CN100391272C - A method for allocating high-speed channel resources - Google Patents

A method for allocating high-speed channel resources Download PDF

Info

Publication number
CN100391272C
CN100391272C CNB2004100372250A CN200410037225A CN100391272C CN 100391272 C CN100391272 C CN 100391272C CN B2004100372250 A CNB2004100372250 A CN B2004100372250A CN 200410037225 A CN200410037225 A CN 200410037225A CN 100391272 C CN100391272 C CN 100391272C
Authority
CN
China
Prior art keywords
speed channel
high speed
channel resource
resource
limit
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Fee Related
Application number
CNB2004100372250A
Other languages
Chinese (zh)
Other versions
CN1691789A (en
Inventor
万蓉
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Huawei Technologies Co Ltd
Original Assignee
Huawei Technologies Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Huawei Technologies Co Ltd filed Critical Huawei Technologies Co Ltd
Priority to CNB2004100372250A priority Critical patent/CN100391272C/en
Publication of CN1691789A publication Critical patent/CN1691789A/en
Application granted granted Critical
Publication of CN100391272C publication Critical patent/CN100391272C/en
Expired - Fee Related legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Images

Abstract

The present invention discloses a method for allocating high-speed channel resources. The method comprises the steps that firstly threshold information at least comprising a wireless resource threshold is set; when high-speed channel resources are allocated, the used wireless resources of a system is determined firstly after the currently required high-speed channel resources are allocated; if the wireless resources are smaller than the wireless resource threshold set in the first step, high-speed channel resources of limitless time length are allocated, else high-speed channel resources of limited time length are allocated. The scheme of the present invention solves the problem that the prior art can only allocate high-speed channel resources of limitless time length or limited time length. The scheme of the present invention realizes the allocation of high-speed channel resources of limited time length when available resources are few and the allocation of high-speed channel resources of limitless time length when available resources are more, enhances the transmission efficiency of the system, and maximizes the transmission efficiency of single users.

Description

A kind of method of distributing the IA High Speed Channel resource
Technical field
The present invention relates to the radio channel resource distribution technique in the wireless data service field, relate to a kind of method of distributing the IA High Speed Channel resource or rather.
Background technology
In the wireless data service field, normally a lot of users share finite wireless resources, and wireless environment variation is very fast, and the Radio Resource in the system at a time may compare abundance, and is then very deficient constantly at next.Be the finite wireless resources that practices every conceivable frugality, when user's request msg is professional, the general primary channel resource of only distributing low rate of system for this user, like this, the shared Radio Resource of this user is less; System only has lot of data to need transmission detecting this user, or during this user's active request IA High Speed Channel resource, and just for this user distributes the IA High Speed Channel resource, in this case, the shared Radio Resource of this user is then more.
The IA High Speed Channel resource is also referred to as burst usually, therefore, distributes the IA High Speed Channel resource to be and distributes burst.Burst has two important elements, and one is speed, and promptly system assignment is given the speed of user's channel resource; Another is the duration, i.e. user's duration is given in IA High Speed Channel resource allocation.Duration at burst classifies, the burst of two kinds of forms is arranged at present, and a kind of is no limit burst, and promptly in a single day this IA High Speed Channel resource distributes to certain user, then this user can use this channel resource always, removes nonsystematic and sends release command or dismantling call; Another kind is that the limit burst is arranged, and in this case, also comprises the duration of allocating in advance to the user in the order of distribution IA High Speed Channel resource, and after the user used this IA High Speed Channel resource to reach this duration, this IA High Speed Channel resource was automatically released.
At burst allocation, four kinds of distribution methods are arranged at present, below these four kinds of methods are described respectively.
First kind is no limit burst allocation method.Specifically, system when distributing the IA High Speed Channel resource for certain user, the burst that distributes a no limit for this user.This user can use this burst always, removes nonsystematic and discharges this burst, and perhaps this user's calling is removed or enters resting state.The shortcoming of this distribution method is to distribute too fixingly, can not adapt to the variation of wireless environment.Such as, the data volume application that the user sends according to current needs the burst of a certain speed, using this burst to send in the process of data,, then may cause transmission to be interrupted because of this burst can't send so many data if the data volume that this user need send increases; If the data volume that the user need receive reduces, then can cause resources idle, wasted valuable Radio Resource.And this distribution method can influence the fair competition of user to channel resource, such as, if the IA High Speed Channel resource of system has all been distributed to the user of first to file channel resource, the user who enters system after then possibly can't apply for the IA High Speed Channel resource.
Second kind is fixing long in short-term burst allocation method.Specifically, system is when distributing the IA High Speed Channel resource for certain user, and only for this user distributes several bursts that limit is arranged, the duration of each burst is all very short, and is certain regular length.By these burst transfer data the time, only after the burst of current transmission data stopped, next burst just began to transmit data.
With burst transfer coordinate diagram shown in Figure 1 is example, and certain user's data is by burst 1, burst 2, burst 3 and happen suddenly and 4 transmit jointly, then only after 1 termination that happens suddenly, burst 2 just begins to transmit data, the rest may be inferred, and after burst 2 stopped, burst 3 just began to transmit data; After burst 3 stopped, burst 4 just began to transmit data.
With burst among Fig. 11 and burst 2 is example.System just begins planning burst 2 when happening suddenly 1 termination, and plans that in burst 2 finishing rear line issues the signaling that comprises 2 relevant informations that happen suddenly, and therefore, each all has certain time interval between happening suddenly.This time interval is called the burst time-delay, and the burst time-delay comprises the processing time of base station system, aerial transmission delay and travelling carriage processing time etc., and in general, the burst time-delay needs 120ms at least.
For resource allocation, the efficiency of transmission of system is a very important index, and the efficiency of transmission of system is high more, and then the throughput of user in the transmission time is big more, and usage factor of system resource is just high more.The efficiency of transmission of system can adopt following formula to calculate,
Efficiency of transmission=burst duration/(burst duration+burst time-delay) * 100%
Then when the burst time-delay was longer, the efficiency of transmission of system then can be lower.If burst generally speaking time-delay is 120ms, and burst duration is set to 120ms, and then the efficiency of transmission of system only is 50%.
This shows, though fixing long in short-term burst allocation method has solved no limit burst allocation method and can only distribute fixing IA High Speed Channel problem of resource for the user, but there is the burst time-delay between twice adjacent bursts of fixing long burst allocation method in short-term, cause the efficiency of transmission of this method lower, can't make unique user throughput-maximized in the transmission time, especially more obvious when the short and burst time-delay of burst duration is longer.In addition, the burst duration that this method is distributed is fixed, and can not adapt to the variation of wireless environment, is unfavorable for the raising of system transmissions efficient.And the base station all will be to signaling under the user when each burst of transmission, and this has increased the aerial load of forward link and the processing load of terminal, has also influenced the efficiency of transmission of data.
The third is the unfixed limit burst allocation method that has.This method and second kind of distribution method, the promptly fixing difference of long burst allocation method in short-term is, the burst duration of this method is not fixed, when wireless environment is good, can distribute long burst duration for the user, in the wireless environment difference, for the user distributes short burst duration.This unfixed variation that has limit burst allocation method can adapt to wireless environment to a certain extent, but, this method does not solve the problem of burst time-delay, still have the burst time-delay between two secondary bursts, and the base station still needs signaling under mobile phone continually.
The 4th kind is improved fixing long in short-term burst allocation method.This method and second kind of distribution method, the promptly fixing difference of long burst allocation method in short-term is that this method adopts the method for planning in advance, makes the base station when current burst does not stop as yet, promptly begin to be the next burst of user's assignment, to realize not time-delay between two bursts.
As shown in Figure 2, the transmission of certain user's data is by burst 1, burst 2, burst 3 with happen suddenly and 4 share.Be example with burst among Fig. 21 and burst 2 below, describe shifting to an earlier date planing method.T1 is 1 time that begins to transmit of burst, t4 is the time of burst 1 fair termination, for solving burst 1 and the latency issue between 2 of happening suddenly, system just begins planning burst 2 when t2, if the time ideal of planning, t3 should equal t4 constantly constantly, promptly happen suddenly 1 and the burst 2 do not have fully overlapping, and happen suddenly 1 and happen suddenly very close to each otherly between 2, still, often can not reach so good effect.Shown in Figure 2, burst 2 begins constantly at t3, promptly happen suddenly 2 and burst 1 have overlappingly, burst 1 stops constantly automatically at t3, t4 is in advance constantly than the termination of original planning.In this case, if overlapping period is long more, effective efficiency of transmission of burst is just low more.In addition, though this distribution method has solved the problem that has time-delay between two secondary bursts, but, because the base station often needs to issue to the user order of premature termination burst 1, therefore make base station assigned more frequent to user signaling, Signalling exchange between inner each subsystem of base station system is also more frequent, has increased base station system and user signaling and has handled load, and be unfavorable for the raising of efficiency of transmission.
In above-mentioned four kinds of distribution methods, first kind is the distribution method of no limit, and other three kinds for there being the distribution method of limit.The efficiency of transmission of no limit distribution method is very high, but, the distribution of this method is too fixing, often can not satisfy the requirement of wireless environment variation, and in the needs use IA High Speed Channel resource that has many consumers, in other words, the Radio Resource of system relatively more after a little while, this method can not guarantee that all users can both apply for the IA High Speed Channel resource.There is the limit distribution method can guarantee that all users have an opportunity to use the IA High Speed Channel resource, but the efficiency of transmission of these class methods is lower, and these class methods often need base station signaling under the user continually, this has increased the aerial load of forward link and user's processing load, has also influenced the data transmission efficiency of system.In addition, when the current Radio Resource of system was relatively more sufficient, using had the burst allocation method of limit just can not utilize current Radio Resource fully.
Summary of the invention
In view of this, main purpose of the present invention is to provide a kind of method of distributing the IA High Speed Channel resource, being that the user is assigned limit or does not have the IA High Speed Channel resource of limit neatly according to current Radio Resource situation, thereby make all users all have an opportunity to use the IA High Speed Channel resource, and improve the data transmission efficiency of system.
For reaching above purpose, technical scheme of the present invention is achieved in that a kind of method of distributing the IA High Speed Channel resource, and this method may further comprise the steps:
At least a. the threshold information that comprises the Radio Resource thresholding is set;
B. when distributing the IA High Speed Channel resource, determine the summation of after distributing current required IA High Speed Channel resource current Radio Resource that has been used of system and current required Radio Resource, if the summation of this Radio Resource is less than the Radio Resource thresholding that is provided with among the step a, the IA High Speed Channel resource of then distributing no limit, otherwise, be assigned the IA High Speed Channel resource of limit.
Among the described step b, describedly determine that the summation of after distributing current required IA High Speed Channel resource current Radio Resource that has been used of system and current required Radio Resource is: the current Radio Resource that has been used of the system that obtains, and current required transmission rate is set, obtain current required Radio Resource according to this transmission rate, obtain this two Radio Resource sums afterwards.
Further comprise before the described step b: receive the solicited message that requires to distribute the IA High Speed Channel resource;
Among the step b, describedly current required transmission rate is set is: the transmission rate that this solicited message is entrained is as the current transmission rate of distributing of needing.
Further comprise before the described step b: detecting currently has data to send by the IA High Speed Channel resource;
Among the step b, describedly current required transmission rate is set is: distribute transmission rate according to current needs data quantity transmitted.
Described step b further reduces the transmission rate that is provided with before when being assigned the IA High Speed Channel resource of limit.
Described step b further starts timer when distributing the IA High Speed Channel resource of no limit;
This method further may further comprise the steps:
C. whether the timer that starts among the determining step b is overtime, if overtime, then enters steps d, otherwise, re-execute step c;
D. judge whether end of transmission of current data, if end of transmission then discharges the no limit IA High Speed Channel resource of being distributed, if there is not end of transmission, then continue no limit IA High Speed Channel resource transmission data, and restart timer, return step c afterwards with current distribution.
Described before the no limit IA High Speed Channel resource transmission data that continue with current distribution, further comprise: obtain the current Radio Resource that has been used, and judge that whether this Radio Resource is less than the Radio Resource decision threshold that sets in advance, if less than, then carry out the step that continues with the IA High Speed Channel resource transmission data of current distribution; Otherwise, stop the no limit IA High Speed Channel resource of current distribution, and be assigned the IA High Speed Channel resource of limit, finish current handling process afterwards.
Among the described step b, after the IA High Speed Channel resource of distributing no limit, further comprise: whether judge the current Radio Resource that has been used less than the Radio Resource decision threshold that sets in advance, if less than, then continue by no limit IA High Speed Channel resource transmission data; Otherwise, judge whether end of transmission of current data, if end of transmission, then discharge the no limit IA High Speed Channel resource of being distributed, if there is not end of transmission, then stops the no limit IA High Speed Channel resource of current distribution, and be assigned the IA High Speed Channel resource of limit.
Further comprise in the threshold information that is provided with among the described step a: sluggish parameter;
Described Radio Resource decision threshold is: Radio Resource thresholding that is provided with among the step a and described sluggish parameter sum.
Among the described step b, after the IA High Speed Channel resource of distributing no limit, the request of further receiving discharges the information of IA High Speed Channel resource;
Then this method may further include: the no limit IA High Speed Channel resource that directly stops current distribution.
Described Radio Resource is power resource or Channel Elements resource or forward direction Walsh code resource.
The present invention program is by being provided with the Radio Resource thresholding, judge that whether Radio Resource that system is used is less than this Radio Resource thresholding, and make corresponding setting according to current judged result, realized in available resources more after a little while, be assigned the IA High Speed Channel resource of limit, in available resources more for a long time, the IA High Speed Channel resource of distributing no limit, make a plurality of users can share and compete finite wireless resources, and improved the efficiency of transmission of system, realized the maximization of unique user efficiency of transmission.In addition, the IA High Speed Channel resource transmission data by no limit have also significantly reduced the aerial signaling flow process when having limit to distribute.
The present invention program can also will not have the IA High Speed Channel resource that limit IA High Speed Channel resource is converted to limit according to current Radio Resource situation, therefore can adapt to the variation of wireless environment in time.
The present invention program can also in time stop the wireless duration IA High Speed Channel resource of distribution when the user data transmission finishes, avoided waste of radio resources.
Description of drawings
Fig. 1 is the fixing transmission of coordinate figure of long burst allocation in short-term in the prior art;
Fig. 2 is the improved fixing transmission of coordinate figure of long burst allocation in short-term in the prior art;
Fig. 3 is the present invention program's realization flow figure.
Embodiment
Radio Resource in the system specifically comprises a variety of, such as power resource, Channel Elements (CE, Channel Element) resource, forward direction Walsh code (Walsh Code) resource etc.Under different situations, certain Radio Resource wherein may become current bottleneck.The present invention program monitors current bottleneck, and determines current resource allocation conditions according to this bottleneck.
Be example with power resource as current bottleneck below, reach specific embodiment in conjunction with the accompanying drawings the present invention program is described in further detail.
Referring to Fig. 3, the present invention program realizes by following steps:
Step 301, set in advance the determination strategy of power resource thresholding and current power resource operating position.
Can be provided with the power resource thresholding according to self needs, such as being 80% of power resource total amount the power resource threshold setting.
The determination strategy of current power resource operating position can be set to: the judgement system is for after the user distributes the IA High Speed Channel resource, whether current power resource that has been used and the current power resource sum that needs to use be less than the power resource thresholding that sets in advance in the system, if less than, the Burst Channel that then can distribute no limit, otherwise, can only be assigned the Burst Channel of limit.
The also available following formula of this determination strategy is represented:
(DataPowerInUse+RequiredBurstPower)<FINITE_BURST_THRESHOLD
Wherein, DataPowerInUse is the current power resource that is used, and RequiredBurstPower is the current power resource that needs use, and FINITE_BURST_THRESHOLD is the power resource thresholding.
When step 302, system distribute the IA High Speed Channel resource at needs for the user, at first obtain the situation that the current power resource has been used.
Here, system distributes the IA High Speed Channel resource for the user, may be because the user sends burst request to system on one's own initiative, also may be that system detects the user and has lot of data to need transmission.The user carries the transmission rate that this user asks in the burst request that system sends.
Step 303, system distribute a transmission rate for this user, and draw with the required power resource of this transmission rate transmission information.
If system distributes the IA High Speed Channel resource to be because the user sends burst request for the user, then system can directly give this user with the transmission rate allocation of carrying in this burst request when distributing default transmission rate for the user; Have lot of data to need transmission if system distributes the IA High Speed Channel resource to be for the user because system detects the user, then system distributes transmission rate according to current needs data quantity transmitted when distributing default transmission rate for the user.For back a kind of method of distributing transmission rate, specifically can be to set up the data volume of needs transmission and the corresponding relation between the IA High Speed Channel speed in advance, can transmission rate be set according to current needs data quantity transmitted afterwards.
Step 304~306, judge that whether current Radio Resource satisfies the Radio Resource determination strategy that sets in advance, if satisfy, be that system is after distributing the IA High Speed Channel resource for the user, power resource that has been used in the system and the current power resource sum that needs to use are less than the power resource thresholding that sets in advance, the IA High Speed Channel resource of then distributing no limit for this user, and the transmission rate transmission data to distribute in the step 303 start timer simultaneously, enter step 307 afterwards; If do not satisfy, promptly system is after distributing the IA High Speed Channel resource for the user, and occupied power resource then is assigned the IA High Speed Channel resource of limit more than or equal to the power resource thresholding that sets in advance in the system for this user, and end process.
In this step, the setting-up time of timer can be provided with according to the triggering cycle that limit is arranged, such as, be set to 640ms.
In addition, if be defined as the IA High Speed Channel resource that the user is assigned limit, for saving channel resource, can also be when determining this user's data transmission rate, transmission rate is carried out reduction of speed on the basis of the determined transmission rate of step 303 handle, such as, transmission rate is reduced to half of former transmission rate.
Step 307, judge whether timer is overtime,, then enter step 308 if overtime; Otherwise, return step 307.
Step 308~309, the data end of transmission whether of judging the active user are if end of transmission then terminates as the no limit IA High Speed Channel resource that this user distributes, and finishes this handling process; Otherwise, enter step 310.
Step 310~312, the current Radio Resource power that has been used of the system that obtains, and judge that whether this Radio Resource power is less than the Radio Resource thresholding that sets in advance in the step 301, if less than, then continue to transmit data for this user with current efficiency of transmission and IA High Speed Channel resource, and restart timer, return step 307 afterwards; Otherwise, enter step 313.
This user's IA High Speed Channel resource is distributed in step 313, system closure, and is assigned the IA High Speed Channel resource of limit for this user.
By above-mentioned steps, can realize purpose of the present invention.
By the setting of above-mentioned steps, can be from current no limit IA High Speed Channel resource switch for there be limit IA High Speed Channel resource in system in the current wireless power resource that has been used during greater than the power resource thresholding that sets in advance.And if current distribution have limit IA High Speed Channel resource to finish after, this user also has lot of data to need transmission, then this user can distribute the IA High Speed Channel resource to system request once more, and system then adopts flow process shown in Figure 3 to redistribute the IA High Speed Channel resource for this user.
Like this, if the current wireless power resource that has been used of system is when just surpassing the power resource thresholding that sets in advance, just switch to the IA High Speed Channel resource of limit, then there is being the resource allocation of limit IA High Speed Channel to finish, and when also having data to send, system may still not have limit IA High Speed Channel resource for remaining data allocations according to above-mentioned flow process, but, use in the process of IA High Speed Channel resource transmission data of no limit in system, may can occur just having switched to the situation of the IA High Speed Channel resource of limit again above the power resource thresholding that sets in advance because of the current wireless power resource that has been used.That is to say that system may occur instructing continually the user in no limit IA High Speed Channel resource and have between the limit IA High Speed Channel resource and switch, and has so just caused the user in fact not enjoying no limit IA High Speed Channel resource veritably.This phenomenon can be called ping-pong.
For preventing the generation of ping-pong, can also on the basis of Radio Resource thresholding, increase a sluggish parameter, then the judgement in the step 311 be judge the current Radio Resource that has been used whether less than Radio Resource thresholding and this sluggishness parameter and, this Radio Resource thresholding and sluggish parameter sum can be called the Radio Resource decision threshold.Wherein, this sluggishness parameter is configuration parameter equally, can be set to 2%~5% of gross power by this configuration parameter.This judgement also can be passed through following formulate:
DataPowerInUse<(FINITE_BURST_THRESHOLD+TRANSITION_HYSTERESIS)
Wherein, DataPowerInUse is the current power resource that is used, and FINITE_BURST_THRESHOLD is the Radio Resource thresholding that sets in advance, and TRANSITION_HYSTERESIS is sluggish parameter.
Among the present invention program, it can be to trigger flow process as shown in Figure 3 by timer cycle ground is set that radio channel resource is redistributed or stop to distribute.In fact, this is redistributed or stops to distribute and can also adopt event mode to trigger, such as, trigger in conjunction with following two kinds of incidents:
Incident (1): obtain the current wireless power resource that has been used, and judge whether this wireless power resource has surpassed the Radio Resource decision threshold,, then continue with present rate transmission data if do not surpass the Radio Resource decision threshold; If surpassed, then judge whether end of transmission of user's data, if end of transmission, then stop the no limit IA High Speed Channel resource of current distribution, if there is not end of transmission, then stops the IA High Speed Channel resource of current distribution, and be assigned the IA High Speed Channel resource of limit.
Here, adopt the wireless power decision threshold that relates in the Event triggered mode can be provided with as required equally, such as, can it be set to power resource thresholding in the step 301, also can be provided with on the basis of above-mentioned sluggish parameter, this wireless power decision threshold is set to power resource thresholding and this sluggishness parameter sum of setting in the step 301, and just this wireless power decision threshold is set to FINITE_BURST_THRESHOLD+TRANSITION_HYSTERESIS.
Incident (2): discharge the IA High Speed Channel resource if user data transmits the request that finishes, then directly stop the no limit IA High Speed Channel resource of current distribution.
In addition, need to prove that the system among the present invention program can adopt in existing three kinds of distribution methods any one when being assigned the IA High Speed Channel resource of limit.
The above only is the present invention program's preferred embodiment, not in order to limit protection scope of the present invention.

Claims (11)

1. a method of distributing the IA High Speed Channel resource is characterized in that, this method may further comprise the steps:
At least a. the threshold information that comprises the Radio Resource thresholding is set;
B. when distributing the IA High Speed Channel resource, determine the summation of after distributing current required IA High Speed Channel resource current Radio Resource that has been used of system and current required Radio Resource, if the summation of this Radio Resource is less than the Radio Resource thresholding that is provided with among the step a, the IA High Speed Channel resource of then distributing no limit, otherwise, be assigned the IA High Speed Channel resource of limit.
2. method according to claim 1, it is characterized in that among the described step b, describedly determine that the summation of after distributing current required IA High Speed Channel resource current Radio Resource that has been used of system and current required Radio Resource is: the current Radio Resource that has been used of the system that obtains, and current required transmission rate is set, obtain current required Radio Resource according to this transmission rate, obtain this two Radio Resource sums afterwards.
3. method according to claim 2 is characterized in that, further comprises before the described step b: receive the solicited message that requires to distribute the IA High Speed Channel resource;
Among the step b, describedly current required transmission rate is set is: the transmission rate that this solicited message is entrained is as the current transmission rate of distributing of needing.
4. method according to claim 2 is characterized in that, further comprises before the described step b: detecting currently has data to send by the IA High Speed Channel resource;
Among the step b, describedly current required transmission rate is set is: distribute transmission rate according to current needs data quantity transmitted.
5. according to claim 3 or 4 described methods, it is characterized in that described step b further reduces the transmission rate that is provided with before when being assigned the IA High Speed Channel resource of limit.
6. method according to claim 1 is characterized in that, described step b further starts timer when distributing the IA High Speed Channel resource of no limit;
This method further may further comprise the steps:
C. whether the timer that starts among the determining step b is overtime, if overtime, then enters steps d, otherwise, re-execute step c;
D. judge whether end of transmission of current data, if end of transmission then discharges the no limit IA High Speed Channel resource of being distributed, if there is not end of transmission, then continue no limit IA High Speed Channel resource transmission data, and restart timer, return step c afterwards with current distribution.
7. method according to claim 6, it is characterized in that, described before the no limit IA High Speed Channel resource transmission data that continue with current distribution, further comprise: obtain the current Radio Resource that has been used, and judge that whether this Radio Resource is less than the Radio Resource decision threshold that sets in advance, if less than, then carry out the step that continues with the IA High Speed Channel resource transmission data of current distribution; Otherwise, stop the no limit IA High Speed Channel resource of current distribution, and be assigned the IA High Speed Channel resource of limit, finish current handling process afterwards.
8. method according to claim 1, it is characterized in that among the described step b, after the IA High Speed Channel resource of distributing no limit, further comprise: judge that whether the current Radio Resource that has been used is less than the Radio Resource decision threshold that sets in advance, if less than, then continue by no limit IA High Speed Channel resource transmission data; Otherwise, judge whether end of transmission of current data, if end of transmission, then discharge the no limit IA High Speed Channel resource of being distributed, if there is not end of transmission, then stops the no limit IA High Speed Channel resource of current distribution, and be assigned the IA High Speed Channel resource of limit.
9. according to claim 7 or 8 described methods, it is characterized in that, further comprise in the threshold information that is provided with among the described step a: sluggish parameter;
Described Radio Resource decision threshold is: Radio Resource thresholding that is provided with among the step a and described sluggish parameter sum.
10. method according to claim 1 is characterized in that among the described step b, and after the IA High Speed Channel resource of distributing no limit, the request of further receiving discharges the information of IA High Speed Channel resource;
This method further comprises: the no limit IA High Speed Channel resource that directly stops current distribution.
11. method according to claim 1 is characterized in that, described Radio Resource is power resource or Channel Elements resource or forward direction Walsh code resource.
CNB2004100372250A 2004-04-27 2004-04-27 A method for allocating high-speed channel resources Expired - Fee Related CN100391272C (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CNB2004100372250A CN100391272C (en) 2004-04-27 2004-04-27 A method for allocating high-speed channel resources

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CNB2004100372250A CN100391272C (en) 2004-04-27 2004-04-27 A method for allocating high-speed channel resources

Publications (2)

Publication Number Publication Date
CN1691789A CN1691789A (en) 2005-11-02
CN100391272C true CN100391272C (en) 2008-05-28

Family

ID=35346858

Family Applications (1)

Application Number Title Priority Date Filing Date
CNB2004100372250A Expired - Fee Related CN100391272C (en) 2004-04-27 2004-04-27 A method for allocating high-speed channel resources

Country Status (1)

Country Link
CN (1) CN100391272C (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN110049568A (en) * 2019-05-20 2019-07-23 南京控维通信科技有限公司 Satellite resource application method suitable for unreliable control link

Families Citing this family (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101146349B (en) * 2006-12-18 2011-01-19 中兴通讯股份有限公司 A system and method for improving throughput performance of forward supplementary channel
CN102196565B (en) * 2010-03-18 2013-07-24 杭州华三通信技术有限公司 Method for allocating channel resources and access point

Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US20010016497A1 (en) * 2000-02-15 2001-08-23 Al-Housami Housam Maher Mobile radio telecommunication system with improved uplink resource allocation
US20030007456A1 (en) * 2001-06-25 2003-01-09 Praveen Gupta Triggered packet data rate change in a communication system
CN1411294A (en) * 2001-09-29 2003-04-16 Lg电子株式会社 Method for allocation of Walsh code resource
US6574474B1 (en) * 1999-05-20 2003-06-03 Avaya Technology Corp. Load balancing for cellular and wireless systems
CN1441564A (en) * 2002-02-12 2003-09-10 株式会社Ntt都科摩 Base station and radio resource distribution method

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US6574474B1 (en) * 1999-05-20 2003-06-03 Avaya Technology Corp. Load balancing for cellular and wireless systems
US20010016497A1 (en) * 2000-02-15 2001-08-23 Al-Housami Housam Maher Mobile radio telecommunication system with improved uplink resource allocation
US20030007456A1 (en) * 2001-06-25 2003-01-09 Praveen Gupta Triggered packet data rate change in a communication system
CN1411294A (en) * 2001-09-29 2003-04-16 Lg电子株式会社 Method for allocation of Walsh code resource
CN1441564A (en) * 2002-02-12 2003-09-10 株式会社Ntt都科摩 Base station and radio resource distribution method

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN110049568A (en) * 2019-05-20 2019-07-23 南京控维通信科技有限公司 Satellite resource application method suitable for unreliable control link

Also Published As

Publication number Publication date
CN1691789A (en) 2005-11-02

Similar Documents

Publication Publication Date Title
CN101572918B (en) Method, device and system for allocating radio resources
CN101390419A (en) Communication method and apparatus
CN101227696B (en) Wireless base station apparatus capable of effectively using wireless resources according to sorts of data
CN101060471B (en) Token resource stream control method
CN101500299A (en) User equipment and uplink sending method under discontinuous receiving state
CN101217484B (en) Resource distributing method and system
US7317706B1 (en) Fair share scheduling method in a CDMA paging system
CN101868000A (en) Method, device and base station for preempting resources
CN101202973B (en) Method, system for allocating discourse authority and colony communication server
CN101547517B (en) Control method and device for accessing mobile communication network for users
CN101370308B (en) Method for implementing channel priority level scheduling and business priority scheduling
CN100456876C (en) Method for distributing cell resource
CN100461943C (en) Channel priority dispatching and service priovity dispatching implementing method
CN100391272C (en) A method for allocating high-speed channel resources
CN102711216A (en) Transmission resource selection method, user equipment, determining method and access network equipment
CN103476074A (en) Method and equipment for resource preemption
CN100551164C (en) The acceptance controlling method of according to priority seizing and lining up in the broadband CDMA system
CN102347877A (en) Bus dispatching method and device
CN101420754B (en) Transmission speed control device, mobile communication system and radio base station
CN100411326C (en) Method for dynamic sharing resource of channel codes between heterogeneous channels
CN102196583B (en) A kind of distribution method of channel resource and base station
KR100321785B1 (en) Method for Transmitting and Receiving Packet Traffic in a Wireless Packet Data Network
CN101938726B (en) Uplink signaling transmission method and uplink resource allocation method
CN101662419B (en) Method, device and system for realizing resource reservation
CN100450203C (en) Method for preventing IU interface signalling connection hanging

Legal Events

Date Code Title Description
C06 Publication
PB01 Publication
C10 Entry into substantive examination
SE01 Entry into force of request for substantive examination
C14 Grant of patent or utility model
GR01 Patent grant
CF01 Termination of patent right due to non-payment of annual fee
CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20080528

Termination date: 20200427