KR100308848B1 - Handoff method from wideband code division multiple access system to narrowband code division multiple access system - Google Patents

Abstract

The present invention provides a handoff method from a wideband code division multiple access system to a narrow band code division multiple access system capable of short cell search time and preventing call disconnection. In the handoff method, a wideband code division multiple access base station receives a forward link signal of a narrowband code division multiple access system. The wideband base station obtains a narrowband code division multiple access scheme common base station time based on a pilot channel and a synchronization channel among the signals of the forward link of the received narrowband code division multiple access system. The broadband base station aligns a radio frame boundary having a predetermined time interval with the obtained common base station time. According to the above method, when the 3G / 2G dual mode terminal needs to hand off from the 3G broadband CDMA system to the 2G IS-95 narrowband CDMA system, the mobile station can significantly reduce the 2G base station search time.

Description

Handoff method from wideband code division multiple access system to narrowband code division multiple access system {HANDOFF METHOD FROM WIDEBAND CODE DIVISION MULTIPLE ACCESS SYSTEM TO NARROWBAND CODE DIVISION MULTIPLE ACCESS SYSTEM}

The present invention relates to a handoff method, and more particularly, to a handoff method from a wideband code division multiple access system to a narrowband code division multiple access system.

Currently, the Interim Standard (IS) -95 narrowband CDMA system is designed for voice or low-speed data-based communication. On the other hand, the broadband CDMA system, a third generation mobile communication system, provides not only voice but also multimedia services of low speed and high speed data communication. When a cellular or PCS service provider of an existing IS-95 CDMA system adopts a wideband CDMA-based 3G mobile communication system, the cell design of the 3G system should be centered on a large city, which is a densely populated area. Very advantageous to In this environment, the second generation / 3 generation dual mode terminal 104 is essential and handoff from the third generation broadband CDMA system to the second generation IS-95 CDMA system is a prerequisite.

The second generation IS-95 CDMA system currently in commercial use is a base station synchronous system in which all base stations operate in system time using a global positioning system (GPS) receiver. On the other hand, the third generation broadband CDMA system currently being developed is a base station asynchronous system that is basically independent of the base station time, that is, the starting point of the 10 msec radio frame for each base station without using a GPS receiver.

In the second generation IS-95 CDMA system, since the reference times of all base stations match, the base stations are distinguished using the phase difference of the same pilot code with respect to the reference time as shown in FIG. This feature of the second generation IS-95 CDMA system allows the mobile station to conduct pilot searches of neighboring base stations in a very short time, either in the mobile station's active or idle state. In contrast, since the mobile station does not know the system synchronization during the initial cell search, the initial synchronization acquisition time is very long compared to the synchronization acquisition time for the neighboring cell in the active or idle state. However, the initial synchronization acquisition process of the mobile station is relatively less important than that of the neighbor cell for handoff, since the number of times is very small and before the call is not established.

On the other hand, 3G / 2G dual-mode terminals, which were receiving 3G services in a wireless network in which 2G IS-95 CDMA systems and 3G base station systems were used independently of each other, 3G broadband CDMA in 3G / 2G border areas. When performing handoff from the system to the 2nd generation IS-95 CDMA system, if there is no information on the 2nd generation IS-95 narrowband CDMA system time, the 3rd generation / 2nd generation dual mode terminal is a 2nd generation IS-95 CDMA system. Since the cell has to go through the same procedure as the initial synchronization acquisition process, it may take several hundred msec or more. In this case, a call requiring a small delay such as a voice service or a circuit data service is disconnected.

Accordingly, the present invention is to solve such a conventional problem, and the present invention provides a handoff method from a wideband code division multiple access system to a narrow band code division multiple access system capable of short cell search time and preventing call disconnection. The purpose is to provide.

The present invention to achieve the above object

Receiving, by the wideband code division multiple access scheme base station, the forward link signal of the narrowband code division multiple access system;

(b) the wideband base station obtaining a narrowband code division multiple access scheme common base station time based on a pilot channel and a synchronization channel among the signals of the forward link of the narrowband code division multiple access system received in step (a); ;

(c) the broadband base station aligning radio frame boundaries having a predetermined time interval with the common base station time obtained in step (a);

(d) the broadband base station acquires pilot offset information for neighboring narrowband code division multiple access base stations through a call channel or a wired network among forward link signals of the narrowband code division multiple access system received in step (a); Transmitting to a wideband / narrowband code division multiple access mode dual mode terminal through a forward channel of the wideband code division multiple access system;

(e) the terminal searching for a forward link pilot channel of an adjacent narrowband code division multiple access system based on the pilot pseudo noise offset values from the broadband base station;

(f) the terminal transmits an offset value and a pilot strength of a forward link pilot channel of the narrowband code division multiple access system searched in step (e) to the broadband base station, and predetermined time of a signal received from the narrowband base station; Keeping track of system time with intervals;

(g) the broadband base station transmits long code state information for a narrowband code division multiple access system through the forward link of the broadband system according to the offset value and pilot strength of the forward link pilot channel from the dual mode terminal. Transmitting to the terminal and instructing the terminal to hand off to the corresponding narrowband code division multiple access base station; And

(h) setting, by the narrowband base station, a forward call channel of the narrowband code division multiple access system to the terminal in response to a handoff command by the broadband base station;

(i) the terminal demodulates the forward call channel from the narrowband base station based on the long code state information from the broadband base station and establishes a narrowband code division multiple access scheme reverse call channel to establish the narrowband base station; Transmitting to; And

(j) demodulating, by the narrowband base station, the reverse communication channel from the terminal to a call channel from the wideband code division multiple access system to the narrowband code division multiple access system. Provide a hand off method.

Step (c) comprises: (c-1) detecting, by the broadband code division multiple access base station, a call channel among forward link signals of the narrow band code division multiple access system received in step (a); (c-2) acquiring information on the base station latitude and longitude of the corresponding narrowband code division multiple access base station based on the call channel detected in step (c-1) by the wideband code division multiple access base station; step; (c-3) information on the base station latitude and longitude of the corresponding narrowband code division multiple access base station obtained in step (c-2) by the wideband code division multiple access base station, and the wideband code division multiple access base station Calculating a time delay between the corresponding narrowband code division multiple access base station and the wideband code division multiple access base station based on base station latitude and longitude information of the base station; And (c-4) the narrowband code division multiple access in which the wideband code division multiple access base station obtains a radio frame boundary having a predetermined time interval by the time delay calculated in step (c-3). It is desirable to include sending and sorting ahead of the common base station time of the system.

1 illustrates a portion of a cellular system consisting of a hierarchical structure of a second generation narrowband CDMA system and a third generation wideband CDMA system that may be used in the present invention.

2 is a diagram illustrating a third generation wideband CDMA base station according to an embodiment of the present invention.

3 shows a radio frame of a third generation wideband CDMA forward link aligned to a second generation narrowband CDMA common base station time.

4 is an exemplary diagram illustrating system time alignment by a wideband / narrowband CDMA dual mode terminal when handing off from a third generation wideband CDMA system to a second generation narrowband CDMA system.

5 is a flowchart illustrating a handoff method from a third generation wideband CDMA system to a second generation narrowband CDMA system according to an embodiment of the present invention.

6 is a flowchart illustrating a method of performing step S503 shown in FIG. 5 when the locations of the narrowband and wideband CDMA base stations are different.

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

102: second generation IS-95 CDMA cell 104: second generation narrowband CDMA base station

106: 3rd generation wideband CDMA cell 108: 3rd generation wideband CDMA cell

110: 3rd generation broadband base station 112: 3rd generation broadband base station

114: Wideband / Narrowband CDMA Duplex Mode Terminal

202: second generation CDMA forward channel receiver

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a mixed system of a 2nd generation IS-95 CDMA system and a 3rd generation wideband IS-95 CDMA system, which is a hierarchical structure of a second generation narrowband CDMA system and a 3rd generation wideband CDMA system that can be used in the present invention. Represents a part. In Fig. 1, reference numeral 102 denotes a second generation IS-95 CDMA cell, and reference numerals 106 and 108 denote a third generation wideband CDMA cell. 2 shows a third generation wideband CDMA base station 110 in accordance with an embodiment of the present invention. The third generation wideband CDMA base station 110 incorporates a second generation CDMA forward channel receiver 202.

3 shows a radio frame of a third generation wideband CDMA forward link aligned to a second generation narrowband CDMA common base station time. Each frame of the call channel or forward call channel has a time interval of 20 msec. The sync channel super frame is divided into three sync channel frames with a time interval of 80 msec. The sync channel frame has a time interval of 80/3 msec. Wideband CDMA radio frames have a time interval of 10 msec, with each frame numbering modulo 0 to 71. In FIG. 3, N may be one of 0, 8, 16, 24, 32, 40, 48, 56, and 64.

4 is an exemplary diagram illustrating system time alignment by a wideband / narrowband CDMA dual mode terminal when handing off from a third generation wideband CDMA system to a second generation narrowband CDMA system. 4, the third generation wideband CDMA forward channel message has a message length of 20 msec. The third generation wideband CDMA forward channel message includes long code state information of the second generation narrowband CDMA system at a time equal to 20 msec + generation 3 generation / 2 generation CDMA reception delay from the end of the message. The reception delay difference between the third generation wideband CDMA forward link signal and the second generation narrowband CDMA forward link signal is -10 to +10 mu sec. The '0' frame offset forward call channel frame time of the second generation narrowband CDMA system acquired by the dual mode terminal 114 is 20 msec.

Hereinafter, a handoff method from a wideband CDMA system to a narrowband CDMA system according to an embodiment of the present invention will be described with reference to the accompanying drawings.

In step S501, the third generation wideband CDMA base station 110 uses the second generation CDMA forward channel receiver 202 to transmit signals of the forward link of the narrowband CDMA system (not shown) from the adjacent second generation narrowband CDMA base station 104. Receive.

In step S502, the wideband CDMA base station 104 determines the common base station time of the narrowband CDMA system based on a pilot channel and a synchronization channel of signals of the forward link of the narrowband CDMA system from the second generation CDMA base station 104. Acquire.

In step S503, the wideband CDMA base station 110 aligns a radio frame boundary having a time interval of 10 msec with the common base station time of the narrowband CDMA system obtained in step S502. In this case, the wideband CDMA base station 110, as shown in FIG. 3, includes a starting point of a synchronization channel superframe corresponding to a '0' pilot offset of the narrowband CDMA system and zero of the wideband code division multiple access system. Align with a frame with a frame number against the multiple of.

In step S504, the wideband CDMA base station 110 obtains pilot offset information for adjacent narrowband CDMA base stations 104 through a call channel or a wired network among signals of the forward link of the narrowband CDMA system received in step S501. do.

In step S505, the broadband CDMA base station 110 divides the pilot pseudo noise offset values for the adjacent narrowband code division multiple access base stations obtained in step S504 through the forward channel of the broadband CDMA system. It transmits to the multiple access duplex mode 114.

In step S506, the forward link of the narrowband CDMA system based on a pilot pseudo noise offset value for the adjacent narrowband CDMA base stations 110 received by the dual mode terminal 114 from the wideband CDMA base station 110. Search for pilot channels.

In step S507, the dual mode terminal 114 transmits the offset value and pilot strength of the pilot channel of the forward link of the narrowband CDMA system retrieved in step S506 to the wideband CDMA base station 110, and the narrowband CDMA. The system time with a time interval of 20 mese of the signal received from the base station 110 is continuously tracked.

In step S508, the wideband CDMA base station 110, as illustrated in the narrow-band 4 according to the offset value and the pilot strength of the pilot channel of the forward link of the CDMA system from the dual-mode terminal (114) 2 ⁴² - The long code state information of the narrowband CDMA system having one chip period is transmitted to the dual mode terminal 114, and the dual mode terminal 114 is instructed to hand off to the corresponding narrowband CDMA base station.

In step S509, the dual mode terminal 114, having received the long code state information from the wideband CDMA base station 110, receives the received long code at the corresponding portion of the narrow-band CDMA system time of 20 msec in which it is locked. The long code is initialized based on the state information, and the narrowband CDMA base station 104 establishes a narrowband CDMA forward call channel in response to a handoff command by the wideband CDMA base station 110 to establish the dual mode terminal ( 114).

In step S510, the dual mode terminal 114 demodulates the forward call channel from the narrowband CDMA base station 104 based on the long code state information from the wideband CDMA base station 110, and narrowband. A CDMA reverse call channel is established and transmitted to the narrowband CDMA base station 104.

In step S511, the narrowband CDMA base station 104 performs handoff by demodulating the reverse call channel from the dual mode terminal 114.

Hereinafter, when the locations of the narrowband and wideband CDMA base stations 104 and 110 are different, a method of performing step S503 shown in FIG. 5 will be described with reference to FIG. 6. 6 shows a method of performing step S503 shown in FIG. 5 when the locations of the narrowband and wideband CDMA base stations 104 and 110 are different.

In step S601, the wideband CDMA base station 110 detects a call channel of the forward link signal of the narrowband CDMA system received in step S501.

In step S602, the wideband CDMA base station 110 obtains information on the base station latitude and longitude of the corresponding narrowband CDMA base station based on the call channel received in step S601. The call channel message of the narrowband CDMA system forward link includes a base_rat field indicating the latitude of the corresponding narrowband CDMA base station and a base_long field indicating the longitude.

In step S603, the wideband CDMA base station 110 based on the base station latitude and longitude of the corresponding narrowband CDMA base station obtained in step S602 and the base station latitude and longitude information of the wideband CDMA base station 110 based on the information. The time delay between the corresponding narrowband code division multiple access base station and the wideband CDMA base station 110 is calculated.

In step S604, the wideband CDMA base station 110 sends and aligns a radio frame boundary having a predetermined time interval by the time delay calculated in step S603 ahead of the common base station time of the narrowband CDMA system obtained in step S502.

As described above, when using the 3G wideband CDMA radio frame alignment method of the present invention, the 3G / 2G dual-mode terminal is serviced in the 3G broadband CDMA system, but is out of coverage of the 3G broadband CDMA system. When handoff to the -95 narrowband CDMA system is required, the terminal 2nd base station discovery time can be significantly reduced, making it easy to handoff from the 3rd generation wideband CDMA system to the 2nd generation IS-95 narrowband CDMA system. Since the cell search time is significantly reduced, the power consumption of the mobile station is very low, which can greatly increase the battery standby time of the mobile station. Conversely, if a third-generation / second-generation dual-mode terminal receives service from a second-generation IS-95 narrowband CDMA system and then enters the coverage of a third-generation wideband CDMA system and attempts to receive service from a third-generation wideband CDMA system, the third-generation broadband CDMA base station is similarly searched. Since the time can be significantly reduced, the power consumption of the mobile station is very low, and the battery standby time of the terminal can be greatly increased. In addition, since the third generation wideband CDMA system itself can be used synchronously, the present invention also has an advantage of making it easier to handoff from the mobile station idle mode or active mode to the third generation wideband CDMA system itself.

While the invention has been shown and described with respect to certain preferred embodiments thereof, the invention is not limited to the embodiments described above, but in the field to which the invention pertains without departing from the spirit of the invention as claimed in the claims. Any person with ordinary knowledge will be able to make various modifications.

Claims (4)

(a) receiving, by the wideband code division multiple access base station, the forward link signal of the narrowband code division multiple access system; (b) the wideband base station obtaining a narrowband code division multiple access scheme common base station time based on a pilot channel and a synchronization channel among the signals of the forward link of the narrowband code division multiple access system received in step (a); ; (c) the broadband base station aligning radio frame boundaries having a predetermined time interval with the common base station time obtained in step (a); (d) the broadband base station acquires pilot offset information for neighboring narrowband code division multiple access base stations through a call channel or a wired network among forward link signals of the narrowband code division multiple access system received in step (a); Transmitting to a wideband / narrowband code division multiple access dual mode terminal through a forward channel of the wideband code division multiple access system; (e) the terminal searching for a forward link pilot channel of a narrowband code division multiple access system based on the pilot pseudo noise offset value from the broadband base station; (f) the terminal transmits an offset value and a pilot strength of a forward link pilot channel of the narrowband code division multiple access system searched in step (e) to the broadband base station, and predetermined time of a signal received from the narrowband base station; Keeping track of system time with intervals; (g) the broadband base station transmits, to the dual mode terminal, long code state information for a narrowband code division multiple access system according to the offset value and pilot strength of the forward link pilot channel from the dual mode terminal. Instructing handoff to a narrowband code division multiple access base station; And (h) setting, by the narrowband base station, a forward call channel of the narrowband code division multiple access system to the terminal in response to a handoff command by the broadband base station; (i) the terminal demodulates the forward call channel from the narrowband base station based on the long code state information from the broadband base station and establishes a narrowband code division multiple access scheme reverse call channel to establish the narrowband base station; Transmitting to; And (j) demodulating, by the narrowband base station, the reverse communication channel from the terminal to a call channel from the wideband code division multiple access system to the narrowband code division multiple access system. Hand off way. The method of claim 1, wherein in step (a), the wideband code division multiple access base station obtains a common base station time of the narrowband code division multiple access system using a global positioning system. A handoff method from a wideband code division multiple access system to a narrowband code division multiple access system. 2. The multiplier of claim 1, wherein in step (c) a starting point of a sync channel super frame corresponding to a '0' pilot offset of the narrowband code division multiple access system and a multiple of 8 including 0 of the wideband code division multiple access system. And aligning the frame with the frame number against the wideband code division multiple access system. The method of claim 1, wherein step (c) (c-1) detecting, by the wideband code division multiple access scheme base station, a call channel among forward link signals of the narrowband code division multiple access system received in step (a); (c-2) acquiring information on the base station latitude and longitude of the corresponding narrowband code division multiple access base station based on the call channel detected in step (c-1) by the wideband code division multiple access base station; step; (c-3) information on the base station latitude and longitude of the corresponding narrowband code division multiple access base station obtained in step (c-2) by the wideband code division multiple access base station, and the wideband code division multiple access base station Calculating a time delay between the corresponding narrowband code division multiple access base station and the wideband code division multiple access base station based on base station latitude and longitude information of the base station; And (c-4) the narrowband code division multiple access system in which the wideband code division multiple access base station acquires a radio frame boundary having a predetermined time interval by the time delay calculated in step (c-3) in step (b); And sending and sorting ahead of a common base station time of the handoff method from a wideband code division multiple access system to a narrowband code division multiple access system.