CN1571324A - Method for packet data scheduling of multi-level service in CDMA mobile communication system - Google Patents

Abstract

The invention discloses a packet controlling solution of CDMA mobile communication system, applied to multistage service environment, and including: according to different requirements for time delay, dividing multistage service into realtime and non-realtime service sets, and dividing region position of data packet user in village into inside and edge sets; as the user service in the weakest link belongs to realtime service set, able to adopt controlling solution S1 or S2; as it belongs to non-realtime service and exists in inside user set, able to adopt S3 or S4; as it belongs to non-realtime and exists edge user set, able to adopt S5, S6, S7 or S8.Thus, wireless controller can select a solution with the maximum data packet throughput according to actual network condtions.

Description

The packet data dispatching method of multi-stage service in the CDMA mobile communication system

Technical field

The present invention relates to code division multiple access (CDMA) mobile communication system technology, relate to a kind of bag data or rather and insert and dispatching method.

Background technology

Data packet traffic (data packet services) is the important service that 3G (Third Generation) Moblie network system (3G) will be carried, and one of this business features is propagation delay time to be required insensitive, and it is sudden that two of characteristics are that transmission has.The access control of data packet traffic is that data packet dispatching method is one of important technology that improves the CDMA availability of frequency spectrum.

The data packet dispatching scheme of data packet dispatching scheme that adopts in the second generation mobile communication network (2G) and the current research that generally reflects from document mainly comprises two kinds, i.e. Mean Speed transmission plan (R _AV) and scheduling rates transmission plan (R _SC).Mean Speed scheme wherein is the residual capacity that will can use for data packet user in a system mean allocation between all data packet user in the sub-district, and promptly each data packet user adopts identical rate transmissioning data; Scheduling rates scheme wherein, be only to offer a data packet user for the residual capacity that data packet user is used in the system at every turn, allow this data packet user with big as far as possible speed rates, this moment, other data packet user only kept signaling link with network, kept synchronously with the base station.Two kinds of methods wait for that fairness, the user of throughput of system, resource allocation advantage and disadvantage are respectively arranged on time delay and the signaling consumption, and in the real system of each 2G, often only fixing a kind of scheduling scheme of selecting wherein.

Research in the past or rest on the access control of single-stage data packet traffic perhaps is confined in the speech network at the data packet traffic access control under the two levels of traffic situation, and all these researchs only are suitable for the 2G network system.And the multi-stage service that comprises that voice, video, data etc. are professional will be carried in the 3G network system; At the multiple different grade of service (QoS; Quality of Service) under the situation of mix of traffic, it is quite complicated that the access of packet data services and scheduling scheme become, just attainable by simple popularization 2G related algorithm anything but.Under the 3G network system multi-stage service and the situation of depositing, how to carry out packet access control packet scheduling in other words, become the problem that 3G network system designer and operator must face.

But, up to now, yet there are no the result of study that realizes packet scheduling under the multi-stage service condition.

Summary of the invention

The objective of the invention is to design the packet data dispatching method of multi-stage service in a kind of CDMA mobile communication system, realize multi-stage service in the 3G network system and deposit packet data dispatching under the situation, and can directly obtain to wrap data user's transmission rate and power.

The technical scheme that realizes the object of the invention is such: the packet data dispatching method of multi-stage service in a kind of CDMA mobile communication system, the transmission of packet or employing Mean Speed transmission plan or employing scheduling rates transmission plan is characterized in that further comprising following treatment step:

A. with the multi-stage service in the system according to difference to delay requirement, be divided into two set of real time business and non-real-time service, be divided into internal user and two set of edge customer by data packet user residing regional location in the sub-district;

B. when the most weak link user's business is under the jurisdiction of in the real time business set, entire packet user or adopt the scheme S1 of Mean Speed transmission perhaps adopts the scheme S2 of scheduling rates transmission;

C. carry non-real-time service and be in internal user when set the most weak link user, entire packet user or adopt the scheme S3 of Mean Speed transmission perhaps adopts the transmission plan S4 of scheduling rates;

D. when the most weak link user is carried non-real-time service and be in the edge customer set, entire packet user or the scheme S5 that adopts Mean Speed to transmit, perhaps adopt the scheme S6 of scheduling rates transmission, perhaps the entire packet user who is in internal user set is adopted the Mean Speed transmission and the entire packet user who is in edge aggregation is adopted the scheme S7 of scheduling rates transmission, perhaps the entire packet user who is in the internal user set is adopted scheduling rates and the entire packet user who is in edge aggregation is adopted the scheme S8 of Mean Speed transmission.

In the described steps A, divide set by data packet user residing regional location in the sub-district, be to utilize the user positioning technology location, and carry out in conjunction with the signal measurement process of the base station pilot signals intensity of measurement data bag user's this sub-district and adjacent cell, the ratio of the pilot signal strength of the strongest adjacent cell that the pilot signal strength that is expressed as this sub-district that data packet user receives and this data packet user receive is during more than or equal to a predefined parameter, determine that this data packet user is an internal user, otherwise be defined as edge customer.

The most weak described link user, the user that the load power ξ of interior institute of unit's of being meant " equivalent bandwidth " value is minimum.

Before the described step B, also comprise having judged whether that data packet user is in the edge customer set, if having, then carries out according to step B or D, and selects wherein to wrap a kind of data packet transmission scheme of data average throughput maximum as the optimized dispatching scheme; If do not have, then carry out, and select wherein to wrap a kind of data packet transmission scheme of data average throughput maximum as the optimized dispatching scheme according to step B or C.

Described according to step B or C execution, further comprise: the most weak link user of hypothesis is under the jurisdiction of the non-real-time service set earlier; C carries out set by step, respectively by scheme S3, S4 calculated data bag user's average ξ value, and with the real time business set in the minimum ξ value comparison of data packet user; If average ξ value less than minimum ξ value, supposes correctly, the average throughput of the data packet user when further numerical procedure S3, S4; If it is incorrect that average ξ value greater than minimum ξ value, is supposed, B carries out set by step, the average throughput of the data packet user when numerical procedure S1, S2.

Described according to step B or D execution, further comprise: the most weak link user of hypothesis is under the jurisdiction of the non-real-time service set earlier; Carry out among the D set by step, respectively by scheme S7, S8 calculated data bag user's average ξ value, and with the real time business set in the minimum ξ value comparison of data packet user; If average ξ value less than minimum ξ value, supposes correctly, the average throughput of the data packet user the when average throughput of the data packet user when further numerical procedure S5, S6 and scheme S7, S8; If it is incorrect that average ξ value greater than minimum ξ value, is supposed, B carries out set by step, the average throughput of the data packet user when numerical procedure S1, S2.

The average throughput T of the data packet user during scheme S1 ₁Be exactly the average transmission rate R of packet ₁The average throughput T of the packet during scheme S2 ₂By formula $T_2=\frac{R_2+(M-1)\·R_0}{M}$ Calculate R ₂Be the average transmission rate of the data packet user of scheme S2, M is the quantity of data packet user, R ₀Be to keep speed synchronously.

The average throughput T of the data packet user during scheme S3 ₃Be exactly the average transmission rate R of packet ₃The average throughput T of the data packet user during scheme S4 ₄By formula $T_4=\frac{R_4+(M-1)\·R_0}{M}$ Calculate R ₄Be the data packet dispatching transmission rate of scheme S4, M is the quantity of data packet user, R ₀Be to keep speed synchronously.

The average throughput T of the data packet user during scheme S5 ₅Be exactly the average transmission rate R of packet ₅The average throughput T of the data packet user during scheme S6 ₆By formula $T_6=\frac{R_6+(M-1)\·R_0}{M}$ Calculate R ₆Be the data packet dispatching transmission rate of scheme S6, M is bag number of users, R ₀Be to keep speed synchronously.

The calculating of the average throughput of the data packet user during scheme S7 comprises: the scheduled transmission speed of establishing the data packet user employing in the edge aggregation is R _B2, the average transmission rate of establishing the data packet user employing in the inner set is R _B1, establishing in the inner set has N _B1Individual data packet user, establishing has N in the edge aggregation _B2Individual data packet user is used T ₇=(N _B1R _B1+ N _B2R _B2)/(N _B1+ N _B2) calculated data bag user's average throughput T7.

The calculating of the average throughput of the data packet user during scheme S8 comprises: the average transmission rate of establishing the data packet user employing in the edge aggregation is R _B2, the scheduled transmission speed of establishing the packet employing in the inner set is R _B1, establishing in the inner set has N _B1Individual data packet user, establishing has N in the edge aggregation _B2Individual data packet user is used T ₈=((N _B1-1) R ₀+ R _B1+ N _B2R _B2)/(N _B1+ N _B2) calculated data bag user's average throughput T8.

Data packet user dispatching method of the present invention, be applicable to the cdma system multi-stage service and the environment deposited in.The present invention according to the difference to delay requirement, is divided into two set of real time business and non-real-time service, as representing with A1 and A2 with multi-stage service; The present invention is divided into inner and two set in edge by residing geographical position of high-speed data user and wireless propagation environment, as representing with B1 and B2 by adopting terminal positioning technology and signal measurement technique; The present invention adopts high-speed data user the most basic transmission plan one Mean Speed and scheduling rates transmission plan, represents with C1 and C2; Again to different set and common factor thereof, various combination according to A1, A2, B1, B2, C1, C2, make section at any time, radio network controller (RNC) all can be selected optimized transmitting and scheduling scheme according to the real network situation, promptly, make the scheme of the average throughput maximum of data, and choose in the scheme in different optimization, according to different system models, all can directly calculate non-real-time service (NRTT) bag data user's transmission rate and transmitting power (different system has different calculation expressions, and speed and power all can be calculated in the lump).

Bag data user dispatching method of the present invention is dispatched by the Mean Speed transmission plan the high-speed data user of real time business is unified; To the high-speed data user of non-real-time service, be that edge customer or internal user distribute Mean Speed and scheduling rates transmission plan by it again, so the present invention is a kind of choosing method of packet scheduling scheme of the optimization based on area dividing.

Data packet dispatching scheme of the present invention can be applied in time division duplex (TDD) system, also can be applied in Frequency Division Duplexing (FDD) (FDD) system, and other code division multiple access (CDMA) system.

Description of drawings

Fig. 1 is based on the bag access scheme principle FB(flow block) of Region Segmentation under the multi-stage service;

Fig. 2 is based on the bag access scheme implementing procedure block diagram of Region Segmentation under the multi-stage service.

Embodiment

Describe the choosing and implementation process of packet scheduling scheme of optimization of the present invention in detail below in conjunction with accompanying drawing.

The objective of the invention is to design the packet data dispatching method in a kind of CDMA mobile communication systems, mainly comprise two processes of data user's access control and scheduling.The business that is subordinate to by data packet user can be divided into real time business and two set of non-real-time service, as A1 and A2; Utilize existing portable terminal location technology and signal measurement technique that the high speed packet user is divided into inner and two set in edge by the present position, as B1 and B2.Divide set by data packet user residing regional location in the sub-district, be to utilize user positioning technology that data packet user is located, and in conjunction with measurement data bag user's this sub-district and adjacent cell disturb, the base station pilot signals strength signal measuring process of this sub-district and adjacent cell carries out.Edge aggregation has different regulations with the definite definition of inner set according to different systems.General definable is when user j's ${\mathrm{\β}}_j=p_{j,\mathrm{pilot}}^{\mathrm{in}}/p_{j,\mathrm{pilot}}^{\mathrm{out}}\≥C$ The time, stipulate that this user is in inside, otherwise be in the edge.Parameters C is according to the desirable different value of different systems, parameter p _{J, pilot} ^InThe pilot signal strength of this sub-district that expression user j receives, parameter p _{J, pilot} ^OutThe pilot signal strength of the strongest adjacent sub-district that expression user j receives.

By two different common factors of set are adopted different scheduling schemes, radio network controller (RNC) can be selected the transmission plan of throughput maximum according to actual conditions in multiple scheme.

In the cdma network system of reality, the restriction that will compare the high speed packet user emission power that is in inside, sub-district to the restriction of the high speed packet user's that is in cell edge transmitting power is big.This is because when if the user who is in the user of sub-district interior location and is in the cell edge position carries out scheduled transmission with same transmission power peak, then edge customer is more much bigger than internal user certainly to the interference that adjacent cell caused.In other words, under the interference-limited situation in interval, the data packet user that is in inside, sub-district is compared with the data packet user that is in the edge, can use bigger rate sending data bag.

All business of user can be divided into real time business A1 and non-real-time service A2 two big classes according to the requirement to delay character, A1 class user's transmission time is unrestricted, adopts the fixed-rate transmission pattern; And A2 class user both can adopt the Mean Speed transmission also can adopt the scheduling rates transmission.

By the cdma network system is carried out modeling analysis as can be known, no matter be Frequency Division Duplexing (FDD) (FDD) system or time division duplex (TDD) system, under the situation of user terminal (UE) transmit power limited system, the key factor that hindering current throughput of system increases is the user of institute of unit in the current system " equivalent bandwidth " load power minimum, be called " the most weak link user " at this, represent that with φ the i.e. raising of throughput of system is subjected to φ user's restriction.

Suppose that the power that the unit " equivalent bandwidth " of certain excited users in the current system is carried is ξ, the calculating of ξ value can obtain divided by its equivalent bandwidth with the received power of this user in certain period transmission time, ξ is more little, and it is weak more to illustrate that this user resists interference capability.

Under the constant situation of scheduling rates,,, will cause this φ user's ξ value further to reduce, thereby cause the average throughput of data service further to descend because transmission power peak is restricted if φ user is in the edge.

In the hybrid network and data-only network of present voice-and-data, the situation above just existing: the transmission of packet or employing Mean Speed transmission plan (R _AV) or adopt scheduling rates transmission plan (R _SC), if the sub-district is inner adopts the strategy of putting on an equal footing with the bag data user who is in the edge to being in, as " the most weak link user " (φ user) when being in cell edge, just limited the characteristics that internal data bag user can also use higher rate to launch to a certain extent, the capacity of system is not fully utilized in other words.

In order to improve the average throughput of data packet traffic, the method applied in the present invention is that the data user in the sub-district is divided into inner and two set: B1 in edge and B2.Be in certain data packet user i of inside, sub-district (B1), its peak transmitted power P _{I, B1} ^PeakExpression; Be in certain data packet user j of cell edge (B2), its peak transmitted power P _{J, B2} ^PeakExpression; Make the data packet user among the B2 adopt the Mean Speed transmission, its transmission rate equals φ in the conventional transmission scheme and is in maximum average transmission rate under the edge situation, can be expressed as R _B2=max (R _Av, R _SC), promptly based on after the Region Segmentation, the average throughput of edge customer (data packet user among the B2) is not suffered a loss.And internal user (data packet user among the B1) both can adopt the scheduling rates transmission plan can adopt the Mean Speed transmission plan.After adopting this Region Segmentation,, internal data bag user (promptly has P because can using higher speed and higher power to send business _{I, B1} ^PeakGreater than P _{J, B2} ^Peak), thereby might make certain user in the inner set become φ user, this just is equivalent to φ user from edge aggregation " transfer " is gathered to inside.

Compare with traditional scheme, if φ user's " transfer " is arrived inside, the average throughput of edge customer does not reduce, and the average throughput of internal user has increased; If φ user does not have " transfer " to inner, then be in the edge and all do not incur loss with the average throughput that is in inner data packet user.Therefore, the method for the present invention's suggestion from the viewpoint of statistics, has further improved the utilance of power system capacity, has made full use of the frequency spectrum resource of system, will bring considerable economic to operator.

During concrete enforcement, the user is divided in the different set, can divide according to user's real-time and non-real-time service division (requirement to propagation delay time is divided into A1, A2 two class users) with according to the cell area (position in inside, sub-district and edge is divided into B1, B2 two class users) at user place, different splitting schemes can develop out various situations, every kind of dispatching algorithm that situation is all corresponding certain, provide significant three kinds of situations below, represent with K1, K2, K3 respectively:

K1，φ∈A1；

K2，φ∈(A2∩B1)；

K3，φ∈(A2∩B2)；

K1 represents that φ user is under the jurisdiction of RTT business (business that propagation delay time is limited);

K2 represents that φ user is under the jurisdiction of NRTT business (business that propagation delay time is not limited), and is in inside, sub-district;

K3 represents that φ user is under the jurisdiction of NRTT business (business that propagation delay time is not limited), and is in cell edge.∈ represents that this symbol element in front belongs to the set of back element in the formula, and ∩ represents former and later two intersection of sets collection of this symbol.

Because speed rates pattern that A1 class user adopts constant (on average) supposes to exist M A1 class user, then always can from these users, find out the minimum excited users of the received power ξ of a unit " equivalent bandwidth " value, be expressed as: ξ _A1=min (ξ _A1-1..., ξ _A1-M); And A2 class user can adopt two kinds of different scheduling schemes of Mean Speed and scheduling rates, thus A2 class user ξ value find the solution relevantly with scheduling scheme, but under every kind of scheme, can obtain the minimum user of a ξ value, i.e. φ user.

Under the K1 situation, φ user is under the jurisdiction of (RTT) business in real time, and system can adopt following two kinds of scheduling schemes in this case:

Scheme 1 (S1): all non real-times (NRTT) bag data user adopts the Mean Speed transmission, and the transmission time is unrestricted, supposes that the professional average transmission rate of bag is R ₁, the average throughput of the bag business that calculates in view of the above is T ₁(T ₁Be exactly speed R ₁, belong to public technology).

Scheme 2 (S2): all non real-times (NRTT) bag data user adopts the scheduling rates transmission in dispatching cycle, supposes that the professional average transmission rate of bag is R ₂, the average throughput of the bag business of Ji Suaning is T2 in view of the above. $T_2=\frac{R_2+(M-1)\·R_0}{M},$ M is bag number of users, R ₀Be to keep speed (data packet user needs some Signalling exchanges in order to keep synchronous with network, and what the synchronous maintenance speed here referred to is exactly the Mean Speed of these signalings) synchronously.

Under the K2 situation, φ user is under the jurisdiction of the NRTT business but is in inside, sub-district, and according to the analysis of front, system can adopt following two kinds of scheduling schemes in this case:

Scheme 3 (S3), all non real-time bag data users adopt the Mean Speed transmission plan, and the transmission time is unrestricted, supposes that the professional average transmission rate of bag is R ₃, the average throughput of the bag business of Ji Suaning is T in view of the above ₃(T ₃Be exactly the speed R of data packet user ₃, belong to public technology).

Scheme 4 (S4), all non real-time bag users adopt the scheduling rates transmission in dispatching cycle, and the scheduling rates of tentation data bag business is R ₄, the average throughput of the bag business of Ji Suaning is T in view of the above ₄(according to R ₄Ask T4, $T_4=\frac{R_4+(M-1)\·R_0}{M}).$

Under the K3 situation, φ user is under the jurisdiction of the NRTT business, and when being in cell edge, can produce four kinds of relevant transmission plans:

Scheme 5 (S5), all non real-time bag users adopt the average speed transmission, and the transmission time is unrestricted, supposes that the professional average transmission rate of bag is R ₅, the average throughput of the bag business of Ji Suaning is T in view of the above ₅(T ₅Be exactly the speed R of data packet user ₅, belong to public technology).

Scheme 6 (S6), all non real-time bag users adopt the scheduling rates transmission in dispatching cycle, and the professional scheduled transmission speed of bag is R ₆, the average throughput of Ji Suaning is in view of the above $T_6(T_6=\frac{R_6+(M-1)\·R_0}{M},$ M is bag number of users, R ₀Be to keep speed synchronously).

For the situation in scheme 5 and the scheme 6, according to the thought of Region Segmentation, RNC can allow the bag data user who is in cell edge adopt the Mean Speed transmission, and its transmission rate can be got like this: R _B2=max (R ₅, R ₆), the average throughput of promptly cutting apart the back edge user is not suffered a loss; And for the bag user who is in inside, sub-district, RNC can allow them also can transmit with scheduling rates with the Mean Speed transmission.Just there are two kinds of new transmission plans again: scheme 7 and scheme 8.

Scheme 7 (S7): the bag user who is in the cell edge B2 set adopts the scheduling rates transmission, and transmission rate is R _B2, and the bag user who is in inside, sub-district adopts the Mean Speed transmission, this speed can be asked, and is assumed to be R _B1Suppose N _B1Individual bag user is in inside, N _B2Individual bag user is in the edge, and the professional average throughput of bag is T ₇=(N _B1R _B1+ N _B2R _B2)/(N _B1+ N _B2).

Scheme 8 (S8): the bag user who is in the cell edge B2 set adopts the Mean Speed transmission, and transmission rate is R _B2, and the bag user who is in inside, sub-district adopts the scheduling rates transmission, this speed can be asked, and is assumed to be R _B1Suppose N _B1Individual bag user is in inside, sub-district, N _B2Individual bag user is in cell edge, and the professional average throughput of bag is: T ₈=((N _B1-1) R ₀+ R _B1+ N _B2R _B2)/(N _B1+ N _B2), R ₀Be to keep speed synchronously.

Below in conjunction with the optimized choice process of accompanying drawing 1,2 explanation the present invention to bag user transmission plan.

Referring to Fig. 1, be system under the multi-stage service and the situation of depositing, based on the packet scheduling scheme selection process of Region Segmentation.

Step 101, system utilize technology such as location of mobile users measurement to divide user's set by the user region, are respectively sub-district internal user set B 1 and Cell Edge User set B 2;

Step 102 has judged whether that the bag data user is in the edge customer set B 2, if then execution in step 113 to 117 is arranged, if there is not then execution in step 103 to 107;

Step 103, when nothing bag data user was in fringe region, hypothesis φ user was under the jurisdiction of the NRTT business, promptly aforesaid K2 situation earlier;

Step 104, the algorithm computation by scheduling scheme S3, S4 goes out less average ξ respectively _3,4, ξ _3,4=min (ξ ₃, ξ ₄), can calculate any bag user's expectation received power and equivalent bandwidth according to service rate and target signal to noise ratio, with expectation received power divided by the equivalent bandwidth that takies, just obtain ξ (for the bag user, crucial unknown quantity is a speed, scheduling scheme S1--S8 has provided the computational methods of speed, so just is easy to obtain by the calculating of speed to ξ.Different system power ask slightly difference of method);

Step 105, average ξ _3,4And ξ _A1, according to the difference of the magnitude relationship between them execution in step 106 and 107;

If step 106 is ξ _3,4＞ξ _A1, the hypothesis in the description of step 103 is wrong, then calculates average throughput by scheme S1, S2, selects the packet scheduling scheme of the big scheme of average throughput for optimizing;

If step 107 is ξ _3,4＜ξ _A1, the hypothesis in the description of step 103 is correct, then calculates average throughput by scheme S3, S4, selects the scheme of the big scheme of average throughput for the packet scheduling of optimization.

Step 113, when having the bag data user to be in fringe region, hypothesis φ user is under the jurisdiction of the NRTT business, promptly aforesaid K3 situation earlier;

Step 114, the algorithm (algorithm is relevant with concrete system) by scheduling scheme S7, S8 calculates less ξ respectively _7,8, ξ _7,8=min (ξ ₇, ξ ₈);

Step 115, relatively ξ _7,8And ξ _A1, according to the difference of the magnitude relationship between them execution in step 116 and 117;

If step 117 is ξ _7,8＜ξ _A1, the hypothesis in the description of step 113 is correct, calculates average throughput by scheme S5, S6, S7, S8, selects the packet scheduling scheme of the bigger scheme of throughput for optimizing;

If step 116 is ξ _7,8＞ξ _A1, the hypothesis in the description of step 113 is incorrect, calculates average throughput by scheme S1, S2, selects the packet scheduling scheme of the bigger scheme of throughput for optimizing.

As can be seen, packet scheduling scheme optimization criterion is exactly the throughput maximal criterion among the present invention from above-mentioned implementation, therefore, also can simplify flow process in view of the above when specifically implementing, thereby produce by realization example shown in Figure 2.

Referring to Fig. 2, be a kind of reduction procedure of step scheme shown in Figure 1, the specific implementation process is as follows:

Step 201, system utilize technology such as location of mobile users measurement to divide user's set by the user region, are respectively sub-district internal user set B 1 and Cell Edge User set B 2;

Step 202 has judged whether that the bag data user is in the edge customer set B 2, if then execution in step 204 is arranged, if there is not then execution in step 203;

Step 203 when nothing bag data user is in fringe region, is calculated average throughput by scheme S1, S2, S3, S4, selects the packet scheduling scheme of the big scheme of average throughput for optimization;

Step 204 when having the bag data user to be in fringe region, is calculated average throughput by scheme S1, S2, S5, S6, S7, S8, selects the packet scheduling scheme of the big scheme of throughput for optimizing.

The packet scheduling scheme of optimization of the present invention can be applied in the cdma wireless communication system, is applied to further in the network controller (RNC) of cdma wireless communication system.

Claims (11)

1. the packet data dispatching method of multi-stage service in the CDMA mobile communication system, the transmission of packet or adopt the Mean Speed transmission plan or adopt the scheduling rates transmission plan is characterized in that further comprising following treatment step:

A. with the multi-stage service in the system according to difference to delay requirement, be divided into two set of real time business and non-real-time service, be divided into internal user and two set of edge customer by data packet user residing regional location in the sub-district;

When B. the most weak link user's of the load power ξ of institute value minimum business is under the jurisdiction of in the real time business set in unit " equivalent bandwidth ", entire packet user or the scheme S1 that adopts Mean Speed to transmit, the scheme S2 that perhaps adopts scheduling rates to transmit;

When C. the load power ξ of institute value the most weak minimum link user is carried non-real-time service and is in the internal user set in unit " equivalent bandwidth ", entire packet user or adopt the scheme S3 of Mean Speed transmission perhaps adopts the transmission plan S4 of scheduling rates;

When D. the load power ξ of institute value the most weak minimum link user is carried non-real-time service and is in the edge customer set in unit " equivalent bandwidth ", entire packet user or the scheme S5 that adopts Mean Speed to transmit, perhaps adopt the scheme S6 of scheduling rates transmission, perhaps the entire packet user who is in internal user set is adopted the Mean Speed transmission and the entire packet user who is in edge aggregation is adopted the scheme S7 of scheduling rates transmission, perhaps the entire packet user who is in the internal user set is adopted scheduling rates and the entire packet user who is in edge aggregation is adopted the scheme S8 of Mean Speed transmission.

2. the packet data dispatching method of multi-stage service in the CDMA mobile communication system according to claim 1, it is characterized in that: in the described steps A, divide set by data packet user residing regional location in the sub-district, be to utilize the user positioning technology location, and carry out in conjunction with the signal measurement process of the base station pilot signals intensity of measurement data bag user's this sub-district and adjacent cell, the ratio of the pilot signal strength of the strongest adjacent cell that the pilot signal strength that is expressed as this sub-district that data packet user receives and this data packet user receive is during more than or equal to a predefined parameter, determine that this data packet user is an internal user, otherwise be defined as edge customer.

3. the packet data dispatching method of multi-stage service in the CDMA mobile communication system according to claim 1, it is characterized in that: among the described step D, among scheme S5, the S6, bag data user in the edge customer set adopts the Mean Speed transmission plan, and its Mean Speed is to get speed maximum among scheme S5 and the S6.

4. the packet data dispatching method of multi-stage service in the CDMA mobile communication system according to claim 1, it is characterized in that: before the described step B, also comprise and judged whether that data packet user is in the edge customer set, if have, then carry out, and select wherein to wrap a kind of data packet transmission scheme of data average throughput maximum as the optimized dispatching scheme according to step B or D; If do not have, then carry out, and select wherein to wrap a kind of data packet transmission scheme of data average throughput maximum as the optimized dispatching scheme according to step B or C.

5. the packet data dispatching method of multi-stage service in the CDMA mobile communication system according to claim 4 is characterized in that: described according to step B or C execution, further comprise: the most weak link user of hypothesis is under the jurisdiction of the non-real-time service set earlier; C carries out set by step, respectively by scheme S3, S4 calculated data bag user's average ξ value, and with the real time business set in the minimum ξ value comparison of data packet user; If average ξ value less than minimum ξ value, supposes correctly, the average throughput of the data packet user when further numerical procedure S3, S4; If it is incorrect that average ξ value greater than minimum ξ value, is supposed, B carries out set by step, the average throughput of the data packet user when numerical procedure S1, S2.

6. the packet data dispatching method of multi-stage service in the CDMA mobile communication system according to claim 5 is characterized in that: the average throughput T of the data packet user during scheme S1 ₁Be exactly the average transmission rate R of packet ₁The average throughput T of the packet during scheme S2 ₂By formula $T_2=\frac{R_2+(M-1)\·R_0}{M}$ Calculate R ₂Be the average transmission rate of the data packet user of scheme S2, M is the quantity of data packet user, R ₀Be to keep speed synchronously.

7. the packet data dispatching method of multi-stage service in the CDMA mobile communication system according to claim 5 is characterized in that: the average throughput T of the data packet user during scheme S3 ₃Be exactly the average transmission rate R of packet ₃The average throughput T of the data packet user during scheme S4 ₄By formula $T_4=\frac{R_4+(M-1)\·R_0}{M}$ Calculate R ₄Be the data packet dispatching transmission rate of scheme S4, M is the quantity of data packet user, R ₀Be to keep speed synchronously.

8. the packet data dispatching method of multi-stage service in the CDMA mobile communication system according to claim 4 is characterized in that: described according to step B or D execution, further comprise: the false earlier the most weak link user of not having is under the jurisdiction of the non-real-time service set; Carry out among the D set by step, respectively by scheme S7, S8 calculated data bag user's average ξ value, and with the real time business set in the minimum ξ value comparison of data packet user; If average ξ value less than minimum ξ value, supposes correctly, the average throughput of the data packet user the when average throughput of the data packet user when further numerical procedure S5, S6 and scheme S7, S8; If it is incorrect that average ξ value greater than minimum ξ value, is supposed, B carries out set by step, the average throughput of the data packet user when numerical procedure S1, S2.

9. the packet data dispatching method of multi-stage service in the CDMA mobile communication system according to claim 8 is characterized in that: the average throughput T of the data packet user during scheme S5 ₅Be exactly the average transmission rate R of packet ₅The average throughput T of the data packet user during scheme S6 ₆By formula $T_6=\frac{R_6+(M-1)\·R_0}{M}$ Calculate R ₆Be the data packet dispatching transmission rate of scheme S6, M is bag number of users, R ₀Be to keep speed synchronously.

10. the packet data dispatching method of multi-stage service in the CDMA mobile communication system according to claim 8, it is characterized in that: the calculating of the average throughput of the data packet user during scheme S7 comprises: the scheduled transmission speed of establishing the data packet user employing in the edge aggregation is R _B2, the average transmission rate of establishing the data packet user employing in the inner set is R _B1, establishing in the inner set has N _B1Individual data packet user, establishing has N in the edge aggregation _B2Individual data packet user is used T ₇=(N _B1R _B1+ N _B2R _B2)/(N _B1+ N _B2) calculated data bag user's average throughput T7.

11. the packet data dispatching method of multi-stage service in the CDMA mobile communication system according to claim 8 is characterized in that: the calculating of the average throughput of the data packet user during scheme S8 comprises: the average transmission rate of establishing the data packet user employing in the edge aggregation is R _B2, the scheduled transmission speed of establishing the packet employing in the inner set is R _B1, establishing in the inner set has N _B1Individual data packet user, establishing has N in the edge aggregation _B2Individual data packet user is used T ₈=((N _B1-1) R ₀+ R _B1+ N _B2R _B2)/(N _B1+ N _B2) calculated data bag user's average throughput T8.

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