CN102833868B - Based on preallocated Independent Carrier Wave dispatching method in a kind of multicarrier system - Google Patents
Based on preallocated Independent Carrier Wave dispatching method in a kind of multicarrier system Download PDFInfo
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Abstract
The invention discloses in a kind of multicarrier system based on preallocated Independent Carrier Wave dispatching method, when each subframe arrives, if load balancing cycle timer expires, the then grade of service according to the priority of each activation carrier wave after updating and all business of all users, determine the predistribution queue of each activation carrier wave, then according to the priority of business is from the order of high to low, respectively the business in the predistribution queue of each activation carrier wave is carried out prioritization, form the priority query of each activation carrier wave, the last order according to priority query, it is followed successively by each traffic assignments resource of the priority query of each activation carrier wave. adopt method disclosed by the invention can activate the load between carrier wave by balanced each.
Description
Technical field
The present invention relates to field of wireless communication, particularly in a kind of multicarrier system based on preallocated Independent Carrier Wave dispatching method.
Background technology
In order to meet the demand of IMT-Advanced, 3GPP has carried out the research of LTE-Advanced project, the i.e. evolution system of LTE, in some key technologies of LTE-Advanced, carrier aggregation technology is to improve the most direct method of message transmission rate, and multiple carrier waves can be joined together to use by carrier aggregation technology.
In multi-carrier systems, the common at present dispatching algorithm that can be applicable under multi-carrier aggregation scene is mainly Independent Carrier Wave dispatching algorithm (CIS) and united carrier dispatching algorithm (MCJS). Wherein, existing Rel-8/9 system architecture is changed relatively big by united carrier dispatching algorithm, and the implementation of Independent Carrier Wave dispatching algorithm and Rel-8/9 realize framework compatibility better.
Owing to present invention relates solely to the improvement to Independent Carrier Wave dispatching method, therefore temporarily only Independent Carrier Wave dispatching method of the prior art is introduced.
The feature of Independent Carrier Wave dispatching algorithm is each carrier wave independent assortment resource, is respectively arranged with a scheduler on each independent carrier wave, and the upper strata after carrier aggregation does not increase new schedule level one device. In prior art Independent Carrier Wave dispatching method approximately as: first different users is allocated in advance to different activation carrier waves, then for each activation carrier wave, based on this activation carrier wave user service priority or based on the priority of user on this activation carrier wave, be followed successively by this activation carrier wave the business of user according to priority from the order of high to low and carry out resource distribution.
It should be noted that, ascending resource distribution requires that the resource for user's distribution is continuous print, therefore, during uplink scheduling, for each activation carrier wave, based on the priority of all users on this activation carrier wave, it is followed successively by this activation carrier wave the business of user according to the priority of user from the order of high to low and carries out resource distribution, wherein, in actual applications, it is possible to the priority of this certain main business of user is considered as the priority of this user; And downlink resource distribution can distribute arbitrarily available Resource Block for user, therefore, during descending scheduling, for each activation carrier wave, based on the service priority of user on this activation carrier wave, it is followed successively by this activation carrier wave the business of user according to service priority from the order of high to low and carries out resource distribution. Wherein, the defining method of service priority can be dependent on the calculating of priority factors, and the calculating of priority factors may with reference to parameters such as service quality (QoS) requirement of this business, channel qualities. Due to the common approach being calculated as existing communication field of priority factors, circular is referred to existing pertinent literature, no longer describes in detail herein.
In order to Independent Carrier Wave dispatching method of the prior art is clearly demonstrated further, now it is scheduling to example with descending Independent Carrier Wave and is illustrated.
Activate carrier wave (carrier wave 1 and carrier wave 2) with 2 and be polymerized to example, it is assumed that user's total amount is 5, is designated as user 1, user 2... user 5 respectively. first, user 1 and user 2 can be allocated in advance to carrier wave 1, user 3, user 4 and user 5 are distributed to carrier wave 2, generally in actual applications, above-mentioned allocate in advance as random fashion. then, when descending scheduling sublayer frame arrives, respectively for carrier wave 1 and carrier wave 2, it is followed successively by this activation carrier wave the business of all users according to the service priority of all users on this activation carrier wave from the order of high to low and carries out resource distribution, for carrier wave 1, assume that user 1 supports business 1 and business 2, user 2 supports business 3, computational methods according to priority factors, assume that determined service priority is followed successively by from the order of high to low: business 3, 2, 1, then it is followed successively by business 3, 2, 1 Resources allocation, the concrete grammar of resource distribution is referred to the explanation of Rel-8/9 related Sections. also it is above-mentioned similar dispatching method for carrier wave 2.
To sum up, according to Independent Carrier Wave dispatching method of the prior art, owing to needing in advance by user's distribution to different activation carrier waves, the loading condition that each activation carrier wave is current is not considered when being allocated, and, owing to the qos requirement of the business of different user support is also not quite similar, therefore, the activation carrier wave being likely to cause seldom causes the wasting of resources due to the business of carrying, and some activate carrier wave due to the business of carrying excessive and cause jam, visible, Independent Carrier Wave dispatching method of the prior art may result in each and activates the load imbalance between carrier wave.
Summary of the invention
In view of this, the present invention provides in a kind of multicarrier system based on preallocated Independent Carrier Wave dispatching method, it is possible to balanced each activates the load between carrier wave.
For achieving the above object, the technical scheme is that and be achieved in that:
Based on preallocated Independent Carrier Wave dispatching method in a kind of multicarrier system, being pre-configured with the length of load balancing cycle timer, the method also includes:
A, when each subframe arrives, it is judged that whether load balancing cycle timer expires, if it has, perform step B; Otherwise, step C is directly performed;
B, the grade of service according to the priority of each activation carrier wave after updating and all business of all users, it is determined that the predistribution queue of each activation carrier wave;
C, according to the priority of business from the order of high to low, respectively the business in the predistribution queue of each activation carrier wave is carried out prioritization, forms the priority query of each activation carrier wave;
D, order according to priority query, be followed successively by each traffic assignments resource of the priority query of each activation carrier wave.
Subframe described in step A is descending scheduling subframe or uplink scheduling subframe.
Determine described in step B that the method for the predistribution queue of each activation carrier wave includes:
Load according to each activation carrier wave, updates the priority of each activation carrier wave, and wherein, the load activating carrier wave is more light, then the priority activating carrier wave is more high, and the load activating carrier wave is more heavy, then the priority activating carrier wave is more low;
According to the grade of service of all business of all users from the order of high to low, and activate the carrier wave priority order from high to low, successively each traffic assignments is activated on carrier wave to corresponding with polling mode, after then distribution terminates, the business on each activation carrier wave forms the predistribution queue of this activation carrier wave.
If not determining the predistribution queue of each activation carrier wave for the first time, then the described predistribution queue determined is the predistribution queue after updating.
The described grade of service is the service quality QoS requirements of business, and wherein, the qos requirement of business is more high, then the grade of service is more high, and the qos requirement of business is more low, then the grade of service is more low.
Described in step C, service priority is determined according to the priority factors of business, and the priority factors of described business is with reference to the grade of service, channel conditions and traffic delay requirement.
If not determining the priority query of each activation carrier wave for the first time, then the described priority query determined is the priority query after updating.
If load balancing cycle timer is not yet due described in step A, then determined predistribution queue when predistribution queue described in step C expires for distance current time the last time cycle timer.
According to technical scheme provided by the present invention, when each subframe arrives, if load balancing cycle timer expires, the predistribution queue of each activation carrier wave is then determined according to the grade of service of the priority of each activation carrier wave after updating and all business of all users, then according to the priority of business is from the order of high to low, respectively the business in the predistribution queue of each activation carrier wave is carried out prioritization, form the priority query of each activation carrier wave, the last order according to priority query, it is followed successively by each traffic assignments resource of the priority query of each activation carrier wave. visible, take into account the loading condition of carrier wave during present invention predistribution before Resources allocation, and combine the grade of service, therefore avoid and the situation of load imbalance between carrier wave occurs, it is possible to balanced each activates the load between carrier wave.
Accompanying drawing explanation
Fig. 1 is the flow chart in a kind of multicarrier system provided by the present invention based on preallocated Independent Carrier Wave dispatching method.
Fig. 2 is the flow chart of the embodiment in a kind of multicarrier system provided by the present invention based on preallocated Independent Carrier Wave dispatching method.
Detailed description of the invention
For making the purpose of the present invention, technical scheme and advantage clearly understand, develop simultaneously embodiment referring to accompanying drawing, scheme of the present invention is described in further detail.
Fig. 1 is the flow chart in a kind of multicarrier system provided by the present invention based on preallocated Independent Carrier Wave dispatching method. As it is shown in figure 1, the method comprises the following steps:
Step 101, is pre-configured with the length of load balancing cycle timer.
Step 102, when each subframe arrives, it is judged that whether load balancing cycle timer expires, if it has, perform step 103; Otherwise, step 104 is directly performed.
Step 103, the grade of service according to the priority of each activation carrier wave after updating and all business of all users, it is determined that the predistribution queue of each activation carrier wave.
Step 104, according to the priority of business from the order of high to low, carries out prioritization to the business in the predistribution queue of each activation carrier wave respectively, forms the priority query of each activation carrier wave.
Step 105, according to the order of priority query, is followed successively by each traffic assignments resource of the priority query of each activation carrier wave.
So far, this flow process terminates.
Fig. 2 is the flow chart of the embodiment in a kind of multicarrier system provided by the present invention based on preallocated Independent Carrier Wave dispatching method. In the present embodiment, illustrate with the descending example that is scheduling to. It addition, describe in order to convenient, unless stated otherwise, carrier wave described in the present embodiment refers both to activate carrier wave.
As in figure 2 it is shown, this embodiment comprises the following steps (Fig. 2 adopts " Y " to represent that judged result is "Yes", adopts " N " to represent that judged result is "No"):
Step 201, starts, and the initial value arranging variable i is 1.
Step 202, it is judged that whether descending scheduling subframe arrives, if arrived, then performs step 203; Otherwise, step 201 is returned.
In this step, if descending scheduling subframe arrives, then it represents that can start to perform the subsequent operation of descending scheduling, if descending scheduling subframe does not also arrive, then not perform any operation, continue waiting for the arrival of descending scheduling subframe.
Step 203, it is judged that whether load balancing cycle timer expires, if it has, perform step 204; Otherwise, step 205 is directly performed.
Before this step, also needing to be pre-configured with the length T of load balancing cycle timer, the length T of load balancing cycle timer is a cycle, and the finish time in each cycle is the load balancing cycle timer overdue moment.
The length T of load balancing cycle timer is not construed as limiting by the present embodiment, and the length T of load balancing cycle timer is arranged depending on concrete condition. If it is desire to each carrier wave reaches the load equilibrium of optimum, then T can be set to smaller, certainly, which again increases the computation burden of system, therefore, in actual applications, we generally consider that the load equilibrium of each carrier wave is within the acceptable range, and consider not increase excessive computation burden for system, determine the concrete numerical value of T with this. as far as possible
In the present embodiment, in order to safeguard the load balancing of intercarrier better, it is provided with load balancing cycle timer, periodically to update the predistribution queue of each carrier wave according to the loading condition of each carrier wave.
Step 204, the grade of service according to the priority of each carrier wave after updating and all business of all users, it is determined that the predistribution queue of each carrier wave.
Specifically, step 204 includes following two steps: first, the loading condition according to each carrier wave in this community, updating the priority of each carrier wave of this community, the load of carrier wave is more light, then the priority of carrier wave is more high, the load of carrier wave is more heavy, then the priority of carrier wave is more low. Secondly, according to the grade of service of all business of all users in this community from the order of high to low, and carrier wave priority is from the order of high to low, with polling mode successively by each traffic assignments to corresponding carrier wave, after then distribution terminates, the business on each carrier wave forms the predistribution queue of this carrier wave.
It should be noted that, due to when upper once load balancing cycle timer expires, also have updated carrier wave priority, also business has been distributed, also determine the predistribution queue of each carrier wave, therefore, if not determining predistribution queue for the first time, this load balancing cycle timer to after date determined predistribution queue actual be update after predistribution queue.
In actual applications, after first descending scheduling subframe arrives, usual load balancing cycle timer first time expires, to determine the predistribution queue of carrier wave for the first time.
Below, the above-mentioned poll method of salary distribution is illustrated.
For two carrier waves, it is assumed that the priority of carrier wave from the order of high to low is: carrier wave 1, carrier wave 2, it is assumed that all users in this community are user 1 and user 2, and user 1 supports business 1,2,3, and user 2 supports business 4,5. Sort (qos requirement of business is more high, then the grade of service is more high) from the order of high to low according to the qos requirement of business, it is assumed that the grade of service of all business of all users in this community from the order of high to low is: business 1,2,3,4,5. Then the process of poll distribution is: business 1 distributed to carrier wave 1, business 2 is distributed to carrier wave 2, then business 3 is distributed to carrier wave 1 again, business 4 is distributed to carrier wave 2, finally business 5 is distributed to carrier wave 1, then the predistribution queue on carrier wave 1 is: business 1,3,5, and the predistribution queue on carrier wave 2 is: business 2,4.
Step 205, according to the priority of business from the order of high to low, carries out prioritization to the business in the predistribution queue of each carrier wave respectively, forms the priority query of each carrier wave.
Needing ben, service priority described in this step and the grade of service described in previous step are different implications. The grade of service is generally using the qos requirement of business as reference, and the qos requirement of business is more high, then the grade of service is more high, and service priority is not only using the qos requirement of business as reference, it is possible to referring also to parameters such as channel condition, service delay requirements. The defining method of service priority can rely on the calculating of priority factors, and the calculating of priority factors may with reference to parameters such as service quality (QoS) requirement of this business, channel qualities, and concrete calculating is referred to the related introduction in Rel-8/9.
It should be noted that if not the priority query determining carrier wave for the first time, then this determined priority query is actual is the priority query after updating. And, in this descending scheduling subframe, if being not carried out step 204 (namely load balancing cycle timer is not yet due) before this step, the predistribution queue then related in this step is last (distance current time is the last) cycle timer determined predistribution queue when expiring, be really on once cycle timer expires time determined predistribution queue in business carry out prioritization.
May be assumed that the priority query of carrier wave 1 is: business 1,5,3, the priority query of carrier wave 2 is: business 4,2.
In following step 206~212, the business in the priority query of each carrier wave that is followed successively by carries out resource distribution and (according to the order from the head of the queue of priority query to tail of the queue, each business is carried out resource distribution, namely resource distribution is carried out according to service priority from the order of high to low, each carrier wave is not always the case), the concrete scheme of resource distribution still continues to use the correlation technique of downlink resource distribution in Rel-8/9, the object only distributed is no longer all business of the user on this carrier wave, but the business in priority query on this carrier wave.
Following step 206~212 is illustrative only.
Step 206, successively using each carrier wave as current carrier, it is judged that the priority query of current carrier whether non-NULL, if being non-NULL, then performs step 207; If not being non-NULL, then perform step 212.
When first time performs step 206, it is assumed that using carrier wave 1 first as current carrier, when second time performs step 206, it is assumed that carrier wave 2 is re-used as current carrier, certainly also can first using carrier wave 2 as current carrier, then using carrier wave 1 as current carrier. The order of carrier resource distribution is not defined by the present embodiment.
Step 207, it is judged that whether current carrier also has remaining resource, if there being remaining resource, then performs step 208; Otherwise, step 212 is performed.
Step 208, selects the i-th business in the priority query of current carrier.
Step 209, carries out resource distribution (being scheduling) for the i-th business in the priority query of current carrier.
The method of resource distribution adopts the descending scheduling Resource Allocation Formula of Rel-8/9, and it will not go into details herein.
Step 210, calculate i+1, using i+1 as update after i.
Step 211, it may be judged whether for all traffic assignments resources (namely judging whether the priority query of current carrier travels through) in the priority query of current carrier, if it is, perform step 212; Otherwise, execution step 207 is returned.
Step 212, it may be judged whether all carrier waves are all as crossing current carrier (namely judging whether that all carrier waves have carried out resource distribution all), if it is, directly perform step 213; Otherwise, the value of i is set to 1 again, selects next carrier wave as current carrier, be then back to perform step 206;
Step 213, the resource distribution of this descending scheduling subframe terminates.
By the introduction of above-described embodiment, can be seen that, in the present embodiment, in each descending scheduling subframe, periodically update carrier wave priority according to the loading condition of carrier wave, according to the grade of service of all business of all users from the order of high to low, and carrier wave priority is from the order of high to low, with polling mode successively by each traffic assignments to corresponding carrier wave, to update the predistribution queue of each carrier wave, then according to service priority in the predistribution queue of each carrier wave is from the priority query sequentially forming each carrier wave of high to low, last in each carrier wave, order according to priority query, it is followed successively by each business and carries out resource distribution. though the present embodiment is the content that business carries out that resource distribution is prior art according to the order in priority query, but the inventive point of the present invention is in that to carry out the method for pre-distributing before resource distribution, the loading condition of carrier wave is take into account during predistribution, and combine the grade of service, therefore avoid and the situation of load imbalance between carrier wave occurs.
It should be noted that row is dispatched in subframe in each of the lower, all implement according to above-mentioned steps 201~213. Though the present embodiment illustrates with the descending example that is scheduling to, but the scheme of the present embodiment applies also for uplink scheduling, and art technology can according to the ins and outs of the present embodiment announcement to realize uplink scheduling.
So far, this flow process terminates.
To sum up, in the present invention, when each subframe arrives, if load balancing cycle timer expires, the predistribution queue of each activation carrier wave is then determined according to the grade of service of the priority of each activation carrier wave after updating and all business of all users, then according to the priority of business is from the order of high to low, respectively the business in the predistribution queue of each activation carrier wave is carried out prioritization, form the priority query of each activation carrier wave, the last order according to priority query, it is followed successively by each traffic assignments resource of the priority query of each activation carrier wave. visible, take into account the loading condition of carrier wave during present invention predistribution before Resources allocation, and combine the grade of service, therefore avoid and the situation of load imbalance between carrier wave occurs, it is possible to balanced each activates the load between carrier wave.
The above, be only presently preferred embodiments of the present invention, is not intended to limit protection scope of the present invention. All within the spirit and principles in the present invention, any amendment of making, equivalent replacement, improvement etc., should be included within protection scope of the present invention.
Claims (7)
1. based on preallocated Independent Carrier Wave dispatching method in a multicarrier system, it is characterised in that being pre-configured with the length of load balancing cycle timer, the method also includes:
A, when each subframe arrives, it is judged that whether load balancing cycle timer expires, if it has, perform step B; Otherwise, step C is directly performed;
B, load according to each activation carrier wave, update the priority of each activation carrier wave, and wherein, the load activating carrier wave is more light, then the priority activating carrier wave is more high, and the load activating carrier wave is more heavy, then the priority activating carrier wave is more low;
The grade of service according to the priority of each activation carrier wave after updating and all business of all users, it is determined that the predistribution queue of each activation carrier wave;
C, according to the priority of business from the order of high to low, respectively the business in the predistribution queue of each activation carrier wave is carried out prioritization, forms the priority query of each activation carrier wave;
Described in step C, service priority is determined according to the priority factors of business, and the priority factors of described business is with reference to the grade of service, channel conditions and traffic delay requirement;
D, order according to priority query, be followed successively by each traffic assignments resource of the priority query of each activation carrier wave.
2. method according to claim 1, it is characterised in that subframe described in step A is descending scheduling subframe or uplink scheduling subframe.
3. method according to claim 2, it is characterised in that determine described in step B that the method for the predistribution queue of each activation carrier wave includes:
According to the grade of service of all business of all users from the order of high to low, and activate the carrier wave priority order from high to low, successively each traffic assignments is activated on carrier wave to corresponding with polling mode, after then distribution terminates, the business on each activation carrier wave forms the predistribution queue of this activation carrier wave.
4. method according to claim 3, it is characterised in that if not determining the predistribution queue of each activation carrier wave for the first time, then the described predistribution queue determined is the predistribution queue after updating.
5. method according to claim 4, it is characterised in that the described grade of service is the service quality QoS requirements of business, wherein, the qos requirement of business is more high, then the grade of service is more high, and the qos requirement of business is more low, then the grade of service is more low.
6. method according to claim 1, it is characterised in that if not determining the priority query of each activation carrier wave for the first time, then the described priority query determined is the priority query after updating.
7. method according to claim 6, it is characterised in that if load balancing cycle timer is not yet due described in step A, then determined predistribution queue when predistribution queue described in step C expires for distance current time the last time cycle timer.
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CN1933363A (en) * | 2005-09-15 | 2007-03-21 | 大唐移动通信设备有限公司 | Method for dispatching group data transmission |
CN101043638A (en) * | 2006-03-20 | 2007-09-26 | 上海贝尔阿尔卡特股份有限公司 | Base station dispatcher, resource distribution module and dispatch control method for HSUPA |
CN101087160A (en) * | 2006-06-08 | 2007-12-12 | 大唐移动通信设备有限公司 | A dispatching method and device for uplink enhanced priority |
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CN1933363A (en) * | 2005-09-15 | 2007-03-21 | 大唐移动通信设备有限公司 | Method for dispatching group data transmission |
CN101043638A (en) * | 2006-03-20 | 2007-09-26 | 上海贝尔阿尔卡特股份有限公司 | Base station dispatcher, resource distribution module and dispatch control method for HSUPA |
CN101087160A (en) * | 2006-06-08 | 2007-12-12 | 大唐移动通信设备有限公司 | A dispatching method and device for uplink enhanced priority |
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