KR100344647B1 - Apparatus and method for estimating emergency call origination in a synchronous CD network - Google Patents

Abstract

The present invention obtains information on the position of the mobile station by using the deviation between the times received from three or more base stations at the mobile station, and sends it to the position estimating unit through the Short Message Service (SMS). Synchronous CDMA enables accurate location estimation in a simple and inexpensive way by transmitting and estimating the exact location of a call requiring an origination location, such as an emergency call, without installing additional hardware or programs in the base station or mobile station. (Code Division Multiple Access) The present invention relates to an apparatus and a method for estimating a signaling location in a network.

According to the present invention, a feature of a synchronous CDMA cellular network that supports mobile station operation that receives signals from a plurality of base stations and supports short message service instead of installing separate hardware or programs for estimating a call origination location in a base station or a mobile station By accurately estimating the location of outgoing call for the call requiring the originating location such as emergency call, the location of outgoing call can be estimated easily without any additional cost, and the location estimation function is automatically available regardless of the communication service provider. It will be possible to ensure the compatibility between the operators will be able to improve the subscriber's satisfaction.

Description

Apparatus and method for estimating emergency call origination location in synchronous CDM network

The present invention relates to an apparatus and method for estimating emergency call origination in a synchronous code division multiple access (CDMA) network. More particularly, the present invention relates to a deviation between time received from three or more base stations at a mobile station. By using this method, information about the location of the mobile station is obtained and transmitted to the location estimator through a short message service (SMS), so that an emergency call can be made without installing any hardware or program in the base station or the mobile station. An apparatus and method for estimating emergency call originating locations in a synchronous CDMA network that enable urgent support of accurate location in an inexpensive and simple manner by estimating the exact location for a call requiring location.

Mobile phone service started in the 1980s and has been exploding in the 1990s. In particular, for the efficient use of scarce frequencies, analog-type mobile phones are converted to digital services, and in the 21st century, third-generation mobile phones capable of communicating various types of data with anyone, anytime, anywhere It will be serviced.

Digital mobile phones include Global System for Mobile communication (GSM), a time-division multiple access method commercially available in Europe, and IS-95, a CDMA method that is adopted and serviced as a standard in North America and Korea. In particular, the IS-95, which is being serviced in Korea, has a large capacity, which is an advantage of the code division method, and soft handover between base stations, and is also a basic form of the third generation mobile phone standard that is expected to be serviced in the future. It is highlighted. Therefore, research and development on supplementary services on a synchronous CDMA network are widely progressing.

In particular, there is an increasing demand for additional services in the form of emergency support by accurately estimating the location of a mobile station originating a call among the above additional services. In 2001, a call origination location estimation function was added to a terminal in North America. There is a law pending.

In the fixed-line service, fixed call characteristics make it possible to automatically estimate the call origin by using the registered number and the corresponding address.However, in mobile phones, it is necessary to accurately estimate the call origin due to the characteristics of the terminal that guarantees mobility. Not easy

Hereinafter, a Time Difference of Arrival (TDOA) method which is most studied as a method for a call origination location estimation apparatus in a cellular network will be described with reference to FIG. 1.

In the cellular network using the conventional arrival time difference method, the call origination location estimator, as shown in FIG. 1, receives a call originating from the mobile station and a call originated from the mobile station and records an accurate reception time. Manages a plurality of base stations A 20, B 21 and C 22, and the base stations 20, 21, 22, and transmits and receives voices and data with other wired / wireless networks. And a base station management station 30 which receives a reception time from each of the plurality of base stations, estimates the origination position of the call, and outputs information on the call origination position, and the base station through a public switched telephone network (PSTN). A call processing station 40 which receives an audio signal of an outgoing call signal and information on the estimated emergency call origination position from the management station 30 and supports urgent processing; and the call processing station 40 from the call processing station 40. Receives a call from the station management station 30 through the Public Switched Data Network (PSDN) and receives information on the originating position of the call and the corresponding base station of the cell to which the mobile station 10 belongs. A location estimator 50 for accurately estimating the location of the originating mobile station, geographic information of the region, identification numbers of all base stations, and locations of base transceiver stations (BTSs) included in each base station; It is composed of a database 60 for providing geographic information required by the request of the position estimator 50.

Hereinafter, the operation of the call origination location estimation apparatus in the cellular network using the conventional arrival time difference method configured as described above will be described with reference to FIG.

In the arrival time difference method, a call origination position is estimated through a plurality of base stations additionally provided with additional hardware or programs and a base station management station controlling the base stations. That is, when the mobile station 10 transmits a call requiring location estimation, the base station management station 30 not only displays the base station of the cell to which the mobile station 10 belongs, but also the exact time when two or more base stations received the call. To send.

In FIG. 1, three base stations receive a call, and the base station A 20 is a base station of a cell to which the mobile station 10 belongs and is located closest to the mobile station 10 compared to other base stations. For example, the base stations B and C 21 and 22 are located at substantially similar distances from the mobile station 10 and receive calls at the same time.

First, when the mobile station 10 sends an emergency call, the base stations A, B, and C 20, 21, and 22 transmit the times of receiving the calls to the base station management station 30, respectively. That is, an emergency call sent at 12:00:00 is received at 12: 00: 00.00001 at the base station A 20 and at 12: 00: 00.00003 at the base stations B and C (21, 22). The base station management station 30 that has received the reception time estimates the virtual position of the mobile station 10 that originated the emergency call by using the reception times of the base stations B and C 21 and 22 at a distance. As the distances from the base stations B and C (21, 22) are the same, as shown in Fig. 1, the base station management station 30, the mobile station 10 that originated the emergency call is the base station B and C (21) , 22) on the straight line at the same distance.

The base station management station 30 sets the position of the mobile station 10 to be expected by using the emergency call reception time transmitted from the base station A 20 and the base station B 21. That is, since the difference between the distance to the base station A (20) and the distance to the base station B (21) is located at a fixed point, the mobile station (10) that has sent the emergency call is located at the base station (A 20). And a hyperbola whose focus is on the position of the base station B 21 can be obtained. Therefore, the mobile station management station 30 obtains a hyperbola in which the mobile station 10 is expected to be located using the position coordinates of the base station A 20 and the base station B 21 as shown in Equation 1 below.

Ri, j = i2i2i2-j2j2j2 = csdi, j

Here, Ri, j is the distance between the base station A (20) and the base station B (21), and the position coordinate iii of the base station A (20) and the position coordinate jjj of the base station B (21) in the three-dimensional space Can be obtained, and is the position coordinate of the mobile station 10 estimated. And c is set to the same value as the speed of light as the speed of propagation, di, j is between the time when the emergency call is received at the base station A (20) and the time when the emergency call is received at the base station B (21) The difference (0.00002 seconds) is shown.

The intersection of the straight line and the hyperbolic curve estimated as the position of the mobile station 10 obtained as described above can estimate the position of the mobile station 10 that has sent an emergency call from the base station management station 30.

Subsequently, the base station management station 30 transmits the estimated information on the position of the mobile station 10 to the call processing station 40 together with the voice signal through a public switched telephone network. The call processing station 40 transmits information on the location of the mobile station 10 from the base station management station 30 and information on a corresponding base station of a cell to which the mobile station 10 belongs to the public exchange data network. Output to the position estimator 50.

The location estimator 50 receives the information such as the geographic information of the region stored in the database unit 60, the identification number of the base station, and the location of the transmitting / receiving station included in each base station. The mobile station 10 estimates the exact location of the mobile station 10 that has received the emergency call.

The call signal position estimation apparatus using the arrival time difference method as described above is inconvenient to install a separate program or hardware in the base station. Accordingly, a method of performing location estimation using characteristics of a synchronous CDMA cellular network that supports mobile station operation receiving signals from a plurality of base stations and distinguishes the base stations by a time offset of a pseudo noise (PN) code is also considered. (US Pat. No. 5646632). In the position estimation method, a function for position estimation is added to a mobile station, and the mobile station secures a difference between arrival times of pilot signals transmitted from a plurality of base stations, and estimates a call origination position through an operation shown in Equation 1 above. Is characteristic.

However, in order to estimate the location of a mobile station that has originated a call using the arrival time difference method in the conventional cellular network as described above, an additional hardware or program must be additionally used at the base station / base station control station or mobile station. In order to estimate the location of the call originating mobile station, the base station should receive the signal of the mobile station in the other base station, and for this purpose, a separate channel must be allocated, thereby reducing the capacity of the cellular network. There is a problem. In addition, the price of the terminal increases in order to add a function for position estimation to the mobile station, there is a problem that it is difficult to ensure compatibility between communication service providers.

Accordingly, an object of the present invention is to solve such a problem, and receives signals from a plurality of base stations instead of installing a separate hardware or program for estimating a call origination location in a synchronous CDMA cellular network. Using the characteristics of a synchronous CDMA cellular network that supports mobile station operation and short-term service, it automatically estimates the originating location of the mobile station for calls that require the exact location of the originating call, such as an emergency call, so that it is simply urgent The present invention provides an apparatus and method for estimating emergency call originating location in a synchronous CDMA network that enables support and automatically performs location estimation regardless of a communication service provider.

1 is a block diagram of an apparatus for estimating a call signal position according to a conventional time difference method of arrival in a cellular network;

2 is a block diagram of a first embodiment of an apparatus for estimating emergency call origination in a synchronous CDMA network according to the present invention;

3 is a time offset and arrival time difference of a pilot PN code in a synchronous CDMA network;

4 is a message flowchart of a first embodiment of an apparatus for estimating emergency call origination in a synchronous CDMA network according to the present invention;

5 is a configuration diagram of a second embodiment of an apparatus for estimating emergency call origination in a synchronous CDMA network according to the present invention;

6 is a message flow diagram of a second embodiment of an apparatus for estimating emergency call origination in a synchronous CDMA network according to the present invention;

7 is a configuration diagram of a third embodiment of an emergency call originating position estimation device in a synchronous CDMA network according to the present invention;

8 is a message flowchart of a third embodiment of an apparatus for estimating emergency call origination in a synchronous CDMA network according to the present invention.

<Description of the code | symbol about the principal part of drawing>

310: mobile station 320: base station

330: base station management station 340: call processing station

350: position estimation unit 360: database unit

An apparatus and method for estimating an emergency call originating location in a synchronous CDMA network according to the present invention for achieving the above object are provided with a conventional hardware or program installed at a base station or a mobile station to use a difference in arrival time of an emergency call received from the mobile station. Alternatively, in the synchronous CDMA cellular network, when a mobile station makes a call, the mobile station transmits the information about the time difference between two or more base stations to the location estimator by using a short message service. By estimating the call origination location, it is possible to use an efficient channel and to support appropriate and urgent processing at an accurate location in an inexpensive and simple manner.

Hereinafter, a first embodiment of an apparatus for estimating emergency call origination in a synchronous CDMA network according to the present invention will be described with reference to FIG.

As shown in FIG. 2, the apparatus for estimating the emergency call origination position in the synchronous CDMA network according to the present invention includes a mobile station 110 for transmitting a call, a plurality of base stations 120 located around the mobile station 110, The base station management station 130 manages the plurality of base stations 120 and performs voice and data transmission and reception with other wired / wireless networks, and inputs a voice signal of an outgoing signal from the base station management station 130 through a public switched telephone network. Receiving the call processing station 140 and the base station management station 130 to receive the call origination location and information on the corresponding base station of the cell containing the mobile station 110 to receive the location of the call originating mobile station; A position estimator 150 for accurately estimating and transmitting the estimated position of the mobile station to the call processing station 140 through a public switched data network or a dedicated data network; It stores the geographical information of the station, the identification number of the base station and the location of the transceiver station included in each base station, and comprises a database unit 160 for providing the necessary information at the request of the position estimation unit 150 do.

Hereinafter, the operation of the emergency call originating position estimation apparatus in the synchronous CDMA network according to the present invention configured as described above will be described in detail with reference to FIGS.

3 illustrates a time offset of a pilot pseudonoise code transmitted from each base station in a synchronous CDMA cellular network. In a synchronous CDMA cellular network, base stations are identified by time offsets between pilot pseudo noise codes, and reference times of base stations A, B, and C (120-1, 120-2, 120-3) are Pi, Pj, and Pk, respectively. In particular, in a synchronous CDMA cellular network, a time offset of a pseudo noise code for distinguishing each base station is set to 64 chips. Accordingly, the mobile station 110 records the arrival time of the pilot PN code transmitted from the plurality of base stations through the pilot channel, and arrives between each base station by using the arrival time and information on the time offset used to distinguish between the base stations. Calculate the time difference. For example, the time offset of the pilot pseudonoise code transmitted from the base station A 120-1 is Pi + ti, and the time offset of the pilot pseudonoise code transmitted from the base station B 120-2 is equal to Pj +. tj, and if the time offset of the pilot pseudo-noise code transmitted from the base station C (120-3) is Pk + tk, the mobile station 110 between the base station A and B (120-1 and 120-2) belonging to A time offset Dik between the time offset Dij and the base stations A and C 120-1 and 120-3 may be calculated. Subsequently, the mobile station 110 transmits the time offsets and the voice signal to the base station management station 130 through the base station A 120-1.

The base station management station 130 performs the following operations. That is, the voice signal received from the base station A (120-1) is output to the call processing station 140 through a public switched telephone network, the time offset information for the position of the mobile station 110 is the position estimating unit ( 150). In this case, since the data information is transmitted through the short message service, such as time offset information except for the voice signal, the mobile station 110 transmits the short message before the node address of the position estimator 150. It should be received through the base station management station 130.

The location estimation unit 150 receives information input from the base station management station 130, geographical information of a corresponding area of a mobile station from the database unit 160, identification numbers of base stations, and transmission / reception stations of each base station. It estimates the location of the mobile station that has sent the emergency call by receiving information such as the location, and outputs the estimated location of the mobile station to the call processing station 140 through the public switched data network.

The operation of the apparatus for estimating the emergency call origination position in the synchronous CDMA network according to the present invention as described above can be described as follows using the message flowchart shown in FIG.

First, when the mobile station 110 sends a call to the base station A 120-1, the base station A 120-1 receives a signal (BS ACK Order) confirming that the originating call has been received. The mobile station 110 transmits a call message service request signal to the base station management station 130. Subsequently, the base station management station 130 transmits a physical address request of the call supporting station together with the cell identification number of the base station A 120-1 to the location estimator 150, and receives the received information. The position estimating unit 150 outputs the switch number of the call support station closest to the base station A 120-1 to the base station management station 130.

After the base station management station 130 knows the switch number of the emergency assistance center 140 as described above, it requests a channel assignment to the base station A 120-1, and then the base station A 120 In -1), a channel assignment message is transmitted to the mobile station 110. The mobile station 110 assigned the channel transmits a preamble signal for initialization through a traffic channel (TCH preamble), and the base station A 120-1 receiving the channel uses the preamble signal. After synchronizing information transmission with the mobile station 110 and setting parameters, the base station confirmation signal is transmitted to the mobile station 110. The mobile station 110 receives the base station confirmation signal as described above and transmits an MS ACK order to the base station A 120-1, and receives a service connection message from the base station A 120-1. A connection message is received and an initialization process for voice and information transmission is completed by transmitting a service connect completion message to the base station A 120-1.

Subsequently, the base station A 120-1 transmits a channel assignment completion message to the base station management station 130, and after the base station management station 130 confirms that the channel allocation is completed, the short message service is performed. Request a node address of the location estimator 150 to transmit the location information of the mobile station 110 using a short message destination address request, and the location estimator 150 receives the corresponding node address. The address is transmitted to the base station management station 130. The node address is transmitted from the base station management station 130 to the mobile station 110 via the base station A 120-1.

Subsequently, the mobile station 110 transmits a second layer acknowledgment layer (Layer-2 ACK) to the base station management station 130 through the base station A 120-1 indicating that the node address transmitted as described above is correctly received. do. In addition, the mobile station 110 transmits time offset information obtained from a plurality of base stations to the base station A 120-1 using the node address of the location estimator 150 to estimate an accurate location. After receiving the second layer acknowledgment signal confirming that the base station A 120-1 has been correctly received, the base station A 120-1 and the base station management station 130 are transmitted to the position estimating unit 150. Done. The position estimator 150 receives time offset information for position estimation from the mobile station 110 and estimates the exact position of the mobile station 110 using the information stored in the database 160. In addition, by transmitting the estimated location of the mobile station to the call processing station 140 using a common switched data network, it is possible to quickly and appropriately process the correct location of the originating call.

Hereinafter, a first embodiment of an emergency call origination location estimation method in a synchronous CDMA network according to the present invention will be described with reference to FIGS. 3 and 4.

In the synchronous CDMA network according to the present invention, the method for estimating the emergency call origination position includes a time delay calculation step of obtaining a time offset between base stations using times of pilot pseudonoise codes received from a plurality of base stations, transmitting a call, and transmitting a channel from the base station. A call setup step of receiving a call setup step, an address setup step of receiving a call setup completion signal in the call setup step, and setting an address for a short message, and using the channel and address determined in the call setup step and the address setup step. And an information transmission step of transmitting a voice signal and the time offset information, and a mobile station position estimation step of estimating the position of the mobile station by receiving time offset information from the information transmission step.

The call establishment step includes a call generation step of generating a call, an address obtaining step of securing a number of a call support station closest to a base station to which the call generated in the call generation step belongs, and a number obtained in the address obtaining step. A channel setting step of allocating a channel for a call and performing pseudo-noise code synchronization for transmission.

Hereinafter, the operation of the emergency call originating position estimation method in the synchronous CDMA network according to the present invention configured as described above will be described in detail with reference to FIGS.

In IS-95 using the synchronous CDMA cellular network shown in FIG. 3, each base station is distinguished by a time offset of a 64 chip pilot pseudonoise code. First, in the time delay calculation step, a pilot pseudonoise code received through a time delay proportional to the distance between the mobile station and the base station is received, and the mobile station uses the information on the time offset of the base station and the neighboring base station to which the mobile station belongs. Calculate the time delay offset with other base stations.

Subsequently, in the call setup step, the mobile station first sends an emergency call to the base station in the call generation step, the base station transmits a call confirmation signal to the mobile station, and transmits a call message service request signal to the base station management station. In the address obtaining step, the base station management station transmits the identification number of the base station generated in the call generation step to the location estimating unit, and at the same time requests the number of the corresponding emergency support center in the shortest distance, and the location estimating unit transmits to the base station. The number of the nearest emergency support center is output to the base station control station.

In the channel setting step, the channel assignment command is made to the base station using the number of the emergency assistance center secured as described above, and the base station transmits a channel assignment message to the mobile station. The mobile station receiving the channel assignment message transmits a preamble signal through a traffic channel, and the base station synchronizes information with the mobile station using the preamble and sets parameters, and then transmits an acknowledgment signal to the mobile station.

Subsequently, the mobile station transmits a confirmation signal to the base station, receives a message confirming that the call service is connected from the base station, and then completes a call setup step for transmitting voice and information by transmitting a call service connection completion message to the base station. .

In the address setting step, a call setup completion message is received from the call setup step, a base station management station requests a node address of a location estimator for short message service, and a location estimating unit sets the corresponding address through the base station management station. Transmits the node address to the mobile station using the traffic channel assigned to the mobile station.

In the information transmission step, the voice signal and the time offset information obtained in the time offset calculation step are transmitted using the number of the emergency support center determined in the call setup step and the node address of the location estimator determined in the address setup step. .

Subsequently, in the mobile station position estimation step, the position of the mobile station is estimated by receiving the time offset information from the information transmission step, and the estimated position of the mobile station is transmitted to the call processing station by using various common switched data networks or dedicated data networks. Prompt support is possible.

In addition to the first embodiment of the apparatus and method for estimating the emergency call origination position in the synchronous CDMA network according to the present invention as described above, the problem of the prior art can be solved through another second embodiment.

Hereinafter, a second preferred embodiment of an apparatus for estimating emergency call origination in a synchronous CDMA network according to the present invention will be described with reference to FIG.

As shown in FIG. 5, the apparatus for estimating the emergency call origination position in the synchronous CDMA network according to the present invention includes a mobile station 210 for transmitting an emergency call and three or more base stations 220 positioned around the mobile station 210. And a base station management station 230 that manages the plurality of base stations 220 and performs transmission and reception of voice and data with other wired / wireless networks, and voice of emergency calls from the base station management station 230 through a public switched telephone network. A call processing station 240 that receives a signal and supports urgent processing, and an emergency call originating location and a mobile station 210 from the base station management station 230 through a public switched data network or a dedicated data network. A location estimator 250 for accurately estimating the location of the emergency call originating mobile station by receiving information about the base station, geographical information of the corresponding area of the mobile station, and an identification number of the base station And to store the position of the transceiver station that is included in each base station, it comprises a data base 260 for providing the information needed by the request of the position estimation unit (250).

Hereinafter, the operation of the second embodiment of the emergency call originating position estimation apparatus in the synchronous CDMA network according to the present invention configured as described above will be described in detail with reference to FIGS.

In the synchronous CDMA network according to the present invention shown in FIG. 5, the emergency call originating location estimating apparatus stores and ships the address of the corresponding location estimating unit at the time of manufacture of the mobile station, thereby providing a separate short service message to the base station management station. A short transmission service between the mobile station and the position estimating unit is possible without the need for installing a program, so that the position of the emergency call originating mobile station can be estimated quickly and accurately.

As shown in FIG. 6, the mobile station 210 records the arrival time of a pilot pseudonoise code transmitted through a pilot channel from a plurality of base stations, and information on the time offset used to distinguish between the arrival time and the base station. As shown in FIG. The base station management unit 230 requests the number of the call processing station 240 closest to the base station through the base station A 220-1. This process is performed using a short service through the address of the position estimator 250 already stored in the mobile station. The base station management station 230 receives the voice signal transmitted from the mobile station 210 via the base station A 220-1, and the number of the call processing station 240 secured by the mobile station through the short service. Is output to the call processing station 240 through a public switched telephone network, and the time offset information on the location of the mobile station 210 is public by using the address of the location estimator 250 stored in the mobile station. Output to the position estimator 250 through a switched data network or a dedicated data network.

In addition, the call processing station 240 confirms the location of the mobile station estimated by the location estimating unit 250 using an external device, and supports an urgent service.

In the second embodiment of the apparatus for estimating the emergency call origination position in the synchronous CDMA network according to the present invention as described above, the position estimator 250 simply positions the mobile station without installing a separate program in the base station management station 230. The call processing station 240 may determine the position of the mobile station estimated by the position estimating unit 250 using an external device such as an external terminal. It is possible to urgently support emergency call without transmitting information between the governments 250.

Next, the operation of the second embodiment of the apparatus for estimating the emergency call origination position in the synchronous CDMA network according to the present invention as described above will be described using the message flowchart shown in FIG.

First, an initialization process for transmitting voice and information between the mobile station 210 and the base station management station 230 is performed through the same operation as in the first embodiment. Subsequently, after channel allocation is completed, the mobile station 210 transmits information such as time offset between base stations for estimating the location of the mobile station through a short message service using the address of the location estimator 250 through a traffic channel. . The base station A 220-1 transmits a second layer confirmation signal to the mobile station 210, transmits the time offset information to the base station management station 230, and receives the base station management station 230. The management station 230 transmits to the position estimator 250 through the address.

Hereinafter, a second embodiment of the method for estimating the emergency call origination position in the synchronous CDMA network according to the present invention will be described with reference to FIG.

In a second embodiment of the method for estimating the emergency call origination position in a synchronous CDMA network according to the present invention, there is provided a time delay calculation step of obtaining time offset information between base stations using time of pilot pseudonoise codes received from a plurality of base stations; Call, the call setup step of receiving a channel from the base station and the voice signal using the number of the emergency call processing center determined in the call setup step, and using the address of the position estimation unit previously stored in the mobile station An information transmission step of transmitting time offset information, and a mobile station position estimation step of receiving time offset information from the information transmission step and estimating the position of the mobile station.

The operation of the second embodiment of the emergency call origination location estimation method in the synchronous CDMA network according to the present invention configured as described above will be described in detail with reference to FIG.

First, in the time delay calculation step, a pilot pseudonoise code received through a time delay proportional to the distance between the mobile station and the base station is received, and the mobile station uses the information on the time offset of the base station and the neighboring base station to which the mobile station belongs. Calculate the time delay offset with other base stations. Subsequently, in the call setup step, the mobile station first sends an emergency call to the base station in the call generation step, the base station transmits a call confirmation signal to the mobile station, and transmits a call message service request signal to the base station management station. In the address obtaining step, the base station management station transmits the identification number of the base station generated in the call generation step to the location estimating unit, and at the same time requests the number of the corresponding call processing station of the shortest distance, and the location estimating unit transmits to the base station. The number of the nearest emergency support center is output to the base station control station.

In the channel setting step, the channel assignment command is made to the base station using the number of the emergency assistance center secured as described above, and the base station transmits a channel assignment message to the mobile station. The mobile station receiving the channel assignment message transmits a preamble signal through a traffic channel, and the base station synchronizes information with the mobile station using the preamble and sets parameters, and then transmits an acknowledgment signal to the mobile station. Subsequently, the mobile station transmits a confirmation signal to the base station, receives a message confirming that the call service is connected from the base station, and then completes a call setup step for transmitting voice and information by transmitting a call service connection completion message to the base station. .

Subsequently, in the information transmitting step, the voice signal is transmitted through the public switched telephone network using the channel allocated in the call setting step and the number of the call processing station, and the address of the location estimating unit already stored in the mobile station for short message service. The time offset information is transmitted to the position estimating unit by using. Subsequently, in the mobile station position estimating step, prompt support is possible by receiving time offset information from the information transmission step, estimating the position of the mobile station, and displaying the estimated position of the mobile station in an external device installed in the call processing station. .

Hereinafter, a third preferred embodiment of an apparatus for estimating emergency call origination in a synchronous CDMA network according to the present invention will be described with reference to FIG.

A third preferred embodiment of the apparatus for estimating the emergency call origination in the synchronous CDMA network according to the present invention is to install a separate program in the base station management station by allocating an address of the position estimator to the mobile station using the MIN number of the mobile station in the synchronous CDMA cellular network. It is characterized by accurately estimating the emergency call origination position without the need.

As shown in FIG. 8, in the synchronous CDMA network according to the present invention, the apparatus for estimating the emergency call origination position includes a mobile station 310 for transmitting an emergency call and three or more base stations 320 located around the mobile station 310. And a base station management station 330 that manages the plurality of base stations 320 and performs transmission and reception of voice and data with other wired / wireless networks, and voices of emergency calls from the base station management station 330 through a public switched telephone network. A signal and a MIN number of the mobile station 310 are input through a public switched telephone network, and a call processing station 340 supporting urgent processing and a MIN number of the mobile station 310 are input from the call processing station 340. Receives and outputs an address for a short message service, and transmits an address for a short message service to the position of the mobile station inputted through the base station management station 330 through a public switched data network or a dedicated data network. A location estimator 350 for accurately estimating the location of the mobile station by receiving the information and the information about the base station, and storing the geographical information of the corresponding area of the mobile station, the identification number of the base station, and the location of the transceiver station included in each base station. It is composed of a database 360 for providing the necessary information at the request of the position estimator 350.

Hereinafter, the operation of the second embodiment of the emergency call originating position estimation apparatus in the synchronous CDMA network according to the present invention configured as described above will be described in detail with reference to FIGS.

As shown in FIG. 8, the mobile station 310 records the arrival time of a pilot pseudonoise code transmitted through a pilot channel from a plurality of base stations, and information on the time offset used to distinguish between the arrival time and the base station. As shown in FIG. The base station management unit 230 requests the number of the call processing station 340 nearest to the base station through the base station A 320-1. The process is performed by the base station management station 330 to transmit the identification number and the like of the base station to the position estimator 350 through a public switched data network or a dedicated data network.

As described above, the mobile station 310, which has received the number of the call processing station 340, receives the voice signal and the MIN number which is the identification number of the mobile station simultaneously through the base station A 220-1 using the number. The base station management station 330 transmits it to the call processing station 340 through a public switched telephone network. The call processing in which the base station management station 330 receives the MIN number of the mobile station. The station 340 transmits the MIN number to the location estimator 350, and the location estimator 350 assigns an address of a location estimator for supporting a short message service to the mobile station, It transmits to the mobile station through the base station management station 330 and the base station A 320-1 through a dedicated data network.

The mobile station 310, which secures the address of the position estimating unit, performs time offset information on the position of the mobile station 210 obtained by the mobile station through a short message service. Via the base station management station 330, it transmits to the position estimating unit 250. The position estimator 350 receives information for estimating the position of the mobile station from the mobile station 310 and estimates the exact position of the mobile station using the cell identification number and the surrounding geographical information from the database unit 360. By transmitting this to the call processing station 340, the call processing station 340 can support the urgent service.

In the third embodiment of the apparatus for estimating the emergency call origination in the synchronous CDMA network according to the present invention as described above, the position estimating unit may be installed without the need for installing a separate program or hardware in the base station management station 330 and the mobile station 310. In 350, the position of the mobile station can be easily estimated, and the service provider can estimate the exact position in case of emergency call in other regions.

Next, the operation of the third embodiment of the apparatus for estimating the emergency call origination position in the synchronous CDMA network according to the present invention as described above will be described using the message flowchart shown in FIG.

First, an initialization process for transmitting voice and information between the mobile station 310 and the base station management station 330 is performed through the same operation as in the first embodiment. Subsequently, after channel allocation for voice information transmission and short message service is completed, the base station management station 330 outputs the MIN number of the mobile station making an emergency call to the call processing station 340, and the call processing station ( In operation 340, the MIN number of the mobile station received from the base station management station 330 is output to the location estimator 350. The location estimator 350 outputs the address of the location estimator 350 corresponding to the MIN of the mobile station 310 to the base station management station 330 through a public switched data network or a dedicated data network. The base station management station 330 transmits an address for a short message service to the mobile station 310 via the base station 320.

The mobile station 310 having secured the address of the location estimator through the above process transmits a second layer confirmation signal indicating that the address has been correctly received to the base station management station 330 through the base station 320, The time offset information obtained from the plurality of base stations to estimate the exact location of the through the base station 320 and the base station management station 330 by using a short message service through the address of the position estimator 550, The position estimator 350 transmits the data. The position estimator 350 receives time offset information for position estimation from the mobile station 310 and estimates the exact position of the mobile station 310 using the information stored in the database unit 360. In this case, it is possible to promptly support the transmission of the estimated position of the mobile station to the call processing station 340.

Hereinafter, a third embodiment of the method for estimating the emergency call origination position in the synchronous CDMA network according to the present invention will be described with reference to FIG.

In a third embodiment of the method for estimating the emergency call origination position in a synchronous CDMA network according to the present invention, a time delay calculation step of obtaining a time offset between base stations using the times of pilot pseudonoise codes received from a plurality of base stations is performed. A call setup step of making a call and receiving a channel from a base station, an address setup step of receiving a call setup completion signal in the call setup step, and setting an address for a short message service, and in the call setup step and the address setup step An information transmission step of transmitting a voice signal and time offset information using the determined channel and address, and a mobile station position estimation step of estimating the position of the mobile station by receiving the time offset information from the information transmission step.

The address setting step is characterized by setting the address of the position estimating unit by transmitting the MIN number of the mobile station.

Hereinafter, the operation of the third embodiment of the method for estimating the emergency call origination position in the synchronous CDMA network according to the present invention configured as described above will be described in detail.

First, in the time delay calculation step, the call setup step, and the channel setup step, the same process as in the first and second embodiments is performed. Subsequently, in the address setting step, a call establishment completion message is input from the call setting step, and the base station management station transmits the MIN number of the mobile station to the location estimation unit via the call processing station, and the position estimating unit transmits the corresponding address to the base station management station. By using the traffic channel assigned to the mobile station in the call setup step, the address is transmitted to the mobile station.

In the information transmission step, a voice signal and the time offset information are used for a common exchange data network or a dedicated data network using the emergency assistance center number determined in the call setup step and the address of the location estimator determined in the address setup step. In the mobile station position estimating step, time offset information is received from the information transmitting step, the position of the mobile station is estimated, transmitted to the corresponding call processing station, and the emergency call can be quickly supported.

According to the apparatus and method for estimating an emergency call origination position in a synchronous CDMA cellular network according to the present invention described above, instead of installing separate hardware or programs for estimating the position of a mobile station in a base station and a base station management station, a plurality of base stations can receive a standard time. Using the characteristics of a synchronous CDMA cellular network that supports the mobile station's operation and the base station's MIN number at the base station management station, it automatically estimates the originating location of the mobile station when making an emergency call, allowing for simple emergency support without additional cost increase. And by roaming between mobile phone service providers by enabling the accurate location estimation of the mobile station, it is possible to ensure the compatibility between operators can improve the subscriber satisfaction using the terminal.

Claims (8)

An apparatus for estimating the location of an originating signal in a synchronous CDMA network, At least three base stations; A mobile station for transmitting an emergency call including time offset information on a deviation between times of receiving a call from three adjacent base stations among the three or more base stations; A base station management station which manages the three or more base stations, performs transmission and reception of voice and data with other wired / wireless networks, and receives the time offset information to estimate an emergency call origination location; A call processing station for receiving emergency voice signals from the base station management station through the public switched telephone network to support urgent processing; A database unit for storing cell information including geographical information of a corresponding area of a mobile station, an identification number of a base station, and location information of a transceiver station included in each base station; And The emergency call origination location and the cell information are received from the base station management station and the database, and the position of the emergency call originating mobile station is accurately estimated based on geographical information, and the call processing is performed through a public switched data network or a dedicated data network. A position estimating unit for transmitting the estimated position of the mobile station to the station; The mobile station receives a node address of the location estimator through the base station management station and transmits the time offset information through a short message service. The location estimating unit receives the information input from the base station management station and the location information of the transmitting station from the database, estimates the location of the mobile station that has sent the emergency call to the call processing station through the public switched data network. And an emergency call originating location estimation device in a synchronous CDMA network. An apparatus for estimating the location of an originating signal in a synchronous CDMA network, At least three base stations; A mobile station for transmitting an emergency call including time offset information on a deviation between times of receiving a call from three adjacent base stations among the three or more base stations; A base station management station which manages the three or more base stations, performs transmission and reception of voice and data with other wired / wireless networks, and receives the time offset information to estimate an emergency call origination location; A call processing station for receiving emergency voice signals from the base station management station through the public switched telephone network to support urgent processing; A database unit for storing cell information including geographical information of a corresponding area of a mobile station, an identification number of a base station, and location information of a transceiver station included in each base station; and A location estimating unit for receiving the emergency call originating location and the cell information from the base station management station and the database and accurately estimating the location of the emergency call originating mobile station based on geographical information; And the mobile station enables a short transmission service between the mobile station and the location estimator by embedding an address of the location estimator. An apparatus for estimating the location of an originating signal in a synchronous CDMA network, At least three base stations; A mobile station for transmitting an emergency call including time offset information on a deviation between times of receiving a call from three adjacent base stations among the three or more base stations; A base station management station which manages the three or more base stations, performs transmission and reception of voice and data with other wired / wireless networks, and receives the time offset information to estimate an emergency call origination location; A call processing station which receives an audio signal of an emergency call and a mobile station MIN number, which is an identification number of the mobile station, from the base station management station through a public switched telephone network, and supports urgent processing; Receives the mobile station MIN number from the call processing station and outputs an address for a short message service, and information on the location of the mobile station inputted from the mobile station via a base station management station through a public switched data network or a dedicated data network; A position estimating unit for accurately estimating the position of the mobile station by receiving information about the base station; And A geographic information of a corresponding area of a mobile station, an identification number of a base station, a location of a transceiver station included in each base station, and the like, and a database unit for providing necessary information at the request of the position estimating unit; The mobile station receives the number of the corresponding call processing station and transmits a voice signal and the mobile station MIN number to the base station management station via the base station, The base station management station transmits the mobile station MIN number to the call processing station through a public switched telephone network; The call processing station receives the mobile station MIN number from the base station management station and transmits it to the location estimating unit, The location estimating unit estimates the location of the mobile station by allocating the address of the location estimating unit to support the short message service to the mobile station, and enables the service provider to estimate the exact location when an emergency call occurs in another region. Apparatus for estimating the emergency call origination position in a synchronous CDMA network, characterized in that. A method for estimating the location of an originating signal in a synchronous CDMA network, A time delay calculation step of calculating time offset information between base stations using times of pilot pseudonoise codes received at a plurality of base stations; Making a call and receiving a channel from a base station; An address setting step of receiving a call setting completion signal in the call setting step and setting an address for a short message; An information transmission step of transmitting a voice signal and the time offset information by using the assigned address and the address set in the address setting step; And And a mobile station position estimating step of estimating the position of the mobile station by receiving the time offset information. 5. The method of claim 4, wherein the call setup step is A call generation step of generating a call; An address obtaining step of securing a number of the call support station closest to the base station to which the call generated in the call generation step belongs; And And a channel setting step of allocating a channel for the call with the number obtained in the address obtaining step, and performing pseudo noise code synchronization for transmission. A method for estimating the location of an originating signal in a synchronous CDMA network, A time delay calculation step of calculating time offset information between base stations using times of pilot pseudonoise codes received at a plurality of base stations; A call setup step of sending an emergency call and receiving a channel from the base station; An information transmission step of transmitting a voice signal using the number of the call processing station determined in the call setup step, and transmitting the time offset information using an address of a position estimator previously stored in the mobile station; And And a mobile station position estimating step of estimating the position of the mobile station by receiving the time offset information from the information transmission step. A method for estimating the location of an originating signal in a synchronous CDMA network, A time delay calculation step of calculating time offset information between base stations using times of pilot pseudonoise codes received at a plurality of base stations; A call setup step of sending an emergency call, receiving a channel from the base station, and setting an address of a location estimator by transmitting a MIN number of the mobile station for short message service as a call setup completion signal is input; An information transmission step of transmitting a voice signal and the time offset information using the address and the address determined in the call setup step and the address setup step; And And a mobile station position estimating step of estimating the position of the mobile station by receiving the time offset information. 8. The method of claim 7, wherein the call setup step is A call generation step of generating a call; An address obtaining step of securing a number of the call support station closest to the base station to which the call generated in the call generation step belongs; And And a channel setting step of allocating a channel for the call with the number obtained in the address obtaining step, and performing pseudo noise code synchronization for transmission.