WO2014161502A1

WO2014161502A1 - Multiple system resource management method and device

Info

Publication number: WO2014161502A1
Application number: PCT/CN2014/074723
Authority: WO
Inventors: 张伟; 吴晔
Original assignee: 华为技术有限公司
Priority date: 2013-04-03
Filing date: 2014-04-03
Publication date: 2014-10-09
Also published as: CN104105209B; CN104105209A

Abstract

Embodiments of the present invention relate to the field of communication, and disclose a multiple system resource management method and device that can enhance the resource utilization rate of a multiple system network. The method comprises: obtaining from all users to be scheduled the transmission systems that each user supports, the supported transmission system comprising at least one network system; performing multiple system integrated ordering on all users to be scheduled and generating a scheduling queue; selecting from the supported transmission systems a first network system for the first user in the scheduling queue, and allocating network resources under the first network system for the first user; determining whether network resources remain after the allocation; if network resources remain after the allocation, selecting a second network system for the user after the first user in the scheduling queue, and allocating network resources under the second network system till all the users in the scheduling queue have been scheduled or the network resources have been exhausted. The present invention can be applied to the selection of multiple systems.

Description

Multi-standard resource management method and device

Technical field

The present invention relates to the field of communications, and in particular, to a multi-standard resource management method and apparatus.

Background technique

Today, operators often deploy multiple standard networks simultaneously in a wireless network, but Since the speed of user equipment replacement is far behind the speed at which operators deploy new standard networks, Therefore, the operator cannot easily make the decision to close any of the standard networks, making it more The simultaneous work of a standard network has become an inevitable trend. On the other hand, with the development of network technology Exhibition, the terminal's ability is increasing, so that a user terminal can reside in multiple system networks on. Currently, in the scenario where multiple standard networks work simultaneously, resource management entities (eg, bases) Station) to perform scheduling allocation of network resources, firstly, it needs to be used by all users to be scheduled. The standard network is selected and all users to be scheduled are allocated according to the selected system network. Go to the scheduling queue corresponding to the standard network, and then use PF-QoS scheduling method for each tone. Degree queues are allocated for network resources separately, and remain in the subsequent data transmission process. The single-standard resource management method remains unchanged. Wherein, the above PF-QoS scheduling method is in PF Scheduling method (user priority = maximum transmission capacity that the user can get at the current time / the user The historical average transmission rate) is calculated based on the user priority based on the overlay weighting factor, New user priority, and finally network users based on the new user priority order The allocation of the source.

However, in the process of implementing the above-mentioned multi-standard resource scheduling, the inventor found that: existing Multi-standard resource scheduling method, only when the user initiates the business or periodically in the business The choice of a network system. But usually after the user chooses the standard network, the resource management is The user has not adjusted the system network selected by the user, but the users on different standard networks The traffic will change at any time, so the previously selected system network cannot be applied to the actual In this case, network resources cannot be effectively allocated.

Summary of the invention

Embodiments of the present invention provide a multi-standard resource management method and apparatus, which can improve Utilization of multi-standard network resources.

In order to achieve the above object, embodiments of the present invention adopt the following technical solutions:

In a first aspect, a multi-standard resource management method is provided, including:

Obtaining a transmission system supported by each of all users to be scheduled, the supported The transmission system includes at least one network standard;

Performing multi-standard joint sorting on all the users to be scheduled to generate a scheduling queue;

Selecting from the supported transmission system to the first user in the scheduling queue a first network system, and performing network on the first user in the first network system Resource allocation, the first network standard belongs to the at least one network standard;

Determine whether there is any remaining network resources after the allocation;

If the allocated network resource has remaining, the first in the scheduling queue The next user of the user selects the second network standard and is in the second network format Performing network resource allocation on the next user of the first user until the scheduling queue All users in the scheduling are completed or all network resources are exhausted, the second network The system belongs to the at least one network system.

In a first possible implementation manner, according to the first aspect, the The scheduling user performs joint sorting to generate a scheduling queue, including:

Calculating the selection of each user in each network system according to the system scheduling parameters Probability

Determining a system selection probability under each of the network systems of each of the users The maximum transmission capacity under the network standard is weighted and calculated, and the maximum of each user is obtained. Transmission capacity

Calculating according to the maximum transmission capacity of each user and the historical average transmission rate The scheduling priority of each user;

Performing joint sorting on each user according to the scheduling priority, to obtain the adjustment Degree queue.

In a second possible implementation manner, according to the first possible implementation manner, The system scheduling parameters include: the user's optimization goal, the user's business characteristics, and the user's current letter. Channel characteristics, the amount of buffered data of the user, the network standard information available at the current scheduling time of the user, and The maximum system capacity of the network system currently available to the user.

In a third possible implementation, according to the first aspect, the Selecting a first network standard for the first user in the scheduling queue in the transmission system, and Performing network resource allocation on the first user in the first network system, including:

Obtaining a current system selection probability of the first user;

Comparing the current user selection probability of the first user with the first user at each The probability of selection of the system under the network standard;

According to the comparison result, the first user is selected from the supported transmission system a first network system, and in the first network system, the first user is entered Line network resource allocation.

In a second aspect, a multi-standard resource management apparatus is provided, including:

An obtaining unit, configured to acquire a transmission system supported by each of all users to be scheduled The supported transmission system includes at least one network standard;

a sorting unit, configured to perform multi-standard joint sorting on all the users to be scheduled, Into the dispatch queue;

a configuration unit, configured to be used in the supported transmission system obtained from the acquiring unit The first user in the scheduling queue generated by the sorting unit selects a first network a system, and performing network resource allocation on the first user in the first network standard, The first network system belongs to the at least one network standard;

a determining unit, configured to determine whether the network resource allocated by the configuration unit has remaining;

The configuration unit is further configured to: if the allocated network resource has remaining, The next user selection of the first user in the scheduling queue generated by the sorting unit a second network system and the next use of the first user in the second network system The user performs network resource allocation until all of the scheduling queues generated by the sorting unit The user scheduling is completed or the network resources of all network standards are exhausted, and the second network standard belongs to The at least one network standard.

In a first possible implementation manner, according to the second aspect, the sorting unit, the package include:

a calculation module, configured to calculate each user in each network according to a system scheduling parameter System selection probability under the system;

The computing module is further configured to use each of the users in the network system The system selection probability is weighted with the maximum transmission capacity of each network system, and The maximum transmission capacity to each of the users;

The calculating module is further configured to: according to the maximum transmission capability and history of each user The average transmission rate calculates the scheduling priority of each user;

a sorting module, configured to perform, according to the scheduling priority calculated by the computing module Each user performs joint sorting to obtain the dispatch queue.

In a third possible implementation manner, according to the second aspect, the configuration unit, the package include:

An obtaining module, configured to acquire a current system selection probability of the first user;

a comparison module, configured to compare the current current of the first user acquired by the acquiring module The probability of selection of the system and the probability of selection of the first user in each network system;

An allocation module, configured to give the first use according to a comparison result of the comparison module Determining, by the supported transmission system, one of the first network standards, and in the first The network resource allocation is performed on the first user in the network standard.

The multi-standard resource management method and device provided by the embodiments of the present invention are different Unified management of network resources in the network standard, and unified scheduling of all users to be scheduled, And update the user's network standard in each scheduling period, which enables resource scheduling and system selection. The choices can work together to maximize the utilization of network resources.

DRAWINGS

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the following The drawings used in the embodiments or the description of the prior art will be briefly introduced, and it will be obvious. The drawings in the following description are only some embodiments of the present invention, which are common to the art. For the technicians, without the creative work, they can also get the pictures according to these drawings. Have other drawings.

FIG. 1 is a flowchart showing a multi-standard resource management method according to an embodiment of the present invention. intention;

FIG. 2 is a flowchart of another multi-standard resource management method according to an embodiment of the present invention. schematic diagram;

FIG. 3 is a schematic structural diagram of a multi-standard resource management apparatus according to an embodiment of the present invention; intention;

FIG. 4 is a schematic diagram of another multi-standard resource management apparatus according to an embodiment of the present invention. schematic diagram;

FIG. 5 is a schematic diagram of a multi-standard resource management apparatus according to another embodiment of the present invention. Schematic diagram.

detailed description

The technical party in the embodiment of the present invention will be described below with reference to the accompanying drawings in the embodiments of the present invention. The present invention is clearly and completely described, and it is obvious that the described embodiments are only a part of the present invention. Embodiments, but not all of the embodiments. General techniques in the art based on embodiments in the present invention All other embodiments obtained by the technician without creative work are The scope of protection of the present invention.

With the development of network technology, operators usually deploy multiple devices simultaneously in a wireless network. a standard network, and the terminal can also be stationed on multiple standard networks, but because the user equipment is more The speed of the new generation is far behind the speed at which operators deploy new standard networks, thus causing operators The decision to close any of the standard networks cannot be easily made, so that multiple standard networks are simultaneously Work has become an inevitable trend. The above-mentioned system network includes but is not limited to: 2G (second generation, second generation mobile communication technology) GSM (global system for Mobile communications, Global System for Mobile Communications, TDMA (Time Division) Multiple Access, time division multiple access), and 3G (3rd-generation, third generation mobile CDMA (Code Division Multiple Access), LTE (Long Term Evolution, Long Term Evolution), TD-SCDMA (Time Division-Synchronous Code Division Multiple Access Address), W-CDMA (Wideband Code Division Multiple Access) Multiple access), UMTS (Universal Mobile Telecommunications System) Dynamic communication system), HSDPA (High Speed Downlink Packet Access, under high speed Line packet access technology) and so on.

An embodiment of the present invention provides a multi-standard resource management method, as shown in FIG. The method includes the following steps:

101. The multi-standard resource management device acquires each user support of all users to be scheduled. Transmission system.

The above supported transmission system includes at least one network standard, that is, a user terminal. Can reside on multiple network standards at the same time. And multi-standard resource management devices are only available to users. When the data is ready to be sent, the transmission that can be used by the user's data segment to be transmitted can be confirmed. System.

102. The multi-standard resource management device performs multi-standard joint sorting on all users to be scheduled. Generate a scheduling queue.

103. The multi-standard resource management device sends the first in the scheduling queue from the supported transmission system. A user selects a first network standard and enters the first user in the first network format Line network resource allocation.

The first network system described above belongs to at least one network standard.

104. The multi-standard resource management device determines whether there is any remaining network resource after the allocation.

105. If the allocated network resources have remaining, the multi-standard resource management device is scheduled. The next user of the first user in the queue selects the second network standard and is in the second network format All network resources of all network standards are allocated to the next user of the first user until All users in the scheduling queue are scheduled to complete or network resources are exhausted.

The second network standard belongs to at least one network standard.

The multi-standard resource management method provided by the embodiment of the present invention is implemented by using different networks Unified management of network resources, and unified scheduling of all users to be scheduled, and in each The scheduling period updates the user's network standard, enabling resource scheduling and system selection. Work together to maximize the utilization of network resources.

An embodiment of the present invention provides a multi-standard resource management method, as shown in FIG. 2, The method includes the following steps:

201. The multi-standard resource management device acquires each user support of all users to be scheduled. Transmission system.

202. The multi-standard resource management device performs multi-standard joint sorting on all users to be scheduled. Generate a scheduling queue.

202a. The multi-standard resource management device calculates each user in each according to the system scheduling parameter. The probability of system selection under the network standard.

Further optionally, the system scheduling parameters include: a user optimization target, a user's Service characteristics, current channel characteristics of the user, amount of buffered data of the user, current scheduling of the user The available network standard and the maximum system capacity of the user's currently available network standard.

Specifically, the multi-standard resource management device calculates each according to the above-mentioned system scheduling parameters. The probability of data transmission for each network system that the user can use, and usually used The data transmission probability under each network standard of the user is added to 1.

202b, multi-standard resource management device will be based on each user's network standard system The probability of selection is weighted with the maximum transmission capacity under each network standard, and each is used. The maximum transmission capacity of the user.

Specifically, first, the first user is obtained in the order of the foregoing unified queue. Channel characteristic values under network standards, and secondly, each network standard of the first user The channel characteristic value and the data transmission probability corresponding to the network standard are multiplied, and all are added to obtain The maximum transmission capacity that the first user can achieve in the current transmission slot multi-standard scenario. Then, according to the foregoing unified queue, the maximum transmission capacity of all users to be scheduled is calculated in turn.

202c, multi-standard resource management device calculates the maximum transmission capacity and history of each user The average transmission rate is obtained by each user's scheduling priority.

Specifically, step 202d may be in accordance with the PF method or the PF-QOS side in the prior art. The two methods are used to calculate the user's scheduling priority, where:

PF (Proportional Fair) method: user's scheduling priority = current The maximum transmission capacity of the user at the moment / the historical average transmission rate of the user.

PF-QOS method: First, according to each user's business service quality requirements, data is sent Send rate and delay, get the weighting factor of each user, and secondly, the user obtained by PF method The weighting factor is superimposed on the scheduling priority to obtain a new scheduling priority.

202d, the multi-standard resource management device unites each user according to the scheduling priority Sort to get the dispatch queue.

203. The multi-standard resource management device sends the first in the scheduling queue from the supported transmission system. A user selects a first network standard and enters the first user in the first network format Line network resource allocation.

203a. The multi-standard resource management device acquires a current system selection probability of the first user.

Specifically, the first user is selected according to the foregoing scheduling queue, and the first one is obtained. The user's current system selection probability.

203b, multi-standard resource management device compares the current user selection probability of the first user The probability of selection with the first user in each network system.

203c, multi-standard resource management device according to the comparison result, the first user is supported from Select a first network standard in the transmission system and the first user in the first network standard Perform network resource allocation.

Specifically, the current user selection probability of the first user is compared with the previous step 202a. The calculated first user selects the system selection probability under each network standard, and selects a network corresponding to the system selection probability closest to the current user selection probability of the first user The network, as the first network standard, then allocates resources to the first user.

In addition, in addition to the above-mentioned network selection method, the following are proposed by the industry. Network selection method:

a. When the user initiates a service or periodically triggers the selection of the network standard, the use All network systems supported by the user are assigned the same probability to facilitate all network systems from the above Random selection is made in the formula.

b. The time when the network system is periodically triggered when the user initiates the service, according to the use The probability distribution of the wallpaper of the capacity of all network standards supported by the user.

c. The time when the network system is periodically triggered when the user initiates the service, according to the access Probability allocation is performed on the proportion of capacity of all network systems supported by the user at the moment.

d. The time when the network system is periodically triggered when the user initiates the service, according to the access The channel conditions of all network standards supported by the user at the moment are selected.

204. The multi-standard resource management device determines whether the allocated network resource has remaining.

205. If the allocated network resources have remaining, the multi-standard resource management device is scheduled. The next user of the first user in the queue selects the second network standard and is in the second network format Network resource allocation to the next user of the first user until the queue is in the queue User scheduling is complete or network resources are exhausted.

The second network standard belongs to at least one network standard.

Specifically, the multi-standard resource management device performs resources on the first user in the scheduling queue. After the allocation, it is judged whether there is any remaining network resources after the allocation, and the result of the resource allocation is fed back. Go to the network standard selection process in step 203, thereby affecting the next user of the first user. The choice of network standard.

Embodiments of the present invention provide a multi-standard resource management apparatus, the multi-standard resource management The device is used to implement the above multi-standard resource management method, as shown in FIG. 3, the multi-standard resource The management device 3 includes an acquisition unit 31, a sorting unit 32, a configuration unit 33, and a determination unit. 34, of which:

An obtaining unit 31, configured to acquire a transmission supported by each of all users to be scheduled In the system, the supported transmission system includes at least one network standard.

a sorting unit 32, configured to perform multi-standard joint sorting on all users to be scheduled, and generate Schedule the queue.

The configuration unit 33 is configured to sort from the supported transmission systems acquired by the obtaining unit 31. The first user in the scheduling queue generated by unit 32 selects a first network standard and The first network system allocates network resources to the first user, and the first network standard belongs to At least one network standard.

The determining unit 34 is configured to determine whether the network resource allocated by the configuration unit 33 has remaining.

The configuration unit 33 is further configured to: if the allocated network resources have remaining, the sorting unit The next user of the first user in the generated dispatch queue of 32 selects the second network standard, and Allocating network resources to the next user of the first user in the second network system until All user scheduling in the scheduling queue generated by the sorting unit 32 is completed or all network standards The network resources are exhausted, and the second network standard belongs to at least one network standard.

Further, the sorting unit 32 includes: a calculating module 321 and a sorting module 322, among them:

The calculating module 321 is configured to calculate each user in each network system according to the system scheduling parameter The probability of selection of the system.

The calculation module 321 is further configured to select a system selection method for each network of each user. The rate is calculated by weighting the maximum transmission capacity under each network standard, and the most Large transmission capacity.

The calculation module 321 is further configured to calculate the maximum transmission capacity and historical average according to each user. The transmission rate calculates the scheduling priority of each user.

The sorting module 322 is configured to use the scheduling priority calculated by the calculating module 321 for each The user performs joint sorting to obtain a dispatch queue.

Optionally, the system scheduling parameters include: a user's optimization target, a user's service characteristics, The current channel characteristics of the user, the amount of buffered data of the user, and the network available at the current scheduling time of the user. The maximum system capacity of the networked information and the network format currently available to the user.

Further, the configuration unit 33 includes: an obtaining module 331 and a comparing module 332. And an allocation module 333, wherein:

The obtaining module 331 is configured to obtain a current system selection probability of the first user.

The comparison module 332 is configured to compare the current system of the first user acquired by the obtaining module 331 Probability of selection and the probability of selection of the first user in each network system.

The distribution module 333 is configured to give the first user according to the comparison result of the comparison module 332. Select a first network standard from the supported transmission formats and compare it to the first network standard A user performs network resource allocation.

The multi-standard resource management device provided by the embodiment of the present invention is implemented by different networks Unified management of network resources, and unified scheduling of all users to be scheduled, and in each The scheduling period updates the user's network standard, enabling resource scheduling and system selection. Work together to maximize the utilization of network resources.

Another embodiment of the present invention provides a multi-standard resource management device, the multi-system The resource management device is used to implement the above multi-standard resource management method, and the multi-standard resource management The device may be a base station. As shown in FIG. 5, the multi-standard resource management device 4 includes: a processor. 41. Memory 42, communication interface 43, and communication bus 44.

The communication bus 44 is used to implement the connection and communication between the components. The communication interface 43 is for connecting and communicating with an external device.

The processor 41 includes an acquisition unit 411, a sorting unit 412, a configuration unit 413, and Judgment unit 414. .

The specific implementation functions of the units in the processor 41 are as follows.

An obtaining unit 411, configured to acquire a supported transmission of each of all users to be scheduled In the transmission mode, the supported transmission system includes at least one network standard.

a sorting unit 412, configured to perform multi-standard joint sorting on all users to be scheduled, and generate Schedule the queue.

The configuration unit 413 is configured to provide a row in the supported transmission system acquired from the obtaining unit 411. The first user in the scheduling queue generated by the sequence unit 412 selects a first network standard, and Performing network resource allocation to the first user in the first network standard, the first network standard In at least one network standard.

The determining unit 414 is configured to determine whether the network resource allocated by the configuration unit 413 is left. I.

The configuration unit 413 is further configured to: if the allocated network resources have remaining, the sorting unit The next user of the first user in the dispatch queue generated by 412 selects the second network standard, and Allocating network resources to the next user of the first user in the second network system until All user scheduling in the scheduling queue generated by the sorting unit 32 is completed or all network standards The network resources are exhausted, and the second network standard belongs to at least one network standard.

Further optionally, the sorting unit 412 includes: a calculating module and a sorting module, wherein:

a calculation module for calculating each user in each network standard according to the system scheduling parameters The probability of selection under the system.

The calculation module is also used to select the probability of the system selection for each user's network standard Weighted calculation with the maximum transmission capacity under each network standard to obtain the maximum for each user Transmission capacity.

The calculation module is also used to transfer the maximum transmission capacity and historical average according to each user. The rate calculates the scheduling priority of each user.

a sorting module for performing each user according to a scheduling priority calculated by the computing module Joint sorting to get the dispatch queue.

Further optionally, the configuration unit 413 includes: an acquisition module, a comparison module, and an allocation Module, where:

The acquisition module is used to obtain the current system selection probability of the first user.

The comparison module is used to compare the current user selection of the first user obtained by the acquisition module Probability and the probability of choice of the first user in each network system.

An allocation module for giving support to the first user based on the comparison result of the comparison module Select a first network standard in the transmission system and use the first one in the first network format The user performs network resource allocation.

One of ordinary skill in the art can understand that all or part of the above method embodiments are implemented. The sub-steps can be completed by the hardware associated with the program instructions, and the aforementioned programs can be stored in one The computer readable storage medium, when executed, the program includes the above method embodiment The foregoing storage medium includes: various kinds of ROM, RAM, disk, or optical disk. A medium that can store program code.

The above description is only a specific embodiment of the present invention, but the scope of protection of the present invention is not To be limited thereto, any person skilled in the art is within the technical scope of the present disclosure. Variations or substitutions are readily conceivable and should be covered by the scope of the invention. Therefore, this The scope of the invention should be determined by the scope of the appended claims.

Claims

A multi-standard resource management method, characterized in that it comprises:

Obtaining a transmission system supported by each of all users to be scheduled, the supported transmission              The transmission system includes at least one network standard;

Performing multi-standard joint sorting on all the users to be scheduled to generate a scheduling queue;

Selecting one of the first users in the scheduling queue from the supported transmission system              a first network system, and performing network resources on the first user in the first network standard              Source allocation, the first network system belongs to the at least one network standard;

Determine whether there is any remaining network resources after the allocation;

If the allocated network resource has remaining, the first one in the scheduling queue              The next user of the user selects the second network standard and the pair is described in the second network system              The next user of the first user performs network resource allocation until the location in the scheduling queue              The network resource is exhausted by user scheduling or all network standards, and the second network standard is              In the at least one network standard.
The method of claim 1 wherein said pair of said all to be adjusted              The user performs joint sorting to generate a dispatch queue, including:

Calculating the selection of each user in each network system according to the system scheduling parameters              Probability

The system selection probability under each of the network systems of each of the users is described              The maximum transmission capacity under the network standard is weighted and calculated, and the maximum transmission of each user is obtained.              Transmission capacity

Calculating the each according to the maximum transmission capacity of each user and the historical average transmission rate              Scheduling priority of users;

Performing joint sorting on each user according to the scheduling priority, to obtain the scheduling              queue.
The method according to claim 2, wherein said standard scheduling parameter packet Including: the user's optimization goal, the user's business characteristics, the user's current channel characteristics, the user's The amount of buffered data, the network standard information available at the current scheduling time of the user, and the current user can currently The maximum system capacity of the network standard used.
The method of claim 1 wherein said pass from said support                                        In the output mode, a first network standard is selected for the first user in the scheduling queue, and              Performing network resource allocation on the first user in the first network system, including:

Obtaining a current system selection probability of the first user;

Comparing the current user selection probability of the first user with the first user at each              The probability of selection of the system under the network standard;

According to the comparison result, the first user is selected from the supported transmission system              The first network system, and performing the first user in the first network system              Network resource allocation.
A multi-standard resource management device, comprising:

An obtaining unit, configured to acquire a transmission standard supported by each of all users to be scheduled,              The supported transmission system includes at least one network standard;

a sorting unit, configured to perform multi-standard joint sorting on all the users to be scheduled, and generate              Scheduling queue

a configuration unit, configured to send the supported transmission system obtained from the acquiring unit              The first user in the scheduling queue generated by the sorting unit selects a first network standard,              And performing network resource allocation on the first user in the first network standard, where the              a network system belongs to the at least one network standard;

a determining unit, configured to determine whether the network resource allocated by the configuration unit has remaining;

The configuration unit is further configured to: if the allocated network resource has remaining              The next user of the first user in the scheduling queue generated by the sorting unit selects the second              a network system, and in the second network system, the next user of the first user is entered              Row network resource allocation until all users in the scheduling queue generated by the sorting unit              The network resources of the scheduling completion or all network standards are exhausted, and the second network system belongs to the              At least one network standard.
The apparatus according to claim 5, wherein the sorting unit comprises:

a calculation module, configured to calculate each user in each network system according to a system scheduling parameter              The probability of selection of the system;

The calculating module is further configured to use the system under each of the network modes of each user              Weighted calculation of the probability of selection and the maximum transmission capacity of each of the network standards              The maximum transmission capacity of each user;

The calculating module is further configured to: according to the maximum transmission capacity and history of each user              The average transmission rate calculates the scheduling priority of each user;

a sorting module, configured to perform, according to the scheduling priority calculated by the computing module              The users perform joint sorting to obtain the dispatch queue.
The apparatus according to claim 6, wherein said standard scheduling parameter packet Including: the user's optimization goal, the user's business characteristics, the user's current channel characteristics, the user's The amount of buffered data, the network standard information available at the current scheduling time of the user, and the current user can currently The maximum system capacity of the network standard used.
The device according to claim 5, wherein the configuration unit comprises:

An obtaining module, configured to acquire a current system selection probability of the first user;

a comparison module, configured to compare the current system of the first user acquired by the acquiring module              Probability of selection and the probability of selection of the first user in each network system;

An allocation module, configured to: give the first user from the comparison result of the comparison module              Selecting one of the first network standards in the supported transmission system, and in the first network system              The network resource allocation is performed on the first user.