources, by the money of the time range of the Part III symbol of frequency band 1 Source is configured to UL transfer resources.Two such nearby frequency bands are not in the transmission of different directions in same time period, thus The transmission interference on different frequency bands can be reduced, improve efficiency of transmission.

Figure 12 is the transfer resource schematic diagram three of the subframe of nearby frequency bands in the embodiment of the present invention two.As shown in figure 12, originally Base station equipment is according to the subframe lengths 0 of the self-contained subframes 0 of parameter configuration DL of two frequency bands and the self-contained subframes 1 of DL in embodiment Subframe lengths 1 meet：Subframe lengths 0=2* subframe lengths 1, the SC of the self-contained subframes of the two DL is identical, the self-contained sons of DL The symbol numbers 1 of the self-contained subframes 1 of symbol numbers 0 and DL of frame 0 meet：Symbol numbers 0=2* symbol numbers 1.Base station equipment Can be DL transfer resources by the resource distribution of the time range of the Part I symbol of frequency band 0, by the Part I symbol of frequency band 1 The resource distribution of time range be DL transfer resources；Resource distribution by the time range of the Part II symbol of frequency band 0 is GP resources, it is GP resources by the resource distribution of the time range of the Part II symbol of frequency band 1；The Part III of frequency band 0 is accorded with Number the resource distribution of time range be UL transfer resources, by the resource distribution of the time range of the Part III symbol of frequency band 1 For UL transfer resources.Two such nearby frequency bands are not in the transmission of different directions in same time period, thus can reduce Transmission interference on different frequency bands, improve efficiency of transmission.

Figure 13 is the transfer resource schematic diagram four of the subframe of nearby frequency bands in the embodiment of the present invention two.As shown in figure 13, originally Base station equipment is according to the subframe lengths 0 of the self-contained subframes 0 of parameter configuration DL of two frequency bands and the self-contained subframes 1 of DL in embodiment Subframe lengths 1 meet：Subframe lengths 0=2* subframe lengths 1, and the self-contained subframe 1 of SC0 and DL of the self-contained subframes 0 of DL SC1 meets：The symbol numbers 1 of the self-contained subframes 1 of symbol numbers 0 and DL of the self-contained subframe 0 of SC0=2*SC1, DL meet：Symbol Number number 0=4* symbol numbers 1..The resource distribution of the time range of the Part I symbol of frequency band 0 can be DL by base station equipment Transfer resource and GP resources, it is that DL transfer resources and GP are provided by the resource distribution of the time range of the Part I symbol of frequency band 1 Source；It is UL transfer resources by the resource distribution of the time range of the Part II symbol of frequency band 0, the Part II of frequency band 1 is accorded with Number the resource distribution of time range be UL transfer resources.Two such nearby frequency bands are not in difference in same time period The transmission in direction, thus the transmission interference on different frequency bands can be reduced, improve efficiency of transmission.

Figure 14 is the transfer resource schematic diagram five of the subframe of nearby frequency bands in the embodiment of the present invention two.As shown in figure 14, originally Base station equipment is according to the subframe lengths 0 of the self-contained subframes 0 of parameter configuration DL of two frequency bands and the self-contained subframes 1 of DL in embodiment Subframe lengths 1 meet：Subframe lengths 0=2* subframe lengths 1, and the self-contained subframe 1 of SC0 and DL of the self-contained subframes 0 of DL SC1 meets：The symbol numbers 1 of the self-contained subframes 1 of symbol numbers 0 and DL of the self-contained subframe 0 of SC1=2*SC0, DL meet：Symbol Number number 1=symbol numbers 0.Base station equipment can pass the resource distribution of the time range of the Part I symbol of frequency band 0 for DL Defeated resource and GP resources, it is DL transfer resources and GP resources by the resource distribution of the time range of the Part I symbol of frequency band 1； It is UL transfer resources by the resource distribution of the time range of the Part II symbol of frequency band 0, by the Part II symbol of frequency band 1 The resource distribution of time range is UL transfer resources.Two such nearby frequency bands are not in different directions in same time period Transmission, thus the transmission interference on different frequency bands can be reduced, improve efficiency of transmission.

Figure 15 is the transfer resource schematic diagram six of the subframe of nearby frequency bands in the embodiment of the present invention two.As shown in figure 15, originally Base station equipment is according to the subframe lengths 0 of the self-contained subframes 0 of parameter configuration DL of two frequency bands and the self-contained subframes 1 of DL in embodiment Subframe lengths 1 meet：Subframe lengths 0=2* subframe lengths 1, and the SC of the self-contained subframes of the two DL is identical, DL is self-contained The symbol numbers 1 of the self-contained subframes 1 of symbol numbers 0 and DL of subframe 0 meet：Symbol numbers 0=2* symbol numbers 1.Base station is set Standby can be DL transfer resources by the resource distribution of the Part I symbol of frequency band 0 and the time range of Part IV symbol, will frequency The resource of time range with 1 Part I symbol and Part IV symbol is also configured as DL transfer resources；By frequency band 0 The resource distribution of the time range of Part II symbol and Part V symbol is GP resources, by the Part II symbol of frequency band 1 GP resources are also configured as with the resource of the time range of Part V symbol；By the Part III symbol and Part VI of frequency band 0 The resource distribution of the time range of symbol is UL transfer resources, by the Part III symbol of frequency band 1 and Part VI symbol The resource of time range is also configured as UL transfer resources.Two such nearby frequency bands are not in not Tongfang in same time period To transmission, thus the transmission interference on different frequency bands can be reduced, improve efficiency of transmission.

Figure 16 is the transfer resource schematic diagram seven of the subframe of nearby frequency bands in the embodiment of the present invention two.As shown in figure 16, originally Base station equipment is according to the subframe lengths 0 of the self-contained subframes 0 of parameter configuration DL of two frequency bands and the self-contained subframes 1 of DL in embodiment Subframe lengths 1 meet：Subframe lengths 0=2* subframe lengths 1, and the self-contained subframe 1 of SC0 and DL of the self-contained subframes 0 of DL SC1 meets：The symbol numbers 1 of the self-contained subframes 1 of symbol numbers 0 and DL of the self-contained subframe 0 of SC0=2*SC1, DL meet：Symbol Number number 0=4* symbol numbers 1.Base station equipment can be by the time range of the Part I symbol of frequency band 0 and Part III symbol Resource distribution be DL transfer resources and GP resources, by the time range of the Part I symbol of frequency band 1 and Part III symbol Resource distribution be DL transfer resources and GP resources；By the time range of the Part II symbol of frequency band 0 and Part IV symbol Resource distribution be UL transfer resources, the resource of the Part II symbol of frequency band 1 and the time range of Part IV symbol is matched somebody with somebody It is set to UL transfer resources.Two such nearby frequency bands are not in the transmission of different directions in same time period, thus can subtract Transmission interference on small different frequency bands, improve efficiency of transmission.

Figure 17 is the transfer resource schematic diagram eight of the subframe of nearby frequency bands in the embodiment of the present invention two.As shown in figure 17, originally Base station equipment is according to the subframe lengths 0 of the self-contained subframes 0 of parameter configuration DL of two frequency bands and the self-contained subframes 1 of DL in embodiment Subframe lengths 1 meet：Subframe lengths 0=2* subframe lengths 1, and the self-contained subframe 1 of SC0 and DL of the self-contained subframes 0 of DL SC1 meets：The symbol numbers 1 of the self-contained subframes 1 of symbol numbers 0 and DL of the self-contained subframe 0 of SC1=2*SC0, DL meet：Symbol Number number 1=symbol numbers 0.Base station equipment can be by the time range of the Part I symbol of frequency band 0 and Part III symbol Resource distribution is DL transfer resources and GP resources, by the time range of the Part I symbol of frequency band 1 and Part III symbol Resource distribution is DL transfer resources and GP resources；By the time range of the Part II symbol of frequency band 0 and Part IV symbol Resource distribution is UL transfer resources, by the resource distribution of the Part II symbol of frequency band 1 and the time range of Part IV symbol For UL transfer resources.Two such nearby frequency bands are not in the transmission of different directions in same time period, thus can reduce Transmission interference on different frequency bands, improve efficiency of transmission.

As follows by taking the self-contained subframes of UL as an example, base station equipment can according to the configurations of two frequency bands adjacent in frequency domain to this two Individual frequency band is configured.Two frequency bands for example can be：The subframe of frequency band 0 and frequency band 1, frequency band 0 and frequency band 1 is that UL is wrapped certainly Containing subframe.The subframe of frequency band 0 is the self-contained subframes 0 of UL, and the subframe of frequency band 1 is the self-contained subframes 1 of UL.Match somebody with somebody in frequency band 0 and frequency band 1 The UL transfer resources put can be used at least one of transmission UL data channels, UL control channels and UL reference signals, and in frequency DL resources are shared on band 0 and/or frequency band 1 between configuration frequency band, the shared resource is used to transmit DL data, DL control channels and DL ginsengs Examine at least one of signal.

In figure 18 below~Figure 25 by taking the self-contained subframes of UL as an example, the resource distribution of adjacent to frequency domain two frequency bands is carried out Illustrate.

Figure 18 is the transfer resource schematic diagram nine of the subframe of nearby frequency bands in the embodiment of the present invention two.As shown in figure 18, originally Base station equipment is according to the subframe lengths of the self-contained subframes 0 of parameter configuration UL of two frequency bands and the self-contained subframes 1 of UL in embodiment Subframe lengths it is identical, and the symbol numbers that the SC of the self-contained subframes of the two UL and each subframe include are also identical.Base station is set Standby can be DL transfer resources by the resource distribution of the time range of the Part I symbol of frequency band 0, can be by the Part I of frequency band 1 The resource distribution of the time range of symbol is DL transfer resources；Base station equipment can be by the time model of the Part II symbol of frequency band 0 The resource distribution enclosed is GP resources, can be GP resources by the resource distribution of the time range of the Part II symbol of frequency band 1；Base station The resource distribution of the time range of the Part III symbol of frequency band 0 can be UL transfer resources by equipment, by the Part III of frequency band 0 The resource distribution of the time range of symbol is UL transfer resources.Two such nearby frequency bands are not in not in same time period Equidirectional transmission, thus the transmission interference on different frequency bands can be reduced, improve efficiency of transmission.

Figure 19 is the transfer resource schematic diagram ten of the subframe of nearby frequency bands in the embodiment of the present invention two.As shown in figure 19, originally Base station equipment is according to the subframe lengths of the self-contained subframes 0 of parameter configuration UL of two frequency bands and the self-contained subframes 1 of UL in embodiment Subframe lengths it is identical, and the self-contained subframe 1 of SC0 and UL of the self-contained subframes 0 of UL SC1 meet：SC0=2*SC1, UL are wrapped certainly The symbol numbers 1 of the self-contained subframes 1 of symbol numbers 0 and UL containing subframe 0 meet：Symbol numbers 0=2* symbol numbers 1.Base station The resource distribution of the time range of the Part I symbol of frequency band 0 can be DL transfer resources by equipment, by the Part I of frequency band 1 The resource distribution of the time range of symbol is DL transfer resources；The resource of the time range of the Part II symbol of frequency band 0 is matched somebody with somebody GP resources are set to, are GP resources by the resource distribution of the time range of the Part II symbol of frequency band 1；By the 3rd of frequency band 0 The resource distribution for dividing the time range of symbol is UL transfer resources, by the resource of the time range of the Part III symbol of frequency band 1 It is configured to UL transfer resources.Two such nearby frequency bands are not in the transmission of different directions in same time period, thus can Reduce the transmission interference on different frequency bands, improve efficiency of transmission.

Figure 20 is the transfer resource schematic diagram 11 of the subframe of nearby frequency bands in the embodiment of the present invention two.As shown in figure 20, Base station equipment is according to the subframe lengths 0 of the self-contained subframes 0 of parameter configuration UL of two frequency bands and the self-contained sons of UL in the present embodiment The subframe lengths 1 of frame 1 meet：Subframe lengths 0=2* subframe lengths 1, and the SC of the self-contained subframes of the two UL is identical, UL is wrapped certainly The symbol numbers 1 of the self-contained subframes 1 of symbol numbers 0 and UL containing subframe 0 meet：Symbol numbers 0=2* symbol numbers 1.In phase With in the time, the resource distribution of the time range of the Part I symbol of frequency band 0 is DL transfer resources by base station equipment, by frequency band The resource distribution of the time range of 1 Part I symbol is DL transfer resources；By the time model of the Part II symbol of frequency band 0 The resource distribution enclosed is GP resources, is GP resources by the resource distribution of the time range of the Part II symbol of frequency band 1；By frequency band The resource distribution of the time range of 0 Part III symbol is UL transfer resources, by the time model of the Part III symbol of frequency band 1 The resource distribution enclosed is UL transfer resources.Two such nearby frequency bands are not in the biography of different directions in same time period It is defeated, thus the transmission interference on different frequency bands can be reduced, improve efficiency of transmission.

Figure 21 is the transfer resource schematic diagram 12 of the subframe of nearby frequency bands in the embodiment of the present invention two.As shown in figure 21, Base station equipment is according to the subframe lengths 0 of the self-contained subframes 0 of parameter configuration UL of two frequency bands and the self-contained sons of UL in the present embodiment The subframe lengths 1 of frame 1 meet：Subframe lengths 0=2* subframe lengths 1, and the self-contained subframe 1 of SC0 and UL of the self-contained subframes 0 of UL SC1 meet：The symbol numbers 1 of the self-contained subframes 1 of symbol numbers 0 and UL of the self-contained subframe 0 of SC0=2*SC1, UL meet： Symbol numbers 0=4* symbol numbers 1.The resource distribution of the time range of the Part I symbol of frequency band 0 can be by base station equipment DL transfer resources, it is DL transfer resources by the resource distribution of the time range of the Part I symbol of frequency band 1；By the of frequency band 0 The resource distribution of the time range of two partial symbols is GP resources and UL transfer resources, by the Part II symbol of frequency band 1 when Between the resource distribution of scope be GP resources and UL transfer resources.Two such nearby frequency bands are not in not in same time period Equidirectional transmission, thus the transmission interference on different frequency bands can be reduced, improve efficiency of transmission.

Figure 22 is the transfer resource schematic diagram 13 of the subframe of nearby frequency bands in the embodiment of the present invention two.As shown in figure 22, Base station equipment is according to the subframe lengths 0 of the self-contained subframes 0 of parameter configuration UL of two frequency bands and the self-contained sons of UL in the present embodiment The subframe lengths 1 of frame 1 meet：Subframe lengths 0=2* subframe lengths 1, and the self-contained subframe 1 of SC0 and UL of the self-contained subframes 0 of UL SC1 meet：The symbol numbers 1 of the self-contained subframes 1 of symbol numbers 0 and UL of the self-contained subframe 0 of SC1=2*SC0, UL meet： Symbol numbers 1=symbol numbers 0.The resource distribution of the time range of the Part I symbol of frequency band 0 can be DL by base station equipment Transfer resource, it is DL transfer resources by the resource distribution of the time range of the Part I symbol of frequency band 1；By the second of frequency band 0 The resource distribution of the time range of partial symbols is GP resources and UL transfer resources, by the time of the Part II symbol of frequency band 1 The resource distribution of scope is GP resources and UL transfer resources.Two such nearby frequency bands are not in difference in same time period The transmission in direction, thus the transmission interference on different frequency bands can be reduced, improve efficiency of transmission.

Figure 23 is the transfer resource schematic diagram 14 of the subframe of nearby frequency bands in the embodiment of the present invention two.As shown in figure 23, Base station equipment is according to the subframe lengths 0 of the self-contained subframes 0 of parameter configuration UL of two frequency bands and the self-contained sons of UL in the present embodiment The subframe lengths 1 of frame 1 meet：Subframe lengths 0=2* subframe lengths 1, and the SC of the self-contained subframes of the two UL is identical, UL is wrapped certainly The symbol numbers 1 of the self-contained subframes 1 of symbol numbers 0 and UL containing subframe 0 meet：Symbol numbers 0=2* symbol numbers 1.Base station The resource distribution of the Part I symbol of frequency band 0 and the time range of Part IV symbol can be DL transfer resources by equipment, will The resource of the Part I symbol of frequency band 1 and the time range of Part IV symbol is also configured as DL transfer resources；By frequency band 0 The resource distribution of time range of Part II symbol and Part V symbol be GP resources, the Part II of frequency band 1 is accorded with Number and the resource of time range of Part V symbol be also configured as GP resources；By the Part III symbol of frequency band 0 and the 6th The resource distribution for dividing the time range of symbol is UL transfer resources, by the Part III symbol and Part VI symbol of frequency band 1 The resource of time range be also configured as UL transfer resources.Two such nearby frequency bands are not in difference in same time period The transmission in direction, thus the transmission interference on different frequency bands can be reduced, improve efficiency of transmission.

Figure 24 is the transfer resource schematic diagram 15 of the subframe of nearby frequency bands in the embodiment of the present invention two.As shown in figure 24, Base station equipment is according to the subframe lengths 0 of the self-contained subframes 0 of parameter configuration UL of two frequency bands and the self-contained sons of UL in the present embodiment The subframe lengths 1 of frame 1 meet：Subframe lengths 0=2* subframe lengths 1, and the self-contained subframe 1 of SC0 and UL of the self-contained subframes 0 of UL SC1 meet：The symbol numbers 1 of the self-contained subframes 1 of symbol numbers 0 and UL of the self-contained subframe 0 of SC0=2*SC1, UL meet： Symbol numbers 0=4* symbol numbers 1.Base station equipment can be by the Part I symbol of frequency band 0 and the time model of Part III symbol The resource distribution enclosed is DL transfer resources, by the Part I symbol of frequency band 1 and the resource of the time range of Part III symbol It is configured to DL transfer resources；It is GP by the resource distribution of the Part II symbol of frequency band 0 and the time range of Part IV symbol Resource and UL transfer resources, it is GP by the resource distribution of the Part II symbol of frequency band 1 and the time range of Part IV symbol Resource and UL transfer resources.Two such nearby frequency bands are not in the transmission of different directions in same time period, thus can Reduce the transmission interference on different frequency bands, improve efficiency of transmission.

Figure 25 is the transfer resource schematic diagram 16 of the subframe of nearby frequency bands in the embodiment of the present invention two.As shown in figure 25, Base station equipment is according to the subframe lengths 0 of the self-contained subframes 0 of parameter configuration UL of two frequency bands and the self-contained sons of UL in the present embodiment The subframe lengths 1 of frame 1 meet：Subframe lengths 0=2* subframe lengths 1, and the self-contained subframe 1 of SC0 and UL of the self-contained subframes 0 of UL SC1 meet：The symbol numbers 1 of the self-contained subframes 1 of symbol numbers 0 and UL of the self-contained subframe 0 of SC1=2*SC0, UL meet： Symbol numbers 1=symbol numbers 0.Base station equipment can be by the time range of the Part I symbol of frequency band 0 and Part III symbol Resource distribution be DL transfer resources, the resource of the Part I symbol of frequency band 1 and the time range of Part III symbol is matched somebody with somebody It is set to DL transfer resources；The resource distribution of the Part II symbol of frequency band 0 and the time range of Part IV symbol is provided for GP Source and UL transfer resources, the resource distribution of the Part II symbol of frequency band 1 and the time range of Part IV symbol is provided for GP Source and UL transfer resources.Two such nearby frequency bands are not in the transmission of different directions in same time period, thus can subtract Transmission interference on small different frequency bands, improve efficiency of transmission.

On the basis of the method described in above-described embodiment one, the embodiment of the present invention three may also provide a kind of resource distribution side Method.Figure 26 is a kind of flow chart for resource allocation method that the embodiment of the present invention three provides.As shown in figure 26, optionally, upper State in a kind of implementation, the adjacent resource of configurable Part I resource and Part II resource frequency domain is in same time model The resource enclosed includes non-data transfer resource, can include：

S2601, configure part or all of resource adjacent with the Part II resource frequency domain in the Part I resource and exist The resource of symbol a time range includes non-data transfer resource.

S2602, configure in the Part II resource with the time range of symbol a identicals in the Part I resource Resource includes at least one in GP resources, up UL transfer resources and descending DL transfer resources.

Alternately, on the basis of the method described in above-described embodiment one, the embodiment of the present invention three may also provide one kind Resource allocation method.Figure 27 is the flow chart for another resource allocation method that the embodiment of the present invention three provides.As shown in figure 27, Optionally, in a kind of above-mentioned implementation, the adjacent resource of configurable Part I resource and Part II resource frequency domain Include non-data transfer resource in the resource of same time range, can include：

S2701, configure symbol a time range in the Part I resource resource include GP resources, UL transfer resources It is and at least one in DL transfer resources.

S2702, configure part or all of resource adjacent with the Part I resource frequency domain in the Part II resource and exist Include non-data transfer resource with the resource of the symbol a identical time ranges of the Part I resource.

Alternately, on the basis of the method described in above-described embodiment one, the embodiment of the present invention three may also provide one kind Resource allocation method.Figure 28 is the flow chart for another resource allocation method that the embodiment of the present invention three provides.As shown in figure 28, Optionally, in a kind of above-mentioned implementation, the adjacent resource of configurable Part I resource and Part II resource frequency domain Include non-data transfer resource in the resource of same time range, can include：

S2801, first resource adjacent with the Part II resource frequency domain in the Part I resource is configured symbol a's The resource of time range includes non-data transfer resource.

S2802, configure time range bag of other resources in the Part I resource outside the first resource in symbol a Include at least one in GP resources, UL transfer resources and DL transfer resources.

S2803, Secondary resource adjacent with the Part I resource frequency domain in the Part II resource is configured in symbol a The resource of identical time range includes non-data transfer resource.

S2804, configure time range bag of other resources in the Part II resource outside the Secondary resource in symbol a Include at least one in GP resources, UL transfer resources and DL transfer resources.

In order to realize that it is non-that the resource of same time range in above-mentioned configuration Part I resource and Part II resource includes Data transmission resources, the present invention can use the collocation method embodiment of the transfer resource of following several tdd systems.Need It is noted that following embodiments are described as example, collocation method not limited to this of the invention, as long as meeting above-mentioned Condition belongs to protection scope of the present invention, and this is not especially limited.

For example, by taking the self-contained subframes of DL as an example, base station equipment can be according to the configuration pair of two adjacent frequency bands of frequency domain Two frequency bands are configured.Two frequency bands for example can be：The subframe of frequency band 0 and frequency band 1, frequency band 0 and frequency band 1 is DL Self-contained subframe.The subframe of frequency band 0 is the self-contained subframes 0 of DL, and the subframe of frequency band 1 is the self-contained subframes 1 of DL.Frequency band 0 and frequency band 1 The DL transfer resources of middle configuration are at least one in DL data channels, DL control channels and DL reference signals available for transmitting, and UL resources are shared between configuration frequency band on frequency band 0 and/or frequency band 1, the shared resource is used to transmit UL data channels, UL control letters It is at least one in road and UL reference signals.

Figure 29 below~Figure 40 is by taking the self-contained subframes of DL as an example, and the resource distribution of adjacent to frequency domain two frequency bands is carried out Illustrate.

Figure 29 is the transfer resource schematic diagram one of the subframe of nearby frequency bands in the embodiment of the present invention three.As shown in figure 29, originally Base station equipment is according to the subframe lengths of the self-contained subframes 0 of parameter configuration DL of two frequency bands and the self-contained subframes 1 of DL in embodiment Subframe lengths it is identical, and the self-contained subframe 1 of SC0 and DL of the self-contained subframes 0 of DL SC1 meet：SC0=2*SC1, DL are wrapped certainly The symbol numbers 1 of the self-contained subframes 1 of symbol numbers 0 and DL containing subframe 0 meet：Symbol numbers 0=2* symbol numbers 1.Base station Equipment can be in the adjacent band edge of frequency band 0 and frequency band 1, by N number of son of frequency range 0 and a time range of frequency band 1 Carrier wave is configured to non-data transfer resource, by other sub-carrier configurations outside N number of subcarrier an of time range for frequency band 0 For DL transfer resources, GP resources and UL transfer resources, by other sons outside N number of subcarrier an of time range for frequency band 1 Carrier wave is configured to GP resources and UL transfer resources.Wherein, N is natural number.The adjacent resource of two such nearby frequency bands frequency domain Include non-data transfer resource in the resource of same time range, thus the transmission interference on different frequency bands can be reduced, improve and pass Defeated efficiency.

Figure 30 is the transfer resource schematic diagram two of the subframe of nearby frequency bands in the embodiment of the present invention three.As shown in figure 30, originally Base station equipment is according to the subframe lengths of the self-contained subframes 0 of parameter configuration DL of two frequency bands and the self-contained subframes 1 of DL in embodiment Subframe lengths it is identical, and the self-contained subframe 1 of SC0 and DL of the self-contained subframes 0 of DL SC1 meet：SC0=2*SC1, DL are wrapped certainly The symbol numbers 1 of the self-contained subframes 1 of symbol numbers 0 and DL containing subframe 0 meet：Symbol numbers 0=2* symbol numbers 1.Base station N number of sub-carrier configuration of one time range of frequency range 1 can be non-number in frequency band 0 and the band edge of the frequency domain of frequency band 1 by equipment It is that GP resources and UL are passed by remaining sub-carrier configuration in a time range for frequency band 1 outside N number of subcarrier according to transfer resource Defeated resource, is DL transfer resources, GP resources and UL transfer resources by the resource distribution of a time range of frequency band 0, and N is certainly So number.The adjacent resource of two such nearby frequency bands frequency domain includes non-data transfer resource in the resource of same time range, The transmission interference on different frequency bands can thus be reduced, improve efficiency of transmission.

Figure 31 is the transfer resource schematic diagram three of the subframe of nearby frequency bands in the embodiment of the present invention three.As shown in figure 31, originally Base station equipment is according to the subframe lengths of the self-contained subframes 0 of parameter configuration DL of two frequency bands and the self-contained subframes 1 of DL in embodiment Subframe lengths it is identical, and the self-contained subframe 1 of SC0 and DL of the self-contained subframes 0 of DL SC1 meet：SC0=2*SC1, DL are wrapped certainly The symbol numbers 1 of the self-contained subframes 1 of symbol numbers 0 and DL containing subframe 0 meet：Symbol numbers 0=2* symbol numbers 1.Base station The band edge that equipment can abut in frequency band 0 and frequency band 1, is non-number by N number of sub-carrier configuration of a time range of frequency range 0 It is DL transmission moneys by other sub-carrier configurations in addition to N number of subcarrier of a time range for frequency range 0 according to transfer resource Source, GP resources and UL transfer resources, a time range for frequency band 1 is configured to GP resources and UL transfer resources, N is certainly So number.The adjacent resource of two such nearby frequency bands frequency domain includes non-data transfer resource in the resource of same time range, The transmission interference on different frequency bands can thus be reduced, improve efficiency of transmission.

Figure 32 is the transfer resource schematic diagram four of the subframe of nearby frequency bands in the embodiment of the present invention three.As shown in figure 32, originally Base station equipment is according to the subframe lengths 0 of the self-contained subframes 0 of parameter configuration DL of two frequency bands and the self-contained subframes 1 of DL in embodiment Subframe lengths 1 meet：Subframe lengths 0=2* subframe lengths 1, and the SC of the self-contained subframes of the two DL is identical, and DL is wrapped certainly The symbol numbers of symbol numbers and the self-contained subframes 1 of DL containing subframe 0 meet：Symbol numbers 0=2* symbol numbers 1.Base station is set The standby band edge that can be abutted in frequency band 0 and frequency band 1, N number of sub-carrier configuration by a time range of frequency range 0 is non-data Transfer resource, it is DL transfer resources by other sub-carrier configurations in addition to N number of subcarrier of a time range for frequency range 0, A time range for frequency band 1 is configured to GP resources and UL transfer resources, N is natural number.Two such adjacent frequency Resource with the adjacent resource of frequency domain in same time range includes non-data transfer resource, thus can reduce on different frequency bands Transmission interference, improve efficiency of transmission.

Figure 33 is the transfer resource schematic diagram five of the subframe of three adjacent frequency band of the embodiment of the present invention.As shown in figure 33, this reality Apply base station equipment in example subframe lengths 0 and the self-contained subframes 1 of DL according to the self-contained subframes 0 of parameter configuration DL of two frequency bands Subframe lengths 1 meet：Subframe lengths 0=2* subframe lengths 1, and the SC1 of the self-contained subframe 1 of SC0 and DL of the self-contained subframes 0 of DL Meet：The symbol numbers 1 of the self-contained subframes 1 of symbol numbers 0 and DL of the self-contained subframe 0 of SC0=2*SC1, DL meet：Symbol Number 0=4* symbol numbers 1.The band edge that base station equipment can abut in frequency band 0 and frequency band 1, by a time range of frequency range 0 N number of sub-carrier configuration be non-data transfer resource, by other in addition to N number of subcarrier an of time range for frequency range 0 Sub-carrier configuration is DL transfer resources, a time range for frequency band 1 is configured into GP resources and UL transfer resources, N is Natural number.The adjacent resource of two such nearby frequency bands frequency domain includes non-data transmission money in the resource of same time range Source, thus the transmission interference on different frequency bands can be reduced, improve efficiency of transmission.

Figure 34 is the transfer resource schematic diagram six of the subframe of three adjacent frequency band of the embodiment of the present invention.As shown in figure 34, this reality Apply base station equipment in example subframe lengths 0 and the self-contained subframes 1 of DL according to the self-contained subframes 0 of parameter configuration DL of two frequency bands Subframe lengths 1 meet：Subframe lengths 0=2* subframe lengths 1, and the SC0 of the self-contained subframe 0 of SC1 and DL of the self-contained subframes 1 of DL Meet：The symbol numbers 0 of the subframe 0 self-contained with DL of symbol numbers 1 of the self-contained subframe 1 of SC1=2*SC0, DL are identical.Base station is set The standby band edge that can be abutted in frequency band 0 and frequency band 1, N number of sub-carrier configuration by a time range of frequency range 0 is non-data Transfer resource, it is DL transfer resources by other sub-carrier configurations in addition to N number of subcarrier of a time range for frequency range 0, A time range for frequency band 1 is configured to GP resources and UL transfer resources, N is natural number.Two such nearby frequency bands The adjacent resource of frequency domain includes non-data transfer resource in the resource of same time range, thus can reduce on different frequency bands Transmission interference, improve efficiency of transmission.

Figure 35 is the transfer resource schematic diagram seven of the subframe of three adjacent frequency band of the embodiment of the present invention.As shown in figure 35, this reality Apply base station equipment in example subframe lengths 0 and the self-contained subframes 1 of DL according to the self-contained subframes 0 of parameter configuration DL of two frequency bands Subframe lengths 1 meet：Subframe lengths 0=2* subframe lengths 1, and the SC of the self-contained subframes of the two DL is identical, the self-contained sons of DL The symbol numbers 1 of the self-contained subframes 1 of symbol numbers 0 and DL of frame 0 meet：Symbol numbers 0=2* symbol numbers 1.Base station equipment The band edge that can be abutted in frequency band 0 and frequency band 1, N number of sub-carrier configuration of a time range of frequency range 1 is passed for non-data Defeated resource, it is that GP resources and UL are passed by remaining sub-carrier configuration outside above-mentioned N number of subcarrier an of time range for frequency band 1 Defeated resource, it is DL transfer resources by the resource distribution of a time range of frequency band 0, N is natural number.Two such adjacent frequency Resource with the adjacent resource of frequency domain in same time range includes non-data transfer resource, thus can reduce on different frequency bands Transmission interference, improve efficiency of transmission.

Figure 36 is the transfer resource schematic diagram eight of the subframe of three adjacent frequency band of the embodiment of the present invention.As shown in figure 36, this reality Apply base station equipment in example subframe lengths 0 and the self-contained subframes 1 of DL according to the self-contained subframes 0 of parameter configuration DL of two frequency bands Subframe lengths 1 meet：Subframe lengths 0=2* subframe lengths 1, and the SC1 of the self-contained subframe 1 of SC0 and DL of the self-contained subframes 0 of DL Meet：The symbol numbers 1 of the self-contained subframes 1 of symbol numbers 0 and DL of the self-contained subframe 0 of SC0=2*SC1, DL meet：Symbol Number 0=4* symbol numbers 1.The band edge that base station equipment abuts in frequency band 0 and frequency band 1, by a time range of frequency range 1 N number of sub-carrier configuration is non-data transfer resource, by its in addition to above-mentioned N number of subcarrier an of time range for frequency band 1 Remaining sub-carriers are configured to GP resources and UL transfer resources, are DL transmission moneys by the resource distribution of a time range of frequency band 0 Source, N are natural number.The adjacent resource of two such nearby frequency bands frequency domain passes in the resource of same time range including non-data Defeated resource, thus the transmission interference on different frequency bands can be reduced, improve efficiency of transmission.

Figure 37 is the transfer resource schematic diagram nine of the subframe of three adjacent frequency band of the embodiment of the present invention.As shown in figure 37, this reality Apply base station equipment in example subframe lengths 0 and the self-contained subframes 1 of DL according to the self-contained subframes 0 of parameter configuration DL of two frequency bands Subframe lengths 1 meet：Subframe lengths 0=2* subframe lengths 1, and the SC0 of the self-contained subframe 0 of SC1 and DL of the self-contained subframes 1 of DL Meet：The symbol numbers 0 of the subframe 0 self-contained with DL of symbol numbers 1 of the self-contained subframe 1 of SC1=2*SC0, DL are identical.Base station is set The standby band edge abutted in frequency band 0 and frequency band 1, N number of sub-carrier configuration of a time range of frequency range 1 is passed for non-data Defeated resource, it is that GP resources and UL are passed by remaining sub-carrier configuration outside above-mentioned N number of subcarrier an of time range for frequency band 1 Defeated resource, it is DL transfer resources by the resource distribution of a time range of frequency band 0, N is natural number.Two such adjacent frequency Resource with the adjacent resource of frequency domain in same time range includes non-data transfer resource, thus can reduce on different frequency bands Transmission interference, improve efficiency of transmission.

Figure 38 is the transfer resource schematic diagram ten of the subframe of three adjacent frequency band of the embodiment of the present invention.As shown in figure 38, this reality Apply base station equipment in example subframe lengths 0 and the self-contained subframes 1 of DL according to the self-contained subframes 0 of parameter configuration DL of two frequency bands Subframe lengths 1 meet：Subframe lengths 0=2* subframe lengths 1, and the SC of the self-contained subframes of the two DL is identical, the self-contained sons of DL The symbol numbers 0 of frame 0 meet with the self-contained symbol numbers of subframe 1 of DL：Symbol numbers 0=2* symbol numbers 1.Base station equipment is in frequency The band edge abutted with 0 and frequency band 1, it is non-data transmission money by N number of sub-carrier configuration of a time range of frequency band 0 Source, the M subcarrier an of time range for frequency range 1 is configured to non-data transfer resource, by a time for frequency band 1 Remaining sub-carrier configuration of scope in addition to above-mentioned M subcarrier is GP resources and UL transfer resources, by a time for frequency band 0 Remaining sub-carrier configuration in scope in addition to above-mentioned N number of subcarrier is DL transfer resources, and M and N are natural number.Two such is adjacent The adjacent resource of frequency band frequency domain includes non-data transfer resource in the resource of same time range, thus can reduce different frequency bands On transmission interference, improve efficiency of transmission.

Figure 39 is the transfer resource schematic diagram 11 of the subframe of three adjacent frequency band of the embodiment of the present invention, as shown in figure 39, this Base station equipment is according to the subframe lengths 0 of the self-contained subframes 0 of parameter configuration DL of two frequency bands and the self-contained subframes 1 of DL in embodiment Subframe lengths 1 meet：Subframe lengths 0=2* subframe lengths 1, and the self-contained subframe 1 of SC0 and DL of the self-contained subframes 0 of DL SC1 meets：The symbol numbers 1 of the self-contained subframes 1 of symbol numbers 0 and DL of the self-contained subframe 0 of SC0=2*SC1, DL meet：Symbol Number number 0=4* symbol numbers 1.The band edge that base station equipment abuts in frequency band 0 and frequency band 1, by a time model of frequency band 0 The N number of sub-carrier configuration enclosed is non-data transfer resource, and the M subcarrier an of time range for frequency range 1 is each configured to Non-data transfer resource, remaining sub-carrier configuration of the time range in addition to above-mentioned M subcarrier of frequency band 1 is provided for GP Source and UL transfer resources, it is DL by remaining sub-carrier configuration in a time range for frequency band 0 in addition to above-mentioned N number of subcarrier Transfer resource, M and N are natural number.Resource bag of the adjacent resource of two such nearby frequency bands frequency domain in same time range Non-data transfer resource is included, thus the transmission interference on different frequency bands can be reduced, improves efficiency of transmission.

Figure 40 is the transfer resource schematic diagram 12 of the subframe of three adjacent frequency band of the embodiment of the present invention.As shown in figure 40, originally Base station equipment is according to the subframe lengths 0 of the self-contained subframes 0 of parameter configuration DL of two frequency bands and the self-contained subframes 1 of DL in embodiment Subframe lengths 1 meet：Subframe lengths 0=2* subframe lengths 1, and the self-contained subframe 0 of SC1 and DL of the self-contained subframes 1 of DL SC0 meets：The symbol numbers 0 of the subframe 0 self-contained with DL of symbol numbers 1 of the self-contained subframe 1 of SC1=2*SC0, DL are identical.Base The band edge that station equipment abuts in frequency band 0 and frequency band 1, is non-number by N number of sub-carrier configuration of a time range of frequency band 0 According to transfer resource, the M subcarrier an of time range for frequency range 1 is configured to non-data transfer resource, by being somebody's turn to do for frequency band 1 Remaining sub-carrier configuration of one time range in addition to above-mentioned M subcarrier is GP resources and UL transfer resources, by being somebody's turn to do for frequency band 0 Remaining sub-carrier configuration in one time range in addition to above-mentioned N number of subcarrier is DL transfer resources, and M and N are natural number.So The adjacent resource of two nearby frequency bands frequency domains includes non-data transfer resource in the resource of same time range, thus can reduce Transmission interference on different frequency bands, improve efficiency of transmission.

As follows by taking the self-contained subframes of UL as an example, base station equipment can according to the configurations of two frequency bands adjacent in frequency domain to this two Individual frequency band is configured.Two frequency bands for example can be：The subframe of frequency band 0 and frequency band 1, frequency band 0 and frequency band 1 is that UL is wrapped certainly Containing subframe.The subframe of frequency band 0 is the self-contained subframes 0 of UL, and the subframe of frequency band 1 is the self-contained subframes 1 of UL.Match somebody with somebody in frequency band 0 and frequency band 1 The UL transfer resources put can be used at least one of transmission UL data channels, UL control channels and UL reference signals, and in frequency DL resources are shared on band 0 and/or frequency band 1 between configuration frequency band, the shared resource is used to transmit DL data, DL control channels and DL ginsengs Examine at least one of signal.

In 1~Figure 25 of figure 4 below by taking the self-contained subframes of UL as an example, the resource distribution of adjacent to frequency domain two frequency bands is carried out Illustrate.

Figure 41 is the transfer resource schematic diagram 13 of the subframe of nearby frequency bands in the embodiment of the present invention three.As shown in figure 41, Base station equipment is according to the subframe lengths of the self-contained subframes 0 of parameter configuration UL of two frequency bands and the self-contained subframes of UL in the present embodiment 1 subframe lengths are identical, and the SC1 of the self-contained subframe 1 of SC0 and UL of the self-contained subframes 0 of UL meets：SC0=2*SC1, UL are certainly The symbol numbers 1 of the self-contained subframes 1 of symbol numbers 0 and UL comprising subframe 0 meet：Symbol numbers 0=2* symbol numbers 1.Base Station equipment can be in the adjacent band edge of frequency band 0 and frequency band 1, by the N number of of frequency range 0 and a time range of frequency band 1 Sub-carrier configuration is non-data transfer resource, and other subcarriers outside N number of subcarrier an of time range for frequency band 0 are matched somebody with somebody DL transfer resources, GP resources and UL transfer resources are set to, by other outside N number of subcarrier an of time range for frequency band 1 Sub-carrier configuration is DL transfer resources and GP resources.Wherein, N is natural number.The adjacent money of two such nearby frequency bands frequency domain Source includes non-data transfer resource in the resource of same time range, thus can reduce the transmission interference on different frequency bands, improves Efficiency of transmission.

Figure 42 is the transfer resource schematic diagram 14 of the subframe of nearby frequency bands in the embodiment of the present invention three.As shown in figure 42, Base station equipment is according to the subframe lengths of the self-contained subframes 0 of parameter configuration UL of two frequency bands and the self-contained subframes of UL in the present embodiment 1 subframe lengths are identical, and the SC1 of the self-contained subframe 1 of SC0 and UL of the self-contained subframes 0 of UL meets：SC0=2*SC1, UL are certainly The symbol numbers 1 of the self-contained subframes 1 of symbol numbers 0 and UL comprising subframe 0 meet：Symbol numbers 0=2* symbol numbers 1.Base N number of sub-carrier configuration of one time range of frequency range 1 can be non-in frequency band 0 and the band edge of the frequency domain of frequency band 1 by station equipment Data transmission resources, it is DL transfer resources by remaining sub-carrier configuration in a time range for frequency band 1 outside N number of subcarrier It is that DL transfer resources, GP resources and UL transfer resources, N are by the resource distribution of a time range of frequency band 0 with GP resources Natural number.The adjacent resource of two such nearby frequency bands frequency domain includes non-data transmission money in the resource of same time range Source, thus the transmission interference on different frequency bands can be reduced, improve efficiency of transmission.

Figure 43 is the transfer resource schematic diagram 15 of the subframe of nearby frequency bands in the embodiment of the present invention three.As shown in figure 43, Base station equipment is according to the subframe lengths of the self-contained subframes 0 of parameter configuration UL of two frequency bands and the self-contained subframes of UL in the present embodiment 1 subframe lengths are identical, and the SC1 of the self-contained subframe 1 of SC0 and UL of the self-contained subframes 0 of UL meets：SC0=2*SC1, UL are certainly The symbol numbers 1 of the self-contained subframes 1 of symbol numbers 0 and UL comprising subframe 0 meet：Symbol numbers 0=2* symbol numbers 1.Base The band edge that station equipment can abut in frequency band 0 and frequency band 1, it is non-by N number of sub-carrier configuration of a time range of frequency range 0 Data transmission resources, it is DL transmission moneys by remaining sub-carrier configuration outside N number of subcarrier an of time range for frequency band 0 Source, GP resources and UL transfer resources, it is DL transfer resources and GP resources by the resource distribution of a time range of frequency band 1.N For natural number.The adjacent resource of two such nearby frequency bands frequency domain includes non-data transmission money in the resource of same time range Source, thus the transmission interference on different frequency bands can be reduced, improve efficiency of transmission.

Figure 44 is the transfer resource schematic diagram 16 of the subframe of nearby frequency bands in the embodiment of the present invention three.As shown in figure 44, Base station equipment is according to the subframe lengths 0 of the self-contained subframes 0 of parameter configuration UL of two frequency bands and the self-contained sons of UL in the present embodiment The subframe lengths 1 of frame 1 meet：Subframe lengths 0=2* subframe lengths 1, and the SC of the self-contained subframes of the two UL is identical, and UL is certainly The symbol numbers of symbol numbers comprising subframe 0 and the self-contained subframes 1 of UL meet：Symbol numbers 0=2* symbol numbers 1.Base station The band edge that equipment abuts in frequency band 0 and frequency band 1, N number of sub-carrier configuration by a time range of frequency range 0 is non-data Transfer resource, it is UL transfer resources by remaining sub-carrier configuration outside N number of subcarrier an of time range for frequency band 0, will The resource distribution of one time range of frequency band 1 is DL transfer resources and GP resources, and N is natural number.Two such adjacent frequency Resource with the adjacent resource of frequency domain in same time range includes non-data transfer resource, thus can reduce on different frequency bands Transmission interference, improve efficiency of transmission.

Figure 45 is the transfer resource schematic diagram 17 of the subframe of nearby frequency bands in the embodiment of the present invention three.As shown in figure 45, Base station equipment is according to the subframe lengths 0 of the self-contained subframes 0 of parameter configuration UL of two frequency bands and the self-contained sons of UL in the present embodiment The subframe lengths 1 of frame 1 meet：Subframe lengths 0=2* subframe lengths 1, and the self-contained subframe 1 of SC0 and UL of the self-contained subframes 0 of UL SC1 meet：The symbol numbers 1 of the self-contained subframes 1 of symbol numbers 0 and UL of the self-contained subframe 0 of SC0=2*SC1, UL meet： Symbol numbers 0=4* symbol numbers 1.The band edge that base station equipment abuts in frequency band 0 and frequency band 1, by the time of frequency range 0 N number of sub-carrier configuration of scope is non-data transfer resource, by its outside N number of subcarrier an of time range for frequency band 0 Remaining sub-carriers are configured to UL transfer resources, are that DL transfer resources and GP are provided by the resource distribution of a time range of frequency band 1 Source, N are natural number.The adjacent resource of two such nearby frequency bands frequency domain passes in the resource of same time range including non-data Defeated resource, thus the transmission interference on different frequency bands can be reduced, improve efficiency of transmission.

Figure 46 is the transfer resource schematic diagram 18 of the subframe of nearby frequency bands in the embodiment of the present invention three.As shown in figure 46, Base station equipment is according to the subframe lengths 0 of the self-contained subframes 0 of parameter configuration UL of two frequency bands and the self-contained sons of UL in the present embodiment The subframe lengths 1 of frame 1 meet：Subframe lengths 0=2* subframe lengths 1, and the self-contained subframe 0 of SC1 and UL of the self-contained subframes 1 of UL SC0 meet：The symbol numbers 0 of the subframe 0 self-contained with UL of symbol numbers 1 of the self-contained subframe 1 of SC1=2*SC0, UL are identical. The band edge that base station equipment abuts in frequency band 0 and frequency band 1, it is non-by N number of sub-carrier configuration of a time range of frequency range 0 Data transmission resources, it is UL transmission moneys by remaining sub-carrier configuration outside N number of subcarrier an of time range for frequency band 0 Source, it is DL transfer resources and GP resources by the resource distribution of a time range of frequency band 1, N is natural number.Two such phase Adjacent frequency includes non-data transfer resource with resource of the adjacent resource of frequency domain in same time range, thus can reduce different frequencies The transmission interference taken, improve efficiency of transmission.

Figure 47 is the transfer resource schematic diagram 19 of the subframe of nearby frequency bands in the embodiment of the present invention three.As shown in figure 47, Base station equipment is according to the subframe lengths 0 of the self-contained subframes 0 of parameter configuration UL of two frequency bands and the self-contained sons of UL in the present embodiment The subframe lengths 1 of frame 1 meet：Subframe lengths 0=2* subframe lengths 1, and the SC of the self-contained subframes of the two UL is identical, UL is wrapped certainly The symbol numbers 1 of the self-contained subframes 1 of symbol numbers 0 and UL containing subframe 0 meet：Symbol numbers 0=2* symbol numbers 1.Base station The band edge that equipment can abut in frequency band 0 and frequency band 1, is non-number by N number of sub-carrier configuration of a time range of frequency range 1 It is DL transmission moneys by remaining sub-carrier configuration outside above-mentioned N number of subcarrier an of time range for frequency band 1 according to transfer resource Source and GP resources, it is UL transfer resources by the resource distribution of a time range of frequency band 0, N is natural number.Two such phase Adjacent frequency includes non-data transfer resource with resource of the adjacent resource of frequency domain in same time range, thus can reduce different frequencies The transmission interference taken, improve efficiency of transmission.

Figure 48 is the transfer resource schematic diagram 20 of the subframe of nearby frequency bands in the embodiment of the present invention three.As shown in figure 48, Base station equipment is according to the subframe lengths 0 of the self-contained subframes 0 of parameter configuration UL of two frequency bands and the self-contained sons of UL in the present embodiment The subframe lengths 1 of frame 1 meet：Subframe lengths 0=2* subframe lengths 1, and the self-contained subframe 1 of SC0 and UL of the self-contained subframes 0 of UL SC1 meet：The symbol numbers 1 of the self-contained subframes 1 of symbol numbers 0 and UL of the self-contained subframe 0 of SC0=2*SC1, UL meet： Symbol numbers 0=4* symbol numbers 1.The band edge that base station equipment abuts in frequency band 0 and frequency band 1, by the time of frequency range 1 N number of sub-carrier configuration of scope is non-data transfer resource, and a time range for frequency band 1 is removed into above-mentioned N number of subcarrier Remaining outer sub-carrier configuration is DL transfer resources and GP resources, is UL by the resource distribution of a time range of frequency band 0 Transfer resource, N are natural number.The adjacent resource of two such nearby frequency bands frequency domain includes non-in the resource of same time range Data transmission resources, thus the transmission interference on different frequency bands can be reduced, improve efficiency of transmission.

Figure 49 is the transfer resource schematic diagram 21 of the subframe of nearby frequency bands in the embodiment of the present invention three.Such as Figure 49 institutes Show, base station equipment is self-contained according to the subframe lengths 0 and UL of the self-contained subframes 0 of parameter configuration UL of two frequency bands in the present embodiment The subframe lengths 1 of subframe 1 meet：Subframe lengths 0=2* subframe lengths 1, and the self-contained son of SC1 and UL of the self-contained subframes 1 of UL The SC0 of frame 0 meets：The phase of symbol numbers 0 of the self-contained subframes 0 of symbol numbers 1 and UL of the self-contained subframe 1 of SC1=2*SC0, UL Together.The band edge that base station equipment abuts in frequency band 0 and frequency band 1, by N number of sub-carrier configuration of a time range of frequency range 1 For non-data transfer resource, remaining sub-carrier configuration in addition to above-mentioned N number of subcarrier by a time range for frequency band 1 is DL transfer resources and GP resources, it is UL transfer resources by the resource distribution of a time range of frequency band 0, N is natural number.This The adjacent resource of two nearby frequency bands frequency domains of sample includes non-data transfer resource in the resource of same time range, thus can subtract Transmission interference on small different frequency bands, improve efficiency of transmission.

Figure 50 is the transfer resource schematic diagram 22 of the subframe of nearby frequency bands in the embodiment of the present invention three.Such as Figure 50 institutes Show, base station equipment is self-contained according to the subframe lengths 0 and UL of the self-contained subframes 0 of parameter configuration UL of two frequency bands in the present embodiment The subframe lengths 1 of subframe 1 meet：Subframe lengths 0=2* subframe lengths 1, and the SC of the self-contained subframes of the two UL is identical, UL is certainly Symbol numbers 0 comprising subframe 0 meet with the self-contained symbol numbers of subframe 1 of UL：Symbol numbers 0=2* symbol numbers 1.Base station is set The standby band edge abutted in frequency band 0 and frequency band 1, N number of sub-carrier configuration of a time range of frequency band 0 is passed for non-data Defeated resource, the M subcarrier an of time range for frequency range 1 is configured to non-data transfer resource, by this of frequency band 1 Remaining sub-carrier configuration of time range in addition to above-mentioned M subcarrier is DL transfer resources and GP resources, by this of frequency band 0 Remaining sub-carrier configuration in time range in addition to above-mentioned N number of subcarrier is UL transfer resources, and M and N are natural number.Two such The adjacent resource of nearby frequency bands frequency domain includes non-data transfer resource in the resource of same time range, thus can reduce difference Transmission interference on frequency band, improve efficiency of transmission.

Figure 51 is the transfer resource schematic diagram 23 of the subframe of nearby frequency bands in the embodiment of the present invention three.Such as Figure 51 institutes Show, base station equipment is self-contained according to the subframe lengths 0 and UL of the self-contained subframes 0 of parameter configuration UL of two frequency bands in the present embodiment The subframe lengths 1 of subframe 1 meet：Subframe lengths 0=2* subframe lengths 1, and the self-contained son of SC0 and UL of the self-contained subframes 0 of UL The SC1 of frame 1 meets：The symbol numbers 0 of the self-contained subframe 0 of SC0=2*SC1, UL are full with the symbol numbers 1 of the self-contained subframes 1 of UL Foot：Symbol numbers 0=4* symbol numbers 1.The band edge that base station equipment abuts in frequency band 0 and frequency band 1, by one of frequency band 0 N number of sub-carrier configuration of time range is non-data transfer resource, and the M subcarrier an of time range for frequency range 1 is matched somebody with somebody Non-data transfer resource is set to, is by remaining sub-carrier configuration of the time range in addition to above-mentioned M subcarrier of frequency band 1 DL transfer resources and GP resources, by remaining sub-carrier configuration in a time range for frequency band 0 in addition to above-mentioned N number of subcarrier For UL transfer resources, M and N are natural number.Money of the adjacent resource of two such nearby frequency bands frequency domain in same time range Source includes non-data transfer resource, thus can reduce the transmission interference on different frequency bands, improves efficiency of transmission.

Figure 52 is the transfer resource schematic diagram 24 of the subframe of nearby frequency bands in the embodiment of the present invention three.Such as Figure 52 institutes Show, base station equipment is self-contained according to the subframe lengths 0 and UL of the self-contained subframes 0 of parameter configuration UL of two frequency bands in the present embodiment The subframe lengths 1 of subframe 1 meet：Subframe lengths 0=2* subframe lengths 1, and the self-contained son of SC1 and UL of the self-contained subframes 1 of UL The SC0 of frame 0 meets：The phase of symbol numbers 0 of the self-contained subframes 0 of symbol numbers 1 and UL of the self-contained subframe 1 of SC1=2*SC0, UL Together.The band edge that base station equipment abuts in frequency band 0 and frequency band 1, by N number of sub-carrier configuration of a time range of frequency band 0 For non-data transfer resource, the M subcarrier an of time range for frequency range 1 is configured to non-data transfer resource, will frequency It is DL transfer resources and GP resources with 1 remaining sub-carrier configuration of the time range in addition to above-mentioned M subcarrier, by frequency Remaining sub-carrier configuration in a time range with 0 in addition to above-mentioned N number of subcarrier is UL transfer resources, and M and N are nature Number.The adjacent resource of two such nearby frequency bands frequency domain includes non-data transfer resource in the resource of same time range, because And the transmission interference on different frequency bands can be reduced, improve efficiency of transmission.

The embodiment of the present invention four also provides a kind of resource allocation method.Figure 53 is a kind of money that the embodiment of the present invention four provides The flow chart of source collocation method.The resource allocation method can be performed by base station equipment.As shown in figure 53, the method bag of this example Include：

S5301, the configuration for obtaining at least two parts resource.

Optionally, the configuration of at least two parts resource is obtained in S5301, it may include following any：

Obtain the configuration of predefined at least two parts resource；

The configuration of at least two parts resource is obtained according to notice signaling；

The configuration of the predefined part resource at least in two parts resource is obtained, this is obtained at least according to notice signaling The configuration of remaining resource in two parts resource.

For example, base station equipment can get the configuration of predefined at least two parts resource when upper electric, Dynamic or the semi-static configuration for changing this two parts resource, the present invention it can not limit in the process of running.UE equipment can be with The configuration of predefined at least two parts resource is got when upper electric, base station equipment hair can also be received in the process of running The notice signaling signaling sent obtains the configuration of at least two parts resource, can also be get when upper electric obtain it is predefined The configuration of the part resource at least in two parts resource, receiving that the notice signaling that key-course is sent obtains in the process of running should The configuration of remaining resource at least in two parts resource.

Optionally, the configuration at least in two parts resource per part resource may include following at least one：This is per part The resource impact of the position of resource, the parameter per part resource and every part resource configures.Wherein, the position per part resource Put time-frequency location and bandwidth including every part resource.

Wherein, if the configuration per part resource includes the parameter per part resource, base station equipment can also obtain this at least The parameter of two parts resource, and the subframe structure of at least two parts resource is respectively configured according to the parameter per part resource.

Optionally, the parameter of every part resource may include following at least one：It is CP length, SC, chronomere's length, every Symbol numbers, the subcarrier number that often part resource block includes and waveform and the waveform that individual chronomere includes.This is at least The configuration of different piece resource may include at least one different parameter in two parts resource.

In wireless communication system, it is contemplated that the orthogonality under orthogonal multiple access technique between different user, it is proposed that a kind of The technology that base station equipment sends and received simultaneously simultaneously.In the technology, under TDD system, GP configuring between different pieces of information transmission direction.

In wireless communication system, it is contemplated that backwards compatibility, in short-term delay characteristics, unified HARQ sequential, more up Transmission opportunity etc., propose a kind of self-contained subframe applied to TDD system.The self-contained subframe includes up (Uplink, abbreviation UL) self-contained subframe and descending (Downlink, abbreviation DL) self-contained subframe, wherein, the self-contained sub-frame configuration UL transmission moneys of UL Source, can be with GP configuring resource and/or DL transfer resources；The self-contained sub-frame configuration DL transfer resources of DL, can be provided with GP configuring Source and/or UL transfer resources.

In wireless communication system, it is contemplated that the orthogonality between different user simultaneously, it is proposed that a kind of base station equipment is sent With the method received simultaneously.This method refers in a chronomere, for descending transmission base station equipment in synchronization Send the data to all users being scheduled in cell, for uplink receiving base station equipment in same reception quilt The upstream data that the user being dispatched to sends.In order to ensure being sent and received while above-mentioned base station equipment, base station is according to user Propagation delay the lead of its uplink is sent to user, so as to ensure the uplink of different user arriving in base station side It is identical up to the moment.Therefore, when system uses TDD subframe structures, in order to reduce the interference between the downstream transmission of different user, Need the GP configuring between downlink transfer and uplink, wherein up-downgoing conversion time delay of the length of the GP more than or equal to 2 times The sum extended plus twice of maximum delay plus user of edge customer and the propagation time difference of near point user.

For adjacent in time domain or similar part resource, when having used TDD subframe structures and base station equipment in resource While send and receive simultaneously technology when, and when configuring per part resource different parameters, it is understood that there may be different piece provides Transmission method on the adjacent-symbol in source is different, so as to cause to be interfered between different piece resource.For example, identical frequency domain Interior, the downlink transfer resource of adjacent a part of resource distribution of two parts resource in time domain, another part resource distribution is up Transfer resource, interference between adjacent two parts resource be present, cause the efficiency of transmission of two parts resource to reduce.Wherein, two Divide the time-domain position of resource adjacent, refer to two parts resource no overlap region in time domain, wherein Part I resource is last The minimum range of one character boundary and first character boundary of Part II resource is less than preset time.Or, two parts money The Part III resource using the third parameter is not configured among source.The preset time can refer to a symbol, subframe, one The length of any time unit in the length for the other time unit that individual transmission intercal, the length of radio frames and system define Degree.

A part of resource is referred to as one piece of resource, and resource part is referred to as resource block.

For example, the adjacent two parts resource of time domain can be the resource of two adjacent resource blocks of time domain.Figure 54 is A kind of resource schematic diagram of the adjacent resource block of two time domains.As shown in figure 54, when the border time domain point of first resource block 1 and The minimum range of the border time domain point of two resource blocks 2, it is, between the time domain border of first resource block 1 and Secondary resource block 2 Minimum range is less than preset time, then first resource block 1 and Secondary resource block 2 are two resource blocks adjacent on frequency domain.

In order that the field of wireless communication technology can effectively be supported by obtaining the subframe of part resource or the structure of chronomere Scape diversity or/and business diversity or/and frequency spectrum diversity, difference can be configured by marking off at least two parts resource block come Parameter, the parameter includes but is not limited to CP length, symbol numbers that chronomere's length, SC, each chronomere include, The subcarrier number and waveform included per part resource block.

For example, Figure 55 is a structural representation of the adjacent resource block of two time domains.As shown in figure 55, base station is set It is standby to be configured with resource block 0 and resource block 1 adjacent in time domain, and according to parameter configuration resource block 0 and resource block 1, wherein described The SC0 of resource block 0 is 2 times of the SC1 of resource block 1, and the CP length of resource block 0 is the half of the CP length of resource block 1, money The symbol lengths 0 of source block 0 are the halfs of the symbol lengths 1 of resource block 1.

S5302：Part I resource and Part II resource are configured, meets the 3rd preparatory condition or the 4th preparatory condition, The Part I resource and the Part II resource are two parts resource that time domain is adjacent at least in two parts resource.

Wherein, if the resource impact that the configuration per part resource includes per part resource configures.Base station equipment can be according to this Resource impact at least in the configuration of two parts resource per part resource configures, and configures Part I resource and Part II money Source, meet the 3rd preparatory condition or the 3rd preparatory condition.

In one implementation, it can configure Part I resource and Part II resource meet the 3rd preparatory condition, example As configured at least two parts resource so that this is adjacent in Part I resource and Part II resource at least in two parts resource The transmission direction of the resource of time range is identical.

Specifically, Part I resource is identical with the transmission direction of the resource of adjacent time scope in Part II resource can With including following any：Resource bag of any portion resource in adjacent time scope in Part I resource and Part II resource Include：GP resources；Part I resource and Part II resource include in the resource of adjacent time scope：UL transfer resources；The A part of resource and Part II resource include in the resource of adjacent time scope：DL transfer resources.

In this method, the transmission direction of the resource of adjacent time scope in Part I resource and Part II resource is configured It is identical, two parts resource that time domain is adjacent at least two parts resource, that is, Part I resource and Part II can be avoided Transmission interference of the resource in the range of adjacent time, improve efficiency of transmission.

In a further mode of operation, it can configure Part I resource and Part II resource meet the 4th preparatory condition, such as Configure at least two parts resource so that the resource bag of the very first time scope of the Part I resource at least in two parts resource Include UL transfer resources.

In this method, configuring the resource of very first time scope of Part I resource includes UL transfer resources, can avoid to The adjacent two parts resource of time domain in few two parts resource, that is, Part I resource and Part II resource are in adjacent time In the range of transmission interference, improve efficiency of transmission.

Optionally, this method may also include：

At least one independent transfer resource is configured in this at least two parts resource；Wherein, each independent transmission money Source is located in the Part I resource and/or the Part II resource；Each corresponding user of independent transfer resource sets Standby (User Equipment, abbreviation UE) or a UE group.

Optionally, each independent transfer resource includes following at least one：DL transfer resources, GP resources and UL transmission Resource.

Optionally, at least one independent transfer resource is configured in this at least two parts resource as described above, including：

Each independent transfer resource at least one independent transfer resource is configured in this at least two parts resource In GP length, DL length, at least one of in UL length.

Wherein, at least one independent transfer resource is configured in this at least two parts resource as described above, including such as Under it is any：

At least one independent transfer resource by preset configuration；

At least one independent transfer resource is configured by notice signaling.

The method that the embodiment of the present invention four provides, Part I can be configured by the configuration of acquisition at least two parts resource Resource is identical with the transmission direction of the resource of adjacent time scope in Part II resource, or, configuration Part I resource exists Resource in the time range adjacent with Part II resource includes UL transfer resources, the Part I resource and the Part II Resource is the adjacent two parts resource of time domain at least in two parts resource, thus, it can eliminate between the adjacent two parts resource of time domain Transmission between disturb, improve the efficiency of transmission of the adjacent two parts resource of time domain.

On the basis of the method described in above-described embodiment four, the embodiment of the present invention five may also provide a kind of resource distribution side Method.Figure 56 is a kind of flow chart for resource allocation method that the embodiment of the present invention five provides.As shown in figure 56, optionally, upper State in a kind of implementation, can configure the transmission side of the resource of adjacent time scope in Part I resource and Part II resource To identical, can include：

S5601, the resource for configuring symbol a time range in the Part I resource include GP resources.

S5602, configure symbol b time range in the Part II resource resource include GP resources, UL transfer resources And it is at least one in descending DL channel resources, wherein, symbol b is adjacent with symbol a time domains.

Alternately, on the basis of the method described in above-described embodiment four, the embodiment of the present invention five may also provide one kind Resource allocation method.Figure 57 is the flow chart for another resource allocation method that the embodiment of the present invention five provides.As shown in figure 57, Optionally, in a kind of above-mentioned implementation, it can configure adjacent time scope in Part I resource and Part II resource The transmission direction of resource is identical, can include：

S5701, the resource for configuring symbol a time range in first piece of resource include UL transfer resources；

S5702, configure symbol b time range in second piece of resource resource include GP resources and/or UL transmission money Source；Wherein, symbol b is adjacent with symbol a time domains.

Alternately, on the basis of the method described in above-described embodiment four, the embodiment of the present invention five may also provide one kind Resource allocation method.Figure 58 is the flow chart for another resource allocation method that the embodiment of the present invention five provides.As shown in figure 58, Optionally, in a kind of above-mentioned implementation, it can configure adjacent time scope in Part I resource and Part II resource The transmission direction of resource is identical, can include：

S5801, configure symbol a time range in the Part I resource resource include GP resources and UL transmission money Source.

S5802, the resource for configuring symbol b time range in the Part II resource include GP resources and/or UL and transmitted Resource；Wherein, symbol b is adjacent with symbol a time domains.

Alternately, on the basis of the method described in above-described embodiment four, the embodiment of the present invention five may also provide one kind Resource allocation method.Figure 59 is the flow chart for another resource allocation method that the embodiment of the present invention five provides.As shown in figure 59, Optionally, in a kind of above-mentioned implementation, it can configure adjacent time scope in Part I resource and Part II resource The transmission direction of resource is identical, can include：

S5901, the resource for configuring symbol a time range in the Part I resource include DL transfer resources.

S5902, the resource for configuring symbol b time range in the Part II resource include GP resources and/or DL and transmitted Resource；Wherein, symbol b is adjacent with symbol a time domains.

Alternately, on the basis of the method described in above-described embodiment four, the embodiment of the present invention five may also provide one kind Resource allocation method.Figure 60 is the flow chart for another resource allocation method that the embodiment of the present invention five provides.As shown in figure 60, Optionally, in a kind of above-mentioned implementation, it can configure adjacent time scope in Part I resource and Part II resource The transmission direction of resource is identical, can include：

S6001, configure symbol a time range in the Part I resource resource include GP resources and DL transmission money Source.

S6002, the resource for configuring symbol b time range in the Part II resource include GP resources and/or DL and transmitted Resource；Wherein, symbol b is adjacent with symbol a time domains.

In order to realize the transmission of the resource of adjacent time scope in above-mentioned configuration Part I resource and Part II resource Direction is identical, and the present invention can use the collocation method embodiment of the transfer resource of following several tdd systems.Need Bright, following embodiments are described as example, collocation method not limited to this of the invention, as long as meeting above-mentioned condition Belong to protection scope of the present invention, this is not especially limited.

For example, two resource blocks that base station equipment can be adjacent to time domain configure, i.e. resource block 0 and resource block 1, and base station equipment take and meanwhile send and simultaneously reception technology.The subframe or chronomere of resource block 0 and resource block 1 be TDD type subframes or chronomere.

Figure 61 is the transfer resource schematic diagram one of resource block adjacent in time domain in the embodiment of the present invention five.Such as Figure 61 institutes Show, the subcarrier spacing of base station equipment configuration resource block 0 is twice of subcarrier spacing of resource block 1 in the present embodiment, resource The CP length of the symbol of block 0 is the 1/2 of the CP length of resource block 1, and the symbol lengths of resource block 0 are the symbol lengths of resource block 1 1/2.The subframe of base station equipment configuration resource block 0 or chronomere are the self-contained subframes of DL or chronomere, configure resource block 1 Subframe or chronomere be the self-contained subframes of DL or chronomere.In the symbol 0 of resource block 0 and the time domain of symbol 1 of resource block 1 Adjacent, configuration symbols 0 and symbol 1 are each configured to DL transfer resources.That is the money of the time range of the adjacent-symbol of Adjacent resource block The transmission direction in source is identical, be not in different resource block adjacent-symbol between the transmission of different directions that brings of up-downgoing switching Between interference.

Figure 62 is the transfer resource schematic diagram two of resource block adjacent in time domain in the embodiment of the present invention five.Such as Figure 62 institutes Show, the subcarrier spacing of base station equipment configuration resource block 0 is twice of subcarrier spacing of resource block 1 in the present embodiment, resource The CP length of the symbol of block 0 is the 1/2 of the CP length of resource block 1, and the symbol lengths of resource block 0 are the symbol lengths of resource block 1 1/2.The subframe of base station equipment configuration resource block 0 or chronomere are the self-contained subframes of UL or chronomere, configure resource block 1 Subframe or chronomere be the self-contained subframes of UL or chronomere.In the symbol 0 of resource block 0 and the time domain of symbol 1 of resource block 1 Adjacent, configuration symbols 0 and symbol 1 are each configured to UL transfer resources.That is the money of the time range of the adjacent-symbol of Adjacent resource block The transmission direction in source is identical, be not in different resource block adjacent-symbol between the transmission of different directions that brings of up-downgoing switching Between interference.

Figure 63 is the transfer resource schematic diagram three of resource block adjacent in time domain in the embodiment of the present invention five.Such as Figure 63 institutes Show, the subcarrier spacing of base station equipment configuration resource block 0 is twice of subcarrier spacing of resource block 1 in the present embodiment, resource The CP length of the symbol of block 0 is the 1/2 of the CP length of resource block 1, and the symbol lengths of resource block 0 are the symbol lengths of resource block 1 1/2.The subframe of base station equipment configuration resource block 0 or chronomere are the self-contained subframes of DL or chronomere, configure resource block 1 Subframe or chronomere be the self-contained subframes of UL or chronomere.In the symbol 0 of resource block 0 and the time domain of symbol 1 of resource block 1 Adjacent, configuration symbols 0 and symbol 1 are each configured to UL transfer resources.That is the money of the time range of the adjacent-symbol of Adjacent resource block The transmission direction in source is identical, be not in different resource block adjacent-symbol between the transmission of different directions that brings of up-downgoing switching Between interference.

Figure 64 is the transfer resource schematic diagram four of resource block adjacent in time domain in the embodiment of the present invention five.Such as Figure 64 institutes Show, the subcarrier spacing of base station equipment configuration resource block 0 is twice of subcarrier spacing of resource block 1 in the present embodiment, resource The CP length of the symbol of block 0 is the 1/2 of the CP length of resource block 1, and the symbol lengths of resource block 0 are the symbol lengths of resource block 1 1/2.The subframe of base station equipment configuration resource block 0 or chronomere are the self-contained subframes of DL or chronomere, configure resource block 1 Subframe or chronomere be the self-contained subframes of UL or chronomere.In the symbol 0 of resource block 0 and the time domain of symbol 1 of resource block 1 Adjacent, configuration symbols 0 and symbol 1 are each configured to DL transfer resources.That is the money of the time range of the adjacent-symbol of Adjacent resource block The transmission direction in source is identical, be not in different resource block adjacent-symbol between the transmission of different directions that brings of up-downgoing switching Between interference.

Figure 65 is the transfer resource schematic diagram five of resource block adjacent in time domain in the embodiment of the present invention five.Such as Figure 65 institutes Show, the subcarrier spacing of base station equipment configuration resource block 0 is twice of subcarrier spacing of resource block 1 in the present embodiment, resource The CP length of the symbol of block 0 is the 1/2 of the CP length of resource block 1, and the symbol lengths of resource block 0 are the symbol lengths of resource block 1 1/2.The subframe of base station equipment configuration resource block 0 or chronomere are the self-contained subframes of DL or chronomere, configure resource block 1 Subframe or chronomere be the self-contained subframes of UL or chronomere.In the symbol 0 of resource block 0 and the time domain of symbol 1 of resource block 1 Adjacent, configuration symbols 0 are GP transfer resources, and configuration symbols 1 are UL transfer resources.That is the time of the adjacent-symbol of Adjacent resource block The transmission direction of the resource of scope is identical, be not in different resource block adjacent-symbol between the not Tongfang brought of up-downgoing switching To transmission between interference.

Figure 66 is the transfer resource schematic diagram six of resource block adjacent in time domain in the embodiment of the present invention five.Such as Figure 66 institutes Show, the subcarrier spacing of base station equipment configuration resource block 0 is twice of subcarrier spacing of resource block 1 in the present embodiment, resource The CP length of the symbol of block 0 is the 1/2 of the CP length of resource block 1, and the symbol lengths of resource block 0 are the symbol lengths of resource block 1 1/2.The subframe of base station equipment configuration resource block 0 or chronomere are the self-contained subframes of DL or chronomere, configure resource block 1 Subframe or chronomere be the self-contained subframes of UL or chronomere.In the symbol 0 of resource block 0 and the time domain of symbol 1 of resource block 1 Adjacent, configuration symbols 0 are DL transfer resources, and configuration symbols 1 are GP transfer resources.That is the time of the adjacent-symbol of Adjacent resource block The transmission direction of the resource of scope is identical, be not in different resource block adjacent-symbol between the not Tongfang brought of up-downgoing switching To transmission between interference.

Figure 67 is the transfer resource schematic diagram seven of resource block adjacent in time domain in the embodiment of the present invention five.Such as Figure 67 institutes Show, the subcarrier spacing of base station equipment configuration resource block 0 is twice of subcarrier spacing of resource block 1 in the present embodiment, resource The CP length of the symbol of block 0 is the 1/2 of the CP length of resource block 1, and the symbol lengths of resource block 0 are the symbol lengths of resource block 1 1/2.The subframe of base station equipment configuration resource block 0 or chronomere are the self-contained subframes of DL or chronomere, configure resource block 1 Subframe or chronomere be the self-contained subframes of UL or chronomere.In the symbol 0 of resource block 0 and the time domain of symbol 1 of resource block 1 Adjacent, configuration symbols 0 are GP transfer resources, and configuration symbols 1 are GP transfer resources.That is the time of the adjacent-symbol of Adjacent resource block The transmission direction of the resource of scope is identical, be not in different resource block adjacent-symbol between the not Tongfang brought of up-downgoing switching To transmission between interference.

Figure 68 is the transfer resource schematic diagram eight of resource block adjacent in time domain in the embodiment of the present invention five.Such as Figure 68 institutes Show, the subcarrier spacing of base station equipment configuration resource block 0 is twice of subcarrier spacing of resource block 1 in the present embodiment, resource The CP length of the symbol of block 0 is the 1/2 of the CP length of resource block 1, and the symbol lengths of resource block 0 are the symbol lengths of resource block 1 1/2.The subframe of base station equipment configuration resource block 0 or chronomere are the self-contained subframes of DL or chronomere, configure resource block 1 Subframe or chronomere be the self-contained subframes of UL or chronomere.In the symbol 0 of resource block 0 and the time domain of symbol 1 of resource block 1 Adjacent, the part frequency domain resource of configuration symbols 0 is configured to GP transfer resources part frequency domain resource and is configured to DL transfer resources, configuration Symbol 1 is GP transfer resources.That is the transmission direction of the resource of the time range of the adjacent-symbol of Adjacent resource block is identical, will not go out Interference between the adjacent-symbol of existing different resource block between the transmission for the different directions that up-downgoing switching is brought.Wherein, it is same from Matched comprising the UL/DL resources that the UE or the transfer resource of the UE groups in subframe, can be configured according to UE ID or UE groups ID, Or GP configurations.I.e. as shown in Figure 68, in the self-contained subframes of resource block 0DL, two groups of resource distributions are configured with, in every group of resource distribution DL resources, UL resources, the configuration of GP resources are different.

On the basis of the method described in above-described embodiment four, the embodiment of the present invention six may also provide a kind of resource distribution side Method.Figure 69 is a kind of flow chart for resource allocation method that the embodiment of the present invention six provides.As shown in Figure 69, optionally, upper State in a kind of implementation, configurable Part I resource includes up UL transfer resources in the resource of very first time scope, can With including：

S6901, configuration Part I resource include UL transfer resources in the resource of very first time scope.

The resource of the second time range includes GP resources, UL transfer resources and descending in S6902, configuration Part II resource It is at least one in DL transfer resources.

The Part I resource provides with the Part II resource for the adjacent two parts of time domain in this at least two parts resource Source；The very first time scope and second time range are adjacent two time ranges of time domain.

On the basis of the method described in above-described embodiment four, the embodiment of the present invention six may also provide a kind of resource distribution side Method.Figure 70 is the flow chart for another resource allocation method that the embodiment of the present invention six provides.As shown in Figure 70, optionally, exist In a kind of above-mentioned implementation, configurable Part I resource includes up UL transfer resources in the resource of very first time scope, It can include：

S7001, configuration Part I resource include in the resource of very first time scope：GP and UL transfer resources.

The resource of the second time range includes GP resources, UL transfer resources and descending in S7002, configuration Part II resource It is at least one in DL transfer resources.

Optionally, the very first time scope includes：Symbol a time range；Second time range includes：Symbol b's Time range；Wherein, symbol b is adjacent with symbol a time domains.

In order to realize that the resource of time range adjacent with Part II resource in above-mentioned configuration Part I resource includes UL transfer resources, the present invention can use the collocation method embodiment of the transfer resource of following several tdd systems.Need Illustrate, following embodiments are described as example, collocation method not limited to this of the invention, as long as meeting above-mentioned bar Part belongs to protection scope of the present invention, and this is not especially limited.

For example, two resource blocks that base station equipment can be adjacent to time domain configure, i.e. resource block 0 and resource block 1, and base station equipment take and meanwhile send and simultaneously reception technology.The subframe or chronomere of resource block 0 and resource block 1 be TDD type subframes or chronomere.

Figure 71 is the transfer resource schematic diagram one of resource block adjacent in time domain in the embodiment of the present invention six.Such as Figure 71 institutes Show, the subcarrier spacing of base station equipment configuration resource block 0 is twice of subcarrier spacing of resource block 1 in the present embodiment, resource The CP length of the symbol of block 0 is the 1/2 of the CP length of resource block 1, and the symbol lengths of resource block 0 are the symbol lengths of resource block 1 1/2.The subframe of base station equipment configuration resource block 0 or chronomere are the self-contained subframes of DL or chronomere, configure resource block 1 Subframe or chronomere be the self-contained subframes of DL or chronomere.In the symbol 0 of resource block 0 and the time domain of symbol 1 of resource block 1 Adjacent, configuration symbols 0 are UL transfer resources, and configuration symbols 1 are DL transfer resources.The symbol 0 of resource block 0 i.e. in Adjacent resource block Resource include uplink transmission resource, be not in different resource block adjacent-symbol between from it is descending switch to up when bring Interference between the transmission of different directions.

Figure 72 is the transfer resource schematic diagram two of resource block adjacent in time domain in the embodiment of the present invention six.Such as Figure 72 institutes Show, the subcarrier spacing of base station equipment configuration resource block 0 is twice of subcarrier spacing of resource block 1 in the present embodiment, resource The CP length of the symbol of block 0 is the 1/2 of the CP length of resource block 1, and the symbol lengths of resource block 0 are the symbol lengths of resource block 1 1/2.The subframe of base station equipment configuration resource block 0 or chronomere are the self-contained subframes of UL or chronomere, configure resource block 1 Subframe or chronomere be the self-contained subframes of UL or chronomere.In the symbol 0 of resource block 0 and the time domain of symbol 1 of resource block 1 Adjacent, configuration symbols 0 are UL transfer resources, and configuration symbols 1 are DL transfer resources.The symbol 0 of resource block 0 i.e. in Adjacent resource block Resource include uplink transmission resource, thus be not between the adjacent-symbol of different resource block from it is descending switch to up when band Interference between the transmission of the different directions come.

Figure 73 is the transfer resource schematic diagram three of resource block adjacent in time domain in the embodiment of the present invention six.Such as Figure 73 institutes Show, the subcarrier spacing of base station equipment configuration resource block 0 is twice of subcarrier spacing of resource block 1 in the present embodiment, resource The CP length of the symbol of block 0 is the 1/2 of the CP length of resource block 1, and the symbol lengths of resource block 0 are the symbol lengths of resource block 1 1/2.The subframe of base station equipment configuration resource block 0 or chronomere are the self-contained subframes of UL or chronomere, configure resource block 1 Subframe or chronomere be the self-contained subframes of DL or chronomere.In the symbol 0 of resource block 0 and the time domain of symbol 1 of resource block 1 Adjacent, configuration symbols 0 are UL transfer resources, and configuration symbols 1 are DL transfer resources.The symbol 0 of resource block 0 i.e. in Adjacent resource block Resource include uplink transmission resource, thus be not between the adjacent-symbol of different resource block from it is descending switch to up when band Interference between the transmission of the different directions come.

Figure 74 is the transfer resource schematic diagram four of resource block adjacent in time domain in the embodiment of the present invention six.Such as Figure 74 institutes Show, the subcarrier spacing of base station equipment configuration resource block 0 is twice of subcarrier spacing of resource block 1 in the present embodiment, resource The CP length of the symbol of block 0 is the 1/2 of the CP length of resource block 1, and the symbol lengths of resource block 0 are the symbol lengths of resource block 1 1/2.The subframe of base station equipment configuration resource block 0 or chronomere are the self-contained subframes of DL or chronomere, configure resource block 1 Subframe or chronomere be the self-contained subframes of UL or chronomere.In the symbol 0 of resource block 0 and the time domain of symbol 1 of resource block 1 Adjacent, configuration symbols 0 are UL transfer resources, and configuration symbols 1 are DL transfer resources.The symbol 0 of resource block 0 i.e. in Adjacent resource block Resource include uplink transmission resource, thus be not between the adjacent-symbol of different resource block from it is descending switch to up when band Interference between the transmission of the different directions come.

The embodiment of the present invention seven also provides a kind of device for allocating resources.Figure 75 is a kind of money that the embodiment of the present invention seven provides The structural representation of source configuration device.As shown in Figure 75, device for allocating resources 7500 may include：Acquisition module 7501 and configuration mould Block 7502.

In the first example, acquisition module 7501, for obtaining the configuration of at least two parts resource；

Configuration module 7502, for configuring the resource of same time range in Part I resource and Part II resource Transmission direction is identical；Wherein, Part I resource and Part II resource are：At least adjacent two of two parts resource frequency domain Divide resource.

Optionally, configuration module 7502, specifically for the resource bag of symbol a time range in configuration Part I resource Include：GP resources；Resource in configuration Part II resource with symbol a identical time ranges in Part I resource includes：GP It is at least one in resource, UL transfer resources and DL transfer resources.

Alternately, configuration module 7502, specifically for the resource of symbol a time range in configuration Part I resource Including：UL transfer resources；Configure the resource bag with symbol a identical time ranges in Part I resource in Part II resource Include：GP resources and/or UL transfer resources.

Alternately, configuration module 7502, specifically for the resource of symbol a time range in configuration Part I resource Including：GP resources and UL transfer resources；Configure Part II resource in symbol a identical time ranges in Part I resource Resource include：GP resources and/or UL transfer resources.

Alternately, configuration module 7502, specifically for the resource of symbol a time range in configuration Part I resource Including：DL transfer resources；Configure the resource bag with symbol a identical time ranges in Part I resource in Part II resource Include：GP resources and/or DL transfer resources.

Alternately, configuration module 7502, specifically for the resource of symbol a time range in configuration Part I resource Including：GP and DL transfer resources；Configure the money with symbol a identical time ranges in Part I resource in Part II resource Source includes：GP resources and/or DL transfer resources.

Optionally, acquisition module 7501, the configuration specifically for obtaining at least two parts resource using following either type： Obtain the configuration of predefined at least two parts resource；The configuration of at least two parts resource is obtained according to notice signaling；Obtain pre- The configuration of part resource at least two parts resource of definition, remaining at least two parts resource is obtained according to notice signaling The configuration of resource.

Optionally, the configuration at least in two parts resource per part resource includes following at least one：Per part resource Position, the parameter per part resource and the resource impact per part resource configure.

Optionally, the parameter per part resource includes following at least one：CP length, SC, chronomere's length, Mei Geshi Between the unit symbol numbers included, the subcarrier number that includes per part resource block and waveform.

Optionally, the configuration of different piece resource includes at least one different parameter at least in two parts resource.

Optionally, configuration module, it is additionally operable to configure shared resource in Part I resource and/or Part II resource, Shared resource is used to transmit the information at least a portion resource in Part I resource and Part II resource.

In second of example, acquisition module 7501, for obtaining the configuration of at least two parts resource；

Configuration module 7502, for configuring Part I resource and the adjacent resource of Part II resource frequency domain same The resource of time range includes：Non-data transfer resource；Wherein, Part I resource and Part II resource are at least two parts The adjacent two parts resource of resource frequency domain.

Optionally, configuration module 7502, specifically for adjacent with Part II resource frequency domain in configuration Part I resource Part or all of resource include in the resource of symbol a time range：Non-data transfer resource；Configure in Part II resource Include with the resource of symbol a identical time ranges in Part I resource：In GP resources, UL transfer resources and DL transfer resources It is at least one.

Alternately, configuration module 7502, specifically for the resource of symbol a time range in configuration Part I resource Including：It is at least one in GP resources, UL transfer resources and DL transfer resources；Configure Part II resource in Part I resource The adjacent part or all of resource of frequency domain includes in the resource of the symbol a identical time ranges with Part I resource：Non- number According to transfer resource.

Alternately, configuration module 7502, specifically for configuration Part I resource in Part II resource frequency domain phase Adjacent first resource includes in the resource of symbol a time range：Non-data transfer resource；Configure first in Part I resource Time range of other resources in symbol a outside resource includes：At least one in GP resources, UL transfer resources and DL transfer resources It is individual；Secondary resource adjacent with Part I resource frequency domain in Part II resource is configured in symbol a identical time ranges Resource includes：Non-data transfer resource；Configure time model of other resources in Part II resource outside Secondary resource in symbol a Enclose including：It is at least one in GP resources, UL transfer resources and DL transfer resources.

In the third example, acquisition module 7501, it may also be used for obtain the configuration of at least two parts resource；

Configuration module 7502, it may also be used for the money of adjacent time scope in configuration Part I resource and Part II resource The transmission direction in source is identical；Wherein, Part I resource and the Part II resource are：At least time domain phase in two parts resource Adjacent two parts resource.

Optionally, configuration module 7502, specifically for the resource bag of symbol a time range in configuration Part I resource Include：GP；The resource of symbol b time range includes in configuration Part II resource：In GP, UL transfer resource and DL transfer resources It is at least one；Wherein, symbol b is adjacent with symbol a time domains.

Optionally, configuration module 7502, specifically for the resource bag of symbol a time range in first piece of resource of configuration Include：UL transfer resources；The resource of symbol b time range includes in second piece of resource of configuration：GP and/or UL transfer resources；Its In, symbol b is adjacent with symbol a time domains.

Optionally, configuration module 7502, specifically for the resource bag of symbol a time range in configuration Part I resource Include：GP and UL transfer resources；The resource of symbol b time range includes in configuration Part II resource：GP and/or UL transmission moneys Source；Wherein, symbol b is adjacent with symbol a time domains.

Optionally, configuration module 7502, specifically for the resource bag of symbol a time range in configuration Part I resource Include：DL transfer resources；The resource of symbol b time range includes in configuration Part II resource：GP and/or DL transfer resources； Wherein, symbol b is adjacent with symbol a time domains.

Optionally, configuration module 7502, specifically for the resource bag of symbol a time range in configuration Part I resource Include：GP and DL transfer resources；The resource of symbol b time range includes in configuration Part II resource：GP and/or DL transmission moneys Source；Wherein, symbol b is adjacent with symbol a time domains.

Optionally, configuration module 7502, it is additionally operable to configure at least one independent transmission money at least two parts resource Source；Wherein, each independent transfer resource is located in Part I resource and/or Part II resource；Each independent transmission The corresponding user equipment (UE) of resource or a UE group.

Optionally, each independent transfer resource includes following at least one：DL transfer resources, GP resources and UL transmission moneys Source.

Optionally, configuration module 7502, specifically for configuring at least one independent transmission at least two parts resource At least one of in GP length, DL length, UL length in resource in each independent transfer resource.

Optionally, configuration module 7502, specifically for using following either type configured at least two parts resource to A few independent transfer resource：Pass through at least one independent transfer resource of preset configuration；By notice signaling configuration at least One independent transfer resource.

In the 4th kind of example, acquisition module 7501, available for the configuration for obtaining at least two parts resource；

Configuration module 7502, include available for configuration Part I resource in the resource of very first time scope：Up UL is passed Defeated resource；The resource of the second time range includes in configuration Part II resource：Protection interval GP resources, UL transfer resources and under It is at least one in row DL transfer resources；Wherein, Part I resource and Part II resource are time domain at least in two parts resource Adjacent two parts resource；Very first time scope and second time range are adjacent two time ranges of time domain.

Optionally, configuration module 7502, include specifically for configuration Part I resource in the resource of very first time scope： GP and UL transfer resources.

Optionally, very first time scope includes：Symbol a time range；Second time range includes：Symbol b time Scope；Wherein, symbol b is adjacent with symbol a time domains.

The device for allocating resources that the embodiment of the present invention seven provides, it can perform any described money in above-described embodiment one to six Source collocation method, its concrete implementation process and beneficial effect are similar to the above embodiments, will not be repeated here.

The embodiment of the present invention eight also provides a kind of resource distribution equipment.Figure 76 is a kind of money that the embodiment of the present invention eight provides Source configures the structural representation of equipment.As shown in Figure 76, resource distribution equipment 7600, including processor 7601 and memory 7602；Processor 7601 is connected with memory 7602.

Memory 7602 instructs for storage program；

Processor 7601, it is any described in above-described embodiment to perform for calling the programmed instruction stored in memory Resource allocation method.

In several embodiments provided by the present invention, it should be understood that disclosed apparatus and method, it can be passed through Its mode is realized.For example, device embodiment described above is only schematical, for example, the division of the unit, only Only a kind of division of logic function, there can be other dividing mode when actually realizing, such as multiple units or component can be tied Another system is closed or is desirably integrated into, or some features can be ignored, or do not perform.It is another, it is shown or discussed Mutual coupling or direct-coupling or communication connection can be the INDIRECT COUPLINGs or logical by some interfaces, device or unit Letter connection, can be electrical, mechanical or other forms.

The unit illustrated as separating component can be or may not be physically separate, show as unit The part shown can be or may not be physical location, you can with positioned at a place, or can also be distributed to multiple On NE.Some or all of unit therein can be selected to realize the mesh of this embodiment scheme according to the actual needs 's.

In addition, each functional unit in each embodiment of the present invention can be integrated in a processing unit, can also That unit is individually physically present, can also two or more units it is integrated in a unit.Above-mentioned integrated list Member can both be realized in the form of hardware, can also be realized in the form of hardware adds SFU software functional unit.

The above-mentioned integrated unit realized in the form of SFU software functional unit, can be stored in one and computer-readable deposit In storage media.Above-mentioned SFU software functional unit is stored in a storage medium, including some instructions are causing a computer It is each that equipment (can be personal computer, server, or network equipment etc.) or processor (processor) perform the present invention The part steps of embodiment methods described.And foregoing storage medium includes：USB flash disk, mobile hard disk, read-only storage (Read- Only Memory, abbreviation ROM), random access memory (Random Access Memory, abbreviation RAM), magnetic disc or light Disk etc. is various can be with the medium of store program codes.

Those skilled in the art can be understood that, for convenience and simplicity of description, only with above-mentioned each functional module Division progress for example, in practical application, can be complete by different functional modules by above-mentioned function distribution as needed Into the internal structure of device being divided into different functional modules, to complete all or part of function described above.On The specific work process of the device of description is stated, the corresponding process in preceding method embodiment is may be referred to, will not be repeated here.

One of ordinary skill in the art will appreciate that：Realizing all or part of step of above-mentioned each method embodiment can lead to The related hardware of programmed instruction is crossed to complete.Foregoing program can be stored in a computer read/write memory medium.The journey Sequence upon execution, execution the step of including above-mentioned each method embodiment；And foregoing storage medium includes：ROM, RAM, magnetic disc or Person's CD etc. is various can be with the medium of store program codes.

Finally it should be noted that：Various embodiments above is merely illustrative of the technical solution of the present invention, rather than its limitations；To the greatest extent The present invention is described in detail with reference to foregoing embodiments for pipe, it will be understood by those within the art that：Its according to The technical scheme described in foregoing embodiments can so be modified, either which part or all technical characteristic are entered Row equivalent substitution；And these modifications or replacement, the essence of appropriate technical solution is departed from various embodiments of the present invention technology The scope of scheme.

Claims (30)

1. A kind of 1. resource allocation method, it is characterised in that including：

   Obtain the configuration of at least two parts resource；

   It is identical with the transmission direction of the resource of same time range in Part II resource to configure Part I resource；Wherein, institute State Part I resource and the Part II resource is：The adjacent two parts resource of at least two parts resource frequency domain.
2. 2. according to the method for claim 1, it is characterised in that in the configuration Part I resource and Part II resource The transmission direction of the resource of same time range is identical, including：

   Configuring the resource of symbol a time range in the Part I resource includes：Protection interval GP resources；

   Configure the resource bag with symbol a identical time ranges described in the Part I resource in the Part II resource Include：It is at least one in GP resources, up UL transfer resources and descending DL transfer resources.
3. 3. according to the method for claim 1, it is characterised in that in the configuration Part I resource and Part II resource The transmission direction of the resource of same time range is identical, including：

   Configuring the resource of symbol a time range in the Part I resource includes：UL transfer resources；

   Configure the resource bag with symbol a identical time ranges described in the Part I resource in the Part II resource Include：GP resources and/or UL transfer resources.
4. 4. according to the method for claim 1, it is characterised in that in the configuration Part I resource and Part II resource The transmission direction of the resource of same time range is identical, including：

   Configuring the resource of symbol a time range in the Part I resource includes：GP resources and UL transfer resources；

   Configure the resource bag with symbol a identical time ranges described in the Part I resource in the Part II resource Include：GP resources and/or UL transfer resources.
5. 5. according to the method for claim 1, it is characterised in that in the configuration Part I resource and Part II resource The transmission direction of the resource of same time range is identical, including：

   Configuring the resource of symbol a time range in the Part I resource includes：DL transfer resources；

   Configure the resource bag with symbol a identical time ranges described in the Part I resource in the Part II resource Include：GP resources and/or DL transfer resources.
6. 6. according to the method for claim 1, it is characterised in that in the configuration Part I resource and Part II resource The transmission direction of the resource of same time range is identical, including：

   Configuring the resource of symbol a time range in the Part I resource includes：GP and DL transfer resources；

   Configure the resource bag with symbol a identical time ranges described in the Part I resource in the Part II resource Include：GP resources and/or DL transfer resources.
7. 7. according to the method any one of claim 1-6, it is characterised in that per part at least two parts resource The configuration of resource includes following at least one：The position per part resource, the parameter per part resource and described every The resource impact configuration of part resource.
8. 8. according to the method for claim 7, it is characterised in that the parameter per part resource includes following at least one It is individual：Symbol numbers that cyclic prefix CP length, subcarrier spacing SC, chronomere's length, each chronomere include, per part The subcarrier number and waveform that resource block includes.
9. 9. the method according to claim 7 or 8, it is characterised in that different piece resource at least two parts resource Configuration at least one of include different parameter.
10. 10. according to the method any one of claim 1-9, it is characterised in that methods described also includes：

    Shared resource is configured in the Part I resource and/or the Part II resource, the shared resource is used to pass The information at least a portion resource in the defeated Part I resource and the Part II resource.
11. A kind of 11. resource allocation method, it is characterised in that including：

    Obtain the configuration of at least two parts resource；

    Configuration Part I resource and the adjacent resource of Part II resource frequency domain include in the resource of same time range：It is non- Data transmission resources；Wherein, the Part I resource and the Part II resource are at least two parts resource intermediate frequency The adjacent two parts resource in domain.
12. 12. according to the method for claim 11, it is characterised in that the configuration Part I resource and Part II resource The adjacent resource of frequency domain includes in the resource of same time range：Non-data transfer resource includes：

    Part or all of resource adjacent with the Part II resource frequency domain in the Part I resource is configured symbol a's The resource of time range includes：Non-data transfer resource；

    Configure the resource bag with symbol a identical time ranges described in the Part I resource in the Part II resource Include：It is at least one in protection interval GP resources, up UL transfer resources and descending DL transfer resources.
13. 13. according to the method for claim 11, it is characterised in that the configuration Part I resource and Part II resource The adjacent resource of frequency domain includes in the resource of same time range：Non-data transfer resource includes：

    Configuring the resource of symbol a time range in the Part I resource includes：GP resources, UL transfer resources and DL transmission It is at least one in resource；

    Configure part or all of resource adjacent with the Part I resource frequency domain in the Part II resource with it is described The resource of the symbol a identical time ranges of Part I resource includes：Non-data transfer resource.
14. 14. according to the method for claim 11, it is characterised in that the configuration Part I resource and Part II resource The adjacent resource of frequency domain includes in the resource of same time range：Non-data transfer resource includes：

    Configure time model of the first resource adjacent with the Part II resource frequency domain in the Part I resource in symbol a The resource enclosed includes：Non-data transfer resource；

    Configuring time range of other resources in the symbol a described in the Part I resource outside first resource includes： It is at least one in GP resources, UL transfer resources and DL transfer resources；

    It is identical in the symbol a to configure Secondary resource adjacent with the Part I resource frequency domain in the Part II resource The resource of time range include：Non-data transfer resource；

    Configuring time range of other resources in the symbol a described in the Part II resource outside Secondary resource includes： It is at least one in GP resources, UL transfer resources and DL transfer resources.
15. A kind of 15. device for allocating resources, it is characterised in that including：

    Acquisition module, for obtaining the configuration of at least two parts resource；

    Configuration module, for configuring the transmission direction of the resource of same time range in Part I resource and Part II resource It is identical；Wherein, the Part I resource and the Part II resource are：At least two parts resource frequency domain is adjacent Two parts resource.
16. 16. device according to claim 15, it is characterised in that

    The configuration module, include specifically for the resource for configuring symbol a time range in the Part I resource：Protection It is spaced GP resources；Configure in the Part II resource with symbol a identical time ranges described in the Part I resource Resource include：It is at least one in GP resources, up UL transfer resources and descending DL transfer resources.
17. 17. device according to claim 15, it is characterised in that

    The configuration module, include specifically for the resource for configuring symbol a time range in the Part I resource：UL is passed Defeated resource；Configure the money with symbol a identical time ranges described in the Part I resource in the Part II resource Source includes：GP resources and/or UL transfer resources.
18. 18. device according to claim 15, it is characterised in that

    The configuration module, include specifically for the resource for configuring symbol a time range in the Part I resource：GP is provided Source and UL transfer resources；Configure in the Part II resource with the symbol a identical times described in the Part I resource The resource of scope includes：GP resources and/or UL transfer resources.
19. 19. device according to claim 15, it is characterised in that

    The configuration module, include specifically for the resource for configuring symbol a time range in the Part I resource：DL is passed Defeated resource；Configure the money with symbol a identical time ranges described in the Part I resource in the Part II resource Source includes：GP resources and/or DL transfer resources.
20. 20. device according to claim 15, it is characterised in that

    The configuration module, include specifically for the resource for configuring symbol a time range in the Part I resource：GP and DL transfer resources；Configure in the Part II resource with symbol a identical time ranges described in the Part I resource Resource include：GP resources and/or DL transfer resources.
21. 21. according to the device any one of claim 15-20, it is characterised in that every at least two parts resource The configuration of part resource includes following at least one：The position of every part resource, the parameter and institute per part resource State the resource impact configuration of every part resource.
22. 22. device according to claim 21, it is characterised in that the parameter per part resource includes following at least one It is individual：Symbol numbers that cyclic prefix CP length, subcarrier spacing SC, chronomere's length, each chronomere include, per part The subcarrier number and waveform that resource block includes.
23. 23. the device according to claim 21 or 22, it is characterised in that different piece provides at least two parts resource The configuration in source includes at least one different parameter.
24. 24. according to the device any one of claim 15-23, it is characterised in that

    The configuration module, it is additionally operable to configure shared resource in the Part I resource and/or the Part II resource, The shared resource is used to transmit at least a portion resource in the Part I resource and the Part II resource Information.
25. A kind of 25. device for allocating resources, it is characterised in that including：

    Acquisition module, for obtaining the configuration of at least two parts resource；

    Configuration module, for configuring Part I resource and the adjacent resource of Part II resource frequency domain in same time range Resource include：Non-data transfer resource；Wherein, the Part I resource and the Part II resource are described at least two The adjacent two parts resource of part resource frequency domain.
26. 26. device according to claim 25, it is characterised in that

    The configuration module, specifically for configuring portion adjacent with the Part II resource frequency domain in the Part I resource Divide or whole resources include in the resource of symbol a time range：Non-data transfer resource；Configure in the Part II resource Include with the resource of symbol a identical time ranges described in the Part I resource：Protection interval GP resources, up UL are passed It is at least one in defeated resource and descending DL transfer resources.
27. 27. device according to claim 25, it is characterised in that

    The configuration module, include specifically for the resource for configuring symbol a time range in the Part I resource：GP is provided It is at least one in source, UL transfer resources and DL transfer resources；Configure in the Part II resource with the Part I resource Resource bag of the adjacent part or all of resource of frequency domain in the symbol a identical time ranges with the Part I resource Include：Non-data transfer resource.
28. 28. device according to claim 25, it is characterised in that

    The configuration module, specifically for configuring adjacent with the Part II resource frequency domain the in the Part I resource One resource includes in the resource of symbol a time range：Non-data transfer resource；Configure described in the Part I resource Time range of other resources in the symbol a outside one resource includes：In GP resources, UL transfer resources and DL transfer resources extremely It is few one；Secondary resource adjacent with the Part I resource frequency domain in the Part II resource is configured in the symbol a The resource of identical time range includes：Non-data transfer resource；Configure described in the Part II resource outside Secondary resource Time range of other resources in the symbol a include：It is at least one in GP resources, UL transfer resources and DL transfer resources.
29. A kind of 29. resource distribution equipment, it is characterised in that including：Processor and memory；The processor and the memory Connection；

    The memory instructs for storage program；

    The processor, for calling the described program stored in the memory to instruct to perform the claims 1-10 institutes The resource allocation method stated.
30. A kind of 30. resource distribution equipment, it is characterised in that including：Processor and memory；The processor and the memory Connection；

    The memory instructs for storage program；

    The processor, for calling the described program stored in the memory to instruct to perform the claims 11-14 Described resource allocation method.