JP2001524289A - Method and apparatus for performing handoff between communication systems having different multiple access schemes - Google Patents

Abstract

(57) A method in a cellular communication system for performing a subscriber (28) handoff (216) from a first multiple access communication system to a second multiple access communication system, comprising: The communicating subscriber unit measures (206) the signal characteristics of the signal from the second multiple access communication system to generate a signal characteristic value. In response to the signal characteristic value, the subscriber unit is configured to communicate with the second multiple access communication system. Thereafter, a subscriber handoff (216) from the first multiple access communication system to the second multiple access communication system is performed. The signal characteristic value may be a signal strength. The signal characteristics may be measured at a receiver for the first multiple access communication system (92).

Description

DETAILED DESCRIPTION OF THE INVENTION                Between communication systems with different multiple access schemes                 Method and apparatus for performing handoff                                Field of the invention   The present invention relates generally to wireless communication systems, and more particularly to different Improvements for Implementing Handoff Between Cellular Communication Systems with Multiple Access Schemes Related methods and systems.                                Background of the Invention   To maximize the use and reuse of the radio frequency spectrum, wireless communication The communication system allows multiple users to use communication resources simultaneously. Alternatively, various schemes that allow access at almost the same time are employed. For example, in a cellular telephone system, many cellular subscribers will have access to multiple subscribers. Wireli via various air interfaces to enable ne) Access to communication resources (ie, public switched telephone network (PSTN)) allowed .   A multiple access scheme is a transmission or Is reception time, channel frequency, channel bandwidth, channel code, transmission or reception By assigning combinations such as positions, radio frequency spectrum and other It can be defined as a set of rules for providing communication resources. Well known multiple access Examples of the connection system include an AMPS (Advanced Mobile Phone System) and a NAMPS (Narro wband AMPS), TACS (Total Access Communication System), GSM (Global System for Mobile Communications), TDMA (Time Division Multiple Access: Time Divisio) n Multiple Access), CDMA (Code Division Multiple Acc) ess). Many of these multiple access schemes are based on CTIA (Cellular Telecommunic ations Industry Association), TIA (Telecommunication Industry Associat well-documented in industry standards distributed by I have. One example is the standard IS-95 for code division multiple access cellular communication systems. There is.   When a newer multiple access system is adopted, a new multiple access system will be covered. The coverage area is a traditional established communication that uses different multiple access schemes. Not as widespread as the Shin system. Therefore, use the new multiple access scheme In order to provide subscribers with a wider communication service area, Service from a connected system, and a new multiple access system. When moving out of coverage, subscriber units may be The dual mode subscriber unit must be able to communicate with another multiple access system. Is being developed.   Referring to FIG. 1, the coverage of a communication system employing a first multiple access system and Typical relationship between the coverage of a communication system employing a second multiple access scheme Is shown. Specifically, the cellular cover area 20 of FIG. The code division multiple access (CDMA) method shown in FIG. Cellular System Utilizing Another Multiple Access (MA) Scheme Indicated by Cell 24 Is shown. The area covered by the CDMA cell 22 and the area covered by another MA The boundary between the two areas is indicated by a border 26 represented by a bold line. .   When a subscriber 28 moves between CDMA cells 22, the CDMA base station controller 30 monitors or manages handoff between CDMA cells 22. Similarly, join When the user 28 moves between the different MA cells 24, the different MA base station controller 32 Monitor or manage handoffs between A cells 24. Handoff is a cell Cellular to switch traffic channels from one communication to another cell A process in a communication system.   The problem solved by the present invention is that the communication system using the first MA Generated when you want to hand off a subscriber to a communication system that uses MA. I will. The problem is that in FIG. This occurs when moving to another MA cell 24 beyond the boundary line 26. Also, for example If the first MA communication system is an area covered by the first MA communication system, Handing off the subscriber 28 to another MA cell 24 having coverage within A problem arises when the subscriber 28 does not cross the perimeter 26 when desired.   In the prior art, for example, if the first MA is CDMA, A approaching the edge of A coverage (ie, borderline 26) is a CDMA-based A pilot beacon is used to alert the local station controller 30. 34 are used. As used herein, pilot beacon 34 refers to the first MA, That is, it is defined in the MA that is the source of the handoff, Alternatively, the transmitted signal generally received by the component in the first MA. And For example, if CDMA is the former MA, pilot beacon 34 A pilot channel beacon so that it is outside and adjacent to boundary 26 Another MA cell 24 looks like another CDMA cell 22. This is subscriber 2 8 determines the presence of pilot beacon 34 according to the rules of CDMA IS-95. And strength to the CDMA base station controller 30 so that the MA base station controller Inter-MA basestation controller communication link Arrange handoff with another MA base station controller 32 via 36 Can be For a more detailed description, published on January 14, 1997 See U.S. Pat. No. 5,594,718.   Including pilot beacon 34 in cells adjacent and outside border 26 There are many problems. First, it is expensive. Each pilot beacon 34 Requires a transmitter coupled to an antenna mounted on a suitable structure.   Second, it increases the complexity of the communication system. CDMA pilot beacon Is synchronized with the rest of the system and identified by a unique timing offset. There must be. Also, the power level must be set appropriately.   Third, extra antenna sites must be rented or purchased. This These site arrangements are based on a cellular system competition over space in a competitor's tower. May require negotiation with a competitor.   Fourth, the pilot beacon may be on the same radio frequency by another licensee. It may be added to the noise floor of systems operating in the band. You.   Fifth, measured by the first MA communication system or the original MA communication system The pilot beacon is located on a radio frequency link utilizing the second MA communication system. It may not be a good indicator of communication quality. That is, the AM at the same position Transmitted from the PS and measured at the subscriber location The signal quality of the CDMA pilot beacon is AMP at the same subscriber location. It may not correspond exactly to the S signal quality. In other words, the AMPS signal is phasing CDMA pilot beacon may be fading. I can't. This is because a CDMA pilot signal on one frequency and A It may be caused by differences in propagation between the MPS signal and the MPS signal.   Alternative to pilot beacon for handoff between different MA systems As a rule, blind handoff, ie, the second MA communication Hands whose traffic channel state in the system is not known in advance Off, there is. This alternative is prone to dropped calls. Also In two or more cells, the second MA communication system handles a traffic channel. If so, there is no intelligent choice as to which is a better handoff candidate.   For the above reasons, handoff between communication systems with different multiple access schemes There is a need for improved methods and apparatus for implementing                             BRIEF DESCRIPTION OF THE FIGURES   The novel features which are believed to be characteristic of the invention are set forth in the following claims. However, the present invention itself, and its For a preferred application, further objects and advantages, refer to the accompanying drawings in which: Best understood by referring to the following detailed description of example embodiments. Like.   FIG. 1 shows that, according to the prior art, a handoff between two systems Two communication systems using two different multiple access schemes 2 shows the sample cover area provided by the system.   FIG. 2 illustrates a different multiple access communication system according to the method and system of the present invention. FIG. 2 is a high-level configuration diagram of an apparatus for performing a handoff between them.   FIG. 3 illustrates a different multiple access communication system according to the method and system of the present invention. 7 shows another embodiment of an apparatus for performing a handoff between.   FIG. 4 illustrates a handover with another MA communication system according to the method and system of the present invention. 1 shows a high-level block diagram of a code division multiple access system for performing a dooff .   FIG. 5 illustrates signal characterization that can be used in implementing the method and system of the present invention. FIG. 3 is a more detailed block diagram of a first embodiment of the constant circuit.   FIG. 6 shows a signal characteristic measurement that can be used in implementing the method and system of the present invention. 7 shows a second embodiment of the constant circuit.   FIG. 7 shows a method for performing handoff with another MA communication system according to the present invention. Is a high level logic flowchart showing   FIG. 8 is a more detailed flowchart showing the process of subscriber unit initialization according to the present invention. It is a low chart.   FIG. 9 is a diagram illustrating a process for measuring signal characteristics in another MA communication system according to the present invention. 5 is a more detailed flowchart showing the process.   FIG. 10 measures signal characteristics in another MA communication system according to the present invention. Is a more detailed flowchart showing the process of building a receiver as described above.                             Detailed description of the invention   Referring now to the drawings, and in particular to FIG. Device for performing handoff between different multiple access communication systems FIG. As shown, the subscriber unit 50 generally comprises a first A multiple access transceiver 52 and a second multiple access transceiver 54. , Both transceivers are coupled to antenna 56. First MA transceiver 52 Is adapted to communicate with cells in the first communication system using the first multiple access scheme. Responded. Similarly, the second MA transceiver 54 uses the second multiple access scheme. The communication system is adapted to communicate with a cell in the second communication system. Transmit signal and receive signal A suitable duplexer (not shown) may be used to distinguish . Around the first MA transceiver 52 The wave number is controlled by a local oscillator 58 and the frequency is It is controlled by the local oscillator 60. Both local oscillators 58 and 60 are controlled by a control circuit. A command or signal from 62 can set the selected frequency.   In the embodiment of FIG. 2, a second MA measuring circuit 64 is shown. 2MA measurement circuit 64 has an input coupled to antenna 56 and a control circuit 62 Measured output. Further, the second MA measuring circuit 64 is connected via a control line. Control signal from the control circuit 62.   Referring again to the first MA transceiver 52, the downlink traffic 66 It is output from the first MA transceiver 52 and connected to the control circuit 62 and the clock 68. May be combined. Downlink traffic 66 may include control information, clock or Information and voice data or a circuit in a subscriber unit (not shown). Other data for processing may be included.   Uplink traffic 70 is an input signal of first MA transceiver 52. You. Uplink traffic 70 may include voice or other subscriber data as well as control. Control information from the control circuit 62 may be included.   The second MA transceiver 54 also provides an output for downlink traffic 72. Power and an input for uplink traffic 74. Downlink Traffic 66, 72 and uplink traffic 70, 74 In both cases, a subscriber unit (not shown) is used in a manner well known in the art of cellular subscriber units. A voice or computer data communication service Provide one of the screws.   In operation, the subscriber unit 50 communicates via the transceiver 52 with the first multiple access channel. Communicate with cells in the communication system. The subscriber unit 50 is provided by a local oscillator 58. Tuning the first MA transceiver 52 to a specific frequency derived or derived Is instructed. Periodically, the control circuit 62 communicates with the traffic in the second multiple access communication system. Start the process to switch to the Hick Channel or handoff Command can be received. When such a command is received, the control circuit 62 The second MA measuring circuit 64 measures the signal characteristics of the signal from the communication system A. This Such a signal characteristic is generally signal strength. 2nd MA signal The characteristic is that a handoff is performed between the first MA communication system and the second MA communication system. It is measured to determine if it works. The measurement of the second MA signal is generally , At a predetermined time by the clock 64, and preferably in downlink traffic. Time to avoid interruption of traffic 66 or uplink traffic 70 . The second MA measurement circuit reports a signal of the characteristic measurement to the control circuit 62. Then control The circuit 62 connects the uplink traffic 70 and the first MA transceiver 52 Measurement of the second MA signal characteristic via the first M Determine if and how to report to A base station controller I do.   The number of measurements by the second MA measurement circuit 64 is controlled by the frequency of the local oscillator 60. This frequency can be set by the control circuit 62.   Second MA signal measurement by base station controller in first MA communication system Is received, the base station controller sends a handover to the second MA communication system. Off can be determined to be appropriate and successful. Alternatively, this handoff decision , A subscriber unit, where the subscriber is the first MA base station Request the controller to schedule a handoff.   The subscriber handoff to the second MA communication system is based on the antenna 56 and the first MA Initiated by a command received via transceiver 52. When agreed In the meantime, the control circuit 62 provides the downlink traffic at the subscriber unit 50. And uplink traffic from the first MA transceiver 52 to the second MA traffic. Switch from the first MA communication system to the second MA communication system. Complete the handoff to the stem.   Referring now to FIG. 3, the method and system of the present invention allows for different multiple access. 7 shows another embodiment of an apparatus for performing a handoff between continuous communication systems. Real truth In an embodiment, the measurement of the signal from the second multiple access communication system is based on the second MA protocol. This is performed by the transceiver 80. Such measurements are often used in many AMPS transactions. Implemented with RSSI (Receive Signal Strength Indicator) built into the server Is done. In order to correctly perform the second MA signal characteristic measurement, the control circuit 62 transmits control information to the second MA signal characteristic. 2MA transceiver 80. Such control information includes gain settings. Constant, frequency, frequency range, type of multiple access signal to be measured, time slot information And the timing of the second MA signal measurement.   The embodiment of FIG. 3 also includes a single local oscillator 82. Therefore, the first and Both transceivers 52, 80 of the second MA communication system share the same local oscillator 82. And the local oscillator 82 is under the control of the control circuit 62. Local oscillator 8 2 writes downlink traffic 66 or uplink traffic 70 High speed between the two frequencies so that the second MA signal characteristic can be measured without interruption And settle in a short time.   Referring now to FIG. 4, the method and system of the present invention provide a separate communication system. Of a code division multiple access (CDMA) system for performing handoffs with FIG. As shown, subscriber unit 90 includes CDMA and Antennas for transmitting and receiving signals from cells in both MA and another MA communication system including. In this example, another MA communication system is a multiple access scheme different from CDMA. This is a communication system that utilizes. The CDMA receiver 92 is Converter 94, gain control 96, filter 98, analog / digital (A / D 2.) converter 100, despreader 102 and CDMA demodulator 104 And CDMA downlink traffic paths.   Down converter 94 converts the radio frequency signal at antenna 56 to gain control. It performs a frequency conversion to a lower intermediate frequency which is sent to the controller 96. Local oscillator 10 8 provides the input reference frequency for downconverter 44.   Gain control 96 is a variable gain amplifier that operates under the control of a signal from control circuit 110. Can be built with a container.   The A / D converter 100 samples an analog signal at discrete times. To digital words.   Such digital words are input to a despreader 102, where a conventional CD In MA operation, the digital word is a despreading code source Multiplied by the despreading code from 112.   In accordance with an important aspect of the invention, the despreader signal 114 is controlled by the control circuit 110. Below is selected by the despreader signal selector 116. Despread code source 112 is reverse When selected to provide a spreader signal, the output of despreader 102 is a CDMA demodulator. CDMA demodulator 104 operates in a normal CDMA demodulation mode. CDMA downlink traffic signal 106 to provide Measurement mode Then, the despreader signal selector 116 performs despreading from another signal source 118. The scatter signal 114 is selected. Therefore, the signal from another signal source 118 is 2, the output of the despreader 102 is sent to the signal characteristic measuring circuit 120. . The signal characteristic value 122 generated by the signal characteristic measuring circuit 120 is 10 is input. FIG. 5 shows two examples of the signal characteristic measuring circuit 120. This will be described below with reference to FIG. 6 and FIG.   In addition, the reference level 124, the control signal 126, a clock 128 and, optionally, a separate MA transceiver 132 There is a measurement signal 130.   CDMA transmitter 134 transmits CDMA uplink traffic 136. To the antenna 56. In addition, the CDMA transmitter 134 controls the control circuit 1 It operates under the control of ten signals.   The separate MA transceiver 132 transmits the downlink traffic according to the rules of the different MA scheme. To receive traffic 138 and transmit uplink traffic 140 Coupled to antenna 56. Another MA transceiver 132 is It operates under the control of this signal. Such a control signal is transmitted to another MA transceiver 132 Frequency, type of MA used by different MA transceiver 132, different MA Downlink traffic 138 transmitted and received via transceiver 132 and Disconnect to uplink traffic 140 The exact timing of the swap as well as other similar controls can be controlled.   In operation, control circuit 110 initiates a handoff procedure to another MA communication system. To receive a command via CDMA downlink traffic 106 . However, before performing the handoff, the signal from the MA communication system is measured. , CDMA base station controller. In the embodiment shown in FIG. A receiver 92 has two modes, a normal CDMA demodulation mode and another MA signal. Operate in signal measurement mode.   In the normal CDMA demodulation mode, the despreader signal selector 116 2 is selected from the despreading code source 112 for the despreader signal 114 input to You. In this mode, normal CDMA downlink traffic 106 has CDM Output by A demodulator 104. Such CDMA downlink traffic The clock 106 includes control signals 126 and timing signals or queues. These are input to control circuit 110 and clock 128, respectively. It is.   In another MA signal measurement mode, the despreader signal selector 116 Is selected from another signal source 118 for the despreader signal 114 to be input to the. Reverse The output of spreader 102 is used to measure the signal characteristics of the signal from another MA system. , Used by the signal characteristic measuring circuit 120. The signal characteristic value 122, that is, the result of the measurement, is input to the control circuit 110, and the reference level A reference called from the bell 124 or calculated by the reference level 124 You can compare with the level. Based on the agreed reporting conditions, control circuit 110 Such a comparison is made via the CDMA transmitter 134 to the CDMA base station controller 30 (second (See Figure 1). Once data related to handoff decisions is collected, Handoff, either at the mobile unit, base station controller or elsewhere. The specific location or functional unit that makes this determination is It is left to the designer.   When instructed to perform a handoff between communication systems, the subscriber unit 90 is CDMA downlink traffic 106 and CDMA uplink -Since the traffic 136 is used, another MA downlink traffic 13 is used. 8 and another MA uplink traffic 140 to use.   Referring now to FIG. 5, it can be used to implement the method and system of the present invention. FIG. 2 shows a more detailed block diagram of a first embodiment of the signal characteristic measuring circuit according to the present invention. As shown The signal characteristic measurement circuit 120 includes a narrow band filter 150, a power measurement function 152, And an integrator 154. Accordingly, the output of the signal characteristic measurement circuit 120 It is the estimated power level integrated over the interim period. Such power level values , Can be compared with the reference level in the control circuit 110. Signal characteristics Measurement circuit 120 measures signals from a single AMPS communication system channel In this case, the narrow band filter 150 has a bandwidth of the AMPS channel of 30 kHz. Can tune.   Referring now to FIG. 6, it can be used to implement the method and system of the present invention. 5 shows a second embodiment of a signal characteristic measuring circuit which can be used. As shown in FIG. This second embodiment of FIG. 20 includes a wideband filter 156 and a frequency analysis circuit 158. Including. In operation, the wideband filter 156 may, for example, include some AMPS channels. Can be set to receive the frequency range covering the channel. Frequency analysis circuit 158 Can be used to perform a Fourier transform on the filtered signal. This Such a Fourier transform indicates a plurality of AMPS frequencies from a plurality of AMPS base stations. And any one of them can be transferred from a CDMA system to an AMPS system. It can be selected as a destination base station for handoff.   Before the measurement by the signal characteristic measuring circuit 120 shown in FIG. 5 or FIG. It may be necessary to set an appropriate gain at control 96 (see FIG. 4) . Depending on which measurement circuit is used and which multiple access system to measure Thus, the control circuit 110 may use any suitable method to make a valid measurement. Gain control 96 can be set.   Referring now to FIG. 7, a handoff with another communication system is performed according to the present invention. High-level logic showing how to perform 3 shows a flowchart. As shown, the process starts at block 200, Then proceed to block 202 where the process initializes the subscriber unit. This initialization process involves parameters between the base station controller and the subscriber unit. Transfer protocol and negotiate the protocol. Such an initialization process Will be described in more detail below with reference to FIG.   Next, the subscriber unit communicates, as indicated by block 204, with another multiple access communication system. Measure the signal characteristics of the signal from the system. Such a measurement, as shown in FIG. , By another MA transceiver in the subscriber unit, or as shown in FIG. Alternatively, it can be performed by a separate MA measurement circuit in the subscriber unit. Another MA signal Yet another method of measuring is to use the current MA receiver as shown in FIG. Here, the CDMA receiver is reconfigured to measure the signal at another MA, such as AMPS. Can be built.   After measuring another MA signal, the subscriber unit optionally indicates at block 206 Thus, the signal characteristics of the signal from the current MA communication system are measured. A communication system Since the signal characteristics of the signal from the current MA system are irrelevant to the handoff decision, This step may be omitted. However, some systems use signals from other MAs. It may be designed to compare the signal characteristics with the signal characteristics of the signal from the current MA. You.   After making the appropriate signal measurements, the subscriber unit These signal characteristic measurements are reported to the base station controller, as shown in block 208. . The conditions for reporting signal characteristic measurements are during the initialization procedure in block 202. May be negotiated. If a certain threshold is exceeded, only some measurements will be reported. Where the absence of a signal characterization report is interpreted as the measurement of a value below the threshold Is done.   It should be noted that the step in block 208 is that the system allows the subscriber May be unnecessary if it is designed to determine whether If so, the subscriber requests handoff instead of reporting signal measurements.   Process after all signal characteristic measurements are reported to the current MA base station controller Attempts a handoff to another MA communication system, as shown in block 210 Determine if you should. For some reason, a handoff attempt should be made If not, the process iteratively returns to block 204 to update the signal measurement. A system to perform handoff from the current MA communication system to another MA communication system If the other MA system determines that Determine if subscriber traffic can be accepted.   If another system cannot accept the subscriber traffic, the process Iteratively returns to block 204, where the measurements are updated. Another MA communication system Is a subscriber If the traffic can be accepted, the process proceeds to block 214. Thus, the handoff with another MA communication system is adjusted. This step is based on MA Via the communication link 36 between the base station controllers (see FIG. 1), the current MA base station This can be done by communication between the controller and another MA base station controller. Coordination of the handoff is performed according to the destination frequency (desti nation frequency) and the specific time of handoff. May be.   After adjusting the handoff, the process returns to the current MA as shown in block 216. Perform a subscriber handoff from the communication system to another MA communication system. any Similar to handoff between cells in a cellular communication system, communication systems with different MAs Inter-stem handoff results in significant disruption of the subscriber traffic channel Should be done as quickly as possible.   Hand from a communication system having a first MA to a communication system having a second MA The process of performing the off ends at block 218.   Referring now to FIG. 8, in accordance with the present invention, a process for initializing a subscriber unit. 3 shows a more detailed flowchart showing the process. As shown, the initialization procedure is Start at block 300 and then proceed to block 302, where the process passes to another MA Send the communication system type to the subscriber. This Steps are performed when the subscriber unit is only handed over to another alternative communication system type. It is implicit when designed to turn off. Another communication system type For example, an AMPS system, a TDMA system, a GSM system or any Other standardized multiple access systems may be specified.   After receiving another MA communication system type, the process proceeds to block 304. Frequency list or frequency range used by another MA communication system Send the enclosure. The frequency list is stored, for example, for each base station in the AMPS system. May include a list of control channel frequencies to be used. Or frequency A range may be specified, where the signal strength or frequency of some frequencies within this range Other signal characteristics can be reported to the base station controller.   Next, the subscriber unit communicates with another MA communication system, as shown in block 306. Receiving reporting conditions for reporting signal measurements from the STA. These reporting conditions , Which does not report a signal characteristic from another MA that falls below the threshold. Follow The absence of a response to a reporting request is a measure of the value below the agreed threshold, Can be interpreted by the station controller. The reason for such reporting conditions is This is to reduce reporting traffic between the base station and the base station controller.   Thereafter, the process returns to the current Negotiate the timing of the MA signal measurement with the MA communication system. this As a result of such negotiations, measurements can be taken at predetermined time intervals, Or measurements can be made only on demand.   Then, the initialization process ends as indicated by block 310.   Referring now to FIG. 9, the method of the present invention is used in another MA communication system. Shows a more detailed flowchart showing the process of measuring the signal characteristics or signal . As shown, the process begins at block 400 and then proceeds to block 402. Proceeds, where the process measures a signal characteristic of a signal from another MA communication system. Determine if it is time. If it is not time to make the measurement, the process Iteratively until it is time to do. Measurement time is set at specified intervals Or only at the request of the base station in the current MA communication system. You may. The time for performing another MA communication system measurement has been described with reference to FIG. As such, the negotiation may be performed during the initialization procedure.   If it is time to measure the signal characteristics of a signal from another communication system, the process Build Subscriber Unit for Different MA Signal Measurements, as Shown at Lock 404 . In one embodiment of the present invention, the construction process includes a signal characterization circuit to perform the measurement. Path 120 and provide each filter and filter so that the measurement circuit performs a valid measurement. A profit adjustment may be set. This subscriber building process will be described in more detail with reference to FIG. 10 below. I will tell.   Next, the process proceeds from another MA communication system, as shown in block 406. Measure the signal characteristics of the signal. In a preferred embodiment, this signal characteristic is signal strength . Depending on the architecture of the subscriber unit, the signal measurement may be a special case of the current MA demodulator. Whether it is done by construction or by a dedicated receiver that receives another MA signal, or May be performed by the receiving unit of another MA transceiver. These various subscriber arches The architecture has been described with reference to FIGS.   After performing the signal characteristic measurements, the process proceeds to the current MA as shown in block 408. Rebuild the subscriber unit for normal operation in the communication system. Signal characteristics Is not completely independent of the current MA transceiver If not, the time period between block 404 and block 408 is Should be minimized to avoid significant interruption.   After rebuilding the subscriber unit for normal demodulation in the current MA communication system , The process determines if another MA signal measurement was valid, as shown in block 410 Determine whether If the measurement was valid, the process returns to block 4 The process ends as shown in FIG. Alternatively, if the measurement is not good, the process , Measurement construction parameters such as filter and gain settings, as shown in block 414. Data To adjust. Thereafter, the process proceeds to block 402 to wait for another measurement time. Return repeatedly. For obvious reasons, the subscriber unit waits for the next opportunity to make a measurement. Meanwhile, the operation is returned to the normal operation.   Referring now to FIG. 10, the method of the present invention is used in another MA communication system. More detailed flow showing the process of constructing a receiver to measure signal characteristics with The chart is shown. As shown, the process starts at block 500 and then Proceeding to block 502, the process proceeds to code division multiple access calling and listening. , Ie, modulation and demodulation. The process described with reference to FIG. The process receives signals from another MA communication system, such as the CDMA receiver shown in FIG. With special reference to CDMA receivers used to perform signal quality measurements on signals. I want to be reminded.   Next, the process proceeds to another MA communication system frequency, as shown in block 504. Set the local oscillator frequency to receive This step is performed as shown in FIG. The local oscillator is controlled by a control signal from the control circuit 110 in the entry unit 90. Available to set 108.   After setting the local oscillator, the process proceeds to another MA, as shown in block 506. Set the signal gain and filter to receive signals from the communication system. same Thus, the control circuit 110 prepares to measure a signal from another MA communication system. Signal to gain control 96 and filter 98 You may.   Steps 504 and 506 receive a signal from another MA system. May be to construct a tuner. Such a tuner is shown in FIG. 142. Next, the process proceeds as indicated in block 508. Next, another despread signal is selected for use in the CDMA despreader. Referring to FIG. Thus, this step is to despread so that the despreader signal 114 comes from another source 118. This can be achieved by switching the scatter signal selector 116 to another signal source position. Another signal source 118 may be a series of "0" or "1", which Is a signal of a constant value that interrupts the despreading operation in.   After selecting another despread signal, the process proceeds to another M, as shown in block 510. Enable the A signal characteristic measurement circuit. This step clears the registers Or by resetting the signal characteristic measurement circuit 120. Thereafter, the construction process ends as indicated by block 512.   When building a subscriber unit having an architecture as shown in FIG. The build process executes blocks 502, 504, and 506 before block 5 Proceeding to 10, the measurement circuitry in the second MA transceiver 80 can be enabled. Second For a subscriber unit having the architecture shown in the figure, the measurement building process Do you do step 506 Then, it is possible to jump to step 510 and perform measurement with the second MA measurement circuit 64. . Setting the local oscillator means that the measurement circuit utilizes an independent local oscillator 60 Not necessary.   In short, the above-mentioned invention is the first multiple access communication system to the second multiple access communication system. Enables handoff to the system, where the dual mode subscriber unit By measuring the signal from the second multiple access system at the subscriber unit, Assist handoff. Signals in the MA system of the first multiple access communication system No need for multiple pilot beacons to transmit, so inter-system handover The infrastructure costs required to enable this are reduced.   Some of the specific examples above have been added from CDMA systems to AMPS systems. With regard to handing off the entrant unit, the principles and basic The architecture can be implemented from any MA communication system to any other MA communication system. It can be used to perform handoffs.   Uses independent measurement circuits for various means of measuring different MA signal characteristics Subscriber system sharing local oscillator circuit between transceivers for different MAs The signal characteristics of the signals from the subscriber unit and another MA communication system Including the subscriber units that use the rebuilt CDMA receiver for Was. In such a CDMA receiver, the despreading operation is interrupted and passes through the despreader. Do Another signal can be obtained by integrating power in a narrow band or It can be set so that it can be analyzed by analyzing the cram.   In one embodiment of the invention, another signal source 118 enhances the measurement of another MA signal. The signal may be a special signal or a signal having known characteristics. For example, like this Signals can be used to detect the power of multiple MA signals. Frequency may be included.   The foregoing description of the preferred embodiment of the invention has been presented for purposes of illustration. is there. It is not intended to be exhaustive or to limit the invention to the precise form. the above Modifications or variations are possible in light of the teachings of the invention. The examples are based on the principles of the invention and its To best explain the practical application, and to those skilled in the art in various embodiments, The invention can be used in a variety of modifications suitable for the particular envisioned application. Was chosen and explained. All such modifications and variations are fair, lawful and When interpreted according to the scope of legitimate authority, the It is within the range of Ming.

Claims (1)

[Claims]   1. Subscriber handover from the first multiple access communication system to the second multiple access communication system A method in a cellular communication system for performing a dooff, comprising:   A subscriber unit communicating with the first multiple access communication system; Measuring signal characteristics of a signal from the connected communication system to generate a signal characteristic value ;   Communicating with the second multiple access communication system in response to the signal characteristic value; Building the subscriber unit; and   Subscriber from the first multiple access communication system to the second multiple access communication system Performing a handoff;   A method characterized by comprising:   2. The subscriber according to claim 1, wherein the signal characteristic is signal strength. A method for performing a handoff.   3. The first multiple access communication system is a code division multiple access system, The subscriber unit includes a despreader that utilizes the despread signal and measures signal characteristics The steps are:   Selecting another despread signal for use in the despreader;   Passing a signal from the second multiple access communication system through the despreader; and   The signal characteristics of the signal from the second multiple access communication system Measuring to generate a signal characteristic value;   The subscriber handoff according to claim 1, further comprising: A method for implementing.   4. The said another despread signal contains a despread signal of a fixed value, The characterized by the above-mentioned. 3. A method for performing a subscriber handoff according to 3.   5. The different despread signal is transmitted to the second multiple-access communication system having a different frequency. Multiple preselected distances to measure the power of multiple signals in the 4. The subscriber hand according to claim 3, including signals having dispersive frequencies. A way to implement off.   6. The signal characteristics of the signal from the second multiple access communication system are measured, and the signal characteristics are measured. The step of generating a gender value comprises the step of: frequency of a signal from the second multiple access communication system Performing an analysis to generate signal power values in a frequency range. 4. A method for performing a subscriber handoff according to claim 3, wherein Law.   7. Communicating with the second multiple access communication system in response to the signal characteristic value; The step of building the subscriber unit as described above comprises the step of: Responsive to the gender value, the subscriber unit to communicate with the second multiple access communication system. The method of claim 1, further comprising constructing a knit. Method for performing a subscriber handoff in the United States.   8. Transmission of a signal from the first multiple access communication system from the subscriber unit; Measuring a signal characteristic to generate a first system signal characteristic value;   Comparing the signal characteristic value with the first system signal characteristic value;   Responsive to the signal characteristic value exceeding the first system signal characteristic value, Configuring the subscriber unit to communicate with a second multiple access communication system ;   The subscriber handoff according to claim 1, further comprising: A method for implementing.   9. Communicating with the second multiple access communication system in response to the signal characteristic value; The step of constructing the subscriber unit comprises, in response to the signal characteristic value, Subscriber uplink and downlink to communicate with the second multiple access communication system Link traffic from a first multiple access transceiver to a second multiple access transceiver 2. The method according to claim 1, further comprising the step of: A method for performing an entry handoff.   10. Code portion for measuring signal characteristics of a signal from another multiple access communication system The method in the multiple access subscriber unit is as follows:   Constructing a tuner to receive the signal from the separate multiple access communication system Stage;   Despreading in said code division multiple access subscriber unit Selecting another despread signal for use;   Passing the signal from the separate multiple access communication system via the despreader ;and   Measuring the signal characteristics of the signal from the separate multiple access communication system;   A method characterized by comprising:   11. A tuner to receive the signal from the separate multiple access communication system. The step of constructing comprises setting a frequency, setting a gain, and setting a filter. Each receiving the signal from the separate multiple access communication system. 11. The code division multiple access subscriber unit according to claim 10, wherein: How to knit.   12. 11. The apparatus according to claim 10, wherein the another despread signal is a signal having a constant value. The method in the described code division multiple access subscriber unit.   13. Measuring the signal characteristics of the signal from the different multiple access communication system The step includes performing a frequency analysis of the signal from the separate multiple access communication system. 11. The code division multiple access according to claim 10, further comprising: Method in a follow-up subscriber unit.   14． Receiving a code division multiple access signal and transmitting a signal from another multiple access communication system; An apparatus for measuring a signal characteristic, comprising:   Despreading with signal input, despreading input and despreader output Duster;   Despread code signal source;   Another despread signal source;   An input coupled to the despread code signal source and the separate despread signal source; A despreader signal selector having an output coupled to the spreading input;   A tuner having an output coupled to the signal input;   A signal characteristic measurement circuit coupled to the despread output;   Coupled to the tuner and the despreader signal selector, wherein the code division multiple access Signal characteristics for receiving continuity signals or from another multiple access communication system A control circuit for constructing said device to measure   An apparatus characterized by comprising:   15. The said another despreading signal source is a signal source of a fixed value, The characterized by the above-mentioned. 15. The apparatus according to 14.   16. The another despread signal source may include a plurality of preselected discrete frequencies. The apparatus according to claim 14, wherein the apparatus generates a signal comprising: