RU2680084C2 - Autonomous handover, methods and devices for handover processing for user equipment (ue) in trunking group - Google Patents

Abstract

FIELD: wireless communication equipment.SUBSTANCE: invention relates to the mobile communication. Methods and devices for autonomous handover processing for user equipment (UE) in a trunking group are proposed. UE in a listening state sends a measurement report for a target cell to a network side before the UE produces an autonomous handover containing information about the measurements of the target cell used to determine UE switching, and generates autonomous handover from a source cell to the target cell after sending the report with the measurement results.EFFECT: solving problems leading to poor quality of service delivery as a result of the inability of the base station (network side) to obtain information about autonomous UE handover, a relatively large amount of configuration information at the air interface due to frequent autonomous handover in related technology; network side is given the opportunity to participate in the autonomous UE handover; handover frequency and a number of UE configuration messages at an air interface are reduced, while the autonomous handover improves the quality of service delivery.10 cl, 9 dwg

Description

Technical field

The present invention relates to communications, in particular to autonomous handover, as well as methods and devices for processing autonomous handover for user equipment (software) in a trunking group.

State of the art

A trunking system is a system capable of receiving multiple responses to one call. After establishing a group call in the trunked communication system, if the user is in the listening state in the group at the cell boundary, and it is found that the signal of the neighboring cell corresponds to the autonomous handover threshold, and the target cell has established a downward transmission channel for the group call, then the software (also called terminal device) independently transfers the call to the target cell without the participation of the base station. However, a number of problems may arise related to the lack of information on this handover at the base station.

Dynamic planning in the process of autonomous handover is associated with the following difficulties.

As shown in FIG. 1, it is assumed that downstream transmission channels are set up for a group call in CELL 1 and CELL 2. The users in CELL 1 are concentrated at the center point of the cell, and CELL 1 receives a modulation and coding scheme (QMS) of 10 for scheduling. PO 2 in CELL 2 is located at the cell boundary and receives QMS from 4 for planning. Software 2 moves in the direction of CELL 1, software 2 performs autonomous handover when the autonomous handover condition is met. After the handover of PO 2 to CELL 1, since QMS of 10 is accepted for planning the downstream transmission channel of CELL 1, SO 2 may not be able to correctly receive the message on the downstream transmission channel for a certain period of time due to an excessively large difference in the QMS. Software 2 must send a channel quality indicator (CQI) to

CELL 1 lowered the QMS. It takes about 40 milliseconds to send the CQI, and during this time two speech frames can be formed. At least three continuous speech frames will turn out to be erroneous frames until the QMS is lowered. If the software often performs switching in the border region, this can lead to poor audio signal quality and poor quality of service, and video quality may decrease even more.

Semi-permanent planning in the process of autonomous handover is associated with the following difficulties.

During semi-permanent planning, when the QMS changes, the QMS value is sent via the air interface along with the downlink control information (IONLS). In this case, the last QMS value is sent to the neighboring cell in real time. The neighboring cell should send the last QMS value to the software through the group call configuration message so that the user in the listening mode in the group call can correctly demodulate the downstream transmission channel in the target cell after autonomous handover. Since the QMS can change frequently (sometimes even with a frequency of once every 100 ms), such a frequent change can lead to a large number of messages about updating a neighboring cell and a large number of group call configuration messages in the air interface, which will affect the ability to process basic calls station. There is no effective solution to this problem in related technology yet.

SUMMARY OF THE INVENTION

To solve technical problems leading to poor quality of services due to the inability of the base station (i.e. the network side) to receive information about the autonomous software handover, the relatively large amount of configuration information in the air interface as a result of frequent autonomous handover, etc. in related technology, embodiments of the present invention are provided that provide autonomous handover, as well as methods and devices for processing handover for software in a trunking group, which allow yayut solve at least one of the above technical problems.

In accordance with one embodiment of the present invention

a method for autonomous handover for software in a trunking group is provided, which may include the following: software in the listening state sends a report with the measurement results for the target cell to the network side before the software performs an autonomous handover, while the report with the measurement results contains information about measurements of the target cell used to determine software switching, and the software performs an autonomous handover from the source cell to the target cell after sending a report with the measurement results.

In an exemplary embodiment of the invention, the step in which the software switches from the source cell to the target cell after sending the report with the measurement results may include the following: the software starts the first timer when sending the report with the measurement results; when the timer exceeds the first preset time, the software activates and switches to the target cell, while the first preset time cannot be longer than the time required to perform the appropriate adjustment to switch the software to the target cell.

In an exemplary embodiment of the invention, the implementation of the appropriate adjustment for switching software by the target cell may include at least one of the following: reducing the QMS value of the group to which the software belongs to a preset value; Converting the planning of the current channel to dynamic planning, if semi-constant planning is used in the current channel of the group to which the software belongs.

In an exemplary embodiment of the invention, when the current channel switches to dynamic scheduling, the method may further include the following: the second timer starts, and when the second timer exceeds the second preset time, the scheduling for the current channel is converted from dynamic scheduling to semi-permanent scheduling, with the second The set time cannot be less than the first preset time.

In an exemplary embodiment of the invention, the step of sending a report with the measurement results for the target cell to the network side may include the following: report with the results

measurements are sent through a radio resource management connection (RRC connection) between the software and the network side.

In an exemplary embodiment of the invention, after the software switches to the target cell, the method may further include the following: the software sends CQI information to the network side.

In accordance with another proposed embodiment of the present invention, there is provided a method for processing autonomous handover for software in a trunking group, which may include the following: equipment on the network side receives a report with the measurement results for the target cell from the software, while the software may be in a listening state, and the report with the measurement results may contain information about the measurements of the target cell used to determine software handover; equipment on the network side sends a notification to the target cell that the group to which the software belongs needs to perform autonomous handover.

In an exemplary embodiment of the invention, after the stage where the equipment on the network side sends a notification to the target cell that the group to which the software belongs needs to perform autonomous handover, the method may further include at least one of the following: equipment on the network side reduces the QMS value of the group to which the software belongs in the target cell to a preset value; if the scheduling of the current channel of the group to which the software belongs is semi-persistent scheduling, the equipment on the network side converts scheduling of the current channel into dynamic scheduling.

In accordance with another proposed embodiment of the present invention, there is provided an autonomous handover processing device for software in a trunking group, applicable to software, including: a sending module for sending a report with measurement results to a target cell on the network side before the software is in listening mode perform an autonomous handover, while the report with the measurement results contains information about the measurement of the target cell, which is used to determine the software handover; and a handover processing module for performing autonomous handover from the source cell to the target cell after sending the report with the measurement results.

In accordance with another proposed embodiment of the present invention, there is provided a device for processing autonomous handover for software in a trunking group, applicable for network-side equipment, including: a receiving module for receiving a report with measurement results for a target cell from software, while the software can be in the listening state, and the report with the measurement results may contain information about the measurements of the target cell used to determine software handover; and a notification module designed to send notification to the target cell that the group to which the software belongs needs to perform autonomous handover.

In accordance with the proposed embodiments of the present invention, a technical means is adopted by which the software first sends a report with the measurement results to the target cell on the network side before performing stand-alone handover, and then performs handover. Technical problems that lead to poor quality of service due to the inability of the base station (i.e., the network side) to obtain information about the autonomous software handover, the relatively large amount of configuration information in the air interface due to the frequent autonomous handover, etc., are solved. in related technology. The network side is given the opportunity to participate in stand-alone software handover. The frequency of handover and the number of configuration messages of software in the air interface are reduced, while autonomous handover allows you to improve the quality of service.

Brief Description of the Drawings

The drawings described below are intended to more fully understand the present disclosure of the invention and are an integral part thereof. Schematically presented embodiments of the invention and their description are used to explain the present disclosure of the invention and are not intended to establish any inappropriate restrictions for the present disclosure of the invention. In the drawings:

In FIG. 1 is a schematic diagram of an autonomous handover scenario in accordance with related technology;

In FIG. 2 shows a diagram of a stand-alone handover method for software in

a trunking group in accordance with an embodiment of the present invention;

In FIG. 3 is a structural block diagram of an autonomous handover processing device for software in a trunking group in accordance with an embodiment of the present invention;

In FIG. 4 shows a diagram of a method for processing autonomous handover for software in a trunking group in accordance with an embodiment of the present invention;

In FIG. 5 is a structural block diagram of an autonomous handover processing device for software in a trunking group in accordance with an embodiment of the present invention;

In FIG. Figure 6 shows the interaction diagram of the QMS tuning messages after autonomous handover within the station when the user in the listening state (called the “listening user” for short) did not establish an RRC connection with the base station in accordance with an embodiment of the present invention;

In FIG. 7 is a diagram of the interaction of the QMS tuning messages after autonomous handover between stations when the listening user has not established an RRC connection with the base station in accordance with an embodiment of the present invention;

In FIG. 8 is a diagram illustrating the interaction of QMS tuning messages after autonomous handover within a station when a listening user has established an RRC connection with a base station in accordance with an embodiment of the present invention; and

In FIG. 9 is a diagram of the interaction of QMS tuning messages after autonomous handover between stations when a listening user has established an RRC connection with a base station in accordance with an embodiment of the present invention.

Detailed Description of Embodiments

The present invention will be described in detail below with reference to the drawings and embodiments of the invention. Embodiments of the present invention and their technical characteristics allow their free combination, provided that there are no conflicts.

FIG. 2 shows a flow diagram of a standalone handover method for software in a trunking group in accordance with an embodiment of the present invention. As shown in FIG. 2, the method may include the following steps.

Step S202: the listening software sends a report with the measurement results for the target cell to the network side before the software performs a stand-alone handover, while the measurement report contains information about the measurement of the target cell, which is used to determine the software handover.

Step S204: the software performs autonomous handover from the source cell to the target cell after sending a report with the measurement results.

At the processing stages, the software sends a report with the measurement results to the network side before the software performs an autonomous handover. Technical problems that lead to poor quality of service due to the inability of the base station (i.e., the network side) to obtain information about the autonomous software handover, the relatively large amount of configuration information in the air interface due to the frequent autonomous handover, etc., are solved. in related technology. The network side is given the opportunity to participate in stand-alone software handover. The frequency of handover and the number of configuration messages of software in the air interface are reduced, while autonomous handover allows you to improve the quality of service.

In an exemplary embodiment, the network side may be either a source cell, or a base station associated with a source cell, or a base station associated with both a source and a target cell.

The following method is proposed for implementing Step S204 to increase the success of handover. The software starts the first timer when sending a report with the measurement results; when the timer exceeds the first preset time, the software activates and switches to the target cell, while the first preset time does not exceed the time required to perform the appropriate adjustment to switch the software to the target cell. With this method of implementation, appropriate preparation of the target cell for handover is provided, which increases the success of handover.

The following is a detailed description with reference to an exemplary implementation order, intended to better understand the above implementation order.

If the software has not established an RRC connection with the base station, in listening mode in the group, the software sends a report with the measurement results to the original cell before the software performs an offline handover. The report with the measurement results may contain information such as the reception power of the reference signal (MOS) of the target cell and the identifier (ID) of the current cell. The software starts the timer when sending a message with a report with the measurement results, and then performs an autonomous handover to the target cell after the timer expires.

In case of coincidence with the LTE signal, the software in listening mode in the group establishes an RRC connection with the base station and sends a report with the measurement results to the source cell in order to request handover before the software performs stand-alone handover.

The initial cell, based on the content of the sent software report with the measurement results, determines whether the received report with the measurement results is a report with the measurement results for handover or not. The source cell sends a report with the measurement results to the target cell if the received report with the measurement results is a report with the measurement results for handover. As an exemplary embodiment of the invention, the source cell receives a measurement report sent by the software and sends a stand-alone handover message to the target cell if the received measurement report is a measurement report for the handover. After receiving a message about the autonomous handover sent by the source cell, the target cell receives a notification about the need to reduce the QMS of the group as much as possible to a preset value in order to fulfill the requirement of software located at the cell boundary.

In this embodiment of the invention, the implementation of the appropriate adjustment for the software handover by the target cell includes, but is not limited to, at least one of the following: 1. reducing the QMS value of the group to which the software belongs to a preset

values (see detailed information in the above implementation order); and 2. Converting scheduling of the current channel to dynamic scheduling if scheduling the current channel of the group to which the software belongs is semi-persistent scheduling. When converting the scheduling of the current channel to dynamic scheduling, the method may additionally include the following process: the second timer is started, and when the time on the second timer exceeds the second preset time, scheduling for the current channel is converted from dynamic scheduling to semi-constant scheduling, while the second preset time is not may be less than the first preset time. The second tuning method in an exemplary embodiment can be organized in the following order.

If semi-persistent scheduling is accepted for the current channel of the group, it is converted into dynamic scheduling. In the process of conversion to dynamic planning, if semi-permanent group planning is in an activated or re-activated state, you must first deactivate the group and start the timer; dynamic planning is maintained all the time until the timer expires, and after the timer expires, if the condition for semi-permanent planning is met, a transition to semi-permanent planning is performed. The duration of the timer should be longer than the length of time to wait to send a report with the measurement results before executing a stand-alone software handover in order to ensure the use of dynamic planning software at the time of stand-alone software handover to the target cell.

In this embodiment, there are many ways to implement Step S202. For example, a report with the measurement results can be sent via an RRC connection between the software and the network side.

In order to ensure software stability after the software handles to the target cell, the software can send CQI information to the network side after it handles to the target cell. Of course, in the approximate implementation order, the implementation of the above stage can also solve the problem of the quality of the services provided after an autonomous handover to the target cell even in the case when the original cell cannot receive a report with

measurement results sent by software.

To implement the above method, an embodiment of the invention also provides an autonomous handover processing device for software in a trunking group applicable to software in listening mode. In FIG. Figure 3 shows a device including: a sending module 30, designed to send a report with measurement results for the target cell on the network side before the software performs an autonomous handover, while the report with the measurement results contains information about the measurement of the target cell, which is used to determine the handover BY; and a handover processing module 32, associated with the sending module 30, and intended for performing autonomous handover from the source cell to the target cell after sending a report with the measurement results.

It is important to note that each module can be implemented using both software and hardware, while the hardware implementation can be implemented, for example, as follows: the send module 30 is in the first processor, and the handover processing module 32 is in the second processor; the send module 30 and the handover processing module 32 are in the same processor.

In an embodiment of the invention, the exchange rate on the network side is also improved. In FIG. 4 shows a diagram of a method for processing autonomous handover for software in a trunking group in accordance with an embodiment of the present invention. As shown in FIG. 4, the method may include the following steps.

Step S402: the network side equipment receives a report with the measurement results for the target cell from the software, while the software is in the listening state, and the report with the measurement results contains information about the measurement of the target cell, which is used to determine the software handover.

Step S404: the network side equipment sends a notification to the target cell that the group to which the software belongs needs to perform autonomous handover.

After Step S404, i.e. after the equipment on the network side sends a notification to the target cell that the group to which the software belongs needs to perform autonomous handover, the method

additionally includes at least one of the following: equipment on the network side reduces the QMS value of the group to which the software belongs in the target cell to a preset value; if the scheduling of the current channel of the group to which the software belongs is semi-persistent scheduling, the equipment on the network side converts scheduling of the current channel into dynamic scheduling.

In this embodiment, the invention also provides an autonomous handover processing device for software in a trunking group applicable to equipment on the network side. The device is intended to implement the above method and, as shown in FIG. 5 includes:

receiving module 50, designed to receive a report with the measurement results for the target cell from the software, while the software is in the listening state, and the report with the measurement results contains information about the measurement of the target cell, which is used to determine software handover; and

the notification module 52 connected to the receiving module 50 and designed to send a notification to the target cell that the group to which the software belongs needs to perform autonomous handover.

To make the above embodiment more clear, the following is a detailed description with reference to preferred embodiments of the invention.

Option 1

The process of interaction of QMS tuning messages after autonomous handover within the station when the listening user has not established an RRC connection with the base station is shown in FIG. 6.

(1) The listening user determines whether he is on the border of the source cell, determines whether the signal of the neighboring cell matches the threshold of the autonomous handover, and through the configuration message of the group call, finds out whether the target cell has set the downstream transmission channel for the group call.

(2) In the absence of an established RRC connection, the listening user can first establish an RRC connection and then send a report with the measurement results through the RRC connection (report with the results

measurements can also be sent in another way) and start the timer t1.

(3) The source cell of the base station receives a report with the measurement results. The source cell already has information that the target cell has established a transmission channel, then the source cell sends a notification to the target cell about the presence of an autonomous group handover.

(4) After receiving the message, the target cell minimizes the QMS of the group to the threshold value to ensure that the requirements of the autonomous software handover located on the cell boundary are met.

(5) If semi-permanent scheduling is adopted for a group, timer t2 is started, dynamic scheduling is performed during the period of timer t2, and semi-permanent planning is restored when timer t2 expires.

(6) Timer t1 expires, and the software performs autonomous handover to the target cell.

(7) After a stand-alone handover, the software sends a report with the measurement results to the target cell containing the CQI information.

(8) The target cell adjusts the QMS value for operational planning in accordance with the received CQI information after receiving a report with the measurement results containing CQI information, after which the process ends.

The following mode of implementation of an embodiment of the invention is proposed based on the above process.

(1) CELL 1 and CELL 2 are on the same base station, users in group “A” are allocated to CELL 1 and CELL 2, the group call of group “A” is currently in a call state, and the listening user “a” in the group “A” goes from CELL 1 to CELL 2, and for the listening user “a” CELL 1 is the source cell, and CELL 2 is the target cell.

(2) Since the listening user “a” is only in the listening state and has not established an RRC connection with the base station, when the listening user “a” reaches the boundary of CELL 1, he receives information from the base station of the neighboring cell about the group call configuration, which includes CELL 2, after which it is determined whether the autonomous handover process can be initiated.

(3) The listening user “a” sends a report with the measurement results to CELL 1 and, in the absence of an RRC connection, can first establish an RRC connection and then send a report with measurement results via an RRC connection (a report with measurement results can also be sent another way); after that, the listening user “a” starts the timer t1 for 50 ms.

(4) The report with the measurement results includes the listening user “a” and the target cell of CELL 2 of the autonomous handover. Since CELL 1 and CELL 2 are on the same base station, CELL 1 can send a message requesting an autonomous handover of group “A” directly to CELL 2, while the message requesting an autonomous handover indicates that CELL 1 contains the listening user “a”, which is going to execute autonomous handover to the CELL 2.

(5) CELL 2 receives a message requesting an autonomous handover of group “A” from CELL 1 and minimizes the QMS of planning a group down to 4 to ensure that the requirements of the autonomous software handover located at the cell boundary are met.

(6) If semi-persistent scheduling is accepted for group A in CELL 2, timer t2 is started with a period of 100 ms for dynamic scheduling. When the timer expires, semi-persistent scheduling is adopted in order to prevent packet loss during the offline handover of the listening user “a” to the target cell.

(7) After the timer t1 expires, the listening user performs an autonomous handover to the target cell of CELL 2, and after the handover to the target cell of CELL 2, the listening user “a” sends the CQI, the sending method is similar to the method of sending a report with measurement results.

(8) CELL 2 receives CQI information sent by the listening user “a”, and can re-tune the QMS information of the group A planning to fulfill the operational planning requirements.

Option 2

The process of interaction of QMS tuning messages after autonomous handover between stations, when the listening user did not install

An RRC connection with a base station is shown in FIG. 7.

(1) The listening user determines whether he is on the border of the source cell, determines whether the signal of the neighboring cell matches the threshold of the autonomous handover, and through the configuration message of the group call, finds out whether the target cell has set the downstream transmission channel for the group call.

(2) If there is no established RRC connection, the listening user can first establish an RRC connection, and then send a report with the measurement results via the RRC connection (the report with measurement results can also be sent in another way); after that the user starts the timer.

(3) In the case of handover between stations, the source cell sends a message requesting autonomous handover to the core network.

(4) After receiving a message requesting an autonomous handover, the core network forwards the message requesting an autonomous handover to the target cell.

(5) After receiving the message, the target cell minimizes the QMS of the group to the threshold value to ensure that the requirements of the autonomous software handover located on the cell boundary are met.

(6) If semi-persistent scheduling is adopted for a group, timer t2 is started, dynamic scheduling is performed during the period of timer t2, and semi-constant scheduling is restored when timer t2 expires.

(7) Timer t1 expires, and the software performs autonomous handover to the target cell.

(8) After an autonomous handover, the software sends a report with the measurement results to the target cell containing information from the CQI.

(9) The target cell adjusts the QMS value for operational planning in accordance with the received CQI information after receiving a report with the measurement results containing CQI information, after which the process ends.

The following mode of implementation of an embodiment of the invention is proposed based on the above process.

(1) CELL 1 and CELL 2 are at two different base stations,

the users in group “A” are distributed in CELL 1 and CELL 2, the group call of group “A” is currently in a call state, and the listening user “a” in group “A” goes from CELL 1 to CELL 2, and for the listener of user “a”, CELL 1 is the source cell, and CELL 2 is the target cell.

(2) Since the listening user “a” is only in the listening state and has not established RRC connections with the base stations, when the listening user “a” reaches the boundary of CELL 1, he receives information from the base station of the neighboring cell about the group call configuration, which includes CELL 2, after which it is determined whether the autonomous handover process can be initiated.

(3) The listening user “a” sends a report with the measurement results to CELL 1 and, in the absence of an RRC connection, can first establish an RRC connection and then send a report with measurement results via an RRC connection (a report with measurement results can also be sent another way); after that, the listening user “a” starts the timer t1 for 80 ms.

(4) The report with the measurement results includes the listening user “a” and the target cell of CELL 2 of the autonomous handover. Since CELL 1 and CELL 2 are located at different base stations, CELL 1 must send a message requesting an autonomous handover of Group A to the core network, after which the core network sends a message requesting autonomous handover of Group A to CELL 2; a message requesting an autonomous handover indicates that LINE 1 contains the listening user "a", who is about to perform an autonomous handover to LAYOUT 2.

(5) CELL 2 receives a message requesting an autonomous handover of group “A” from CELL 1 and minimizes the QMS of group planning down to 3 to ensure that the requirement of an autonomous software handover located at the cell boundary is met.

(6) If semi-continuous scheduling is accepted for group A in CELL 2, timer t2 is started with a period of 150 ms for dynamic scheduling. When the timer expires, semi-persistent scheduling is adopted in order to prevent packet loss during the offline handover of the listening user “a” to the target cell.

(7) After the timer t1 expires, the listening user performs an autonomous handover to the target cell of CELL 2, and after the handover to the target cell of CELL 2, the listening user “a” sends the CQI, the sending method is similar to the method of sending a report with measurement results.

(8) CELL 2 receives CQI information sent by the listening user “a”, and can re-tune the QMS information of the group A planning to fulfill the operational planning requirements.

Option 3

The process of interaction between the QMS tuning messages after autonomous handover within the station when the listening user has established an RRC connection with the base station is shown in FIG. 8.

(1) The listening user determines whether he is on the border of the source cell, determines whether the signal of the neighboring cell matches the threshold of the autonomous handover, and through the configuration message of the group call, finds out whether the target cell has set the downstream transmission channel for the group call.

(2) Since the RRC connection is established, the listening user can send a report with the measurement results directly through the RRC connection and start the timer t1.

(3) The source cell of the base station receives a report with the measurement results. The source cell already has information that the target cell has established a transmission channel, then the source cell sends a notification to the target cell about the presence of an autonomous group handover.

(4) After receiving the message, the target cell minimizes the QMS of the group to the threshold value to ensure that the requirements of the autonomous software handover located on the cell boundary are met.

(5) If semi-constant scheduling is adopted for a group, timer t2 is started, dynamic scheduling is performed during the period of timer t2, and semi-constant scheduling is restored when timer t2 expires.

(6) Timer t1 expires, and the software performs autonomous handover to the target cell.

(7) After a stand-alone handover, the software sends a report with the measurement results to the target cell containing the CQI information.

(8) The target cell adjusts the QMS value for operational planning in accordance with the received CQI information after receiving a report with the measurement results containing CQI information, after which the process ends.

The following mode of implementation of an embodiment of the invention is proposed based on the above process.

(1) CELL 1 and CELL 2 are on the same base station, users in group “A” are allocated to CELL 1 and CELL 2, the group call of group “A” is currently in a call state, and the listening user “a” in the group “A” goes from CELL 1 to CELL 2, while the listening user “a”, in addition to listening to the information sent by group A, uploads the image to the microblog, that is, an RRC connection was established with the base station. For the listening user A, CELL 1 is the source cell, and CELL 2 is the target cell.

(2) Since the listening user “a” is only in the listening state, when the listening user “a” reaches the boundary of CELL 1, he receives from the base station information of the neighboring cell on the group call configuration, which includes CELL 2, after which it is determined whether whether the autonomous handover process is initiated.

(3) The listening user “a” can directly send a report with the measurement results to CELL 1, since an RRC connection with the base station has been established, after which the listening user “a” starts timer t1 with a period of 50 ms.

(4) The report with the measurement results includes the listening user “a” and the target cell of CELL 2 of the autonomous handover. Since CELL 1 and CELL 2 are located on the same base station, CELL 1 can send a message requesting an autonomous handover of group “A” directly to CELL 2, while the message indicates that CELL 1 contains a listening user “a” who is about to perform offline HANDOVER TO CELL 2.

(5) CELL 2 receives a message requesting an autonomous handover of group “A” from CELL 1 and minimizes the QMS of group planning

up to 4, in order to ensure compliance with the requirements of autonomous software handover located at the cell boundary.

(6) If semi-persistent scheduling is accepted for group A in CELL 2, timer t2 is started with a period of 100 ms for dynamic scheduling. When the timer expires, semi-persistent scheduling is adopted in order to prevent packet loss during the offline handover of the listening user “a” to the target cell.

(7) After the timer t1 expires, the listening user executes an autonomous handover to the target cell of CELL 2, and after the handover to the target cell of CELL 2, the listening user “a” sends the ICC once through an RRC connection, since the service was switched to the target cell from RCC

(8) CELL 2 receives CQI information sent by the listening user “a”, and can re-tune the QMS information of the group A planning to fulfill the operational planning requirements.

Option 4

The process of interaction between QMS tuning messages after autonomous handover between stations in the case when the listening user has established an RRC connection is shown in FIG. 9.

(1) The listening user determines whether he is on the border of the source cell, determines whether the signal of the neighboring cell matches the threshold of the autonomous handover, and through the configuration message of the group call, finds out whether the target cell has set the downstream transmission channel for the group call.

(2) Since the RRC connection is established, the listening user can send a report with the measurement results directly through the RRC connection and start the timer t1.

(3) In the case of handover between stations, the source cell sends a message requesting autonomous handover to the core network.

(4) After receiving a message requesting an autonomous handover, the core network forwards it to the target cell.

(5) After receiving the message, the target cell minimizes the QMS of the group to the threshold value to ensure that

requirements of autonomous software handover located at the cell boundary.

(6) If semi-persistent scheduling is adopted for a group, timer t2 is started, dynamic scheduling is performed during the period of timer t2, and semi-constant scheduling is restored when timer t2 expires.

(7) Timer t1 expires, and the software performs autonomous handover to the target cell.

(8) After an autonomous handover, the software sends a report with the measurement results to the target cell containing information from the CQI.

(9) The target cell adjusts the QMS value for operational planning in accordance with the received CQI information after receiving a report with the measurement results containing CQI information, after which the process ends.

The following mode of implementation of an embodiment of the invention is proposed based on the above process.

(1) CELL 1 and CELL 2 are located at two different base stations, users in group “A” are allocated to CELL 1 and CELL 2, the group call of group “A” is currently in a call state, and the listening user “a” in group “A” goes from CELL 1 to CELL 2, while the listening user “a”, in addition to listening to information sent by group A, browses the website, that is, an RRC connection was established with the base station. For the listening user A, CELL 1 is the source cell, and CELL 2 is the target cell.

(2) Since the listening user “a” is only in the listening state, when the listening user “a” reaches the boundary of CELL 1, he receives from the base station information of the neighboring cell on the group call configuration, which includes CELL 2, after which it is determined whether whether the autonomous handover process is initiated.

(3) The listening user “a” can directly send a report with the measurement results to LOCATION 1, since an RRC connection with the base stations has been established, after which the listening user “a” starts the timer t1 with a period of 80 ms.

(4) The report with the measurement results includes the listening user “a” and the target cell of CELL 2 of the autonomous handover. Since CELL 1 and

CELL 2 are located at different base stations, CELL 1 needs to send a message requesting autonomous handover of Group A to the core network, after which the core network sends a message requesting autonomous handover of Group A to CELL 2, and the message indicates that CELL 1 contains a listening user “a”, who is about to perform an autonomous handover to CELL 2.

(5) CELL 2 receives a message requesting an autonomous handover of group “A” from CELL 1 and minimizes the QMS of planning a group down to 4 to ensure that the requirements of the autonomous software handover located at the cell boundary are met.

(6) If semi-continuous scheduling is accepted for group A in CELL 2, timer t2 is started with a period of 150 ms for dynamic scheduling. When the timer expires, semi-persistent scheduling is adopted in order to prevent packet loss during the offline handover of the listening user “a” to the target cell.

(7) After the timer t1 expires, the listening user executes an autonomous handover to the target cell of CELL 2, and after the handover to the target cell of CELL 2, the listening user “a” sends the ICC once through an RRC connection, since the service was switched to the target cell from RCC

(8) CELL 2 receives CQI information sent by the listening user “a”, and can re-tune the QMS information of the group A planning to fulfill the operational planning requirements.

Obviously, those skilled in the art understand that each module or each step of the present invention can be implemented using a universal computing device, and that these modules or steps can either be concentrated on a single computing device or distributed over a network composed of many computing devices, and as one of the options can be implemented using program code executed on these computing devices, so that said modules or tapas can be contained on a storage device for their subsequent execution using computing tools, while the indicated or described steps are

some conditions can be performed according to sequences different from those mentioned in this document, or can be implemented as separate integrated modules, or as a single integrated module containing several modules or steps described in this document. Therefore, the present disclosure of the invention is not limited to any specific combination of hardware and software.

The information presented above indicates only preferred embodiments of the present invention and is not intended to limit it, and for specialists in the art, the present invention may have various modifications and variations. Any modifications, equivalent substitutions, improvements, etc. made within the framework of the principle of the present invention are included in the scope of legal protection defined by the attached claims of the present invention.

Industrial applicability

The technical solutions included in the present invention are applicable to the process of autonomous software handover in a trunking group. The software sends a report with the measurement results for the target cell to the network side before the software performs an autonomous handover, and then performs a handover. Technical problems that lead to poor quality of service due to the inability of the base station (i.e. the network side) to obtain information about the autonomous software handover, the relatively large amount of configuration information in the air interface due to the frequent autonomous handover, etc. related technology. The network side is given the opportunity to participate in stand-alone software handover. The frequency of handover and the number of configuration messages of software in the air interface are reduced, while autonomous handover allows you to improve the quality of service.

Claims (28)

1. A method for implementing autonomous handover for user equipment (software) in a trunking group, including: sending software in the state of listening to the report with the measurement results for the target cell to the network side before the software performs an autonomous handover, while the report with the measurement results contains information about the measurement of the target cell; and execution of autonomous handover software from the source cell to the target cell after sending a report with the measurement results. 2. The method according to p. 1, characterized in that when executing the handover software from the source cell to the target cell after sending a report with the measurement results includes: launch of the first timer software when sending a report with the measurement results; and if the timer exceeds the first preset time, it activates the software and switches to the target cell, while the first preset time does not exceed the time required to perform the corresponding adjustment for switching the software by the target cell. 3. The method according to p. 2, characterized in that the implementation of the appropriate adjustment for handover software target cell includes at least one of the following: reducing the value of the Modulation and Coding Scheme (QMS) of the group to which the software belongs to a given value; and converting the planning of the current channel into dynamic planning, if the planning of the current channel of the group to which the software belongs is semi-permanent planning. 4. The method according to p. 3, characterized in that the conversion of the planning of the current channel in dynamic planning further includes: the start of the second timer, and when the time on the second timer exceeds the second preset time, the conversion of scheduling for the current channel from dynamic planning to semi-permanent scheduling, while the second preset time is greater than or equal to the first preset time. 5. The method according to claim 1, characterized in that the sending of a report with the measurement results for the target cell to the network side includes: sending a report with the results of measurements through the connection for radio resource management (RRC connection) between the software and the network side. 6. The method according to any one of paragraphs. 1-5, characterized in that after execution of the handover software to the target cell further includes: sending software information about the channel quality indicator (CQI) to the network side. 7. A method for processing autonomous handover for user equipment (software) in a trunking group, including: the equipment receiving the network side of the report with the measurement results for the target cell from the software, while the software is in the listening state, and the report with the measurement results contains information about the measurement of the target cell; and A notification sent by the network side equipment to the target cell that the group to which the software belongs needs to perform autonomous handover. 8. The method according to claim 7, characterized in that after the notification sent by the network side equipment to the target cell that the group to which the software belongs needs to perform autonomous handover, additionally includes at least one of the following: the equipment of the network side decreases the value of the modulation and coding scheme (QMS) of the group to which the software in the target cell belongs to the specified value; and when scheduling the current channel of the group to which the software belongs is semi-permanent scheduling, the equipment of the network side of the scheduling of the current channel is converted into dynamic scheduling. 9. An autonomous handover processing device for user equipment (software) in a trunking group applied to software, including: a sending module designed to send a report with the measurement results for the target cell to the network side before the software in the listening state performs an autonomous handover, while the report with the measurement results contains information about the measurement of the target cell; and Handover processing module designed to perform autonomous handover from the source cell to the target cell after sending a report with the measurement results. 10. An autonomous handover processing device for user equipment (software) in a trunking group applied to network-side equipment, including: a receiving module designed to receive a report with the measurement results for the target cell from the software, while the software is in the listening state, and the report with the measurement results contains information about the measurement of the target cell; and notification module, designed to send notification to the target cell that the group to which the software belongs needs to perform autonomous handover.

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