KR101480920B1 - Method for Setting of Transfer Rate of Voice Call And RNC - Google Patents

Abstract

A Node B periodically measures a transmission / reception power value of a cell to which the Node B belongs and transmits the measurement result to the RNC. The RNC calculates a transmission / reception power value It is possible to prevent an unstable voice call service due to traffic congestion by requesting a rate setting of a voice call to the core network according to the comparison result and setting a rate of a voice call in the core network.

AMR, transmission power, load measurement, voice transmission rate, traffic transmission rate

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a method of setting a transmission rate of a voice call,

More particularly, the present invention relates to a mobile communication system, which measures a transmission / reception power value of a cell, compares the measured transmission / reception power value with a reference value, and sets a transmission rate of a voice call capable of setting a transmission rate of a voice call according to a comparison result And a base station controller.

Generally, in WCDMA, an AMR (Adaptive Multi-Rate) codec is used as a vocoder for voice service, and AMR codec is a voice codec adopted as a standard in WCDMA.

The AMR codec supports eight coding rates for setting the transmission rate for voice calls, and the coding rates for setting the transmission rates of voice calls are 12.2 kbps, 10.2 kbps, 7.95 kbps, 7.4 kbps, 6.7 kbps , 5.9 kbps, 5.15 kbps, and 4.75 kbps.

In addition, the 3GPP specification defines a method that can use variable AMR to increase capacity to accommodate voice calls. The rate combining scheme defined in the 3GPP standards supports three modes by grouping the eight coding rates into four. The first mode is {12.2kbps, 7.95kbps, 5.9kbps, 4.75kbps}, the second mode is {10.2kbps, 6.7kbps, 5.9kbps, 4.75kbps}, and the third mode is {7.4kbps, 6.7kbps kbps, 5.9 kbps, 4.75 kbps}.

Thus, if the variable AMR scheme is used, it is easy to control the transmission rate of a voice call according to system conditions. Accordingly, when the subscriber is concentrated or traffic is generated in a large amount, the coding rate is adjusted and operated to lower the transmission rate of the voice call, thereby accommodating more subscribers.

However, the current variable AMR scheme uses only an OVSF (Orthogonal Variable Spreading Factor) code having a spreading factor (SF) of 128. Therefore, the available physical channels for voice calls are limited to 123, excluding the common channel among the 128 channels.

Therefore, when the variable AMR scheme specified in the specification is used, there is a limitation in the physical channel that can be allocated to a voice call even in a dense region or a lot of traffic. Therefore, even if the transmission rate of a voice call is reduced, .

In order to solve such a conventional problem, the present invention uses an OVSF code of SF 128 and an OVSF code of SF 256 to lower a coding rate when a subscriber is densely populated or when traffic temporarily increases, A method for setting a transmission rate of a voice call for preventing a phenomenon in which a limitation on increase is generated, and a base station controller.

As a means for solving the above-mentioned problems, a base station controller according to the present invention includes: a storage unit for storing at least one of a first reference value and a second reference value larger than the first reference value; A comparing unit comparing the transmission power or the reception power of the cell measured by the base station with at least one of the first reference value and the second reference value; A first spreading factor (SF) is set to be used for an uplink or downlink voice call if the transmission power or the received power is equal to or less than a first reference value as a result of the comparison by the comparison unit, And a setting request unit configured to set a second spreading factor larger than the first spreading factor if the transmission power or the received power is equal to or greater than the first reference value and equal to or less than the second reference value for a first threshold time, For a voice call using the second spreading factor if the transmit power or receive power is below the first reference value for a second threshold time, 1 spreading factor, and if the transmission power and the reception power are equal to or greater than the second reference value for a third threshold time, Is characterized in that the voice call is also changed to a second spreading factor.

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According to another aspect of the present invention, there is provided a method of setting a transmission rate of a voice call according to the present invention, the method comprising the steps of: determining a first spreading factor (SF) for a uplink or downlink voice call if the transmission power or the received power is less than a first reference value, Spreading Factor "); A second setting step of setting the second spreading factor for the new voice call if the received transmit power or received power is equal to or higher than the first reference value and equal to or lower than the second reference value for a first threshold time; Setting the first spreading factor to a first spreading factor for a voice call using the second spreading factor if the received transmission power or received power is below the first reference value for a second threshold time after the second setting step A third setting step; Wherein, when the received transmission power and the received power are equal to or greater than the second reference value for the third threshold time after the second setting step, the voice call using the first spreading factor is changed to the second spreading factor 4 setting step.

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As described above, according to the present invention, by using the OVSF code of SF 128 and the OVSF code of SF 256, when the subscriber density is increased or the traffic temporarily increases, the voice rate is lowered to provide the voice service, An unstable phenomenon can be prevented, and the capacity of a voice call can be increased.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the exemplary embodiments of the present invention, a description of technologies that are well known in the art and not directly related to the present invention will be omitted. This is to omit the unnecessary description so as to convey the key of the present invention more clearly without fading.

In the present invention, the reference value is a criterion for determining a load state in a specific cell including the Node B as a normal state, an overload state, and the like. Of course, in the present invention, the first reference value and the second reference value can be set while selectively changing according to the situation in the mobile communication service provider.

1 is a schematic diagram showing a main configuration of a system for setting a transmission rate of a voice call according to an embodiment of the present invention. 2 is a block diagram showing the main configuration of the RNC shown in FIG.

Referring to FIG. 1 and FIG. 2, a system 100 for setting a transmission rate of a voice call includes a mobile terminal 110, a Node B 120, an RNC 130, and a core network 140.

The portable terminal 110 is a portable terminal capable of communicating with other portable terminals and can be used in place of a mobile communication terminal, a mobile phone, a personal digital assistant (PDA), a smart phone, and the like. In the present invention, the mobile terminal 110 is exemplified by a WCDMA-based terminal, but it can be applied regardless of a communication method such as a terminal based on a GSM system and a terminal based on an All-IP system .

The Node B 120, as a base station, controls the wireless connection between the mobile terminal 110 and the Node B. The Node B 120 periodically measures the transmission / reception power value of a specific cell in which the Node B 120 is present and transmits the measured transmission / reception power value to the RNC 130. The Node B 120 measures a forward transmission power value Ptx_total transmitted from the Node B 120 to the mobile terminal 110 and measures a reverse reception power value received from the mobile terminal 110 (Prx_total) is measured.

The RNC 130 is a base station controller that controls one or more Node Bs and supports voice and data communications and communicates with the mobile terminal 110 through the core network 140 so that the mobile terminal 110 can use the communication service. And performs connection of the portable terminal.

The RNC 130 receives the transmit / receive power value transmitted from the Node B 120 and compares the received transmit / receive power value with the first reference values Ptx_Th1 and Prx_Th1 and the second reference values Ptx_Th2 and Prx_Th2. Then, the RNC 130 requests the core network 140 to set the transmission rate of the voice call according to the comparison result. To this end, the RNC 130 includes a comparison unit 131, a configuration request unit 132, and a storage unit 133.

The comparison unit 131 compares the transmit / receive power value initially received from the Node B 120 with the first reference value stored in the storage unit 133, And compares the transmit / receive power value with a first reference value and a second reference value stored in the storage unit 133. [ The comparing unit 131 compares the received transmit / receive power value measured during the second threshold time from the Node B 120 with the first reference value stored in the storage unit 133, And compares the received transmission / reception power value measured during the critical time with the second reference value stored in the storage unit 133. [ In addition, the comparison unit 131 transmits the comparison result to the setting request unit 132.

The configuration request unit 132 requests the core network 140 to set a voice call transmission rate according to the comparison result received from the comparison unit 131. [

If the comparison result received from the comparison unit 131 indicates that the transmission / reception power value initially received from the Node B 120 is less than the first reference value as shown in Table 1 and Table 2, The base station 132 requests the core network 140 to set the voice call rate so as to use an Orthogonal Variable Spreading Factor (OVSF) code having a spreading factor (SF) of 128 when setting the transmission rate of the voice call.

On the other hand, if the transmission / reception power value initially received from the comparison result received from the comparison unit 131 from the comparison unit 131 is equal to or higher than the first reference value and equal to or lower than the second reference value or equal to or higher than the second reference value And requests the core network 140 to set the voice call rate to use the SF 256 when setting the transmission rate of the voice call.

When the transmission / reception power value received during one hour, which is the first threshold time, from the Node B 120 received from the comparison unit 131 is equal to or greater than the first reference value and equal to or less than the second reference value, If the SF 128 is used, the core network 140 requests the transmission rate setting of the voice call to use SF 256 as the transmission rate of the new voice call. If SF 256 is used, it is requested to maintain SF 256.

If the transmission / reception power value received during the two-second threshold time from the Node B 120 as the comparison result received from the comparison unit 131 is less than the first reference value, the setting request unit 132 transmits a voice And requests the core network 140 to set the rate of the voice call so as to set the call rate to SF 128.

If the transmission / reception power value received for three hours, which is the third threshold time, from the Node B 120 as the comparison result received from the comparison unit 131 is equal to or higher than the second reference value, the setting request unit 132 transmits a voice And requests the core network 140 to set the rate of the voice call to set the call rate to SF 256. In the present invention, the first threshold time is set to one hour, the second threshold time is set to two hours, and the third threshold time is set to three hours. However, the present invention is not limited to the above- It is possible for the operator to set and apply it flexibly according to the situation. In addition, the first, second, and third threshold times may be set to the same time, and may be set to different times as in the embodiment of the present invention.

The critical time (t) Transmission power value (Ptx_total) Voice call rate 0 Ptx_total <= Ptx_Th1 SF 128 One Ptx_Th1 <= Ptx_total <= Ptx_Th2 SF 256 2 Ptx_total <= Ptx_Th1 SF 128 3 Ptx_total> = Ptx_Th2 SF 256

The critical time (t) Transmission power value (Prx_total) Voice call rate 0 Prx_total <= Prx_Th1 SF 128 One Prx_Th1 < = Prx_total < = Prx_Th2 SF 256 2 Prx_total <= Prx_Th1 SF 128 3 Prx_total> = Prx_Th2 SF 256

The setting request unit 132 can use both the transmission power and the reception power instead of transmitting the setting of the voice call transmission rule to the core network 140 using only the transmission power or the reception power value.

The core network 140 sets a voice call transmission rate according to a request for setting a voice call rate received from the configuration request unit 132 of the RNC 130. [ At this time, the core network 140 generally includes an exchange (not shown), a home location register (not shown), a gateway exchange (not shown), and the like. However, in the embodiment of the present invention, since a component for setting a transmission rate of a voice call is an exchange, detailed description of other components will be omitted. In the present invention, the core network 140 is described as an example of a network based on the WCDMA scheme. However, the core network 140 can be applied to various networks such as a network based on a GSM scheme and a network based on an All-IP scheme.

The exchange of the core network 140 plays a role of setting a voice call rate of the portable terminal 110 and sets a voice call rate according to a change request of the RNC 130. The exchange of the core network 140 codes the voice call with the set rate of the voice call and provides the voice call to the portable terminal 110 through the RNC 130 and the Node B 120.

3 is a flowchart illustrating a process of setting a transmission rate of a voice call according to an embodiment of the present invention.

Referring to FIG. 1 to FIG. 3, in step S201, the RNC 130 receives a transmission / reception power value periodically measured by the Node B 120. FIG. At this time, the RNC 130 receives only the transmission power value and the reception power value, or receives all the transmission / reception power values, and the RNC 130 transmits the transmission / reception power value measured during the threshold time in the Node B 120 .

In step S202, the comparison unit 131 of the RNC 130 compares the transmit / receive power value initially received from the Node B 120 with the first and second reference values stored in the storage unit 133. [

In step S203, the setting request unit 132 of the RNC 130 determines whether the transmission / reception power value initially received from the Node B 120 is less than or equal to a first reference value. If it is determined in step S203 that the received transmission / reception power value is less than the first reference value, the configuration request unit 132 of the RNC 130 sets the transmission rate of the voice call to SF 128 in the core network 140 in step S204 request.

On the contrary, if it is determined in step S203 that the received transmit / receive power value is not equal to or less than the first reference value, the setting request unit 132 proceeds to step S205. In step S205, the setting request unit 132 transmits the setting request unit 132 to the core network 140 in step S206, if the received transmission / reception power value is equal to or greater than the first reference value and less than or equal to the second reference value, To set the transmission rate of the voice call to SF 256. In step S205, the setting request unit 132 of the RNC 130 compares the transmission / reception power value initially received by the comparison unit 131 with the reference value, so that the transmission / reception power value is equal to or greater than the first reference value, If it is equal to or less than the reference value or is not equal to or greater than the second reference value, the process returns to step S202 to re-execute the above step.

In step S204 and step S206, the RNC 130 receives a voice call coded with SF 128 or SF 256 from the core network 140 and provides the voice call to the mobile terminal 110 through the Node B 120.

In step S207, the comparison unit 131 of the RNC 130 compares the received and received power measured and received for the first threshold time from the Node B 120 with the first reference value and the second reference value do. In step S208, when the transmission / reception power value for one hour is equal to or greater than the first reference value and equal to or less than the second reference value as a result of the comparison in step S207, the traffic of the cell including the Node B 120 becomes a congested state .

Therefore, in step S209, when the setting request unit 132 uses the SF 128 in step S204, the transmission rate of the voice call is maintained to be SF 128, and the transmission rate of the new voice call is transmitted to the core network 140 Request call rate setting. On the other hand, if the SF 256 is used in step S206, the core network 140 requests the maintenance of the voice call rate so that the transmission rate of the voice call is maintained at SF625 and the transmission rate of the new voice call is also used at SF625. The RNC 130 receives the new voice call coded with the SF 256 from the core network 140 and provides it to the mobile terminal 110 through the Node B 120.

In contrast, in step S208, the setting request unit 132 proceeds to step S210 if the transmission / reception power value for one hour is equal to or greater than the first reference value and equal to or less than the second reference value as a result of the comparison in step S207.

In step S210, the comparing unit 131 of the RNC 130 compares the received transmit power and received power measured from the Node B 120 for a second threshold time, i.e., two hours, with a first reference value. In step S211, the setting request unit 132 recognizes that the traffic of the cell including the Node B 120 is converted into the normal state when the transmission / reception power value for the two-hour period is less than the first reference value as a result of the comparison in step S210 .

Thereafter, in step S212, the setting request unit 132 requests the core network 140 to set the voice call rate so as to use the SF 128 for the transmission rate of the voice call using the SF 256. The RNC 130 receives the voice call coded with the SF 128 from the core network 140 and provides the voice call to the mobile terminal 110 through the Node B 120.

If the transmission power value is compared with the reference value, the RNC 130 searches for the mobile terminal 110 close to the Node B 120 among the mobile terminals 110 using the SF 256, From the transmission rate of the voice call provided by the user. On the contrary, when the received power value is compared with the reference value, the RNC 130 determines the BLER (BLock Error Rate) of the uplink among the mobile terminals 110 using the SF 256, From the transmission rate of the voice call provided from the base station (110).

In contrast, in step S211, the setting request unit 132 proceeds to step S214 if the transmission / reception power value for two hours is not equal to or less than the first reference value as a result of the comparison in step S210.

Then, in step S213, the RNC 130 compares the received / received power value measured for the third threshold time, i.e., 3 hours, from the Node B 120 with the second reference value. In step S214, the RNC 130 recognizes that the traffic of the cell including the Node B 120 is overloaded when the transmission / reception power value for the three hours is equal to or greater than the second reference value as a result of the comparison in step S213.

Therefore, in step S215, the RNC 130 requests the core network 140 to set the voice call rate so as to use the SF 256 for the voice call using the SF 128. The RNC 130 receives the voice call coded with the SF 256 from the core network 140 and provides the voice call to the mobile terminal 110 through the Node B 120.

When the transmission power value is compared with the reference value, the RNC 130 searches for the mobile terminal 110 remote from the Node B 120 among the mobile terminals 110 using the SF 128, 110 from the transmission rate of the voice call. Conversely, when the received power value is compared with the reference value, the RNC 130 determines the BLER and changes the rate from the rate of the voice call provided from the portable terminal 110 having a high BLER.

On the contrary, if it is determined in step S214 that the transmission / reception power value for the 3-hour period is not equal to or greater than the second reference value, the RNC 130 returns to step S202 and performs the above steps again.

While the invention has been shown and described with reference to certain exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims.

The present invention can be applied to a mobile communication system. In particular, it is possible to provide a subscriber with a high-quality voice service at a low cost by setting a transmission rate of a voice call according to a reference value by comparing a transmission / reception power value measured in a specific cell with a reference value .

1 is a schematic diagram showing a main configuration of a system for setting a transmission rate of a voice call according to an embodiment of the present invention;

2 is a block diagram showing a main configuration of the RNC shown in FIG.

3 is a flowchart showing a process of setting a transmission rate of a voice call according to an embodiment of the present invention

DESCRIPTION OF THE EMBODIMENTS

110: portable terminal 120: Node B

130: RNC 140: Core network

Claims (8)

delete A storage unit for storing at least one of a first reference value and a second reference value that is larger than the first reference value; A comparing unit comparing the transmission power or the reception power of the cell measured by the base station with at least one of the first reference value and the second reference value; A first spreading factor (SF) is set to be used for an uplink or downlink voice call if the transmission power or the received power is equal to or less than a first reference value as a result of the comparison by the comparison unit, Or a setting request unit for setting a second spreading factor larger than the first spreading factor to be used, The setting request unit Setting the second spreading factor to be used for a new voice call if the transmit power or receive power is greater than or equal to the first reference value and less than or equal to the second reference value for a first threshold time, The second spreading factor is set to the first spreading factor for a voice call using the second spreading factor if the transmission power or the received power is equal to or less than the first reference value for a second threshold time, The voice call using the first spreading factor is also changed to the second spreading factor if the transmission power and the received power are equal to or greater than the second reference value for the third threshold time And a base station controller. delete delete delete delete A base station controller, Periodically receiving a transmission power or a reception power of a cell measured from a base station; Comparing the received transmit power or received power with a first reference value and a second reference value; Setting a first spreading factor (SF) for the uplink or downlink voice call according to a result of the comparison if the transmission power or the received power is equal to or less than a first reference value; A second setting step of setting the second spreading factor for the new voice call if the received transmit power or received power is equal to or higher than the first reference value and equal to or lower than the second reference value for a first threshold time; Setting the first spreading factor to a first spreading factor for a voice call using the second spreading factor if the received transmission power or received power is below the first reference value for a second threshold time after the second setting step A third setting step; Wherein, when the received transmission power and the received power are equal to or greater than the second reference value for the third threshold time after the second setting step, the voice call using the first spreading factor is changed to the second spreading factor 4 setting step; And determining a transmission rate of the voice call. delete

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