CN1633207A - A locating method applied to TD-SCDMA system - Google Patents

A locating method applied to TD-SCDMA system Download PDF

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CN1633207A
CN1633207A CN 200510005097 CN200510005097A CN1633207A CN 1633207 A CN1633207 A CN 1633207A CN 200510005097 CN200510005097 CN 200510005097 CN 200510005097 A CN200510005097 A CN 200510005097A CN 1633207 A CN1633207 A CN 1633207A
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portable terminal
cell
time difference
localization method
wireless network
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CN100518389C (en
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马子江
张银成
欧历云
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ZTE Corp
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ZTE Corp
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Abstract

This invention provides a positioning method in a time-division synchronous CDMA system including: A UE is stationed in its service area and receives the downstream signals of two adjacent areas. The network side sends information to side UE to ask it to measure time difference of the downstream signals of the two adjacent areas and service areas and the UE gets said time difference from measurement, UE or the network side gets the position information of said mobile terminal according to the measured time difference and geographical position of the adjacent and service areas.

Description

A kind of localization method that is applied in the TDS-CDMA system
Technical field
The present invention relates to determine in TD-SCDMA (TD SDMA) system method in mobile subscriber geographical position.
Background technology
Utilize portable terminal (as mobile phone, PDA etc.) to carry out the new direction that the location, geographical position is mobile communication application development in recent years.Location based service is to utilize the distinctive positioning function of mobile communication, the geographical position (latitude and longitude coordinates data) that cooperates the definite mobile phone users places of service such as short message, thereby user desired position information is provided, and relevant geographic information services can be provided according to user's position.As the position of projects such as road station, hotel, bank, market is at that time inquired about.Simultaneously, can select, can realize from existing position to best self-driving route and Public Transport Transfer scheme the destination according to condition to the place of required object.This promptly and accurately holds the orientation for the people that gos out, and increases work efficiency and plays good guide effect.
Along with the application of Location based service, number of users is on the increase, and people constantly enlarge for the demand of positional information, and location technology and the navigation system thereof of obtaining mobile positioning information have become current research focus.These researchs mainly comprise basic principle and method, the major technique of running fix and the aspects such as support platform of running fix of running fix.
The simplest a kind of method to the portable terminal location is to find the Serving cell at this portable terminal place, can determine the position range at this portable terminal place, but the precision of this localization method is not high, can not satisfy the positioning requirements under the required precision condition with higher.
Summary of the invention
The technical problem to be solved in the present invention provides a kind of localization method that is applied in the TDS-CDMA system, can realize the high-precision location to portable terminal.
In order to solve the problems of the technologies described above, the invention provides a kind of localization method that is applied in the TDS-CDMA system, may further comprise the steps:
(a) portable terminal resides in its Serving cell, and can receive the downstream signal of at least 2 neighbor cells;
(b) in the time of need positioning measurement to described portable terminal, network side requires it to measure the time difference of at least 2 neighbor cells and Serving cell downstream signal to described mobile terminal to send message;
(c) described portable terminal is measured, and obtains the downstream signal time difference of at least 2 neighbor cells and Serving cell;
(d) described portable terminal or network side in conjunction with the geographical position of described neighbor cell and Serving cell, calculate the positional information of described portable terminal according to the described time difference that records.
Further, above-mentioned localization method also can have following characteristics: described step (b) is further divided into following steps:
When (b1) core net need be to the location of certain portable terminal, operating state according to this portable terminal, if CELL_FACH or CELL_DCH state, directly carry out next step, if other state, elder generation's this portable terminal of paging makes it enter CELL_FACH or CELL_DCH state, carries out next step again;
(b2) core net is initiated " locating request message " at this UE to the service wireless network controller of this portable terminal;
(b3) described service wireless network controller sends to this portable terminal and measures control messages or system broadcast message, and requires this portable terminal to measure the time difference of at least 2 neighbor cells and Serving cell downstream signal.
Further, above-mentioned localization method also can have following characteristics: also comprise the current service cell of described portable terminal and the frequency and the cell parameter information of at least 2 neighbor cells in described measurement control messages or the system broadcast message.
Further, above-mentioned localization method also can have following characteristics: also indicated requirement in " locating request message " that described core net sends to described portable terminal locating accuracy, described service wireless network controller is selected the location survey and the computational methods that adopt according to the ability of this required precision and described portable terminal.
Further, above-mentioned localization method also can have following characteristics: in the described step (d), portable terminal or network side are to adopt senior link forward direction three angle positioning methods to calculate described positional information.
Further, above-mentioned localization method also can have following characteristics: in the described step (b3), service wireless network controller also comprises the positional information of at least 2 neighbor cells and Serving cell in the message that described portable terminal sends, in the described step (d), it is the positional information of calculating oneself by described portable terminal, and report described service wireless network controller, by this service wireless network controller this positional information is reported described core net again.
Further, above-mentioned localization method also can have following characteristics: in the described step (d), be to report described service wireless network controller by the described time difference that described portable terminal will record, calculate the positional information of described portable terminal by this service wireless network controller after, be reported to described core net again.
Further, above-mentioned localization method also can have following characteristics: in the described step (d), be to report described service wireless network controller by the described time difference that described portable terminal will record, this service wireless network controller reports described core net with the described time difference again, is calculated the positional information of described portable terminal by core net.
Further, above-mentioned localization method also can have following characteristics: described downstream signal is meant the signal of Primary Common Control Physical Channel and downlink pilot frequency channel.
Further, above-mentioned localization method also can have following characteristics: in the described step (d), when described portable terminal measures the downstream signal of 2 above neighbor cells and Serving cell during the time difference, calculate a plurality of location solutions of described portable terminal, and asking average or weighted average to these a plurality of location solutions, the result who obtains is re-used as the positional information of described portable terminal.
As from the foregoing, the present invention utilizes the time of advent of at least 2 neighbor cell downstream signals that portable terminal measures poor, positional information in conjunction with existing Serving cell and neighbor cell, adopt AFLT (senior link forward direction triangle location) location algorithm to obtain the positional information of portable terminal, improved the positioning accuracy of portable terminal.
Description of drawings
Fig. 1 is the schematic diagram of the resident situation of embodiment of the invention UE.
Fig. 2 is the flow chart of first embodiment of the invention.
Fig. 3 is the flow chart of second embodiment of the invention.
Fig. 4 is the schematic diagram of first embodiment of the invention paging UE under idle pulley.
Fig. 5 is the schematic diagram of first embodiment of the invention paging UE under the URA_PCH state.
Embodiment
Regulation according to 3gpp (third generation partner program), when UE (portable terminal) resides in the suitable cell (hereinafter referred to as Serving cell), UE can carry out the regular traffic that this sub-district provides, comprise response paging, listening system broadcast and receive and measure control messages etc., thereby obtain the information (comprising: frequency, cell parameter etc.) of neighbor cell; According to the variation of current area and neighbor cell service quality, UE can measure the intensity and the time difference of current area and neighbor cell downstream signal, initiates sub-district gravity treatment, cell update, switching etc.
According to the description of 5.1.10 chapters and sections among the 3gpp TS 25.225 to " SFN-SFN (SFN; System Frame Number) observed time difference (difference observing time) ", " SFN-SFN difference observing time " is the difference of two sub-districts (current service cell and Target cell are provided) frame time of reception of measuring on UE.UE can measure difference SFN-SFN observing time, and reports this result in the SRNC (Serving RNC), and this result is exactly in fact that the downstream signal of this resident Serving cell of the UE that measures of UE and neighbor cell (Target cell) is poor the time of advent.
As seen, reside in UE in the Serving cell possess the downstream signal of measuring neighbor cell the time of advent difference ability.
Like this, when UE (portable terminal) resides in Serving cell, and in the time of can receiving the downstream signal of at least 2 neighbor cells (as the situation of Fig. 1), UE can measure the time difference (Δ t) of the downstream signal of at least 2 neighbor cells and Serving cell respectively, then by UE or network side according to the time of advent poor (Δ t) of measuring and the positional information of existing Serving cell and neighbor cell, utilization can obtain the positioning result of this UE based on the AFLT algorithm of the triangle relation of range measurement.
Below by two embodiment the idiographic flow of localization method of the present invention is described, wherein, location survey is realized alternately by RNC and UE, and positioning service is CN initiation and requirement result.Realize the location, the prerequisite of two embodiment all is: UE (portable terminal) resides in Serving cell, and can receive the downstream signal of at least 2 neighbor cells.
First embodiment
Fig. 2 shows the flow process of present embodiment UE auxiliary (UE-assisted) location, promptly finishes location Calculation by network side, and this flow process may further comprise the steps:
Step 1, when CN (core network core net) need be to the location of certain UE, CN is according to the operating state of this UE, if CELL_FACH or CELL_DCH state, directly carry out next step, if other state makes it enter CELL_FACH or CELL_DCH state by this UE of paging earlier, carry out next step again;
The working method of UE has five kinds: idle pulley, CELL_FACH, CELL_DCH, CELL_PCH and URA_PCH.
When UE had started shooting and reside in 1 suitable cell, CN can initiate the positioning service at this UE.Though CN can be in the position of knowing UE in varying degrees, in order to finish positioning service, CN need know RNC and the sub-district that this UE is resident exactly, and network side needs and the UE interactive information simultaneously.Therefore, the UE that only is under CELL_FACH and the CELL_DCH state just can satisfy this requirement, and the UE that is under other state at first must be by state transition, from idle pulley, CELL_PCH or URA_PCH state transition to CELL_FACH or the CELL_DCH state.Be the processing procedure of UE CN under different conditions below:
1) UE is in idle pulley (as shown in Figure 4)
When UE is in idle pulley, UE does not have SRNC, CN does not know that UE resides in the sub-district of which RNC administration, CN requires the paging (RNC1 of all RNC initiations of its control to this UE, RNC2...RNCn), each RNC is (at each sub-district: cell1, cell2, ..., celln) all initiate paging request message to this UE, reside in the UE response paging (this figure is the cell2 of RNC1) in the sub-district of certain RNC administration, this moment, this UE entered CELL_FACH or CELL_DCH state, this RNC becomes the SRNC (Serving RNC) of this UE, and this SRNC knows and reports in certain sub-district (cell2) that this UE resides in this RNC (RNC1) to CN.
2) UE is in URA_PCH state (as shown in Figure 5)
When UE is in the URA_PCH state, CN knows that this UE is in (UTRAN registration area in the URA scope, several RNC constitute 1 URA, RNC1 and RNC2 constitute 1 URA among the last figure), CN requires these several RNC (RNC1 and RNC2) to initiate the paging to this UE, these several RNC initiate the paging request message (the paging reason is the requirement location) to this UE, reside in the UE response paging (this figure is the cell2 of RNC1) in the sub-district of certain RNC administration, this moment, this UE entered CELL_FACH or CELL_DCH state, this RNC becomes the SRNC (RNC1) of this UE, and this SRNC knows and reports in certain sub-district (cell2) that this UE resides in this RNC to CN.
3) UE is in CELL_PCH state (can with reference to Fig. 4)
When UE is in the CELL_PCH state, CN knows that this UE is among certain RNC (as being RNC1 among Fig. 4), but do not know in which sub-district of this RNC administration, (not know it is cell1, cell2, ... among the celln which), CN requires this RNC (RNC1) to initiate paging to this UE in all sub-districts of its administration, reside in the UE response paging in certain sub-district (being cell2 among Fig. 4) of this RNC administration, this moment, this UE entered CELL_FACH or CELL_DCH state, this RNC is SRNC, knows and reports in certain sub-district that this UE resides in this SRNC (cell2) to CN.
4) be in CELL_FACH or CELL_DCH state (can with reference to Fig. 4) as UE
CN knows that UE is in certain sub-district of certain RNC administration (as the cell2 of the RNC1 among Fig. 4), and CN and UE have set up information interaction, do not need to initiate paging.
Step 2, CN comprises in this message this UE locating accuracy requirement to " locating request message " of SRNC initiation at this UE;
Step 3, SRNC sends to this UE by Serving cell and measures control messages or system broadcast message, comprise the information of current service cell and at least 2 neighbor cells in the message, and require UE to measure the time difference of at least 2 neighbor cells and Serving cell downstream signal;
It should be noted that, if can carry out the location survey of several different methods between SRNC and the UE, then SRNC can select to adopt certain location survey and computational methods, for example, employing is based on the localization method of cell ID, has corresponding ability as long as can satisfy required precision and the UE that CN indicates.Certainly, CN also can directly specify location survey and Calculation Method, and perhaps CN also can not specify a positioning accuracy, is handled according to the requirement of acquiescence by RNC.
Step 4, UE measures the time difference of the downstream signal of at least 2 neighbor cells and Serving cell;
The downstream signal here is meant: the signal of P-CCPCH (Primary Common Control Physical Channel) and DwPCH (downlink pilot frequency channel); UE is exactly " SFN-SFN difference observing time " of measuring at least 2 neighbor cells and Serving cell to the measurement of the time difference (Δ t) of at least 2 neighbor cells and Serving cell downstream signal.
Step 5, UE to the SRNC reporting measurement reports, reports the described time difference that records by Serving cell;
Step 6: the locating module among the SRNC obtains the downstream signal of at least 2 neighbor cells and Serving cell after the time difference, finds the geographical location information of described Serving cell and neighbor cell, adopts the AFLT method to calculate the positional information of this UE;
Adopt the location algorithm of AFLT technology as follows:
Known: the coordinate (x of Serving cell 0, y 0), the coordinate (x of first neighbor cell 1, y 1), the coordinate (x of second neighbor cell 2, y 2) ...., the coordinate (x of N neighbor cell n, y n);
Measure: the time difference Δ t of first neighbor cell 1, the time difference Δ t of second neighbor cell 2... .., the time difference Δ t of N neighbor cell n, C is the light velocity;
Find the solution: the coordinate of UE (x, y)
If: the distance of UE and Serving cell is S0, and the distance of UE and first neighbor cell is S1, and the distance of UE and second neighbor cell is S2 ..., the distance of UE and N neighbor cell is Sn.Then have:
S 0 = ( x - x 0 ) 2 + ( y - y 0 ) 2
S 1 = ( x - x 1 ) 2 + ( y - y 1 ) 2
S 2 = ( x - x 2 ) 2 + ( y - y 2 ) 2
.........
Sn = ( x - x n ) 2 + ( y - y n ) 2
C×Δt 1=S1-S0,C×Δt 2=S2-S0,.....C×Δt n=Sn-S0;
That is:
C × Δt 1 = ( x - x 1 ) 2 + ( y - y 1 ) 2 - ( x - x 0 ) 2 + ( y - y 0 ) 2
C × Δt 2 = ( x - x 2 ) 2 + ( y - y 2 ) 2 - ( x - x 0 ) 2 + ( y - y 0 ) 2
.............
C × Δtn = ( x - x n ) 2 + ( y - y n ) 2 - ( x - x 0 ) 2 + ( y - y 0 ) 2
Wherein: (x 0, y 0), (x 1, y 1) .... (x n, y n) be the positional information of known each sub-district; C is the light velocity.
As seen, measure the Δ t of 2 neighbor cell downstream signals as UE after, just can obtain 2 equations, thus can simultaneous solution obtain UE the position (x, y).
In addition, when UE measures the neighbor cell more than 2 and serves the Δ t of cell downlink signal, can obtain equation more than 2, from a plurality of equations, take out 2 equations and constitute a plurality of independently equation group, find the solution a plurality of equation group can obtain UE a plurality of location solutions (x, y), ask the average of a plurality of location solutions again, or weighted average, can obtain more accurate UE (x, y).Say that in essence equation is many more, the location solution that obtains UE is many more, and separating of trying to achieve at last is just accurate more.
Step 7: RNC sends " location response message " to CN, comprises the positional information of this UE that obtains in the message.
Among this embodiment, also the locating module that carries out AFLT calculating can be arranged among the CN.When being arranged among the CN, the time difference that RNC need report UE reports CN again, carries out the positional information that AFLT calculates UE by CN.
Second embodiment
Fig. 3 shows the positioning flow of present embodiment based on UE (UE-based), promptly finishes location Calculation by UE, and this flow process may further comprise the steps:
Step 1 is when CN need be to the location of certain UE, according to the operating state of this UE, if CELL_FACH or CELL_DCH state are directly carried out next step, if other state, earlier make it enter CELL_FACH or CELL_DCH state, carry out next step again by this UE of paging; This step is identical with first embodiment.
Step 2, CN comprises in the message this UE locating accuracy requirement to " locating request message " of SRNC initiation at this UE; This step is identical with first embodiment.
Step 3, SRNC sends to this UE by Serving cell and measures control messages or system broadcast message, the information and the location parameter (as: x thereof that comprise current service cell and at least 2 neighbor cells in the message, the y coordinate), require UE to measure the time difference of at least 2 neighbor cells and Serving cell downstream signal and calculate positioning result;
In this step, SRNC also can position the selection of method of measurement.
Step 4: UE measures the time difference of at least 2 neighbor cells and Serving cell downstream signal, and in conjunction with the location parameter of these sub-districts, carries out the positional information that AFLT calculates UE oneself;
Step 5: UE by Serving cell to the SRNC reporting measurement reports, oneself the positional information of reporting that this UE calculates;
After step 6: SRNC receives the positional information of this UE, report CN by sending " location response message ".

Claims (10)

1, a kind of localization method that is applied in the TDS-CDMA system may further comprise the steps:
(a) portable terminal resides in its Serving cell, and can receive the downstream signal of at least 2 neighbor cells;
(b) in the time of need positioning measurement to described portable terminal, network side requires it to measure the time difference of at least 2 neighbor cells and Serving cell downstream signal to described mobile terminal to send message;
(c) described portable terminal is measured, and obtains the downstream signal time difference of at least 2 neighbor cells and Serving cell;
(d) described portable terminal or network side in conjunction with the geographical position of described neighbor cell and Serving cell, calculate the positional information of described portable terminal according to the described time difference that records.
2, localization method as claimed in claim 1 is characterized in that, described step (b) is further divided into following steps:
When (b1) core net need be to the location of certain portable terminal, operating state according to this portable terminal, if CELL_FACH or CELL_DCH state, directly carry out next step, if other state, elder generation's this portable terminal of paging makes it enter CELL_FACH or CELL_DCH state, carries out next step again;
(b2) core net is initiated " locating request message " at this UE to the service wireless network controller of this portable terminal;
(b3) described service wireless network controller sends to this portable terminal and measures control messages or system broadcast message, and requires this portable terminal to measure the time difference of at least 2 neighbor cells and Serving cell downstream signal.
3, localization method as claimed in claim 2 is characterized in that, also comprises the current service cell of described portable terminal and the frequency and the cell parameter information of at least 2 neighbor cells in described measurement control messages or the system broadcast message.
4, localization method as claimed in claim 2, it is characterized in that, also indicated in " locating request message " that described core net sends and required described portable terminal locating accuracy, described service wireless network controller is selected the location survey and the computational methods that adopt according to the ability of this required precision and described portable terminal.
5, localization method as claimed in claim 1 is characterized in that, in the described step (d), portable terminal or network side are to adopt senior link forward direction three angle positioning methods to calculate described positional information.
6, localization method as claimed in claim 2, it is characterized in that, in the described step (b3), service wireless network controller also comprises the positional information of at least 2 neighbor cells and Serving cell in the message that described portable terminal sends, in the described step (d), be to calculate the positional information of oneself by described portable terminal, and report described service wireless network controller, by this service wireless network controller this positional information is reported described core net again.
7, localization method as claimed in claim 2, it is characterized in that, in the described step (d), be to report described service wireless network controller by the described time difference that described portable terminal will record, calculate the positional information of described portable terminal by this service wireless network controller after, be reported to described core net again.
8, localization method as claimed in claim 2, it is characterized in that, in the described step (d), be to report described service wireless network controller by the described time difference that described portable terminal will record, this service wireless network controller reports described core net with the described time difference again, is calculated the positional information of described portable terminal by core net.
9, localization method as claimed in claim 1 is characterized in that, described downstream signal is meant the signal of Primary Common Control Physical Channel and downlink pilot frequency channel.
10, localization method as claimed in claim 1, it is characterized in that, in the described step (d), when described portable terminal measures the downstream signal of 2 above neighbor cells and Serving cell during the time difference, calculate a plurality of location solutions of described portable terminal, and asking average or weighted average to these a plurality of location solutions, the result who obtains is re-used as the positional information of described portable terminal.
CNB2005100050976A 2005-02-02 2005-02-02 A locating method applied to TD-SCDMA system Expired - Fee Related CN100518389C (en)

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Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102026266A (en) * 2009-09-11 2011-04-20 中兴通讯股份有限公司 Method and system for collecting positioning auxiliary information
CN101400103B (en) * 2007-09-28 2011-08-03 大唐移动通信设备有限公司 Method, system and device for positioning mobile terminal
CN102196492A (en) * 2010-03-10 2011-09-21 鼎桥通信技术有限公司 Method for synchronizing air interfaces of home base station
CN104349277A (en) * 2010-01-08 2015-02-11 高通股份有限公司 Method and apparatus for positioning of devices in a wireless network

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101400103B (en) * 2007-09-28 2011-08-03 大唐移动通信设备有限公司 Method, system and device for positioning mobile terminal
CN102026266A (en) * 2009-09-11 2011-04-20 中兴通讯股份有限公司 Method and system for collecting positioning auxiliary information
CN102026266B (en) * 2009-09-11 2015-05-20 中兴通讯股份有限公司 Method and system for collecting positioning auxiliary information
CN104349277A (en) * 2010-01-08 2015-02-11 高通股份有限公司 Method and apparatus for positioning of devices in a wireless network
CN102196492A (en) * 2010-03-10 2011-09-21 鼎桥通信技术有限公司 Method for synchronizing air interfaces of home base station

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