CN102256340B - A kind of method of terminal of paging idle mode, advanced network element equipment and system - Google Patents
A kind of method of terminal of paging idle mode, advanced network element equipment and system Download PDFInfo
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- CN102256340B CN102256340B CN201010188889.2A CN201010188889A CN102256340B CN 102256340 B CN102256340 B CN 102256340B CN 201010188889 A CN201010188889 A CN 201010188889A CN 102256340 B CN102256340 B CN 102256340B
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W68/00—User notification, e.g. alerting and paging, for incoming communication, change of service or the like
- H04W68/02—Arrangements for increasing efficiency of notification or paging channel
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W52/00—Power management, e.g. TPC [Transmission Power Control], power saving or power classes
- H04W52/02—Power saving arrangements
- H04W52/0209—Power saving arrangements in terminal devices
- H04W52/0212—Power saving arrangements in terminal devices managed by the network, e.g. network or access point is master and terminal is slave
- H04W52/0216—Power saving arrangements in terminal devices managed by the network, e.g. network or access point is master and terminal is slave using a pre-established activity schedule, e.g. traffic indication frame
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02D—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN INFORMATION AND COMMUNICATION TECHNOLOGIES [ICT], I.E. INFORMATION AND COMMUNICATION TECHNOLOGIES AIMING AT THE REDUCTION OF THEIR OWN ENERGY USE
- Y02D30/00—Reducing energy consumption in communication networks
- Y02D30/70—Reducing energy consumption in communication networks in wireless communication networks
Abstract
The invention discloses a kind of method of terminal of paging idle mode, advanced network element equipment and system, relate to the communications field.The inventive method comprises: the conventional Page information corresponding to the terminal entering idle mode is sent to this terminal by advanced network element equipment; The conventional Page information of described advanced network element equipment corresponding to the terminal of wanted paging, determines that this wants the advanced paging information corresponding to the terminal of paging, carries out paging.By technical solution of the present invention, can solve Dynamic matrix control station connect conventional access network time produced problem, the evolution of the terminal energy adaptive system being in idle mode is normally worked, thus realizes the object of power saving.
Description
Technical field
The present invention relates to the communications field, in particular to a kind of method of terminal of paging idle mode, advanced network element equipment and system.
Background technology
In a wireless communication system, utilize the wireless channel of specifying to provide wireless coverage in certain geographic range by base station (Base Station, referred to as BS), this geographic range is called community.Usually, theoretically, base station is positioned at cell centre.According to the size of coverage, base station can be divided into macro base station (Macro BS), micro-base station (PICO BS), femto base station (FEMTOCELL BS).In addition, in order to expand covering or expansion capacity, one or more relay station can be placed between a mobile station and a base station.For mobile radio station, relay station is just equivalent to a base station.When mobile radio station moves to another community from a community, in order to keep communication, switch with regard to needs.
According to supported communication protocol, base station/relay station can be divided into Dynamic matrix control station and Traditional control station, Dynamic matrix control station refers to base station/relay station (the Advanced BaseStation/Advanced Relay Station supporting advanced communication protocol, referred to as ABS/ARS), Traditional control station refers to the base station/relay station (Yardstick Base Station/Yardstick RelayStation, referred to as YBS/YRS) can supporting conventional communication protocols.Considering, in compatible technology, for Dynamic matrix control station, again its frame to be divide into first area and second area.Second area can support conventional communication protocols, therefore can be called traditional area again, and advanced communication protocol can only be supported in first area, therefore can be called first recessed region again.Similarly, for mobile radio station, also advanced mobile radio station (Advanced MobileStation can be divided into, referred to as AMS) and conventional mobiles (Yardstick Mobile Station, referred to as YMS), advanced mobile radio station can be operated in first area or second area, and conventional mobiles can only be operated in second area.For conventional mobiles, the second area at Dynamic matrix control station is equivalent to a Traditional control station.In addition, during advanced mobile radio station access Traditional control station work, for Traditional control station, this advanced mobile radio station is exactly a conventional mobiles.In addition, advanced communication protocol also can only be supported in Dynamic matrix control station, and now, Dynamic matrix control station can only have first area.
Be described further for IEEE802.16 standard below.IEEE802.16 standard is the air-interface standard of a kind of advanced person for microwave frequency band proposition, and it has worked out the specification of physical layer (PHY) and medium access control layer (Media Access Control, referred to as MAC).The IEEE802.16m comprising relay structure is state-of-the-art standard technique in current IEEE802.16 standard, and IEEE802.16m (hereinafter referred to as 16m) is based upon on the basis of the traditional standard such as IEEE802.16e (hereinafter referred to as 16e), IEEE802.16j (hereinafter referred to as 16j).
Based on above description, conventional mobiles (supporting the mobile radio station of 16e agreement) compatiblely can be supported in Dynamic matrix control station (supporting the base station/relay station of 16m agreement), similarly, advanced mobile radio station (supporting the mobile radio station of 16m agreement) also should be able to access Traditional control station (support the base station of 16e or support the relay station of 16j).First area is (also referred to as first recessed region, 16m zone, referred to as MZone) communication protocol of the advanced person that supports 16m to define, second area is (also referred to as traditional area, Legacy Zone, referred to as LZone) agreement of 16e/16j can be supported.In addition, Dynamic matrix control station also can only have MZone.
In general, when the control station in system evolves to Dynamic matrix control station from Traditional control station, the network (also referred to as access service network, access service network, ASN) that control station connects also can evolve to advanced networks from legacy network accordingly.But, in the system of reality, because the development speed of control station and network is not necessarily synchronous, or market development requires using advance technology as early as possible, just there will be control station is Dynamic matrix control station, and access service network is the situation of legacy network, as shown in Figure 1.Now, if advanced terminals and Dynamic matrix control station eat dishes without rice or wine directly use advanced communication protocol, and do not make any change, just likely follow-up with the communication process of legacy network in go wrong.
Such as in order to power saving, mobile terminal is (also referred to as terminal, mobile radio station) idle (Idle) pattern can be entered, after this mobile terminal is just in the reception downlink broadcast data of discrete gap periods, and between multiple control station in moving process, only upgrade positional information to control station when needed, and without the need to carrying out switching and network reenters.Larger difference is there is in Traditional control station/terminal and Dynamic matrix control station/terminal in the process of Idle pattern.For 16e and 16m standard, the processing method that mobile terminal paging is monitored is completely different in two kinds of standards.The control station of 16e agreement is supported to distribute to the paging cycle (Paging Cycle) of mobile terminal and paging displacement (Paging Offset) is all in units of frame, and support the control station of 16m agreement to distribute to the paging cycle of mobile terminal and paging displacement is all in units of superframe, general containing 4 frames in a superframe.When control station connects conventional gateway, it is no matter the control station of 16e or 16m, paging controller all can divide for the mobile terminal in its service range and is equipped with the paging cycle and paging displacement that frame is unit, and the Dynamic matrix control station and the mobile terminal that are therefore operated in first area have needed the coupling of paging parameters to map.In addition, in 16m agreement, the login ID that goes of the instruction in the paging group identification message (PGID-Info) that mobile terminal can send according to control station and distribution finds out concrete frame in paging monitoring Start Super frame, and when control station connects conventional gateway, conventional gateway may remove login ID for mobile terminal distributes.Similar problem also has a lot, all needs new method to solve.
Summary of the invention
Technical problem to be solved by this invention is, proposes a kind of method of terminal of paging idle mode, advanced network element equipment and system, to solve the terminal problem that cannot normally work of idle mode when Dynamic matrix control station connects conventional access network.
In order to solve the problem, the invention discloses a kind of method of terminal of paging idle mode, the method comprises:
Conventional Page information corresponding to the terminal entering idle mode is sent to this terminal by advanced network element equipment;
The conventional Page information of described advanced network element equipment corresponding to the terminal of wanted paging, determines that this wants the advanced paging information corresponding to the terminal of paging, carries out paging.
Further, in said method, it is paging cycle and the paging displacement of digit that described conventional Page information comprises with frame; Described advanced paging information comprises the Hyper Frame Number for call terminal.
Wherein, the conventional Page information of described advanced network element equipment corresponding to the terminal of wanted paging, determine that this wants the advanced paging information corresponding to the terminal of paging, carry out paging and refer to:
Described advanced network element equipment take frame as paging cycle and the paging displacement of digit corresponding to the terminal of wanted paging, determines the superframe of call terminal, and on determined superframe paging want the terminal of paging.
Described advanced network element equipment take frame as paging cycle and the paging displacement of digit corresponding to the terminal of wanted paging, determines the superframe of call terminal, and on determined superframe paging want the terminal of paging to refer to:
Described advanced network element equipment take frame as the Hyper Frame Number that the paging cycle of digit and paging displacement determine call terminal corresponding to the terminal of wanted paging, if determined by paging group information territory instruction time Hash parameter between described advanced network element equipment and terminal, then described advanced network element equipment calculates the frame number of bearing call broadcast in the superframe being used for call terminal according to the paging mark of the terminal of wanted paging and time-domain Hash parameter, and respective frame in determined superframe sends described paging broadcast message.
Or described advanced network element equipment take frame as paging cycle and the paging displacement of digit corresponding to the terminal of wanted paging, determines the superframe of call terminal, and on determined superframe paging want the terminal of paging to refer to:
Described advanced network element equipment take frame as the frame number that the paging cycle of digit and paging displacement determine for bearing call broadcast in the Hyper Frame Number of call terminal and this superframe corresponding to the terminal of wanted paging, and respective frame in determined superframe sends described paging broadcast message.
In terminal access or when re-accessing described advanced network element equipment, the paging identity type that described advanced network element equipment is supported by advanced network element equipment described in superframe header indicating terminal, and consult to determine the first area of described advanced network element equipment to be terminal distribution with frame be the paging cycle of digit and paging displacement with terminal and whether by paging group identification information territory instruction time Hash parameter; Or
Described advanced network element equipment is conventional art by the paging type of superframe header indicating terminal advanced network element equipment support, and whether the first area setting in advance described advanced network element equipment is terminal distribution with frame as the paging cycle of digit and paging displacement and by paging group identification information territory instruction time Hash parameter.
Only when described advanced network element equipment is determined by paging group identification information territory instruction time Hash parameter, described advanced network element equipment transmission time field Hash parameter in paging group identification information message gives described terminal.
Described advanced network element equipment take frame as paging cycle and the paging displacement of digit according to the terminal of wanted paging, the Hyper Frame Number according to following formula determination call terminal:
N sup erframe=floor of[(paging cycle*n+paging offset)/q];
n={floor of[(Ncurrent_sup erframe*q-paging offset)/paging cycle]+1}mod;
{ceil of[(2
p*q-paging offset)/paging cycle]}
In above formula, N sup erframe represents the Hyper Frame Number of call terminal;
Paging cycle represents with frame to be the paging cycle of digit;
Paging offset represents with frame to be the paging displacement of digit;
Ncurrent_sup erframe represents current super frame number;
P represents that system is the number of bits that Hyper Frame Number distributes;
Q represents the frame number that superframe comprises.
When the paging of described terminal is designated sign-on ID, described advanced network element equipment according to paging mark and time-domain Hash parameter, according to following formulae discovery be used for call terminal superframe in for carrying the frame number of described paging broadcast message:
Npaging_frame=DIDmodm;
In above formula, Npaging_frame represents the frame number for carrying described paging broadcast message;
DID represents sign-on ID;
M represents time-domain Hash parameter.
When the paging of described terminal is designated media interviews control (MAC) Address-Hash, described advanced network element equipment according to paging mark and time-domain Hash parameter, according to following formulae discovery be used for call terminal superframe in for carrying the frame number of described paging broadcast message:
Npaging_frame=MAC address hash modm;
In above formula, Npaging_frame represents the frame number for carrying described paging broadcast message;
MAC address hash represents MAC Address Hash;
M represents time-domain Hash parameter.
Described Dynamic matrix control station according to the paging cycle and the paging displacement that take frame as digit, according in the superframe of following formulae discovery call terminal for carrying the frame number of described paging broadcast message:
Npaging_frame=(paging cycle*n+paging offset)mod q;
n={floor of[(Ncurrent_sup erframe*q-paging offset)/paging cycle]+1}mod
{ceil of[(2
p*q-paging offset)/paging cycle]}
In above formula, Npaging_frame represents the frame number for carrying described paging broadcast message;
Paging cycle represents with frame to be the paging cycle of digit;
Paging offset represents with frame to be the paging displacement of digit;
Ncurrent_sup erframe represents current super frame number;
P is expressed as the number of bits that Hyper Frame Number distributes;
Q represents the frame number that superframe comprises.
Described advanced network element equipment is the Dynamic matrix control station including first area and second area, or for only including the Dynamic matrix control station of first area.
Described advanced network element equipment is identical with the bit number shared by conventional Page information in the bit number shared by conventional Page information in the interaction message between terminal and the interaction message between conventional network elements equipment and terminal, wherein, the interaction message between described advanced network element equipment and terminal comprises: go login request message, remove registration reply message, paging broadcast message, distance measurement request message and ranging response message.
Terminal, in the process entering idle mode, receives the conventional Page information that described Dynamic matrix control station sends;
After described terminal enters idle mode, determine advanced paging information according to received conventional Page information, and monitor paging broadcast message according to determined advanced paging information.
Described terminal if when described terminal knows that location updating is carried out in paged requirement from described paging broadcast message, then carries out location updating after monitoring described paging broadcast message according to determined advanced paging information;
If know from described paging broadcast message paged requirement exit idle mode carry out network reentry time, then carry out network reentry; Do not have if know from described paging broadcast message paged, then enter the unreachable interval of paging.
The invention also discloses a kind of method of terminal monitoring beep-page message of idle mode, the method comprises:
Terminal, in the process entering idle mode, receives the conventional Page information that Dynamic matrix control station sends;
After described terminal enters idle mode, determine advanced paging information according to received conventional Page information, and monitor paging broadcast message according to determined advanced paging information.
Further, in said method, it is paging cycle and the paging displacement of digit that described conventional Page information comprises with frame; Described advanced paging information comprises the Hyper Frame Number for call terminal.
Described terminal determines advanced paging information according to received conventional Page information, and refers to according to determined advanced paging information monitoring paging broadcast message:
Described terminal is according to the received Hyper Frame Number taking frame as the paging cycle of digit and paging displacement and determine call terminal, if determined by paging group informational message territory instruction time Hash parameter between described terminal and described advanced network element equipment, then described terminal calculates the frame number of bearing call broadcast in the superframe being used for call terminal according to the paging mark of terminal and time-domain Hash parameter, and respective frame in determined superframe monitors described paging broadcast message;
Or described terminal determines advanced paging information according to received conventional Page information, and refer to according to determined advanced paging information monitoring paging broadcast message:
Described terminal according to the received frame number taking frame as the paging cycle of digit and paging displacement and determine for bearing call broadcast in the Hyper Frame Number of call terminal and this superframe, and respective frame in determined superframe monitors described paging broadcast message.
Described terminal according to received take frame as paging cycle and the paging displacement of digit, the Hyper Frame Number according to following formula determination call terminal:
N sup erframe=floor of[(paging cycle*n+paging offset)/q];
n={floor of[(Ncurrent_sup erframe*q-paging offset)/paging cycle]+1}mod;
{ceil of[(2
p*q-paging offset)/paging cycle]}
In above formula, N sup erframe represents the Hyper Frame Number of call terminal;
Paging cycle represents with frame to be the paging cycle of digit;
Paging offset represents with frame to be the paging displacement of digit;
Ncurrent_sup erframe represents current super frame number;
P is expressed as the number of bits that Hyper Frame Number distributes;
Q represents the frame number that superframe comprises.
When the paging of described terminal is designated sign-on ID, described terminal according to paging mark and time-domain Hash parameter, according to following formulae discovery be used for call terminal superframe in for carrying the frame number of described paging broadcast message:
Npaging_frame=DIDmodm;
In above formula, Npaging_frame represents the frame number for carrying described paging broadcast message;
DID represents sign-on ID;
M represents time-domain Hash parameter.
When the paging of described terminal is designated media interviews control (MAC) Address-Hash, described terminal according to paging mark and time-domain Hash parameter, according to following formulae discovery be used for call terminal superframe in for carrying the frame number of described paging broadcast message:
Npaging_frame=MAC address hash modm;
In above formula, Npaging_frame represents the frame number for carrying described paging broadcast message;
MAC address hash represents MAC Address Hash;
M represents time-domain Hash parameter.
Described terminal according to received take frame as paging cycle and the paging displacement of digit, according in the superframe of following formulae discovery call terminal for carrying the frame number of described paging broadcast message:
Npaging_frame=(paging cycle*n+paging offset)mod q;
n={floor of[(Ncurrent_sup erframe*q-paging offset)/paging cycle]+1}mod
{ceil of[(2
p*q-paging offset)/paging cycle]}
In above formula, Npaging_frame represents the frame number for carrying described paging broadcast message;
Paging cycle represents with frame to be the paging cycle of digit;
Paging offset represents with frame to be the paging displacement of digit;
Ncurrent_sup erframe represents current super frame number;
P is expressed as the number of bits that Hyper Frame Number distributes;
Q represents the frame number that superframe comprises.
The invention also discloses a kind of advanced network element equipment of terminal of paging idle mode, comprise transmitting element and processing unit, wherein:
Described transmitting element, for sending to this terminal by the conventional Page information corresponding to the terminal entering idle mode;
Described processing unit, when needing the terminal of paging idle mode, for the conventional Page information corresponding to paged terminal, determining the advanced paging information corresponding to paged terminal, carrying out paging.
Further, in the said equipment, it is paging cycle and the paging displacement of digit that described conventional Page information comprises with frame; Described advanced paging information comprises the Hyper Frame Number for call terminal.
Wherein, described processing unit: take frame as the Hyper Frame Number that the paging cycle of digit and paging displacement determine call terminal corresponding to paged terminal, if determined by paging group information territory instruction time Hash parameter between described advanced network element equipment and terminal, then calculate the frame number of bearing call broadcast in the superframe being used for call terminal according to the paging mark of paged terminal and time-domain Hash parameter, and respective frame in determined superframe sends described paging broadcast message;
Wherein, the paging mark of paged terminal is consulted to determine by described first network element device and terminal, or is determined by described advanced network element equipment.
Described processing unit, take frame as the frame number that the paging cycle of digit and paging displacement determine for bearing call broadcast in the Hyper Frame Number of call terminal and this superframe corresponding to paged terminal, and respective frame in determined superframe sends described paging broadcast message.
Described advanced network element equipment is the Dynamic matrix control station including first area and second area, or for only including the Dynamic matrix control station of first area.
The invention also discloses a kind of system of terminal of paging idle mode, this system comprises terminal and above-mentioned advanced network element equipment, wherein:
Described advanced network element equipment, for sending to this terminal by the conventional Page information corresponding to the terminal entering idle mode; And when needing the terminal of paging idle mode, for the conventional Page information corresponding to paged terminal, determining the advanced paging information corresponding to paged terminal, carrying out paging;
Described terminal, in the process entering idle mode, receives the conventional Page information that described Dynamic matrix control station sends; And after entering idle mode, determine advanced paging information according to received conventional Page information, and monitor the paging of described advanced network element equipment according to determined advanced paging information.
By technical solution of the present invention, can solve Dynamic matrix control station connect conventional access network time produced problem, the evolution of the terminal energy adaptive system being in idle mode is normally worked, thus realizes the object of power saving.
Accompanying drawing explanation
Accompanying drawing described herein is used to provide a further understanding of the present invention, and form a application's part, schematic description and description of the present invention, for explaining the present invention, does not form inappropriate limitation of the present invention.In the accompanying drawings:
Fig. 1 is a kind of system evolved network design figure;
Fig. 2 is the flow chart of the terminal of paging idle mode in Dynamic matrix control station in the present embodiment 1;
Fig. 3 is the flow chart of the terminal monitoring paging of idle mode in the present embodiment 1;
Fig. 4 is that terminal request enters idle mode, and Dynamic matrix control station is the paging cycle of terminal distribution in units of frame and the flow chart of paging displacement;
Fig. 5 is that Dynamic matrix control station initiative terminal enters idle mode, and Dynamic matrix control station is the paging cycle of terminal distribution in units of frame and the flow chart of paging displacement;
Fig. 6 is the flow chart of the terminal monitoring paging of idle mode in the present embodiment 3; Dynamic matrix control according to the present invention stands in paging is carried out in first area flow chart to terminal;
Fig. 7 is the flow chart of the terminal monitoring paging of idle mode in the present embodiment 1;
Fig. 8 is the flow chart consulting paging relevant parameter according to terminal of the present invention and Dynamic matrix control station.
Embodiment
Central scope of the present invention is, conventional Page information paging cycle and the paging displacement of digit (comprise with frame be) corresponding to the terminal entering idle mode can be sent to this terminal by the advanced network element equipment be connected with legacy network;
When needing the terminal of paging idle mode, the conventional Page information of advanced network element equipment corresponding to paged terminal, determines the advanced paging information (comprising the superframe for call terminal) corresponding to paged terminal, carries out paging.
Below in conjunction with drawings and the specific embodiments, technical solution of the present invention is described in further details.
A system for the terminal of paging idle mode, comprises terminal and advanced network element equipment.And advanced network element equipment can for including the Dynamic matrix control station of first area and second area, or be the Dynamic matrix control station only including first area.
Advanced network element equipment, is mainly used in the conventional Page information corresponding to the terminal entering idle mode to send to this terminal; And when needing the terminal of paging idle mode, for the conventional Page information corresponding to paged terminal, determine the advanced paging information corresponding to paged terminal, carry out paging, wherein, it is paging cycle and the paging displacement of digit that conventional Page information comprises with frame, and advanced paging information comprises the Hyper Frame Number for call terminal;
Wherein, advanced network element equipment and terminal are carried out in mutual process, bit number in both interaction messages shared by conventional Page information is identical with the bit number shared by conventional Page information in the interaction message between conventional network elements equipment and terminal, wherein, the interaction message between advanced network element equipment and terminal comprises: go login request message, remove registration reply message, paging broadcast message, distance measurement request message and ranging response message.
Further, advanced network element equipment can comprise transmitting element and processing unit.
Transmitting element, is mainly used in corresponding to the terminal entering idle mode being that the paging cycle of digit and paging displacement send to this terminal with frame;
Processing unit, mainly when needing the terminal of paging idle mode, for taking frame as paging cycle and the paging displacement of digit corresponding to paged terminal, determining the superframe of call terminal, carrying out paging;
Particularly: processing unit can take frame as the Hyper Frame Number that the paging cycle of digit and paging displacement determine call terminal corresponding to paged terminal, if determined by paging group information territory instruction time Hash parameter between described advanced network element equipment and terminal, then calculate the frame number of bearing call broadcast in the superframe being used for call terminal according to the paging mark of paged terminal and time-domain Hash parameter, and respective frame in determined superframe sends described paging broadcast message; Wherein, the paging mark of paged terminal is consulted to determine by first network element device and terminal, or is determined by advanced network element equipment.
Processing unit, also can take frame as the frame number that the paging cycle of digit and paging displacement determine for bearing call broadcast in the Hyper Frame Number of call terminal and this superframe corresponding to paged terminal, and respective frame in determined superframe sends described paging broadcast message.
Terminal, is mainly used in the process entering idle mode, receives the conventional Page information that described Dynamic matrix control station sends; And after entering idle mode, determine advanced paging information according to received conventional Page information, and monitor the paging of described advanced network element equipment according to determined advanced paging information;
Particularly, terminal, can according to the received Hyper Frame Number taking frame as the paging cycle of digit and paging displacement and determine call terminal, if determined by paging group information territory instruction time Hash parameter between described terminal and described advanced network element equipment, then described terminal calculates the frame number of bearing call broadcast in the superframe being used for call terminal according to the paging mark of this terminal and time-domain Hash parameter, and respective frame in determined superframe monitors described paging broadcast message; Wherein, the paging mark of this terminal is consulted to determine by described first network element device and terminal, or is determined by described advanced network element equipment.
Terminal, also can according to the received frame number taking frame as the paging cycle of digit and paging displacement and determine for bearing call broadcast in the Hyper Frame Number of call terminal and this superframe, and respective frame in determined superframe monitors described paging broadcast message.
The detailed process that the terminal of said system to idle mode realizes paging is introduced below in conjunction with embody rule scene.
Embodiment 1
In the present embodiment, terminal is linked into the first area of Dynamic matrix control station (i.e. advanced network element equipment), this Dynamic matrix control station is the Dynamic matrix control station only containing first area, or contain the Dynamic matrix control station of first area and second area, and this Dynamic matrix control station is connected to conventional access network simultaneously.In the present embodiment, in terminal access or when re-accessing Dynamic matrix control station, Dynamic matrix control station and terminal determine that employing goes login ID to identify as paging, and paging group informational message territory instruction time Hash parameter.Under introducing this kind of scene below, the terminal of Dynamic matrix control station to idle mode realizes the detailed process of paging, and this process as shown in Figure 2, comprises the following steps:
Step 200: terminal will enter idle mode, Dynamic matrix control station and paging controller mutual, obtain parameters such as distributing to the paging group mark of this terminal, paging controller identifier, paging cycle and paging displacement, then send include login ID, paging group mark, paging controller identifier, paging cycle and paging displacement go registration reply message to this terminal, idle mode is entered with notification terminal, wherein, the paging cycle in registration reply message and paging displacement is gone to be all digit with frame;
In this step, due to the connection of Dynamic matrix control station is conventional access network, therefore paging controller is the paging cycle of this terminal distribution and paging displacement is with the frame of legacy network for digit, and Dynamic matrix control stands in registration reply message and also carries with frame is that the paging cycle of digit and paging displacement are to terminal.Due in the present embodiment, determine that employing goes login ID as paging identifier when consulting before Dynamic matrix control station and terminal, therefore Dynamic matrix control station generates and removes login ID (DID), and by going registration reply message (AAI_DREG-RSP) by paging group identifier, paging controller identifier, paging cycle, paging displacement and go the information such as login ID to send to terminal.
Wherein, terminal will enter idle mode and refer to, terminal initiatively sends to Dynamic matrix control station goes login request message (AAI_DREG-REQ) to require to enter idle mode, also can be that Dynamic matrix control station wishes that terminal enters idle mode;
Such as, owing to temporarily there is no data transfer demands, when terminal initiatively wishes to enter idle mode, terminal initiatively sends goes login request message to Dynamic matrix control station, and request enters idle mode, as shown in Figure 4, Dynamic matrix control station receives after this removes registration request, mutual with paging controller, obtain the parameter such as paging group mark, paging controller identifier, paging cycle and paging displacement distributing to this terminal, and by going registration reply message that obtained information is sent to terminal;
And for example, if when Dynamic matrix control station wishes that terminal enters idle mode, also can be identified to the paging group of this terminal by Dynamic matrix control station owner trend paging controller cross allocation, paging controller identifier, paging cycle and paging displacement, then initiatively send the registration reply message that goes including above-mentioned information and enter idle mode to demanding terminal terminal, this process as shown in Figure 5.
Step 201: when network side wants the terminal of paging idle mode, Dynamic matrix control station take frame as the Hyper Frame Number that the paging cycle of digit and paging displacement determine call terminal according to what distribute to this terminal;
In this step, if the page notification message of Dynamic matrix control station paging receiving controller, then Dynamic matrix control station take frame as paging cycle and the paging displacement of digit according to paged terminal, determine the superframe of call terminal, specifically can according to the Hyper Frame Number of following formulae discovery call terminal:
N sup erframe=floor of[(paging cycle*n+paging offset)/q];
n={floor of[(Ncurrent_sup erframe*q-paging offset)/paging cycle]+1}mod;
{ceil of[(2
p*q-paging offset)/paging cycle]}
In above formula, N sup erframe represents the Hyper Frame Number of call terminal;
Paging cycle represents with frame to be the paging cycle of digit;
Paging offset represents with frame to be the paging displacement of digit;
Ncurrent_sup erframe represents current super frame number;
P is expressed as the number of bits that Hyper Frame Number distributes, and the number of bits of distributing for Hyper Frame Number is at present generally 12;
Q represents the frame number that superframe comprises, and the frame number that current superframe comprises is 4.
Step 202: Dynamic matrix control station determines according to paging mark (being login ID in the present embodiment) and time-domain Hash parameter the concrete frame number sending paging broadcast message in the superframe of call terminal;
Due in the present embodiment, paging group informational message territory instruction time Hash parameter is determined when consulting before Dynamic matrix control station and terminal, then login ID is removed according to time-domain Hash parameter m corresponding to terminal place paging group and terminal in Dynamic matrix control station, is sent the frame number comprising the paging broadcast message place of end message by following formulae discovery:
Npaging_frame=DIDmodm;
In above formula, Nlpaging_frame represents the frame number for carrying described paging broadcast message;
DID represents sign-on ID;
M represents time-domain Hash parameter.
Step 203: Dynamic matrix control stands on determined frame corresponding in the superframe of call terminal and sends the paging broadcast message comprising institute's call terminal information.
End side realizes the process of paging as shown in Figure 3, comprise the following steps: step 300: terminal receives and removes registration reply message, therefrom obtain the paging cycle in units of frame and paging displacement information, and calculate according to obtained paging cycle and paging displacement information the Hyper Frame Number (Nnext_listening_superframe) entering paging listening intervals, calculating can adopt following formula:
N sup erframe=floor of[(paging cycle*n+paging offset)/q];
n={floor of[(Ncurrent_sup erframe*q-paging offset)/paging cycle]+1}mod;
{ceil of[(2
p*q-paging offset)/paging cycle]}
In above formula, N sup erframe represents the Hyper Frame Number of call terminal;
Paging cycle represents with frame to be the paging cycle of digit;
Paging offset represents with frame to be the paging displacement of digit;
Ncurrent_sup erframe represents current super frame number;
P is expressed as the number of bits that Hyper Frame Number distributes, and the number of bits of distributing for Hyper Frame Number is at present generally 12;
Q represents the frame number that superframe comprises, and the frame number that current superframe comprises is 4.
Step 301: after terminal calculates paging monitoring Hyper Frame Number, enter the unreachable state of paging of idle mode, until Dynamic matrix control station sends monitor the identical superframe of Hyper Frame Number with paging, now terminal enters paging listening intervals, and the length of paging listening intervals is the duration of a superframe (being generally the length of 4 frames);
Step 302: terminal resolves the time-domain Hash parameter m in the paging group informational message that its first frame comprises from monitored superframe, and computing terminal needs the frame number at the paging broadcast message place of resolving;
Due in the present embodiment, determine paging group informational message territory instruction time Hash parameter before Dynamic matrix control station and terminal when consulting, therefore terminal resolves the time-domain Hash parameter m in the paging group informational message that its first frame comprises from monitored superframe; The frame number at the paging broadcast message place of resolving is needed especially by following formulae discovery terminal:
Nlistening_frame=DIDmodm;
In above formula, Nlistening_frame represents the frame number for carrying described paging broadcast message;
DID represents sign-on ID.
Step 303: terminal resolves according to the frame number calculated the paging broadcast message that corresponding frame comprises, then judge whether to include in the paging broadcast message received mate with oneself remove login ID, namely judge that whether this terminal paged.If terminal paged (namely include in paging broadcast message mate with oneself remove login ID), then terminal carries out according to the instruction in beep-page message the operation that location updating or network reentry.Otherwise, monitor next time;
Wherein, when terminal position upgrades or network is reentried, the paging cycle comprised in the distance measurement request message sent and ranging response message and paging displacement should be in units of the frame of legacy network equally, further, the paging cycle in the distance measurement request message sent and ranging response message is identical with the bit number shared by paging displacement with paging cycle in conventional art with the bit number shared by paging displacement.If terminal does not have paged, then terminal calculates the Hyper Frame Number entering paging listening intervals, enters the unreachable state of paging.In addition, when terminal has data to need to send, terminal can carry out network reentry at any time, terminates idle mode in advance.
Embodiment 2
Substantially the same manner as Example 1 in the present embodiment, difference is, in terminal access or when re-accessing Dynamic matrix control station, Dynamic matrix control station and terminal are determined to adopt conventional identifier and MAC Address Hash to identify as paging, and paging group informational message territory instruction time Hash parameter.During this scene, the operation at Dynamic matrix control station is identical with the operating procedure at Dynamic matrix control station in embodiment 1, main difference is, Dynamic matrix control stands in going in registration reply message without the need to carrying login ID to terminal transmission, and in the process of call terminal, Dynamic matrix control station calculates according to the MAC Address Hash (i.e. paging identification information) of time-domain Hash parameter m corresponding to paged terminal place paging group and institute's call terminal the frame number comprising the paging broadcast message place of end message, the frame number comprising the paging broadcast message place of end message is specifically sent by following formulae discovery:
Npaging_frame=MAC address hash modm;
In above formula, Npaging_frame represents the frame number for carrying described paging broadcast message;
MAC address hash represents MAC Address Hash;
M represents time-domain Hash parameter.
And in the present embodiment, also substantially identical with the operation in embodiment 1 in the operation of end side, after the time-domain Hash parameter m in the paging group informational message that the first frame in the superframe of terminal parses call terminal comprises, needed the frame number at the paging broadcast message place of resolving by following formulae discovery terminal:
Npaging_frame=MAC address hash modm;
In above formula, Npaging_frame represents the frame number for carrying described paging broadcast message;
MAC address hash represents MAC Address Hash;
M represents time-domain Hash parameter.
Example 3
In the present embodiment, terminal is linked into the first area at Dynamic matrix control station, this Dynamic matrix control station is the Dynamic matrix control station only containing first area, or contains the Dynamic matrix control station of first area and second area simultaneously, and this Dynamic matrix control station is connected to conventional access network.In the present embodiment, terminal access or when re-accessing Dynamic matrix control station, Dynamic matrix control station and terminal are determined not by paging group informational message territory instruction time Hash parameter.Under introducing this kind of scene below, the terminal of Dynamic matrix control station to idle mode realizes the detailed process of paging, and this process as shown in Figure 6, comprises the following steps:
Step 600: terminal will enter idle mode, Dynamic matrix control station and paging controller mutual, obtain parameters such as distributing to the paging group mark of this terminal, paging controller identifier, paging cycle and paging displacement, then send include paging group mark, paging controller identifier, paging cycle and paging displacement go registration reply message to this terminal, idle mode is entered with notification terminal, wherein, the paging cycle in registration reply message and paging displacement is gone to be all digit with frame;
In this step, due to the connection of Dynamic matrix control station is conventional access network, therefore paging controller is the paging cycle of this terminal distribution and paging displacement is with the frame of legacy network for digit, and Dynamic matrix control stands in registration reply message and also carries with frame is that the paging cycle of digit and paging displacement are to terminal.
And terminal will enter idle mode and refers to, terminal initiatively sends to Dynamic matrix control station goes login request message (AAI_DREG-REQ) to require to enter idle mode, also can be that Dynamic matrix control station wishes that terminal enters idle mode;
Such as, owing to temporarily there is no data transfer demands, when terminal initiatively wishes to enter idle mode, terminal initiatively sends goes login request message to Dynamic matrix control station, and request enters idle mode, as shown in Figure 4, Dynamic matrix control station receives after this removes registration request, mutual with paging controller, obtain the parameter such as paging group mark, paging controller identifier, paging cycle and paging displacement distributing to this terminal, and by going registration reply message that obtained information is sent to terminal;
And for example, if when Dynamic matrix control station wishes that terminal enters idle mode, also can be identified to the paging group of this terminal by Dynamic matrix control station owner trend paging controller cross allocation, paging controller identifier, paging cycle and paging displacement, then initiatively send the registration reply message that goes including above-mentioned information and enter idle mode to demanding terminal terminal, this process as shown in Figure 5.
Step 601: when network side wants the terminal of paging idle mode, Dynamic matrix control station take frame as the Hyper Frame Number that the paging cycle of digit and paging displacement determine call terminal according to what distribute to this terminal;
In this step, if the page notification message of Dynamic matrix control station paging receiving controller, then Dynamic matrix control station take frame as paging cycle and the paging displacement of digit according to paged terminal, determine the superframe of call terminal, specifically can according to the Hyper Frame Number of following formulae discovery call terminal:
N sup erframe=floor of[(paging cycle*n+paging offset)/q];
n={floor of[(Ncurrent_sup erframe*q-paging offset)/paging cycle]+1}mod;
{ceil of[(2
p*q-paging offset)/paging cycle]}
In above formula, N sup erframe represents the Hyper Frame Number of call terminal;
Paging cycle represents with frame to be the paging cycle of digit;
Paging offset represents with frame to be the paging displacement of digit;
Ncurrent_sup erframe represents current super frame number;
P is expressed as the number of bits that Hyper Frame Number distributes, and the number of bits of distributing for Hyper Frame Number is at present generally 12;
Q represents the frame number that superframe comprises, and the frame number that current superframe comprises is 4.
Step 602: Dynamic matrix control station is according to taking frame as the concrete frame number that the paging cycle of digit and paging displacement determine sending in the superframe of call terminal paging broadcast message;
Due in the present embodiment, determine not by paging group informational message territory instruction time Hash parameter when consulting before Dynamic matrix control station and terminal, the then paging cycle that is assigned with according to terminal of Dynamic matrix control station and paging displacement, sends the frame number comprising the paging broadcast message place of end message by following formulae discovery:
Npaging_frame=(paging cycle*n+paging offset)mod q;
n={floor of[(Ncurrent_sup erframe*q-paging offset)/paging cycle]+1}mod
{ceil of[(2
p*q-paging offset)/paging cycle]}
In above formula, Npaging_frame represents the frame number for carrying described paging broadcast message;
Paging cycle represents with frame to be the paging cycle of digit;
Paging offset represents with frame to be the paging displacement of digit;
Ncurrent_sup erframe represents current super frame number;
P is expressed as the number of bits that Hyper Frame Number distributes, and the number of bits of distributing for Hyper Frame Number is at present generally 12;
Q represents the frame number that superframe comprises, and the frame number that current superframe comprises is 4.
Step 603: Dynamic matrix control stands on determined frame corresponding in the superframe of call terminal and sends the paging broadcast message comprising institute's call terminal information.
End side realizes the process of paging as shown in Figure 7, comprises the following steps:
Step 700: what terminal reception Dynamic matrix control station sent removes registration reply message, and the paging cycle in units of frame therefrom obtained and paging displacement information calculate the Hyper Frame Number (Nnext_listening_superframe) entering paging listening intervals;
In this step, concrete calculating can adopt following formula:
N sup erframe=floor of[(paging cycle*n+paging offset)/q];
n={floor of[(Ncurrent_sup erframe*q-paging offset)/paging cycle]+1}mod;
{ceil of[(2
p*q-paging offset)/paging cycle]}
In above formula, N sup erframe represents the Hyper Frame Number of call terminal;
Paging cycle represents with frame to be the paging cycle of digit;
Paging offset represents with frame to be the paging displacement of digit;
Ncurrent_sup erframe represents current super frame number;
P is expressed as the number of bits that Hyper Frame Number distributes, and the number of bits of distributing for Hyper Frame Number is at present generally 12;
Q represents the frame number that superframe comprises, and the frame number that current superframe comprises is 4.
Step 701: after terminal calculates paging monitoring Hyper Frame Number, enter the unreachable state of paging of idle mode, until Dynamic matrix control station sends monitor the identical superframe of Hyper Frame Number with paging, now terminal enters paging listening intervals, and the length of paging listening intervals is the duration of a superframe (i.e. the length of 4 frames);
Step 702: terminal is according to the received frame number taking frame as the paging cycle of digit and paging displacement computing terminal and need the paging broadcast message place of resolving;
Due in the present embodiment, determine not by paging group informational message territory instruction time Hash parameter when consulting before Dynamic matrix control station and terminal, then terminal needs the frame number at the paging broadcast message place of resolving by following formulae discovery terminal:
Nlpaging_frame=(paging cycle*n+paging offset)mod q;
n={floor of[(Ncurrent_sup erframe*q-paging offset)/paging cycle]+1}mod
{ceil of[(2
p*q-paging offset)/paging cycle]}
In above formula, Npaging_frame represents the frame number for carrying described paging broadcast message;
Paging cycle represents with frame to be the paging cycle of digit;
Paging offset represents with frame to be the paging displacement of digit;
Ncurrent_sup erframe represents current super frame number;
P is expressed as the number of bits that Hyper Frame Number distributes, and the number of bits of distributing for Hyper Frame Number is at present generally 12;
Q represents the frame number that superframe comprises, and the frame number that current superframe comprises is 4.
Step 703: terminal resolves according to the frame number in the superframe calculated the paging broadcast message that corresponding frame comprises, then judge in the paging broadcast message received, whether to include the paging identifier mated with oneself, namely judge that whether this terminal is paged, if terminal paged (namely including the paging identifier mated with oneself in paging broadcast message), then terminal carries out the operation of location updating or network reentry according to the instruction in beep-page message.Otherwise terminal is monitored next time;
Wherein, when terminal position upgrades or network is reentried, the paging cycle comprised in the distance measurement request message sent and ranging response message and paging displacement should be in units of the frame of legacy network equally, further, the paging cycle in the distance measurement request message sent and ranging response message is identical with the bit number shared by paging displacement with paging cycle in conventional art with the bit number shared by paging displacement.If terminal does not have paged, then terminal calculates the Hyper Frame Number next time entering paging listening intervals, enters the unreachable state of paging.In addition, when terminal has data to need to send, terminal can carry out network reentry at any time, terminates idle mode in advance.
In above-described embodiment 1 to 3, terminal is when accessing Dynamic matrix control station, and the superframe header by Dynamic matrix control station broadcast transmission gets the paging identity type (namely paging is designated login ID or MAC Address Hash) supported at Dynamic matrix control station.After this, Dynamic matrix control station and terminal can consult to determine paging relevant parameter, such as, be terminal distribution in the first area at described Dynamic matrix control station be digit paging cycle and the paging displacement of frame or superframe, and whether by paging group informational message territory instruction time Hash parameter etc., negotiations process can see Fig. 8 particularly.
Or, Dynamic matrix control station can by the superframe header of transmission with indicating terminal, what Dynamic matrix control station was supported is conventional art mark or advanced technology mark, like this, terminal is according to the instruction in superframe header, paging identity type can be determined, such as, when what Dynamic matrix control station was supported is advanced technology mark, terminal can determine the advanced paging mark in advanced technology mark, thus determine paging identity type, and paging relevant parameter, first area as Dynamic matrix control station is terminal distribution be digit paging cycle and the paging displacement of frame or superframe, and whether by paging group informational message territory instruction time Hash parameter etc., terminal can be determined according to the pattern (optimum configurations as system default) of setting in advance.
Obviously, it is apparent to those skilled in the art that each step of the above-mentioned embodiment of the present invention can realize with general calculation element or the executable program code of calculation element.The present invention is not restricted to any specific hardware and software and combines.
The foregoing is only the preferred embodiments of the present invention, be not limited to the present invention, for a person skilled in the art, the present invention can have various modifications and variations.Within the spirit and principles in the present invention all, any amendment done, equivalent replacement, improvement etc., all should be included within protection scope of the present invention.
Claims (26)
1. a method for the terminal of paging idle mode, the method comprises:
Conventional Page information corresponding to the terminal entering idle mode is sent to this terminal by advanced network element equipment;
The conventional Page information of described advanced network element equipment corresponding to the terminal of wanted paging, determines that this wants the advanced paging information corresponding to the terminal of paging, carries out paging;
It is paging cycle and the paging displacement of digit that described conventional Page information comprises with frame;
Described advanced paging information comprises the Hyper Frame Number for call terminal;
The conventional Page information of described advanced network element equipment corresponding to the terminal of wanted paging, determine that this wants the advanced paging information corresponding to the terminal of paging, carry out paging and refer to:
Described advanced network element equipment take frame as paging cycle and the paging displacement of digit corresponding to the terminal of wanted paging, determines the superframe of call terminal, and on determined superframe paging want the terminal of paging.
2. the method for claim 1, is characterized in that,
Described advanced network element equipment take frame as paging cycle and the paging displacement of digit corresponding to the terminal of wanted paging, determines the superframe of call terminal, and on determined superframe paging want the terminal of paging to refer to:
Described advanced network element equipment take frame as the Hyper Frame Number that the paging cycle of digit and paging displacement determine call terminal corresponding to the terminal of wanted paging, if determined by paging group information territory instruction time Hash parameter between described advanced network element equipment and terminal, then described advanced network element equipment calculates the frame number of bearing call broadcast in the superframe being used for call terminal according to the paging mark of the terminal of wanted paging and time-domain Hash parameter, and respective frame in determined superframe sends described paging broadcast message.
3. the method for claim 1, is characterized in that,
Described advanced network element equipment take frame as paging cycle and the paging displacement of digit corresponding to the terminal of wanted paging, determines the superframe of call terminal, and on determined superframe paging want the terminal of paging to refer to:
Described advanced network element equipment take frame as the frame number that the paging cycle of digit and paging displacement determine for bearing call broadcast in the Hyper Frame Number of call terminal and this superframe corresponding to the terminal of wanted paging, and respective frame in determined superframe sends described paging broadcast message.
4. method as claimed in claim 2 or claim 3, is characterized in that,
In terminal access or when re-accessing described advanced network element equipment, the paging identity type that described advanced network element equipment is supported by advanced network element equipment described in superframe header indicating terminal, and consult to determine the first area of described advanced network element equipment to be terminal distribution with frame be the paging cycle of digit and paging displacement with terminal and whether by paging group identification information territory instruction time Hash parameter; Or
Described advanced network element equipment is conventional art by the paging type of superframe header indicating terminal advanced network element equipment support, and whether the first area setting in advance described advanced network element equipment is terminal distribution with frame as the paging cycle of digit and paging displacement and by paging group identification information territory instruction time Hash parameter.
5. method as claimed in claim 4, is characterized in that,
Only when described advanced network element equipment is determined by paging group identification information territory instruction time Hash parameter, described advanced network element equipment transmission time field Hash parameter in paging group identification information message gives described terminal.
6. method as claimed in claim 2 or claim 3, is characterized in that,
Described advanced network element equipment take frame as paging cycle and the paging displacement of digit according to the terminal of wanted paging, the Hyper Frame Number according to following formula determination call terminal:
N sup erframe=floor of[(paging cycle*n+paging offset)/q];
n={floor of[(Ncurrent_sup erframe*q-paging offset)/paging cycle]+1}mod;
{ceil of[(2
p*q-paging offset)/paging cycle]}
In above formula, N sup erframe represents the Hyper Frame Number of call terminal;
Paging cycle represents with frame to be the paging cycle of digit;
Paging offset represents with frame to be the paging displacement of digit;
Ncurrent_sup erframe represents current super frame number;
P represents that system is the number of bits that Hyper Frame Number distributes;
Q represents the frame number that superframe comprises.
7. method as claimed in claim 2, is characterized in that,
When the paging of described terminal is designated sign-on ID, described advanced network element equipment according to paging mark and time-domain Hash parameter, according to following formulae discovery be used for call terminal superframe in for carrying the frame number of described paging broadcast message:
Npaging_frame=DID mod m;
In above formula, Npaging_frame represents the frame number for carrying described paging broadcast message;
DID represents sign-on ID;
M represents time-domain Hash parameter.
8. method as claimed in claim 2, is characterized in that,
When the paging of described terminal is designated MAC address Hash, described advanced network element equipment according to paging mark and time-domain Hash parameter, according to following formulae discovery be used for call terminal superframe in for carrying the frame number of described paging broadcast message:
Npaging_frame=MAC address hash mod m;
In above formula, Npaging_frame represents the frame number for carrying described paging broadcast message;
MAC address hash represents MAC Address Hash;
M represents time-domain Hash parameter.
9. method as claimed in claim 3, is characterized in that,
Described Dynamic matrix control station according to the paging cycle and the paging displacement that take frame as digit, according in the superframe of following formulae discovery call terminal for carrying the frame number of described paging broadcast message:
Npaging_frame=(paging cycle*n+paging offset)mod q;
n={floor of[(Ncurrent_sup erframe*q-paging offset)/paging cycle]+1}mod
{ceil of[(2
p*q-paging offset)/paging cycle]}
In above formula, Npaging_frame represents the frame number for carrying described paging broadcast message;
Paging cycle represents with frame to be the paging cycle of digit;
Paging offset represents with frame to be the paging displacement of digit;
Ncurrent_sup erframe represents current super frame number;
P is expressed as the number of bits that Hyper Frame Number distributes;
Q represents the frame number that superframe comprises.
10. the method as described in any one of claims 1 to 3, is characterized in that,
Described advanced network element equipment is the Dynamic matrix control station including first area and second area, or for only including the Dynamic matrix control station of first area.
11. methods as claimed in claim 10, is characterized in that,
Described advanced network element equipment is identical with the bit number shared by conventional Page information in the bit number shared by conventional Page information in the interaction message between terminal and the interaction message between conventional network elements equipment and terminal, wherein, the interaction message between described advanced network element equipment and terminal comprises: go login request message, remove registration reply message, paging broadcast message, distance measurement request message and ranging response message.
12. methods as described in any one of claims 1 to 3, is characterized in that,
Terminal, in the process entering idle mode, receives the conventional Page information that described Dynamic matrix control station sends;
After described terminal enters idle mode, determine advanced paging information according to received conventional Page information, and monitor paging broadcast message according to determined advanced paging information.
13. methods as claimed in claim 12, is characterized in that,
Described terminal if when described terminal knows that location updating is carried out in paged requirement from described paging broadcast message, then carries out location updating after monitoring described paging broadcast message according to determined advanced paging information;
If know from described paging broadcast message paged requirement exit idle mode carry out network reentry time, then carry out network reentry; Do not have if know from described paging broadcast message paged, then enter the unreachable interval of paging.
The method of the terminal monitoring beep-page message of 14. 1 kinds of idle modes, the method comprises:
Terminal, in the process entering idle mode, receives the conventional Page information that Dynamic matrix control station sends;
After described terminal enters idle mode, determine advanced paging information according to received conventional Page information, and monitor paging broadcast message according to determined advanced paging information;
It is paging cycle and the paging displacement of digit that described conventional Page information comprises with frame;
Described advanced paging information comprises the Hyper Frame Number for call terminal;
Described terminal determines advanced paging information according to received conventional Page information, and refers to according to determined advanced paging information monitoring paging broadcast message:
Described terminal according to receive with frame be paging cycle and the paging displacement of digit, determine the superframe of call terminal, and monitor paging broadcast message on determined superframe.
15. methods as claimed in claim 14, is characterized in that,
Described terminal determines advanced paging information according to received conventional Page information, and refers to according to determined advanced paging information monitoring paging broadcast message:
Described terminal is according to the received Hyper Frame Number taking frame as the paging cycle of digit and paging displacement and determine call terminal, if determined by paging group informational message territory instruction time Hash parameter between described terminal and described advanced network element equipment, then described terminal calculates the frame number of bearing call broadcast in the superframe being used for call terminal according to the paging mark of terminal and time-domain Hash parameter, and respective frame in determined superframe monitors described paging broadcast message.
16. methods as claimed in claim 14, is characterized in that,
Described terminal determines advanced paging information according to received conventional Page information, and refers to according to determined advanced paging information monitoring paging broadcast message:
Described terminal according to the received frame number taking frame as the paging cycle of digit and paging displacement and determine for bearing call broadcast in the Hyper Frame Number of call terminal and this superframe, and respective frame in determined superframe monitors described paging broadcast message.
17. methods as described in claim 15 or 16, is characterized in that,
Described terminal according to received take frame as paging cycle and the paging displacement of digit, the Hyper Frame Number according to following formula determination call terminal:
N sup erframe=floor of[(paging cycle*n+paging offset)/q];
n={floor of[(Ncurrent_sup erframe*q-paging offset)/paging cycle]+1}mod;
{ceil of[(2
p*q-paging offset)/paging cycle]}
In above formula, N sup erframe represents the Hyper Frame Number of call terminal;
Paging cycle represents with frame to be the paging cycle of digit;
Paging offset represents with frame to be the paging displacement of digit;
Ncurrent_sup erframe represents current super frame number;
P is expressed as the number of bits that Hyper Frame Number distributes;
Q represents the frame number that superframe comprises.
18. methods as claimed in claim 15, is characterized in that,
When the paging of described terminal is designated sign-on ID, described terminal according to paging mark and time-domain Hash parameter, according to following formulae discovery be used for call terminal superframe in for carrying the frame number of described paging broadcast message:
Npaging_frame=DID mod m;
In above formula, Npaging_frame represents the frame number for carrying described paging broadcast message;
DID represents sign-on ID;
M represents time-domain Hash parameter.
19. methods as claimed in claim 15, is characterized in that,
When the paging of described terminal is designated MAC address Hash, described terminal according to paging mark and time-domain Hash parameter, according to following formulae discovery be used for call terminal superframe in for carrying the frame number of described paging broadcast message:
Npaging_frame=MAC address hash mod m;
In above formula, Npaging_frame represents the frame number for carrying described paging broadcast message;
MAC address hash represents MAC Address Hash;
M represents time-domain Hash parameter.
20. methods as claimed in claim 16, is characterized in that,
Described terminal according to received take frame as paging cycle and the paging displacement of digit, according in the superframe of following formulae discovery call terminal for carrying the frame number of described paging broadcast message:
Npaging_frame=(paging cycle*n+paging offset)mod q;
n={floor of[(Ncurrent_sup erframe*q-paging offset)/paging cycle]+1}mod
{ceil of[(2
p*q-paging offset)/paging cycle]}
In above formula, Npaging_frame represents the frame number for carrying described paging broadcast message;
Paging cycle represents with frame to be the paging cycle of digit;
Paging offset represents with frame to be the paging displacement of digit;
Ncurrent_sup erframe represents current super frame number;
P is expressed as the number of bits that Hyper Frame Number distributes;
Q represents the frame number that superframe comprises.
The advanced network element equipment of the terminal of 21. 1 kinds of paging idle modes, is characterized in that, this equipment comprises transmitting element and processing unit, wherein:
Described transmitting element, for sending to this terminal by the conventional Page information corresponding to the terminal entering idle mode;
Described processing unit, when needing the terminal of paging idle mode, for the conventional Page information corresponding to paged terminal, determining the advanced paging information corresponding to paged terminal, carrying out paging;
It is paging cycle and the paging displacement of digit that described conventional Page information comprises with frame;
Described advanced paging information comprises the Hyper Frame Number for call terminal;
The conventional Page information of described processing unit corresponding to the terminal of wanted paging, determine that this wants the advanced paging information corresponding to the terminal of paging, carry out paging and refer to:
Described processing unit, take frame as the Hyper Frame Number that the paging cycle of digit and paging displacement determine call terminal corresponding to paged terminal, and on determined superframe paging want the terminal of paging.
22. equipment as claimed in claim 21, is characterized in that,
Described processing unit: take frame as the Hyper Frame Number that the paging cycle of digit and paging displacement determine call terminal corresponding to paged terminal, if determined by paging group information territory instruction time Hash parameter between described advanced network element equipment and terminal, then calculate the frame number of bearing call broadcast in the superframe being used for call terminal according to the paging mark of paged terminal and time-domain Hash parameter, and respective frame in determined superframe sends described paging broadcast message;
Wherein, the paging mark of paged terminal is consulted to determine by described advanced network element equipment and terminal, or is determined by described advanced network element equipment.
23. equipment as claimed in claim 22, is characterized in that,
Described processing unit, take frame as the frame number that the paging cycle of digit and paging displacement determine for bearing call broadcast in the Hyper Frame Number of call terminal and this superframe corresponding to paged terminal, and respective frame in determined superframe sends described paging broadcast message.
24. equipment as described in any one of claim 21 to 23, is characterized in that,
Described advanced network element equipment is the Dynamic matrix control station including first area and second area, or for only including the Dynamic matrix control station of first area.
The system of the terminal of 25. 1 kinds of paging idle modes, is characterized in that, this system comprises terminal and the advanced network element equipment as described in any one of claim 21 to 23, wherein:
Described advanced network element equipment, for sending to this terminal by the conventional Page information corresponding to the terminal entering idle mode; And when needing the terminal of paging idle mode, for the conventional Page information corresponding to paged terminal, determining the advanced paging information corresponding to paged terminal, carrying out paging;
Described terminal, in the process entering idle mode, receives the conventional Page information that described Dynamic matrix control station sends; And after entering idle mode, determine advanced paging information according to received conventional Page information, and monitor the paging of described advanced network element equipment according to determined advanced paging information;
It is paging cycle and the paging displacement of digit that described conventional Page information comprises with frame;
Described advanced paging information comprises the Hyper Frame Number for call terminal;
The conventional Page information of described advanced network element equipment corresponding to the terminal of wanted paging, determine that this wants the advanced paging information corresponding to the terminal of paging, carry out paging and refer to:
Described advanced network element equipment take frame as paging cycle and the paging displacement of digit corresponding to the terminal of wanted paging, determines the superframe of call terminal, and on determined superframe paging want the terminal of paging.
The system of the terminal of 26. 1 kinds of paging idle modes, is characterized in that, this system comprises terminal and advanced network element equipment as claimed in claim 24, wherein:
Described advanced network element equipment, for sending to this terminal by the conventional Page information corresponding to the terminal entering idle mode; And when needing the terminal of paging idle mode, for the conventional Page information corresponding to paged terminal, determining the advanced paging information corresponding to paged terminal, carrying out paging;
Described terminal, in the process entering idle mode, receives the conventional Page information that described Dynamic matrix control station sends; And after entering idle mode, determine advanced paging information according to received conventional Page information, and monitor the paging of described advanced network element equipment according to determined advanced paging information;
It is paging cycle and the paging displacement of digit that described conventional Page information comprises with frame;
Described advanced paging information comprises the Hyper Frame Number for call terminal;
The conventional Page information of described advanced network element equipment corresponding to the terminal of wanted paging, determine that this wants the advanced paging information corresponding to the terminal of paging, carry out paging and refer to:
Described advanced network element equipment take frame as paging cycle and the paging displacement of digit corresponding to the terminal of wanted paging, determines the superframe of call terminal, and on determined superframe paging want the terminal of paging.
Priority Applications (3)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201010188889.2A CN102256340B (en) | 2010-05-18 | 2010-05-18 | A kind of method of terminal of paging idle mode, advanced network element equipment and system |
JP2013510479A JP5514367B2 (en) | 2010-05-18 | 2010-12-14 | Method of paging idle mode terminal, advanced net element equipment and system |
PCT/CN2010/079774 WO2011143909A1 (en) | 2010-05-18 | 2010-12-14 | Method, advanced network element device and system for paging terminal in idle mode |
Applications Claiming Priority (1)
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CN201010188889.2A CN102256340B (en) | 2010-05-18 | 2010-05-18 | A kind of method of terminal of paging idle mode, advanced network element equipment and system |
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JP (1) | JP5514367B2 (en) |
CN (1) | CN102256340B (en) |
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CN104221452A (en) * | 2012-03-27 | 2014-12-17 | 英特尔公司 | Techniques to manage paging cycles for machine-to-machine devices |
EP3043607B1 (en) | 2013-09-27 | 2018-11-07 | Huawei Technologies Co., Ltd. | Method and device for paging a user equipment |
EP3200488B1 (en) * | 2014-10-20 | 2020-04-15 | Huawei Technologies Co., Ltd. | Paging method and device |
Citations (3)
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CN101155402A (en) * | 2006-09-30 | 2008-04-02 | 北京三星通信技术研究有限公司 | Device and method for fining identification transmission in paging control channel |
CN101483889A (en) * | 2008-01-09 | 2009-07-15 | 华为技术有限公司 | Method and apparatus for paging user |
WO2009151269A2 (en) * | 2008-06-11 | 2009-12-17 | Lg Electronics Inc. | Method for receiving and transmitting a paging message |
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US20090207790A1 (en) * | 2005-10-27 | 2009-08-20 | Qualcomm Incorporated | Method and apparatus for settingtuneawaystatus in an open state in wireless communication system |
JP5496117B2 (en) * | 2008-03-06 | 2014-05-21 | テレフオンアクチーボラゲット エル エム エリクソン(パブル) | Quick paging receiver in a telecommunications system |
US8538464B2 (en) * | 2008-05-06 | 2013-09-17 | Telefonaktiebolaget L M Ericsson (Publ) | Code word assignment methods for quick paging in telecommunication systems |
KR20090127031A (en) * | 2008-06-04 | 2009-12-09 | 삼성전자주식회사 | Method and apparatus for supporting idle mode of mobile station in wireless communicaion system |
US8259747B2 (en) * | 2008-07-07 | 2012-09-04 | Samsung Electronics Co., Ltd. | Effective idle mode for advanced wireless system |
KR20100019300A (en) * | 2008-08-10 | 2010-02-18 | 엘지전자 주식회사 | Method of performing location update in idle mode |
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CN101155402A (en) * | 2006-09-30 | 2008-04-02 | 北京三星通信技术研究有限公司 | Device and method for fining identification transmission in paging control channel |
CN101483889A (en) * | 2008-01-09 | 2009-07-15 | 华为技术有限公司 | Method and apparatus for paging user |
WO2009151269A2 (en) * | 2008-06-11 | 2009-12-17 | Lg Electronics Inc. | Method for receiving and transmitting a paging message |
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JP5514367B2 (en) | 2014-06-04 |
CN102256340A (en) | 2011-11-23 |
JP2013526806A (en) | 2013-06-24 |
WO2011143909A1 (en) | 2011-11-24 |
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