KR0138970B1 - Communication transfer in a rediotelephone system - Google Patents

Abstract

The cellular system switches the call from the source base 200 to one target base 205, 210. The source base 200 measures the signal strength RSSI _S of the vehicle 225 to provide the expected signal strength RSSI _F and to set two time windows. The source base 200 converts the signal strength measured and expected to the candidate bases 205 and 210 found by the vehicle 225 measuring the vehicle 225 signal strength RSSI _T , and converts the signal strength (RSSI). _S + hysteresis value). If RSSI _T RSSI _S , the call is switched to the optimal response cell. If RSSI _T RSSI _S , RSSI _T is compared to RSSI _S. During this time, motor vehicle 225 will increase power at the end of the first time window. If RSSI _T RSSI _S at any candidate base 205, 210. The call is diverted to the answering bases 205, 210. If the source base 200 does not receive any response during the second time window, the handoff process ends.

Description

[Name of invention]

Communication Switching Method in Wireless Telephone System

[Field of Invention]

TECHNICAL FIELD The present invention relates generally to cellular radiotelephone systems, and more particularly to cellular radiotelephone systems that require communication transfer to maintain a call.

[Background of invention]

In a cellular radiotelephone system, a handoff of a mobile terminal is required to maintain communication with the mobile terminal as the mobile terminal moves from cell to cell within the system. Handoff is a process of converting an ongoing call from one RF coverage area (ie, a RF coverage area) to another in relation to the movement of a mobile terminal. Handoff is also the process of switching to another channel within the coverage area due to interference in the RF coverage area. The process of handing off an ongoing call is one of the most elaborately balanced features of a cellular radiotelephone system because handoff requires a high degree of coordination between various system processing elements to ensure successful operation. . Failure to handoff a call at the appropriate time generally results in a decrease in call volume, interference with adjacent coverage areas, and even unwanted call termination.

Current analog cellular radiotelephone systems require that the system constantly monitor the status of all calls executed in the system. The system must be aware of when the state of the call falls below a set threshold within a particular coverage area, and must also determine which other coverage areas can satisfactorily adjust the call. Once a more suitable coverage area is identified, the system sends a command to the mobile terminal to adjust the mobile terminal to another channel. The mobile terminal confirms that it is leaving the current channel, tunes to the new channel, synchronizes to the new channel, and starts transmission to notify that the mobile terminal has reached the new channel.

In the digital cellular radiotelephone system, the process is slightly modified so that the mobile terminal can measure not only its current channel but also other channels as indicated by the system, and the mobile terminal also reports this information back to the system. The measured value is composed only of signal strength, and the measured result is relative because it is easy to change due to changes in environmental conditions. For this reason and because the mobile station cannot determine whether the measurement is of the interferer channel or of the correct channel, the system must examine the cell selected by the mobile station.

Another factor to consider in the handoff process is present in cellular cellular telephone systems, where a radiotelepone switch receives a handoff request from a source base-site and sends the message to a potential target base station. relay to (target base-site) The target base station will monitor the switching state of the mobile terminal, and if it meets the required conditions, the target base station will respond back to the radiotelephone switchboard to indicate that it is a good candidate. During this time, the radiotelephone exchange waits for a period of time to receive additional responses from all other possible target base stations. If no response is received from any target base station, the radiotelephone exchange will relay a message to the source base station to increase the signal level of the mobile terminal unit. Since the source base station knows that the signal level step given to the mobile terminal is translated into one known signal level increment, the source base station sets the signal level step appropriately. The source base station measures the signal state again on the switching of the mobile terminal, and the entire process is repeated. This process of continuously requesting handoff information when the handoff condition is satisfied tends to overload the wireless telephone exchange, since handoff information continues to be transmitted throughout the system. In addition, base stations in other example systems also continuously send all received signal strength measurements back to the radiotelephone switch to facilitate the handoff process. However, this method generates a large amount of signal strength data traffic that the exchange must conserve.

Thus, there is a need for a handoff procedure that extends the time period during which the target base station must report to the source base station while maintaining efficient throughput at the wireless telephone exchange.

[Summary of invention]

The radiotelephone system has a mobile terminal unit in communication with a source base station, where the mobile terminal unit requires communication switching from a source base station to a selected target base station. The radiotelephone system obtains a first signal quality value of a signal received by the source base station from the source base station, provides a second signal quality value, and provides at least a first predetermined time period and a second predetermined time period. The radiotelephone system obtains, at at least one selected target base station, at least a third signal quality value of the signal received at the selected target base station. At least one selected target base station compares the first signal quality value to the third signal quality value and the second signal quality value to the third signal quality value, and responds to the comparison for at least the first predetermined time. Switch communication from the source base station to the at least one selected target base station.

[Brief Description of Drawings]

1 is an illustration of an ideal geometric layout of a typical digital wireless telephone system.

2 is a diagram of a mobile terminal unit communicating with a source base station and moving towards two candidate target base stations.

3 to 3c are flowcharts of steps performed by the digital radiotelephone system to switch communication of a mobile terminal unit in accordance with the present invention.

4 is a block diagram of a source base station and a target base station.

Detailed Description of the Preferred Embodiments

A typical configuration of a cellular communication system is shown in FIG. The source cell 100 includes a source base-site and is bounded by target cells 101 to 106 that include six separate target base-sites. The source cell 100 includes a mobile terminal that moves within the boundary of the source cell 100.

2 shows an enlarged view of the source cell 100 and possible target cells 101 and 102. The source base station 200 and the target base stations 205 and 210 combine together via the base station interface 220. Base station interface 220 typically has an input line from a pubic service telephone network. The mobile terminal 225 moves toward the target cells 101 and 102 while communicating with the source base station 200 across the boundary of the source cell 100.

3 is a flowchart of the handoff process experienced by the system when the mobile terminal 225 moves away from the source base station 200 with which it communicates toward the target base station 205, 210.

Referring to FIG. 3A, the handoff process begins at 300 and at 301 the source base station 200 measures the first (source) signal quality value and stores this data. In this preferred embodiment the signal state value is a received signal strength indication (RSSI). Next, a test is performed at 303 to determine whether the first (source) signal quality value RSSI _S is greater than a transfer threshold. Although only one threshold is included in the preferred embodiment, more than one threshold may be included to initiate the handoff process before the absolute low level threshold is reached by the source base station 200. Using two thresholds would result in a good call condition since a handoff could occur at higher source base station 200 receiver sensitivity. Subsequently, if RSSI _S is greater than the switching threshold, source base station 200 will continue to measure RSSI _S at 301 and store the data. If the RSSI _S is less than the transition threshold, a second (forecasted) signal quality value; RSSI _F ] is calculated at 306. RSSI _F is a signal level value that the source base station 200 expects to receive when the power of the mobile terminal is increased. The source base station 200 may calculate the RSSI _F because it knows the correlation between the power increase value sent to the mobile terminal 225 and the power. Next, a test is performed at 309 to see if the mobile terminal 225 that has been monitoring the potential target base stations 205, 210 has pointed to any target base station 205, 210. If the mobile terminal 225 did not find any possible target base stations 205, 210, the power of the mobile terminal 225 is increased at 312 and the source base station 200 continues to receive RSSI _S at 301. Measure and save the data. If the mobile station 225 indicates a possible target base station 205, 210, a handoff request including target base station 205, 210 information and RSSI _S and RSSI _F is transmitted from 315 to the base station interface 220. The source base station 200 resets the first predetermined time interval X timer and the second predetermined time interval W timer. In this preferred embodiment, the X time period is one to five seconds for the source base station 200 to wait for the base station interface 220 to respond. Base station interface 220 responds only when it receives a response from target base station 205, 210. In this preferred embodiment, the W time period is a 7 second time period waiting for the base station interface 220 to respond. Base station interface 220 receives a handoff request at 318, sends RSSI _S and RSSI _F to possible target base stations 205, 210 positioned by mobile terminal 225, and has its own X and W timers. , Where both X and W are somewhat delayed compared to the time period of the source base station 200 or the same time period as the X and W timers of the source base station 200. The target base station 205, 210 receives the message at 321 and measures the third (target) signal quality value RSSI _T of the mobile terminal 225.

Referring to FIG. 3B, a test is performed at 324 to determine if a digital voice color code (DVCC) is valid for the mobile terminal 225. The DVCC is a binary code given to the mobile terminal 225 to distinguish other mobile terminals in the same cell or neighboring cells from the mobile terminal. In the present preferred embodiment, DVCC is used to ensure that the target base stations 205 and 210 are measuring the RSSI of the same mobile terminal 225 that the source base station 200 measured. If DVCC is valid for mobile terminal 225, a test is performed at 326 to determine if RSSI _T is greater than RSSI _S plus hysteresis. The hysteresis value is a value predetermined by the system designer in consideration of different physical locations of the source base station 200 and the target base stations 205 and 210 and may be positive, negative or zero. If RSSI _T a is greater than the value obtained by adding hysteresis to RSSI _S, (340) and send this in response to the base station interface 220, from the target base station (205, 210) has a greater RSSI _T than plus the hysteresis value to the RSSI _S Lose. If the DVCC described above is not valid or RSSI _T is not greater than RSSI _S plus hysteresis, target base station 205, 210 re-measures RSSI _T at 330. During this time and implicitly in the background, the X-timer in the source base station 200 is reconsidering the time of the process, if the X time interval is the source base station 200 from the base station interface 220. If it terminates before receiving the response, the power of the mobile terminal 225 will be increased. Subsequently, a test for checking for the DVCC validity of the mobile terminal 225 is repeated at 324. If DVCC is valid, a test is performed at 333 to determine if RSSI _T is greater than RSSI _{F. T} is greater than the RSSI RSSI _F, (340) the response to the target base station (205, 210) from the base station interface 220 has a greater RSSI than the RSSI _{T F} is sent from. If the RSSI _T is not greater than the RSSI _F , a search is made at 336 to determine whether the W time period has ended at the source base station 200. If the W period has not ended, the remeasurement is repeated at 330. If the time period has ended, the handoff process at the source base station 200 will end at 339.

Referring to FIG. 3C, if the target base station 205, 210 responds to the base station interface 220 during the X or W time period at the base station interface 220, determining if the handoff procedure is in the X or W time period. A test is performed at 341.

If the process is in the X time period, the base station interface 220 selects the optimal target base stations 205 and 210 at 343 after the X time period expires. If the process is in the W time period, at 348 base station interface 220 will assign one channel to the selected target base station 205, 210 and notify the target base station 205, 210 of the channel. The selected target base station 205, 210 then energizes the channel at 357 and re-responds to the base station interface 220, at 360 the base station interface 220 responds to the source base station 200 with a handoff response. The source base station 200 re-measures the RSSI _S at 362. A test is then performed at 363 to determine if the RSSI _T is still greater than the RSSI _S. If the RSSI _T is less than or equal to the RSSI _S , the source base station 200 stops the RSSI _S handoff process at 366 and sends a corresponding message to the base station interface 220. If the RSSI is still larger than the RSSI _S , the source base station 200 will send a handoff message to the mobile terminal 225 at 369.

Acknowledgment of the mobile terminal 225 of the handoff message is received at 370, and the source base station 200 sends a clear message to the base station interface 220. At 372 the mobile terminal 225 tunes to the new channel, and the selected target bases 205 and 210 inform the base station interface 220 that the mobile terminal 225 is receiving.

Thus, handoff of the mobile terminal 225 from the source base station 200 to the selected target base station 205 is completed.

4 shows a block diagram of a source base station 200 and a target base station 205, 210. A conventional interface 400 interfaces between the processor 405 and the base station interface 220. In a preferred embodiment the processor, which is a Motorola 68302 microprocessor, is coupled to a conventional memory 420 and a transmitter / receiver 410. The processor 405 controls the functions of the source base station 200 and the target base stations 205 and 210 while the transmitter / receiver 410 provides an interface to the external RF environment.

If both the X and W time periods expire before the communication switchover is required, the source base station 200 may request to reinitialize the process of FIG. What is important in the process shown in FIG. 3 is that with the same amount of handoff request sent by the source base station 200, the likelihood of the handoff process being completed is increased, resulting in effective base station interface 220 throughput. Yet a more improved handoff method can be taken.

Claims (10)

And a mobile terminal unit in communication with a source base station, wherein the source base station requests to switch communication of the mobile terminal unit from the source base station to one selected target base station, wherein the source base station includes: Means for obtaining a first signal quality value of a signal received by a source base station, means for estimating a second signal quality value at the source base station, and at least a first predetermined time period and a second at the source base station; Means for providing a predetermined time period, means for obtaining, at the one selected target base station, a third signal quality value of a signal received by the one selected target base station, and at the one selected target base station, the first Comparing the first signal quality value with the third signal quality value for a predetermined time period of Means for comparing said second signal quality value with said third signal quality value for a duration of time, and means for comparing, responding when a first predetermined condition is satisfied during said first predetermined time period, and said Means for responding when a second predetermined condition is satisfied during a second time period, coupled to the responding means, for monitoring the response, and coupled to the monitoring means, the one selected from the source base station. And a means for diverting communication to the target base station. The wireless telephone system according to claim 1, further comprising means for increasing a signal level of the mobile terminal unit when the first predetermined time period expires without satisfying the first condition. 3. The apparatus of claim 2, wherein the means for obtaining the third signal quality value is one of the selected one if none of the first condition or the second condition is satisfied but the second predetermined time period has not yet expired. A radiotelephone system for re-measuring a third signal quality value received by a target base station. 2. The apparatus of claim 1, wherein the means for obtaining the first signal quality value further comprises means for providing a hysteresis value that correlates the physical location of the source base station and the selected one target base station, wherein the first predetermined condition is The third signal quality value is satisfied when the first signal quality value is greater than the sum of the hysteresis value, and the second predetermined condition is satisfied when the third signal quality value is greater than the second signal quality value. Wireless telephone system. A mobile terminal unit communicating with a source base station at a source signal level, wherein the source base station communicates with the mobile base station from the source base station to one selected target base station; A method comprising: obtaining, at the source base station, a first signal quality value of a signal received by the source base station, at the source base station, providing a second signal quality value, and at the source base station, at least Providing a first predetermined time period and a second predetermined time period, obtaining, at said one selected target base station, a third signal quality value of a signal received by said one selected target base station; In one selected target base station, the first signal quality value is read during the first predetermined time period. And comparing the second signal quality value with the third signal quality value during the second predetermined time period, and comparing the third signal quality value with the comparing step, wherein the first predetermined time period is connected. While the third signal quality value is greater than the first signal quality value (first predetermined condition), and responds when the third signal quality value is greater than the second signal quality value during the second time period. Monitoring the response from the response step, and in response to the monitoring step, switching communication from the source base station to the one selected target base station. A mobile terminal unit communicating with a source base station at a predetermined signal level, said source base station requesting to switch communication of said mobile terminal unit from said source base station to one selected target base station; Means for obtaining a first signal quality value of a signal received by the source base station at a source base station, means for providing a second signal quality value at the source base station, and at least a first predetermined time at the source base station Means for providing a period and a second predetermined time period, means for receiving information from the mobile terminal unit at the source base station, and at the selected target base station, received by the selected target base station Means for obtaining a third signal quality value of the signal, and in the one selected target base station, Means for comparing the first signal quality value with the third signal quality value during the first predetermined time period and comparing the second signal quality value with the third signal quality value during the second predetermined time period. And when the third signal quality value is greater than the first signal quality value during the first predetermined time period, and responds to the third signal quality value during the second predetermined time period. A means for responding if greater than a second signal quality value, coupled to said responding means, for monitoring said response, and for monitoring, for switching communications from said source base station to said one selected target base station; Wireless telephone system comprising a means for. 7. The radiotelephone system of claim 6 further comprising means for providing a plurality of mobile terminal unit signal level increase values including a first mobile terminal unit signal level increase value. 8. The wireless telephone system according to claim 7, wherein said plurality of mobile terminal unit signal level increase value providing means further comprises means for changing said predetermined signal level by at least said first signal mobile terminal unit signal level increase value. The radiotelephone system according to claim 8, wherein said changing means further comprises means for changing said predetermined signal level upon expiration of said first predetermined time period. 6. The method of claim 5, further comprising causing an increase in signal level of the mobile terminal if the first predetermined time period expires without satisfying the first predetermined condition.