CN1228231A

CN1228231A - Method of freeing voice channel in radio telecommunications network

Info

Publication number: CN1228231A
Application number: CN 97196843
Authority: CN
Inventors: W·罗
Original assignee: Telefonaktiebolaget LM Ericsson AB
Current assignee: Clastres LLC; WIRELESS PLANET LLC
Priority date: 1996-07-29
Filing date: 1997-07-11
Publication date: 1999-09-08
Anticipated expiration: 2017-07-11
Also published as: GB9901707D0; AU724174B2; WO1998005175A2; GB2331673B; WO1998005175A3; CN1100457C; GB2331673A; DE19781897B4; AU3713197A; DE19781897T1

Abstract

公开了用于根据需要并且不丢弃正在进行呼叫在蜂窝电信系统的拥塞的第一网孔(网孔B)中释放话音信道的一种方法，此方法通过识别与拥塞的第一网孔相邻的第二网孔(网孔B)，识别操作在拥塞的第一网孔中靠近第二网孔边界的话音信道上的第一移动站(M2)并强迫第一移动站从拥塞的第一网孔越区切换至第二网孔开始，从而释放此话音信道。如果第二网孔也拥塞，此方法识别与第二网孔相邻的第三网孔(网孔E)并识别操作在靠近第三网孔边界的第二网孔中的第二移动站(M3)，此方法随后强迫第二移动站从第二网孔越区切换至第三网孔，从而释放位于第二网孔中的第二话音信道。最后，此方法利用第二话音信道强迫第一移动站从拥塞的第一网孔越区切换至第二网孔，从而释放在拥塞的第一网孔中的第一话音信道。A method is disclosed for releasing a voice channel in a congested first cell (cell B) of a cellular telecommunication system as needed and without dropping an ongoing call by identifying the first cell adjacent to the congested first cell. A second cell (cell B) that identifies a first mobile station (M2) operating on a voice channel in the congested first cell near the border of the second cell and forces the first mobile station to move from the congested first cell Handoff to the second cell begins, thereby releasing the voice channel. If the second cell is also congested, the method identifies a third cell (cell E) adjacent to the second cell and identifies a second mobile station (M3) operating in the second cell near the border of the third cell , the method then forces the second mobile station to hand off from the second cell to the third cell, thereby freeing the second voice channel in the second cell. Finally, the method uses the second voice channel to force the first mobile station to hand off from the congested first cell to the second cell, thereby freeing the first voice channel in the congested first cell.

Description

The method of freeing voice channel in radio telecommunication network

The present invention relates to radio telecommunications system, and relate more specifically to quicken handover so that discharge the method for voice channel in the radio telecommunication network.

In existing cellular radio telecommunications network, the mobile subscriber of operation mobile radio station can roam into second mesh from first mesh when carrying out call.If in second mesh, have enough signal strength signal intensities, and if in second mesh, have available voice channel, this calling can be handed over to second mesh from first mesh.If in second mesh, do not have enough signal strength signal intensities or available voice channel, when the signal strength signal intensity from first mesh becomes too weak so that can not keep this calling, may lose this calling.

Similarly, attempt to insert cellular system so that originating call and when this mobile radio station was arranged in wherein mesh and is using all voice channels, access may be rejected at mobile radio station.In some existing cellular systems, be called the directed method of examination again and can improve the chance that successfully inserts cellular system.But attempt to insert cellular system and do not have a voice channel time spent at mobile radio station, this system attempts inserting the adjoining cells of appointment, and only in the time can not inserting the adjoining cells of appointment, system inserts and just is rejected.

Though do not have known to prior art instruction such as the solution of above-mentioned deficiency disclosed herein and shortcoming, the U.S. Patent number 4670899 of granting people such as Brody (Brody) discuss with discussed in this article in have the theme of some relations.Brody discloses the system and method for the call load between the mesh that is used for balance cellular mobile radiotelephone system.The channel of periodically determining each mesh uses, and this system attempts calling out from having mesh that higher voice channel takies level and is handed over to have and hangs down the adjoining cells that voice channel takies level.Can block and have the mesh that higher voice channel takies level, so that do not allow to be handed over to those mesh, have the mesh that higher voice channel takies level and can be used for to keep voice channel for the new mobile transceiver of calling out that starts yet for the handover of input by the refusal voice channel.Therefore, on predetermined space, Brody attempts again that the balance voice channel takies load, even in whole cellular system distribution load.

Yet if mesh becomes congested fully during the predetermined time interval of Brody, handover and system insert and are rejected, and Brody does not instruct or advises again balanced load and is the response request or the system of freeing voice channel in real time as required.This shows that aforesaid list of references is also unexposed or advise all as described herein and claimed methods.

In order to overcome the shortcoming of existing scheme, it is useful having for response request or discharging the method that voice channel in the congested mesh do not abandon ongoing calling as required in real time.The invention provides such method.

In one aspect, the present invention abandons ongoing calling as required and not, in cellular telecommunication system, discharge the method for the voice channel in the first congested mesh, the method comprises the steps: to discern second mesh adjacent with the first congested mesh, the mobile radio station of identifying operation in the first congested mesh, and force mobile radio station to switch to second mesh, thereby freeing voice channel from the first congested mesh.

In another aspect, the present invention abandons ongoing calling according to demand and not, in cellular telecommunication system, discharge the method for first voice channel in the first congested mesh, the method is by identification and the congested second adjacent mesh of first mesh, discern three mesh adjacent with second mesh, first mobile radio station and identifying operation second mobile radio station in second mesh of identifying operation in the first congested mesh begins, be to determine whether second mesh is congested after these steps, force second mobile radio station to be handed over to the 3rd mesh at definite second mesh when congested, thereby discharge second voice channel that is arranged in second mesh from second mesh.At last, the method utilizes second voice channel to force first mobile radio station to be handed over to second mesh from the first congested mesh, thereby discharges first voice channel in the first congested mesh.

By in conjunction with appended explanation, consult following accompanying drawing and will understand the present invention better, and many purposes of the present invention and advantage will become more apparent for those skilled in the art, wherein:

Fig. 1 wherein implements several schematic diagrames in abutting connection with mesh and mobile radio station in the cellular radio telecommunication system of the present invention;

Fig. 2 is several schematic diagrames in abutting connection with mesh and mobile radio station in the cellular radio telecommunication system of invention having been implemented recurrence (recursive) enhancing;

Fig. 3 A-3B is illustrated in to quicken the flow chart of steps carried out by the present invention during the handover procedure; With

Fig. 4 A-4B is illustrated in the flow chart of steps of being carried out by the present invention in the recurrence acceleration handover procedure.

Fig. 1 wherein implements several schematic diagrames in abutting connection with mesh and mobile radio station in the cellular radio telecommunication system of the present invention.Mesh is labeled as mesh A to mesh E, and two signal mobile radio stations that operate in the mesh are labeled as M1 and M2.

When the area of coverage in mobile radio station roaming out of net hole, the signal strength signal intensity that must measure adjoining cells is to determine that mobile radio station is reselect specific adjacent service mesh (" mesh is reselected " in the idle pulley) still should be handed over to one of adjoining cells (" handover " in the busy pattern).The location, checking (Presence Verification) and handover to occur be to deliver when keeping high signal quality everywhere when mobile radio station is mobile in cellular network to call out desired three processes between each mesh.The purpose of positioning function is that to search for specific mobile radio station be the mesh that the best radio receiving feature is arranged, the purpose that authentication function occurs is in the appearance of checking mobile radio station in selected mesh before the handover, and the purpose of hand-off functionality is according to positioning function and authentication function is sent to ongoing calling this calling of processing preferably safely from a mesh another mesh occurs.Also can in same mesh, be handed over to one other channel or such as between the grand mesh of rete cutaneum hole and covering with carry out handover from overlay mesh.

Mobile radio station in busy for being in (calling out) operator scheme has two kinds of selectable execution positioning functions and identification when should begin the method for handover, and a kind of method uses mobile radio station assisted hand-off (MAHO) and mobile radio station to carry out positioning function.

When mobile radio station begins to operate on the digital service channel, mobile radio station is measured the quality that radio link is connected by the error rate of measuring on the channel of its distribution with received signal intensity, and this mobile radio station is also measured the signal quality from the adjoining cells channel of tabulation in measuring sequence of base station.The channel that is listed in the measuring sequence (MAHO table) can upgrade and download to each mobile radio station as required.This MAHO table can customize for each mobile radio station according to predetermined criterion.Mobile radio station is periodically measured the received signal intensity of each channel of listing and the MAHO measurement is turned back to the base station in the MAHO table, the base station receives the channel quality message of its adjoining cells and compares these channels mutually.The signal strength signal intensity and the propagation path loss (transmission power level deducts the signal strength signal intensity of reception) of reception considered in the base station.Parameter in the base station determines whether hand-off request should send to mobile switching centre (MSC).

The another kind of localization method that is called classical localization method does not use MAHO, and by determining that radio link quality is carried out positioning function in serving BS and the adjacent base station thereof, serving BS is measured the quality that radio link connects by the received signal intensity of measuring on the service channel, and serving BS is then considered received signal intensity and propagation path loss (transmission power level deducts received signal intensity).Parameter in the base station is used for subsequently determining whether hand-off request should send to MSC, and MSC then asks to measure from the adjoining cells and the service channel of outer mesh, and wherein each mesh has the signal strength signal intensity receiver that is used for this purpose.The foundation that MSC arranges adjoining cells and outer mesh subsequently is used for the candidate list of handover.Mesh far away is not included in the candidate's mesh on the MAHO table usually.For example, for mesh A, mesh B can be the candidate's mesh on the MAHO table, and mesh C or mesh D then are not.

In the cellular system that does not utilize MAHO, the location is installed in each base station with demo plant, and the location can be measured by the signal strength signal intensity on each frequency of base station and adjoining cells operation thereof independently with demo plant.

The appearance of checking mobile radio station after localization process and in the mesh of carrying out the optimal candidate mesh of being appointed as handover with checking before the handover occurs, checking occurs according in the base station of adjoining cells, carrying out from the instruction of service MSC.In the time of on operating in the digital service channel, the old channel number of this mobile radio station, speed, time slot and digital verification colour code (DVCC) are provided for the base station in candidate's mesh of handover, and order this base station to verify the appearance of this mobile radio station on old channel.In candidate's handover mesh, utilize its position and demo plant to carry out the last signal strength measurement of this mobile station signal, and if this signal strength signal intensity cross predetermined threshold, then begin handover.In the time of on operating in analog voice channel, measure signal intensity on the voice channel that is used for service channel monitoring audible sound (SAT), this authorization information reports to NSC.

Can utilize MAHO checking carry out to occur or do not utilize MAHO to carry out positioning function, utilize location and demo plant in candidate's the base station of handover mesh confirmatory measurement to occur.

The location, checking and the top description of hand-off functionality occur and described handover in the overlay area of single MSC.Handover also can be crossed convertor boundary and carry out between mesh among the MSC and the outside mesh among another MSC.Except carrying out the location, occurring checking and the hand-off functionality, support the cellular network of the inter-exchange handover of mobile radio station must between included MSC, exchange outside mesh information.The standard agreement that is used for the inter-exchange signaling is IS-41, and this agreement is introduced in this as a reference.When between MSC, carrying out the inter-exchange handover, use known IS-41 message to come between switch, to transmit the desired information of handover of calling out.These message can comprise that handover measurement request (Hahd Meas Req) message, facility orientation (Fac Dir) message, handover return (Hahd Back) message and be handed off to third party (Hand Third) message.

The handover measurement request message is used for asking the location survey at the outside mesh of the localization method of classics, with the outside mesh of the optimal candidate that is identified for handover.This message also is used for asking the appearance authorization information of adjacent external mesh, with the checking mobile radio station in those mesh appearance and definite optimal candidate outside mesh.If service MSC determines to be handed off to an outer mesh among the adjacent MSC, then ask voice channel.

When since in the specific mesh voice channel congested and must abandon ongoing mobile radio station and call out maybe and must the refusal mobile radio station to call out when inserting, utilize method of the present invention that voice channel can be utilized.In fact, the present invention's " bump (bump) " utilizes another mobile radio station of voice channel, and utilizes the voice channel that discharges to provide service for the calling or the unaccepted access that will be dropped.Before giving an order with handover mechanism in existing location, be handed over to another mesh (that is the handover of acceleration) by the bump mobile radio station and be retained to by forcing by the service of bump mobile radio station with idle voice channel.

Referring to Fig. 1, M1 just roams into mesh B from mesh A again, but does not have idle voice channel in mesh B.Therefore, the inventive method is quickened (forcing) M2 and is handed over to mesh C or mesh D so that for M1 discharges voice channel the mesh B, the situation of calling out access is similar from mesh B.Insert cellular system if idle mobile radio station is arranged in mesh A and attempts at that, the present invention can quicken M2 from mesh B be handed over to mesh C or mesh D in case idle for this reason mobile radio station as orientation again call attempt be this system of access and discharge voice channel the mesh B.Selectively, the voice channel that discharges among the mesh B can be used for quickening the handover of mobile radio station among the mesh A, thereby discharges the voice channel of the mesh A can be used for serving new calling.

For Digital Cellular System, system has had candidate's mesh table, and each candidate's mesh has its MAHO signal measurement separately.For analogue system, picked up signal ionization meter from the adjoining cells of each mobile radio station periodically.In addition, enforcement of the present invention is identical.The present invention selects to have enough signal strength signal intensities that is used to serve (SS-SUFF) but is not enough to trigger candidate's mesh of handover (SS-HANDOFF), and the present invention also can select to have SS-HANDOFF but not trigger the mesh of handover owing to for example stop the control of handover alternately.In addition, the present invention can use the 3rd signal strength threshold value to represent to quicken the desired minimum signal strength of handover (SS-AHOFF), and this SS-AHOFF value is arranged between SS-SUFF and the SS-HANDOFF.When SS-AHOFF is set to equal SS-SUFF,, just allow the handover that quickens as long as there are enough signal strength signal intensities to be used for wanting maintained service.When SS-AHOFF is set to equal SS-HANDOFF, forbid the handover that quickens effectively.Therefore, system operator can utilize the SS-AHOFF thresholding to allow or forbid quickening handover, and the reduction amount that is allowed during the handover of control acceleration.

Can be by scanning mobile radio stations all in the congested mesh and selecting to have the signal strength signal intensity of the highest reception or a mobile radio station that MAHO measures is selected the mobile radio station that clashes into.For the mobile radio station calling that forces handover, speech quality has some to be reduced, but this reduction can be restricted to arbitrarily small quantity by adjusting the SS-AHOFF threshold value as mentioned above.

Say that from structure quickening to be handed off to idle voice channel (AHFVC) function is the part that voice channel is selected (VCS) function.Below table 1 be illustrated in call out start, the position of VCS in call terminations and the handover case.

Call phase	Message source	The message destination	Explanation
Call phase	Message source	The message destination	Explanation	MS starts	MS-system	System-MS	(voice channel selection) expression VC starts
MS terminating	System MS-system	MS system-MS	Paging page response (voice channel selection) expression VC	MS starts	MS-system	System-MS	(voice channel selection) expression VC starts
MS terminating	System MS-system	MS system-MS		Handover	System MS-system	MS system-MS	Measured channel channel measurement (voice channel selection) handover

Table 1: voice channel selection function in each call phase

The AHFVC function is the general module that uses during the VCS in all above-mentioned call phases.

The AHFVC function is applied in each mesh and is divided into two parts: continuously the background parts of carrying out and only in the time will carrying out the acceleration handover, just carry out require part.The major part of background parts is used to determine when with beginning mobile radio station handover in MAHO handles.As mentioned above, the signal strength signal intensity that receives the channel of moving station measuring from the MAHO table that offers them with measuring sequence, and the MAHO measurement returned to the base station.On the time of any appointment, in the mesh of appointment, measure to utilize by the MAHO that provides of mobile radio station of service and represent such as the table of following table 2.P11 to PMN represent by each mobile radio station for its separately the dBm that carries out of each adjoining cells in the MAHO table be the exemplary measurement of power levels of unit.

	?NCELL ₁	?NCELL ₂	…	?NCELL _J	…	NCELL _N
	?NCELL ₁	?NCELL ₂	…	?NCELL _J	…	NCELL _N	??MS ₁	?P ₁₁	?P ₁₂		?PI _N
?MS ₂	?P ₂₁	?P ₂₂		?P2 _J			??MS ₁	?P ₁₁	?P ₁₂		?PI _N
?MS ₂	?P ₂₁	?P ₂₂		?P2 _J			?MS ₃	?P ₃₁
??…							?MS ₃	?P ₃₁
??…							?MS _I	?P ₁₁		PI _J	?P _IN
?…							?MS _I	?P ₁₁		PI _J	?P _IN
?…							?MS _M	?P _M1			?P _MN

Table 2: the interior MAHO of mesh measures

A N adjoining cells of specifying mesh of M mobile radio station of table 2 expression service, a P _IJExpression is by I mobile radio station (MS _I) at J adjoining cells (NCELL _J) the last received signal intensity of measuring.If can't help the moving station measuring adjoining cells, then the corresponding power level of this adjoining cells is input as-∞ in this table.Utilize the MAHO of table 2 to measure, the background parts of AHFVC function can be discerned the mobile radio station with maximum received signal strength of each adjoining cells by the maximal term of determining every row, and is as shown below:

MAX-Level _J=MAX _I:1-M(PI _J)

Obtain adjoining cells (for example, NCELL _J) mobile radio station of the highest received signal intensity that reads is to quicken to be handed off to NCELL _JIdeal candidates person, such mobile radio station is expressed as: CAND-AH _J, acceleration is handed off to the candidate of mesh J.Therefore, if P _IJ=MAX-Level _J, CAND-AH then _J=MS1.

Given each adjoining cells NCELL ₁To NCELL _NMAX-Level (maximum level), the background parts of AHFVC function forms the adjoining cells table of ordering, all adjoining cells satisfy and to be used to quicken the SS-AHOFF criterion of handover, and all adjoining cells sort to successively decrease in proper order according to the MAX-Level value of this mesh:

Sorted-Neighbor-List (the adjoining cells table of ordering)={ (Cell _A, Cell _B, Cell _C..., MAX-Level wherein _A〉=MAX-Level _B〉=MAX-level _C〉=

When needs quicken handover, carry out the part that requires of AHFVC function, the identification of the output of this part adjoining cells that to be mobile radio station be handed off to the mobile radio station that should force identification.The adjoining cells table of not considered inputs to and requires part.If Kong Xian mobile radio station was just being attempted connecting system in congested mesh in the past, the mesh table of eliminating can comprise the mesh that wherein directed examination has again been attempted and failed.For the mobile radio station that requires to be handed off to congested mesh, get rid of the mesh table and can comprise and wherein run into the congested mesh of voice channel.

Given Sorted-Neighbor-List and eliminating table of deriving by background parts, require part to calculate the difference table by deduct the eliminating table from Sorted-Neighbor-List, this result is the classification chart of the adjoining cells that can attempt being handed off to: Sorted-Neighbor-list={ Cell _{A '}Cell _{B '}Cell _{C '}} ' where

MAX-level _A≥MAX-level _B≥MAX-level _C2…

In the situation of example, first quickens the NCELL in the whole adjoining cells table that the handoff candidate mesh can be a table 2 _J, then force the desirable mobile radio station of handover to be: CAND-AH _J=MS _I

Therefore, at mesh Cell _JIn be that MSI attempts handover.If handover is successful, then freeing voice channel.If handover is unsuccessful, then next attempt second mesh in the AHFVC table, this handles continuation, until handover that success is arranged or the most AHFVC table of examination.

In the analogue system situation, as discussed above, mobile radio station does not provide channel measurement to system.On the contrary, each base station comprises that the signal strength signal intensity receiver is to monitor the signal level of the voice channel frequency of using in the adjoining cells.When the signal quality of mobile radio station in the service mesh drops to predetermined threshold when following, the signal level measuring of system's poll adjoining cells to provide each adjoining cells to receive on the voice channel of this mobile radio station of service.Have the adjoining cells of the signal strength signal intensity of high reception and represent the optimal candidate mesh of handover.If preferred mesh can not call accepted because voice channel is congested, then also can attempt being handed off to the adjoining cells of low received signal intensity.

In order to implement the present invention, a mesh must periodically obtain the received signal intensity level for each its adjoining cells of mobile radio station poll of its service.This poll is similar to the structure of MAHO table, but these channel measurements are up links and provide by system rather than by mobile radio station.Periodic signal strength values is used for compile list 2 subsequently.

Fig. 2 represents that wherein recurrence strengthens several schematic diagrames in abutting connection with mesh and mobile radio station in the enforcement cellular radio telecommunication system of the present invention.Recurrence refers to repeatedly use the ability of AHFVC function in needing each mesh of voice channel, generate the recurrent chain of handover.When mobile radio station M1 begins when mesh A roams to mesh B, require to be handed off to mesh B.If there is not available voice channel in mesh B, then AHFVC function identification is used to quicken the mobile radio station M2 of handover, and identification mesh C and mesh D are candidate's mesh of handover.If mesh C and mesh D are congested, then the AHFVC function recursively is applied to the candidate (that is first element of AHFVC table) of tool potentiality.In example shown in Figure 2, this candidate is mesh D, and the AHFVC function is discerned the mobile radio station M3 that is used to quicken handover subsequently, and identification mesh E is candidate's mesh of handover.If voice channel is available in mesh E, then attempts mobile radio station M3 and be handed off to mesh E.If success, it is available then making voice channel in mesh D, this voice channel is used for mobile radio station M2 subsequently and is handed off to mesh D from mesh B, and this handover discharges conversely and is used for mobile radio station M1 is handed off to mesh B from mesh A voice channel among the mesh B.

When recursively using the AHFVC function, adjoining cells must be geographically progressively away from the first service mesh, and the eliminating table of the mesh that this has considered in recurrent chain before utilizing and eliminating from the AHFVC table is realized.Thereby the eliminating table that sends the next stage recurrence to is one and offers the eliminating table union of the requirement part of AHFVC function with other AHFVC table of current level.

Fig. 3 A-3B is illustrated in to quicken the flow chart of steps carried out by the present invention during the handover procedure.If wherein implementing cellular telecommunication system of the present invention is digital system, as determined at step 3O, this program moves on to step 31, collects MAHO and measure in step 31 interested mesh from the mobile radio station that service is provided for it.If this cellular system is not digital (that is, simulating), then in the received signal intensity (RSS) of step 32 service mesh for serviced its adjoining cells of mobile radio station poll of service mesh.Program moves on to step 33 subsequently, and the background parts of AHFVC function compiles the RSS value table of serviced mobile radio station and adjoining cells in step 33.In step 34, the AHFVC function derive to satisfy the Sorted-Neighbor-List of candidate's mesh of the ordering of the SS-AHOFF thresholding that is used to quicken handover.In step 35, from before when attempting handover, find by congested mesh and derive the eliminating table the mesh that inserts of the not acquisition system that tries again from its orientation, this eliminating table inputs to the part that requires of AHFVC function subsequently in step 36.Calling when requiring part, at first checking to determine whether Sort-Neighbor-List is sky (promptly not having the MAX-Level item to satisfy the SS-AHOFF thresholding) at step 36A.If like this, then the AHFVC function can not continue, and returns failure result.In step 37, the requirement of AHFVC function part derives the AHFVC table by deduct the eliminating table from Sorted-Neighbor-List.If the AHFVC table is empty (because Sorted-Neighbor-List is the subclass of eliminating table) in step 37A, then the AHFVC function can not continue, and returns failure result at step 37B.Otherwise this program then moves on to the step 38 of Fig. 3 B.

In step 38, program is provided with i=1.In step 39, then attempt being handed off to the Celli of AHFVC table.In step 41, determine whether handover is successful.If success, then program moves on to step 42, in step 42, returns the voice channel of release so that use.If unsuccessful at step 41 handover, then program moves on to step 43, determines whether to attempt being handed off to all mesh in the AHFVC table.If then program moves on to step 44, return failure.If also do not attempt being handed off to all mesh in the AHFVC table, then program moves on to step 45 and the next mesh that the i=i+1 program turns back to step 39 subsequently and attempts being handed off to the AHFVC table is set, this continuation that circulates is until freeing voice channel or unsuccessful all mesh of attempting being handed off to the AHFVC table.

Fig. 4 A-4B is illustrated in the flow chart of steps of being carried out by the present invention during the acceleration handover procedure of recurrence.If wherein implementing cellular telecommunication system of the present invention is digital system, as determined in step 40, this program moves on to step 41, collects MAHO in the serviced mobile radio station in step 41 from interested mesh and measures.If this cellular system is not digital (that is, simulating), then serve mesh in the received signal intensity (RSS) of step 42 for serviced its adjoining cells of mobile radio station poll of service mesh.Program moves on to step 43 subsequently, and in step 43, the background parts of AHFVC function compiles the RSS value table of serviced mobile radio station and adjoining cells.In step 44, the AHFVC function derive to satisfy the Sorted-Neighbor-List of the ordering candidate mesh of the SS-AHOFF signal strength threshold that is used to quicken handover.At step 44A, the recurrence control counter is set to zero and represents also not take place recurrence.In step 45, from before when attempting handover, find by congested mesh and derive the eliminating table the mesh that inserts of the not acquisition system that tries again from its orientation, this eliminating table inputs to the part that requires of AHFVC function subsequently in step 46.When calling this and require part, at first in step 46A, check to determine whether sorted-Neighbor-List is sky (that is, not having the MAX-Level item to satisfy the SS-AHOFF standard).If like this, the AHFVC function can not continue, and returns failure result.In step 47, the requirement of AHFVC function part derives the AHFVC table by deduct the eliminating table from Sorted-Neighbor-List.If the AHFVC table is empty (because Sorted-Neighbor-List is the subclass of eliminating table), then the AHFVC function can not continue, and returns failure result at step 47A.Otherwise program moves on to the step 48 of Fig. 4 B.

In step 48, program is provided with i=1.In step 49, then attempt being handed off to the Cell of AHFVC table _iIn step 51, determine whether handover is successful.If success, then program moves on to step 52, returns the voice channel of release so that use.If handover is unsuccessful in step 51, then program moves on to step 53, determines whether to attempt being handed off to all mesh in the AHFVC table.If do not attempt being handed off to all mesh in the AHFVC table, then program moves on to step 54 and i=i+1 is set, this program turns back to step 39 subsequently and attempts being handed off to the next mesh of AHFVC table, this continuation that circulates is until freeing voice channel or unsuccessful all mesh of attempting being handed off to the AHFVC table.

If attempted being handed off to all mesh in the AHFVC table in step 53, then program moves on to step 55, checks so that by determining whether that arriving recursive limit determines whether to attempt recurrence.If arrived recursive limit, then program moves on to program 56 and returns failure result.Note.If recursive limit is set to 0, then forbid recurrence, and the AHFVC function is returned failure result.On the recurrence of each grade, program determines whether to attempt the recurrence of another grade.If no show recursive limit in step 55, then allow recurrence to continue, and program moves on to step 57, program is provided with new eliminating table=(getting rid of table+AHFVC shows) in step 57, increase progressively recursion counter subsequently in step 58, this program turns back to step 46 and then at Cell ₁Carry out the AHFVC function in (first element of AHFVC table).

Thereby, believe that from the foregoing description operation of the present invention and structure will be conspicuous.Though shown in be expressed as preferably with described method, apparatus and system, obviously can carry out various variations and modification and not break away from as defined spirit of the present invention and category in following claims.

Claims

1. A method for releasing a voice channel in a congested first cell of a cellular telecommunication system on demand and without dropping ongoing calls, said method comprising the steps of:

identifying a second cell that is adjacent to the congested first cell;

identifying a first mobile station operating in the congested first cell; and

Forcing a handoff of the first mobile station from the congested first cell to the second cell, thereby freeing the voice channel.

2. The method for releasing a voice channel in a congested first cell of a cellular telecommunication system according to claim 1, wherein said step of identifying a second cell adjacent to said congested first cell comprises measuring Received signal strengths between the mobile station and a plurality of cells adjacent to said congested first cell.

3. The method for releasing a voice channel in a congested first cell of a cellular telecommunication system according to claim 2, wherein measurements are made between said first mobile station and a plurality of cells adjacent to said congested first cell Said step of inter-receiving signal strength includes measuring said received signal strength at said first mobile station.

4. The method for releasing a voice channel in a congested first cell of a cellular telecommunication system according to claim 2, wherein measurements are made between said first mobile station and a plurality of cells adjacent to said congested first cell Said step of interrogating received signal strengths includes measuring said received signal strengths on said plurality of cells adjacent to said congested first cell.

5. The method for releasing a voice channel in a congested first cell of a cellular telecommunications system according to claim 2, wherein said step of identifying a second cell adjacent to said congested first cell comprises identifying A cell adjacent to the congested first cell with the highest measured received signal strength among the plurality of cells adjacent to the first cell.

6. The method for releasing a voice channel in a congested first cell of a cellular telecommunications system according to claim 1, wherein said step of identifying a first mobile station operating in said congested first cell comprises identifying a mobile station operating in close proximity to A first mobile station in said congested first cell bordering said second cell.

7. The method for releasing a voice channel in a congested first cell of a cellular telecommunications system according to claim 6, wherein said step of identifying a first mobile station operating in said congested first cell comprises identifying receiving in said second cell a signal strength sufficient to maintain a call in said second cell.

8. The method for releasing a voice channel in a congested first cell of a cellular telecommunication system according to claim 1, wherein said first mobile station is forced to hand off from said congested first cell to said second cell Said steps include forcing said handoff when a second mobile station within said congested first cell requires a voice channel that is occupied.

9. The method for releasing a voice channel in a congested first cell of a cellular telecommunication system according to claim 8, wherein said first mobile station is forced to hand off from said congested first cell to said second cell Said steps include forcing said handoff when said second mobile station attempts to access said cellular telecommunications system within said congested first cell.

10. The method for releasing a voice channel in a congested first cell of a cellular telecommunication system according to claim 9, further comprising the steps of:

identifying a third mesh, the third mesh being adjacent to the second mesh;

identifying a third mobile station, the third mobile station operating in the second cell;

forcing said third mobile station to hand off from said second cell to said third cell; and

Directing the second mobile station through the second cell as a directional retry to access the cellular telecommunications system.

11. The method for releasing a voice channel in a congested first cell of a cellular telecommunication system according to claim 8, wherein said first mobile station is forced to hand off from said congested first cell to said second cell Said steps include forcing said handoff when said second mobile station roams into said congested first cell during a call.

12. The method for releasing a voice channel in a congested first cell of a cellular telecommunication system according to claim 8, wherein said first mobile station is forced to hand off from said congested first cell to said second cell Said step includes forcing said handoff of said first mobile station before said cellular telecommunications system automatically performs said handoff according to predetermined criteria.

13. A method for releasing a voice channel in a congested first cell of a cellular telecommunication system on demand and without dropping ongoing calls, said method comprising the steps of:

identifying a second cell, the second cell being adjacent to the congested first cell, the step of identifying the second cell comprising:

measuring received signal strength between a first mobile station operating in said congested first cell and a plurality of cells adjacent to said congested first cell; and

identifying a cell adjacent to the congested first cell that has the highest measured received signal strength among the plurality of cells adjacent to the congested first cell; and

forcing a handoff of said first mobile station from said congested first cell to said second cell when a second mobile station within said congested first cell requires an occupied voice channel, wherein said step of forcing said handoff is performed before said cellular telecommunication system automatically performs handover of said first mobile station according to predetermined criteria.

14. A method for releasing a first voice channel in a congested first cell of a cellular telecommunication system on demand and without dropping ongoing calls, said method comprising the steps of:

identifying a second cell that is adjacent to the congested first cell;

identifying a third mesh, the third mesh being adjacent to the second mesh;

identifying a first mobile station operating in the congested first cell;

identifying a second mobile station, the second mobile station operating in the second cell;

determining whether the second cell is congested;

If it is determined that said second cell is congested, forcing said second mobile station to hand off from said second cell to said third cell, thereby releasing a second voice located in said second cell channel; and

Utilizing said second voice channel to force a handoff of said first mobile station from said congested first cell to said second cell, thereby releasing said first mobile station in said congested first cell voice channel.

15. The method for releasing a first voice channel in a congested first cell of a cellular telecommunication system according to claim 14, wherein said step of identifying a third cell adjacent to said second cell includes identifying a third cell not adjacent to said congested cell. The first mesh adjacent to the third mesh.

16. The method for releasing a first voice channel in a congested first cell of a cellular telecommunication system according to claim 14, wherein said step of identifying a second cell adjacent to said congested first cell comprises measuring said first cell Received signal strength between a mobile station and a plurality of cells adjacent to the congested first cell.

17. The method for releasing a first voice channel in a congested first cell of a cellular telecommunication system according to claim 16, wherein said step of identifying a second cell adjacent to said congested first cell comprises identifying A cell adjacent to the congested first cell that has the highest measured received signal strength among the plurality of cells adjacent to the congested first cell.

18. The method for releasing a first voice channel in a congested first cell of a cellular telecommunications system according to claim 14, wherein said step of identifying a first mobile station operating in said congested first cell comprises identifying an operation A first mobile station near a boundary of said second cell in said congested first cell.

19. The method for releasing a first voice channel in a congested first cell of a cellular telecommunications system according to claim 17, wherein said step of identifying a first mobile station operating in said congested first cell comprises identifying a mobile station with A first mobile station receiving from said second cell a signal strength sufficient to maintain a call in said second cell.

20. The method for releasing a first voice channel in a congested first cell of a cellular telecommunication system according to claim 14, wherein forcing said second mobile station to hand off from said second cell and forcing said second mobile station to Said step of handing off a mobile station from said congested first cell includes forcing said handoff when a third mobile station requires an occupied voice channel in said congested first cell.

twenty one. A method for releasing a first voice channel in a congested first cell of a cellular telecommunication system according to claim 20, wherein when a third mobile station needs an occupied voice channel in said congested first cell Said step of said handover includes forcing said handover before said cellular telecommunication system automatically performs said handover according to predetermined criteria.

twenty two. A method for releasing a first voice channel in a congested first cell of a cellular telecommunication system on demand and without dropping ongoing calls, said method comprising the steps of:

identifying a second cell, said second cell being adjacent to said congested first cell, said step of identifying a second cell comprising the steps of:

identifying a cell adjacent to the congested first cell that has the highest measured received signal strength among the plurality of cells adjacent to the congested first cell;

identifying a third cell that is adjacent to the second cell but not adjacent to the congested first cell;

identifying a second mobile station, the second mobile station operating in the second cell, the second mobile station having a call received from the third cell sufficient to remain in the third cell signal strength;

determining whether the second cell is congested;

if it is determined that the second cell is congested, forcing said second mobile station to hand off from said second cell to said third cell, thereby releasing a second voice channel located in said second cell, forcing said handoff of said second mobile station before said handover of said second mobile station is automatically performed by said cellular telecommunications system according to predetermined criteria; and

Utilizing said second voice channel to force a handoff of said first mobile station from said congested first cell to said second cell, thereby releasing said first mobile station in said congested first cell A voice channel to force said handoff of said first mobile station before said handover of said first mobile station is automatically performed by said cellular telecommunications system according to predetermined criteria.