CN105657833A - Frequency hopping implementation method, network equipment and communication system - Google Patents

Abstract

The invention provides a frequency hopping implementation method, network equipment and a communication system. The method comprises the steps: configuring types of resource blocks according to frequency hopping mixed modes, acquiring operating states of terminals, determining resource block allocation manners of the terminals in accordance with the operating states, allocating a corresponding type of resource block to each terminal according to a corresponding determined result, and sending an allocation result to each terminal. Through the implementation of the method, in a cell, a base station configures the types of the resource blocks according to the frequency hopping mixed modes, and divides the resource blocks into a frequency hopping resource and a non-frequency hopping resource, during application, the base station acquires the operating states of the all terminals, determines the allocation manners of the resource blocks (RB) according to the operating states, and further, allocates the corresponding type of RB to each terminal, for example, the frequency hopping resource is allocated to a frequency hopping terminal, and the non-frequency hopping resource is allocated to a non-frequency hopping terminal, so that the terminals can perform frequency hopping or do not perform frequency hopping according to the RBs allocated by the base station, and the problem in the prior art that practical use and diversification are limited, caused by the fact the same cell can only execute the same frequency hopping manner, is solved.

Description

A kind of implementing method for frequency-hopping, the network equipment and communication system

Technical field

The present invention relates to communication technical field, particularly a kind of implementing method for frequency-hopping, the network equipment and communication system.

Background technology

In LTE (Long Term Evolution) system, in order to overcome the frequency of up PUSCH channel to select interference, prior art provides RB (ResourceBlock, Resource Block) hopping. RB frequency hopping is divided into type1 and type2 frequency hopping type, and (type type1 gives information according to the evolution base station eNodeB ascending resource sent to carry out frequency hopping, type type2 carries out frequency hopping according to predefined frequency hopping pattern), it is divided between subframe pattern and frequency hopping between subframe in subframe; Different frequency hopping types and pattern, have different frequency patterns, and RB frequency hopping, can cause that saltus step can occur for the new biography of PUSCH transmission block and the RB position of re-transmission, the RB position of 2 time slots also resulting in same subframe is different.

As it is shown in figure 1, when in community, part UE frequency hopping and during frequency-hopping mode difference between part UE not frequency hopping or UE, can cause retransmitting, between the RB of UE, serious conflict occurs, cause retransfer scheduling failure. Based on this, the way that prior art adopts is: all UE in community or all frequency hopping, or not frequency hoppings, and frequency hopping can only select identical frequency hopping type and pattern. But thus significantly limit the practical application of RB frequency hopping and the multiformity of RB distribution.

Therefore, how to provide one can realize the diversified implementing method for frequency-hopping of frequency hopping, be those skilled in the art's technical problems urgently to be resolved hurrily.

Summary of the invention

The invention provides a kind of implementing method for frequency-hopping, the network equipment and communication system, it is possible to make the different types of frequency hopping in community can mix realization.

The invention provides a kind of implementing method for frequency-hopping, in one embodiment, the method includes: configure the type of Resource Block according to frequency hopping mixed model;Obtain terminal running state; The resource block assignments mode of terminal is determined according to running status; According to the Resource Block determining that result is terminal distribution corresponding types; Allocation result is sent to terminal.

Further, the running status in above-described embodiment includes the channel situation of terminal and/or misses bag situation; Determine that according to running status the step of the frequency hopping method of salary distribution of terminal includes: judge whether terminal exists frequency and select interference, determines the resource block assignments mode of terminal according to judged result according to running status.

Further, the resource block assignments mode in above-described embodiment includes the frequency hopping method of salary distribution and the non-hopping method of salary distribution; According to determining that the step that result is terminal distribution Resource Block includes: when determining that result is the frequency hopping method of salary distribution, for terminal distribution frequency-hopping resource block, when determining that result is the non-hopping method of salary distribution, for terminal distribution non-hopping Resource Block.

Further, above-described embodiment before for terminal distribution frequency-hopping resource block, also includes: judging whether available frequency-hopping resource block, if being absent from, then terminal being adjusted to the non-hopping method of salary distribution, for terminal distribution non-hopping Resource Block; Before for terminal distribution non-hopping Resource Block, also include: judging whether available non-hopping Resource Block, if being absent from, then stopping resource block scheduling.

Further, above-described embodiment, before obtaining terminal running state, also comprises determining that the priority of terminal, obtains terminal running state successively according to the priority of terminal.

Further, the step by allocation result transmission to terminal in above-described embodiment includes: determine the mode that issues of allocation result according to frequency hopping mixed model, utilizes the mode that issues determined to send allocation result to terminal.

Further, the frequency hopping mixed model in above-described embodiment includes: type1 frequency hopping mixes with non-hopping, many subbands type2 frequency hopping mixes with non-hopping and list band type2 frequency hopping mixes with non-hopping; When frequency hopping mixed model is that type1 frequency hopping mixes with non-hopping or many subbands type2 frequency hopping mixes with non-hopping, the mode of issuing is send position and the corresponding frequency hopping shift amount thereof of frequency-hopping resource block to terminal; When frequency hopping mixed model be list band type2 frequency hopping mix with non-hopping time, the mode of issuing is send the position of frequency-hopping resource block to terminal.

Present invention also offers a kind of network equipment, in one embodiment, this network equipment includes: for configuring the configuration module of the type of Resource Block according to frequency hopping mixed model; For obtaining the acquisition module of terminal running state; For determining the resource block assignments mode cover half block really of terminal according to running status; For according to the distribution module determining Resource Block that result is terminal distribution corresponding types; And for allocation result is sent the sending module to terminal.

Further, the running status in above-described embodiment includes the channel situation of terminal and/or misses bag situation; Determine according to running status, module is specifically for judging whether terminal exists frequency and select interference, determines the resource block assignments mode of terminal according to judged result.

Further, the resource block assignments mode in above-described embodiment includes the frequency hopping method of salary distribution and the non-hopping method of salary distribution; Distribution module is specifically for when determining that result is the frequency hopping method of salary distribution, for terminal distribution frequency-hopping resource block, when determining that result is the non-hopping method of salary distribution, for terminal distribution non-hopping Resource Block.

Further, the acquisition module in above-described embodiment is additionally operable to determine the priority of terminal, obtains terminal running state successively according to the priority of terminal.

Further, the sending module in above-described embodiment, specifically for determining the mode that issues of allocation result according to frequency hopping mixed model, utilizes the mode that issues determined to send allocation result to terminal.

Further, the network equipment in above-described embodiment is base station.

Present invention also offers a kind of communication system, it includes the network equipment provided by the invention.

Beneficial effects of the present invention:

Scheme provided by the invention, in community, the type of Resource Block is configured by base station according to frequency hopping mixed model, Resource Block is divided into frequency-hopping resource and non-hopping resource, when application, base station obtains the running status of each terminal, and determine the Resource Block RB method of salary distribution according to running status, and then be the RB of each terminal distribution corresponding types, as for frequency hopping terminal distribution frequency-hopping resource, for non-hopping terminal distribution non-hopping resource, on this basis, terminal just can carry out frequency hopping/non-hopping according to base station etc. for the RB each distributed, solve the same community of prior art to be only capable of performing practical application and the variation limitation problem that same frequency-hopping mode causes, achieve the mixing of non-hopping and frequency hopping in community and the multiformity of RB distribution.

Accompanying drawing explanation

Fig. 1 is Resource Block RB conflict schematic diagram in prior art;

The flow chart of the implementing method for frequency-hopping that Fig. 2 provides for first embodiment of the invention;

The schematic diagram of the network equipment that Fig. 3 provides for second embodiment of the invention;

The schematic diagram of the implementing method for frequency-hopping that Fig. 4 provides for third embodiment of the invention;

Fig. 5 is that the Resource Block RB in third embodiment of the invention distributes schematic diagram.

Detailed description of the invention

Now in conjunction with the mode of accompanying drawing the present invention made by detailed description of the invention and further annotate explanation.

In LTEPUSCH channel hopping mechanism, with base station relevant the including of RRC configuration parameter: frequency hopping shift amount HopOffset, type2 frequency hopping subband number SubBandNum and frequency-hopping mode, wherein, parameter frequency hopping shift amount HopOffset determines the frequency hopping bandwidth range of many subbands type2 and type1, and list is not subject to the impact of frequency hopping shift amount HopOffset with type2; The particular type (i.e. type1 or type2) of frequency hopping and frequency hopping is that by DCI0/4, (information bit carried in (DCIformat0, Informationformat0) tells terminal to base station RRC. Based on these features, by configuring rational frequency hopping shift amount HopOffset, the bandwidth range of frequency hopping can be set, in the interval that the band position making frequency hopping limits, and then the RB position outside interval just can adopt the mode of non-hopping to distribute, namely the frequency hopping shift amount configuration parameter in LTE protocol is utilized, by the segmentation to upstream band, make frequency hopping RB and non-hopping RB isolation, when can solve multiple terminal RB frequency hoppings and non-hopping mixed allocation in LTE community, the problem retransmitting RB resource contention.

First embodiment:

The flow chart of the implementing method for frequency-hopping that Fig. 2 provides for first embodiment of the invention, as shown in Figure 2, in the present embodiment, multilink bundling method provided by the invention comprises the following steps:

S201: configure the type of Resource Block according to frequency hopping mixed model;

Frequency hopping mixed model is pointed out in same community, part terminal frequency hopping (is called frequency hopping terminal), part terminal not frequency hopping (is called non-hopping terminal), frequency hopping terminal and non-hopping terminal can be supported in the base station of this community simultaneously, as stated earlier, by configuring rational frequency hopping shift amount HopOffset, the bandwidth range of frequency hopping can be set, in the interval that the band position making frequency hopping limits (type of the Resource Block in interval is frequency-hopping resource block), and then the RB (type of the Resource Block in interval is non-hopping Resource Block) outside interval just can adopt the mode of non-hopping to distribute,

The frequency hopping interval that different frequency hopping mixed models is corresponding different, in this application, base station setting/selection according to staff such as attendants, determine a kind of frequency hopping mixed model, and then determine that suitable frequency hopping is interval by configuring frequency hopping shift amount, being frequency-hopping resource block by the type configuration of the Resource Block in frequency hopping interval, the type configuration of the Resource Block outside interval is non-hopping Resource Block;

S202: obtain terminal running state;

Running status involved by the application including, but not limited to terminal channel situation and/or by mistake bag situation etc. may be used to determine terminal on the up PUSCH channel of LTE (Long Term Evolution) system, whether there is the parameter of frequency choosing interference;

S203: determine the resource block assignments mode of terminal according to running status;

This step includes: judge whether terminal exists frequency and select interference, determines the resource block assignments mode of terminal according to judged result according to running status; Concrete as, resource block assignments mode includes the frequency hopping method of salary distribution and the non-hopping method of salary distribution, when there is frequency choosing interference, it is determined that result is the frequency hopping method of salary distribution, when being absent from frequency choosing interference, it is determined that result is the non-hopping method of salary distribution;

S204: according to the Resource Block determining that result is terminal distribution corresponding types;

S205: allocation result is sent to terminal.

In certain embodiments, what step S204 was concrete is: when determining that result is the frequency hopping method of salary distribution, this terminal is frequency hopping terminal, for terminal distribution frequency-hopping resource block, when determining that result is the non-hopping method of salary distribution, this terminal is non-hopping terminal, for terminal distribution non-hopping Resource Block.

In certain embodiments, above-described embodiment before for terminal distribution frequency-hopping resource block, also includes: judging whether available frequency-hopping resource block, if being absent from, then terminal being adjusted to the non-hopping method of salary distribution, for terminal distribution non-hopping Resource Block; Before for terminal distribution non-hopping Resource Block, also include: judge whether available non-hopping Resource Block, if being absent from, then there is no any Resource Block, then stop resource block scheduling.

In certain embodiments, embodiment illustrated in fig. 2, before step S202, also comprises determining that the step of the priority of terminal, and now, step S202 is: obtain terminal running state successively according to the priority of terminal.

In certain embodiments, embodiment illustrated in fig. 2 specifically includes in step S205: determine the mode that issues of allocation result according to frequency hopping mixed model, utilizes the mode that issues determined to send allocation result to terminal.

In certain embodiments, the frequency hopping mixed model in above-described embodiment includes: type1 frequency hopping mixes with non-hopping, many subbands type2 frequency hopping mixes with non-hopping and list band type2 frequency hopping mixes with non-hopping; When frequency hopping mixed model is that type1 frequency hopping mixes with non-hopping or many subbands type2 frequency hopping mixes with non-hopping, the mode of issuing is send position and the corresponding frequency hopping shift amount thereof of frequency-hopping resource block to terminal; When frequency hopping mixed model be list band type2 frequency hopping mix with non-hopping time, the mode of issuing is send the position of frequency-hopping resource block to terminal.

Second embodiment:

The schematic diagram of the network equipment that Fig. 3 provides for second embodiment of the invention; From the figure 3, it may be seen that in the present embodiment, the network equipment 3 provided by the invention includes: configures module 31, acquisition module 32, determine module 33, distribute module 34 and sending module 35, concrete,

Configuration module 31 for configuring the type of Resource Block according to frequency hopping mixed model;

Acquisition module 32 is used for obtaining terminal running state, and transmits running status to determining module 33;

Determine that module 33 for determining the resource block assignments mode of terminal according to running status, and will determine that result transmission is to distributing module 34;

Distribution module 34 is used for according to determining that result is terminal distribution Resource Block, and by allocation result transmission to sending module 35;

Sending module 35 is for sending allocation result to terminal by the instruction of the down channels such as DCI0/4.

In certain embodiments, the running status in above-described embodiment includes the channel situation of terminal and/or misses bag situation; In Fig. 3, cover half block 33 selects interference frequently specifically for judging whether terminal exists according to running status really, determines the resource block assignments mode of terminal according to judged result.

In certain embodiments, the resource block assignments mode in above-described embodiment includes the frequency hopping method of salary distribution and the non-hopping method of salary distribution; Distribution module 34 in Fig. 3 is specifically for when determining that result is the frequency hopping method of salary distribution, for terminal distribution frequency-hopping resource block, when determining that result is the non-hopping method of salary distribution, for terminal distribution non-hopping Resource Block.

In certain embodiments, each terminal possesses priority, and the acquisition module 32 in Fig. 3 is additionally operable to determine the priority of terminal, obtains terminal running state successively according to the priority of terminal.

In certain embodiments, different frequency hopping mixed model correspondences allocation result not issues mode, sending module 35 in Fig. 3, specifically for determining the mode that issues of allocation result according to frequency hopping mixed model, utilizes the mode that issues determined to send allocation result to terminal.

In certain embodiments, the network equipment in above-described embodiment is base station.

Corresponding, present invention also offers a kind of communication system, it includes the network equipment 3 provided by the invention, and in actual applications, the network equipment 3 is a separately formed a LTE community.

3rd embodiment:

In conjunction with concrete application example the application done and further annotate explanation; As shown in Figure 4, in the present embodiment, implementing method for frequency-hopping provided by the invention comprises the following steps:

S401: determine the frequency hopping mixed model during RB frequency hopping of community, it is determined that Resource Block RB distributes schematic diagram;

In actual applications, type1 frequency hopping and non-hopping mixing RB allocative decision is adopted when base station, or when base station adopts many subbands type2 frequency hopping and non-hopping mixing RB allocative decision, the distribution of RB is interval in Fig. 5 shown in a, adopt this hybrid plan, base station is fixing adopts a type of RB frequency hopping, or type1 or type2 namely, can not there is again type2 by existing type1, then mix together with the method for salary distribution of non-hopping, now RB resource interval is by the restriction of frequency hopping shift amount parameter, base station is by initially issuing configuration parameter, can not arbitrarily dynamically revise after configuration, in Fig. 5 shown in a, frequency hopping and interval, non-hopping RB position do not have overlap, conflict would not be produced,

When adopting list band type2 frequency hopping and non-hopping mixing RB allocative decision when base station, the distribution of RB is interval in Fig. 5 shown in b, adopt this hybrid plan, base station adopts list band type2 frequency hopping and non-hopping mixed ways of distribution, and the RB of frequency hopping and non-hopping is interval, and it doesn't matter with offset parameter configuration, base station can carry out initial setting up and dynamic expansion (can select according to actual needs) according to the service condition of frequency hopping and non-hopping resource, preferably, frequency-hopping resource is preferentially from the two ends alternate allocation of frequency band;

S402: according to terminal PRI, obtains terminal running state;

In actual applications, LTE community may be simultaneously present uplink semi-persistent scheduling or the needs such as TTIBundling scheduling and dynamic dispatching, now namely the distribution of RB resource is had frequency hopping needs, has again non-hopping needs; When adopting semi-persistent scheduling or TTIBundling scheduling, general selection non-hopping mode is distributed, and dynamic dispatching can use frequency-hopping mode to distribute;

The priority having the RB terminal (terminal if desired for the scheduling such as semi-persistent scheduling and TTIBundling, SR, msg3 scheduling) distributing type restriction is set greater than not having the RB terminal distributing type restriction by the present invention; For the terminal not having RB to distribute type restriction, the priority of the terminal having frequency hopping to need is set greater than the terminal that non-hopping needs;

S403: determine resource block assignments mode Resources allocation block according to the running status of terminal;

In this step, first for there being RB to distribute the certain types of RB of terminal distribution of type restriction; Then the terminal distribution frequency-hopping resource block for there being frequency hopping to need, now, determine whether the frequency hopping RB resource that can use, if there being frequency-hopping resource, then these terminals are adopted frequency hopping RB distribution, and takies the resource of frequency hopping RB, if community has not had frequency hopping RB resource, so do not adopt frequency-hopping mode, adopt non-hopping resource distribution mode, take non-hopping RB resource; Finally the terminal distribution expense frequency-hopping resource block for there being non-hopping to need, adopts non-hopping RB mode to distribute the terminal of non-hopping, takies non-hopping RB resource. Until distributing all of terminal or not available any RB resource, terminate allocation flow;

S404: utilize the issue mode corresponding with the frequency hopping mixed model of community frequency hopping to send allocation result to counterpart terminal;

What this step was concrete is:

When frequency hopping mixed model is that type1 frequency hopping mixes with non-hopping or many subbands type2 frequency hopping mixes with non-hopping, the mode of issuing is send position and the corresponding frequency hopping shift amount thereof of frequency-hopping resource block to terminal;

When frequency hopping mixed model be list band type2 frequency hopping mix with non-hopping time, the mode of issuing is send the position of frequency-hopping resource block to terminal.

In summary, by the enforcement of the present invention, at least there is following beneficial effect:

In community, the type of Resource Block is configured by base station according to frequency hopping mixed model, Resource Block is divided into frequency-hopping resource and non-hopping resource, when application, base station obtains the running status of each terminal, and determine the Resource Block RB method of salary distribution according to running status, and then be the RB of each terminal distribution corresponding types, as for frequency hopping terminal distribution frequency-hopping resource, for non-hopping terminal distribution non-hopping resource, on this basis, terminal just can carry out frequency hopping/non-hopping according to base station etc. for the RB each distributed, solve the same community of prior art to be only capable of performing practical application and the variation limitation problem that same frequency-hopping mode causes, achieve the mixing of non-hopping and frequency hopping in community and the multiformity of RB distribution.

Below it is only the specific embodiment of the present invention; not the present invention is done any pro forma restriction; every any simple modification, equivalent variations, combination or modification embodiment of above done according to the technical spirit of the present invention, all still falls within the protection domain of technical solution of the present invention.

Claims (14)

1. an implementing method for frequency-hopping, it is characterised in that including:

The type of Resource Block is configured according to frequency hopping mixed model;

Obtain terminal running state;

The resource block assignments mode of described terminal is determined according to described running status;

According to the Resource Block determining that result is described terminal distribution corresponding types;

Allocation result is sent to described terminal.

2. implementing method for frequency-hopping as claimed in claim 1, it is characterised in that described running status includes the channel situation of described terminal and/or misses bag situation; The step of the described frequency hopping method of salary distribution determining described terminal according to described running status includes: judge whether described terminal exists frequency and select interference, determines the resource block assignments mode of terminal according to judged result according to described running status.

3. implementing method for frequency-hopping as claimed in claim 1, it is characterised in that described resource block assignments mode includes the frequency hopping method of salary distribution and the non-hopping method of salary distribution; Described according to determining that the step that result is described terminal distribution Resource Block includes: when described determine that result is the frequency hopping method of salary distribution time, for described terminal distribution frequency-hopping resource block, when described determine that result is the non-hopping method of salary distribution time, for described terminal distribution non-hopping Resource Block.

4. implementing method for frequency-hopping as claimed in claim 3, it is characterised in that before for described terminal distribution frequency-hopping resource block, also include: judge whether available frequency-hopping resource block, if being absent from, then described terminal is adjusted to the non-hopping method of salary distribution, for described terminal distribution non-hopping Resource Block; Before for described terminal distribution non-hopping Resource Block, also include: judging whether available non-hopping Resource Block, if being absent from, then stopping resource block scheduling.

5. implementing method for frequency-hopping as claimed in claim 1, it is characterised in that before obtaining terminal running state, also comprise determining that the priority of terminal, obtain terminal running state successively according to the priority of terminal.

6. the implementing method for frequency-hopping as described in any one of claim 1 to 5, it is characterized in that, the step that allocation result sends extremely described terminal is included: determine the mode that issues of described allocation result according to described frequency hopping mixed model, utilize the mode that issues determined to send described allocation result to described terminal.

7. implementing method for frequency-hopping as claimed in claim 6, it is characterised in that described frequency hopping mixed model includes: type1 frequency hopping mixes with non-hopping, many subbands type2 frequency hopping mixes with non-hopping and list band type2 frequency hopping mixes with non-hopping; When described frequency hopping mixed model is that type1 frequency hopping mixes with non-hopping or many subbands type2 frequency hopping mixes with non-hopping, described in issue mode be send the position of frequency-hopping resource block and corresponding frequency hopping shift amount thereof to described terminal; When described frequency hopping mixed model be list band type2 frequency hopping mix with non-hopping time, described in issue mode be send the position of frequency-hopping resource block to described terminal.

8. a network equipment, it is characterised in that including:

For configuring the configuration module of the type of Resource Block according to frequency hopping mixed model;

For obtaining the acquisition module of terminal running state;

For determining the resource block assignments mode cover half block really of described terminal according to described running status;

For according to the distribution module determining Resource Block that result is described terminal distribution corresponding types; And,

For allocation result is sent the sending module to described terminal.

9. the network equipment as claimed in claim 8, it is characterised in that described running status includes the channel situation of described terminal and/or misses bag situation; Described determine module specifically for according to described running status judge described terminal whether exist frequency select interference, determine the resource block assignments mode of terminal according to judged result.

10. the network equipment as claimed in claim 8, it is characterised in that described resource block assignments mode includes the frequency hopping method of salary distribution and the non-hopping method of salary distribution; Described distribution module specifically for when described determine that result is the frequency hopping method of salary distribution time, for described terminal distribution frequency-hopping resource block, when described determine that result is the non-hopping method of salary distribution time, for described terminal distribution non-hopping Resource Block.

11. the network equipment as claimed in claim 8, it is characterised in that described acquisition module is additionally operable to determine the priority of terminal, obtains terminal running state successively according to the priority of terminal.

12. the network equipment as described in any one of claim 8 to 11, it is characterized in that, described sending module, specifically for determining the mode that issues of described allocation result according to described frequency hopping mixed model, utilizes the mode that issues determined to send described allocation result to described terminal.

13. the network equipment as claimed in claim 12, it is characterised in that the described network equipment is base station.

14. a communication system, it is characterised in that include the network equipment as described in any one of claim 8 to 13.