JP2002112304A - Hand-over predicting communication system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a hand-over predicting communication system that uses a packet network passing through a wireless environment as its part to transfer packets and applies distribution control to packets transmitted before and after a hand-over time predicted by a transmitter side terminal so as to relax the communication deterioration thereby realizing efficient distribution. SOLUTION: A reception state transmission section 8 acquires jitter as a variable denoting a reception state from a reception state supervisory section 4 and transmits the reception state to a transmission terminal 1 when the variable exceeds or falls short of any of threshold values, and a distribution control section 3 of a transmission terminal 1 predicts a hand-over time when the jitter reaches a hand-over threshold on the basis of the received reception state. The transmission terminal 1 conducts distribution control at the predicted time.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a communication system including a terminal connected to a packet network included in a wireless environment as well as a wired environment in a path, wherein a transmitting side terminal and a receiving side terminal exist in the same wireless environment. Without, when the handover notifying means is not provided to a device other than the base station and the mobile terminal in the wireless environment, when the handover of the mobile terminal serving as the receiving side is predicted at the transmitting terminal, the time is predicted. It is intended to perform distribution control for alleviating the deterioration of communication at the time before and after the time and realizing efficient distribution.

[0002]

2. Description of the Related Art In a packet communication network including a wired environment and a wireless environment, in a communication using a mobile terminal in a wireless environment, a handover, which is a switching of a base station to be connected, occurs. Phenomena such as occurrence of packet loss appear, which causes deterioration of the communication state.

[0003] Various methods have been considered for detection and notification when a handover is performed between a base station and a mobile terminal in a wireless environment. After the handover is performed, a method is considered in which the base station notifies the mobile terminal of the occurrence of the handover or vice versa.

[0004] The prediction of handover is based on physical radio characteristics between a base station and a mobile terminal in a wireless environment.
A method of making a determination by comparing those values with a threshold has been considered. For example, as in JP-A-10-108267, the reception power level at the mobile terminal is reported to the base station as the reception status, and handover is predicted at the base station.
There is also a method of notifying the mobile terminal of the result. Also, as in Japanese Patent Application Laid-Open No. 11-18132, a method in which a handover is predicted on the mobile terminal by comparing the reception level with a threshold value and the result is explicitly notified to the user, thereby prompting the user to avoid the handover. Is considered.

In response to handover prediction, a method of transmitting untransmitted data at a high speed after a handover is detected as in JP-A-2000-69557, or a method of writing data in a transmission buffer itself at the time of handover as in JP-A-02-268031. Methods such as restricting are considered.

[0006]

In the conventional method, prediction and detection of handover are performed between a base station and a mobile terminal in a wireless environment. Consideration is not given to handling at the time of handover when one of the transmitting and receiving terminals exists in a wired environment and does not exist directly in a wireless environment.

[0007] For example, when performing communication that requires real-time performance such that the delay time is limited, not only temporary interruption of communication and packet loss at the time of handover, but also an increase in delay time before and after the handover is affected. Is big. At this time, it is not sufficient to respond only by the base station or the mobile terminal, and it is necessary to control the packet transmission in the transmitting terminal.

When a handover is performed, the occurrence of the handover is reported between the connected base station and the mobile terminal, but no notification is made outside the wireless environment. But,
The effect of handover on communication with a terminal outside the wireless environment is large, and it is inconvenient that the occurrence cannot be known unless an explicit notification is given. Even in the case of notification, since the response is performed after the detection of the handover, prompt response becomes difficult, and deterioration of the communication state cannot be avoided. Therefore, it is necessary to respond by predicting the occurrence of handover on the transmitting terminal side.

According to the present invention, in order to solve the above-mentioned problems, in an environment including not only a wired environment but also a wireless environment, a terminal for receiving data is received when a terminal on a transmitting side and a terminal on a receiving side do not exist in the same wireless environment. The mobile terminal reports the reception status of the packet to the transmitting terminal, predicts the time at which the receiving mobile terminal will perform handover based on that, and controls the distribution of the packets transmitted before and after that time to mitigate the deterioration of communication. It aims to realize efficient distribution.

[0010]

A handover prediction communication system according to the present invention has a transmitting terminal connected to a wired environment and a receiving terminal connected to a wireless environment, and communicates via the wired environment and the wireless environment. A handover prediction communication system for transferring a packet using a packet network, wherein the receiving terminal monitors a reception status of a packet received from the wireless environment, and a threshold for a variable indicating the reception status. If multiple variables are set and the variable changes across any of the thresholds, the value of the variable at that time,
A reception state transmitting unit that transmits a reception time of a packet and a direction of change to the transmission terminal, wherein the transmission terminal receives a value of a variable, a reception time of the packet, and a direction of change. On the basis of the state receiving unit, the value of the received variable, the reception time of the packet, and the direction of change, the time at which the variable indicating the reception status reaches the preset handover expected threshold value, a handover occurs. A delivery control unit for predicting the estimated handover occurrence time.

[0011] A handover prediction communication system according to the present invention has a transmitting terminal connected to a wireless environment and a receiving terminal connected to a wired environment, and uses a packet network passing through the wireless environment and the wired environment. A handover prediction communication system for transferring packets, wherein the receiving terminal sets a plurality of reception state monitoring units that monitor a reception state of packets received from the wired environment, and a plurality of thresholds for variables indicating the reception state. When changing over any of the thresholds, the value of the variable at that time, the reception time of the packet, the direction of the change has a reception state transmission unit that transmits to the transmission terminal, the transmission terminal , A reception state receiving unit that receives the value of the variable, the reception time of the packet, and the direction of the change, and the value of the received variable, the reception time of the packet, and the direction of the change. , Variable indicating the reception status, the time to reach the handover assumed preset threshold, and having a delivery control unit that predicts a handover occurs estimated time hand over over occurs.

[0012] A handover prediction communication system according to the present invention includes a transmitting terminal connected to a first wired environment and a receiving terminal connected to a second wired environment. A handover prediction communication system for transferring packets using a packet network passing through the second wired environment, wherein the receiving terminal monitors a receiving status of a packet received from the second wired environment. A plurality of thresholds for the monitoring unit and the variable indicating the reception status are set, and when the variable changes across any of the thresholds,
The value of the variable at that time, the reception time of the packet, the direction of change has a reception state transmission unit that transmits to the transmission terminal, the transmission terminal, the value of the variable, the reception time of the packet, The reception state receiving unit that receives the direction of the change, the value of the received variable, the reception time of the packet, and the variable indicating the reception state based on the direction of the change, the handover assumption threshold that is set in advance, A delivery control unit that predicts a time at which the handover will occur as a handover occurrence estimated time at which handover will occur.

[0013] A handover prediction communication system according to the present invention includes a transmitting terminal connected to a first wireless environment and a receiving terminal connected to a second wireless environment, wherein the first wireless environment and the second wireless environment are connected to each other. A handover prediction communication system for transferring a packet using a packet network passing through the wireless environment, wherein the receiving terminal monitors a reception state of a packet received from the second wireless environment; When a plurality of thresholds are set for the variable indicating the reception status, and the variable changes across any of the thresholds, the value of the variable at that time, the reception time of the packet, and the direction of the change are sent to the transmitting terminal. A receiving state transmitting unit for transmitting the value of the variable, the reception time of the packet, and the direction of the change; a value of the received variable; and a receiving state of the packet. A variable indicating the reception status, based on the time and the direction of the change, a distribution control unit that predicts the time at which a preset handover assumed threshold is reached as a handover occurrence estimated time at which handover occurs. Features.

[0014] The reception state monitoring unit is characterized in that a jitter of a packet reception interval is used as a variable indicating a reception state.

[0015] The reception state receiving unit receives a value of a variable indicating a reception status after the estimated handover occurrence time, and the distribution control unit performs a handover when the value of the received variable falls below a handover assumption threshold. Is characterized by detecting the occurrence of

[0016] The delivery control unit controls a packet transmission rate before and after the estimated handover occurrence time.

The transmitting terminal transmits beforehand a packet to be transmitted before and after the estimated handover occurrence time,
The receiving terminal receives a previously transmitted packet, stores the received packet, and interrupts transmission of the packet before and after the estimated handover occurrence time.

The transmitting terminal includes a plurality of error correction means of different systems, the receiving state receiving unit receives a value of a variable indicating a receiving state before and after the estimated handover occurrence time, and the transmitting terminal The value of the received variable,
An error correction unit is selected based on the estimated handover occurrence time.

[0019]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiment 1 FIG. 1 is a configuration diagram of a handover prediction communication system according to the first embodiment. In the figure, 1 is a transmitting terminal, 2 is a receiving terminal, 3 is a delivery control unit that predicts a handover time based on a report on a receiving situation provided from the receiving terminal 2 and controls transmission of packets before and after the time. Is a reception status monitoring unit that monitors the reception status of the packet in the reception terminal 2, 5 is a packet transmission unit, 6 is a packet reception unit, 7
Is a reception status reception unit for receiving a report sent from the reception terminal 2, 8 is a reception status transmission unit for transmitting a report, 9 is a transmission path interface control unit for a wired environment, 10
Is a wireless interface control unit, and 11 is a base station for performing communication in a wireless environment.

Next, the operation will be described. The packet transmission unit 5 transmits the packet to the packet reception unit 6 of the reception terminal 2 based on the packet transmission decision made by the distribution control unit 3 of the transmission terminal 1. The reception state monitoring unit 4 of the reception terminal 2 calculates jitter for each packet received by the packet reception unit 6.

In the receiving terminal 2 in advance, the threshold values α and β of the jitter
Are set so that α <β. The timing at which the receiving terminal 2 sends a report to the transmitting terminal 1 based on the comparison result between these threshold values and the jitter will be described with reference to FIG. FIG. 2 is a diagram showing transition of measured values.

At the receiving terminal 2, the measured jitter value is compared with the respective threshold values. If the jitter of the packet received immediately before does not exceed the threshold α and exceeds the threshold α in the next packet, the packet reception time at that time, the value of the jitter, exceeded α ”
Report. Conversely, when the value falls below the threshold value, the packet reception time, the value of the jitter, and information indicating that “the value has fallen below the threshold value α” are reported. Further, a report is similarly made when the value exceeds or falls below the threshold value β. However, the report is sent only when there is a packet whose jitter exceeds or falls below the respective threshold, and when the situation does not change from the case of the packet received immediately before (the jitter value is different, If it does not exceed or fall below the threshold), do not send a report.

In the transmitting terminal 1, the report from the receiving terminal 2 is received by the receiving state receiving unit 7. The distribution control unit 3 calculates the estimated handover occurrence time in order to predict handover based on these. Here, in the i-th report, the packet reception time of the receiving terminal 2 in the report is t _i , the jitter value in the report is J _i (an example of a variable value), and whether the value exceeds or falls below the threshold value Information of C _i
(Example of the direction of change). Here, the value of C _i is also expressed as “+ α” when “exceeds threshold α”, “−α” when “below threshold α”, and β similarly. Note that A in FIG. 2 is a threshold value of a jitter when handover occurs (handover assumed threshold value), which differs depending on a handover method in a wireless environment.

When C _i = + α in the _i -th report, the value of the report is stored without calculating the handover. Next, in the (i + 1) -th report, C _{i + 1} = + β
, The handover time T is predicted as follows.

[0025]

(Equation 1)

That is, from the reported information, the increment ratio of the jitter is obtained from the time difference, and it is calculated when it exceeds the threshold A at which handover occurs.

If t _{i + 2} ≧ T and C _{i + 2} = −β or C _{i + 2} = −α in the next (i + 2) th report, it is detected that a handover has been performed. t
_{If i + 2} <T and C _{i + 2} = −β or C _{i + 2} = −α, the handover is not performed, and it is detected that the base station has not been switched.

Before and after the predicted time T of the handover, the communication state may be degraded. That is, throughput may decrease due to an increase in delay or occurrence of packet loss. Therefore, by performing distribution with reduced throughput (transmission rate) for packets transmitted before and after the time, it adapts to the deterioration of the communication state.

The transmission rate at this time is calculated from the jitter and the amount of change in the reception time in the report from the receiving terminal 2. Assuming that the transmission rate when the handover is not a handover is R _pre and the current time is t _now , a handover prediction time T,
The reception time t _i in the report when the threshold α is exceeded,
From the threshold A and the jitter J _i in the report when the threshold α is exceeded, the rate R ₁ before handover is calculated as follows.

[0030]

(Equation 2)

After the handover, 2T−t _i (= T + (T
Until the time of -t _i )), the transmission rate R ₂ is obtained as follows.

[0032]

(Equation 3)

By determining the transmission rate R ₂ as described above, the transmission rate is changed back to the original state in response to the recovery of the communication state after the handover.

As described above, the time at which a handover will occur is predicted, and the throughput is adjusted in order to adapt to the communication state before and after that time. Efficient distribution can be performed. The time before and after the handover time can be considered to be between 2T−t _i (= T + (T−t _i )) from the reception time t _{i in} the report of C _i = + α.

Embodiment 2 In the first embodiment, the receiving terminal 2 is a mobile terminal. Here, an embodiment in which the transmitting terminal 1 is a mobile terminal will be described.

When the transmitting terminal 2 is a mobile terminal, a handover may be explicitly notified depending on the wireless environment. In such an environment, it is possible to perform distribution control in accordance with the notification, but when it is not explicitly notified, it is effective to obtain the predicted handover time as in the first embodiment.

Further, the same can be obtained even when the transmitting terminal 1 or the receiving terminal 2 is not a mobile terminal, and the middle of the communication route passes through the mobile terminal.

As described above, even when the mobile terminal is applied to a place other than the receiving terminal 2, the time at which the handover occurs is predicted, and the throughput is adjusted to adapt to the communication state around the time. Therefore, it is possible to cope in advance with the deterioration of the communication state at the time of handover and before and after the handover, and to perform efficient distribution.

Embodiment 3 In the above embodiment, the transmission rate is adjusted in order to adapt to the communication state before and after the predicted time of handover. However, in this embodiment, not only the transmission rate is controlled but also in response to packet loss. Next, an embodiment in which an error correction method capable of correcting more errors before and after the time is changed will be described.

During or after the handover, the number of packets waiting to be delivered increases in the base station or in the middle of a communication path (eg, a router) due to an increase in delay before the handover. Packet loss occurs. Therefore, error correction for the lost packet is required.

Before and after the expected handover time,
In accordance with the increasing rate of the reported jitter value, the method is gradually switched to a method capable of correcting more errors, thereby coping with packet loss. “More error correction” is error correction in which the number of packets that can be corrected in a lost packet within a certain time unit is larger.

For example, similarly to the calculation of the transmission rate in the first embodiment, it is conceivable to set a threshold value for the transmission rate and apply a stronger error correction method when the threshold value is exceeded. At that time, it is also effective to restore the error correction method in order to suppress the error correction processing delay, considering that the communication state is recovered after the handover is performed.

As described above, by appropriately changing the error correction in order to adapt to the communication state before and after the predicted handover time, it is possible to cope with the deterioration of the communication state at the time of handover and perform efficient distribution. be able to.

Embodiment 4 FIG. In the first embodiment and the second embodiment, the transmission rate is controlled so that the transmission terminal 1 adapts to the communication state. However, here, a packet having the same information amount as when no handover occurs is transmitted. A mode in which a buffer is prepared on the receiving terminal 2 for transfer and distribution control using the buffer is described.

In the first and second embodiments, the transmission rate is lowered before and after the predicted time of the handover, and the packet is continuously transmitted. However, here, the transmitting terminal 1 does not transmit the packet before and after the predicted handover time, but transmits beforehand the packet to be transmitted at the handover time before that time, and prepares a buffer prepared on the receiving terminal 2. To store these packets. The receiving terminal 2 during the handover uses the packet in the buffer received in advance. After the handover is performed, the transmitting terminal 1 restarts packet transmission.

As described above, in order to adapt to the communication state before and after the predicted handover time, the transmitting terminal 1 suspends the packet transmission at that time, and transmits the packet transmitted at that time in advance. By storing the data in the buffer of the receiving terminal 2, it is possible to cope with the deterioration of the communication state at the time of handover and perform efficient distribution.

It should be noted that the present invention is different from the first, second, third and fourth embodiments in FIG.
The present invention is not limited to the embodiment described with reference to FIG. 2, and can be variously changed without departing from the gist of the embodiment. For example, although three jitter thresholds are set, the number of thresholds may be increased to make a finer determination and correct the handover prediction time. As a variable indicating the reception status, not the jitter but the round trip time (RT
T) or a reception delay time may be used.

[0048]

As described above, according to the present invention, the time at which a handover will occur is predicted, and the throughput is adjusted to adapt to the communication state before and after the time. , And efficient distribution can be performed in advance.

According to the present invention, even when the mobile terminal is applied to a location other than the receiving terminal 2, the time at which the handover will occur is predicted, and the throughput is adjusted to adapt to the communication state before and after the time. Since the adjustment is performed, it is possible to cope in advance with the deterioration of the communication state at the time of handover and before and after the handover, and to perform efficient distribution.

Further, according to the present invention, by appropriately changing the error correction in order to adapt to the communication state before and after the predicted handover time, it is possible to cope with the deterioration of the communication state at the time of handover and to improve the efficiency. Delivery can be performed.

Further, according to the present invention, in order to adapt to the communication state before and after the predicted handover time, the transmitting terminal 1 temporarily suspends the packet transmission at that time and preliminarily checks the packet transmitted at that time. Sending and receiving terminal 2
By storing the data in the buffer, efficient distribution can be performed in response to the deterioration of the communication state at the time of handover.

[Brief description of the drawings]

FIG. 1 is a configuration diagram of a handover prediction communication system according to a first embodiment.

FIG. 2 is a diagram showing transition of measured values.

[Explanation of symbols]

REFERENCE SIGNS LIST 1 transmission terminal, 2 reception terminal, 3 distribution control unit, 4 reception status monitoring unit, 5 packet transmission unit, 6 packet reception unit, 7 reception status reception unit, 8 reception status transmission unit, 9 transmission path interface control unit, 10 radio Interface control unit, 11 base stations.

Claims (9)

[Claims] 1. A handover prediction communication system having a transmitting terminal connected to a wired environment and a receiving terminal connected to a wireless environment, and transferring a packet using a packet network passing through the wired environment and the wireless environment. The reception terminal, a reception state monitoring unit that monitors a reception state of a packet received from the wireless environment, and sets a plurality of thresholds for a variable indicating the reception state, and the variable changes across any one of the thresholds. In this case, there is provided a reception state transmission unit that transmits the value of the variable at that time, the reception time of the packet, and the direction of the change to the transmission terminal. A reception status receiving unit that receives the reception time and the direction of the change, a variable indicating the reception status is set in advance based on the value of the received variable, the reception time of the packet, and the direction of the change. A delivery control unit for predicting a time reaching a handover assumed threshold as a handover occurrence estimated time at which handover occurs. 2. A handover prediction communication system having a transmitting terminal connected to a wireless environment and a receiving terminal connected to a wired environment, and transferring a packet using a packet network passing through the wireless environment and the wired environment. The reception terminal, a reception state monitoring unit that monitors a reception state of a packet received from the wired environment, and sets a plurality of thresholds for a variable indicating the reception state, and the variable changes across any one of the thresholds. In this case, there is provided a reception state transmission unit that transmits the value of the variable at that time, the reception time of the packet, and the direction of the change to the transmission terminal. A reception status receiving unit that receives the reception time and the direction of the change, a variable indicating the reception status is set in advance based on the value of the received variable, the reception time of the packet, and the direction of the change. A delivery control unit for predicting a time reaching a handover assumed threshold as a handover occurrence estimated time at which handover occurs. 3. A transmitting terminal connected to a first wired environment,
A handover prediction communication system having a receiving terminal connected to a second wired environment, and transferring packets using a packet network passing through the first wired environment, the wireless environment, and the second wired environment. The receiving terminal sets a plurality of thresholds for a variable indicating the reception status, and a reception status monitoring unit that monitors a reception status of a packet received from the second wired environment, and the variable is set across any one of the thresholds. In the case of a change, the value of the variable at that time, the reception time of the packet, and the direction of the change has a reception state transmission unit that transmits to the transmission terminal, the transmission terminal, the value of the variable, the packet A reception state receiving unit that receives the reception time and the direction of change, a variable indicating the reception status is set in advance based on the value of the received variable, the reception time of the packet, and the direction of the change. Hand Handover predicting communication system; and a delivery control unit that predicts the time that leads to over server assumed threshold, as handover occurs estimated time hand over over occurs. 4. A transmitting terminal connected to a first wireless environment,
A handover prediction communication system having a receiving terminal connected to a second wireless environment and transferring a packet using a packet network passing through the first wireless environment and the second wireless environment, The receiving terminal sets a plurality of thresholds for a variable indicating the reception status, and a reception status monitoring unit that monitors the reception status of the packet received from the second wireless environment, and the variable changes across any one of the thresholds A reception state transmission unit that transmits the value of the variable at that time, the reception time of the packet, and the direction of the change to the transmission terminal, wherein the transmission terminal has a value of the variable and a reception time of the packet. And a reception state receiving unit that receives the direction of the change, a variable indicating the reception status based on the value of the received variable, the reception time of the packet, and the direction of the change. Handover estimated communication system characterized by having a time leading to a value, and a delivery control unit that predicts a handover occurs estimated time hand over over occurs. 5. The handover prediction communication system according to claim 1, wherein the reception state monitoring unit uses a jitter of a packet reception interval as a variable indicating a reception state. 6. The reception state receiving unit receives a value of a variable indicating a reception status after the estimated handover occurrence time, and the distribution control unit determines that a value of the received variable falls below a handover assumed threshold. 5. The handover prediction communication system according to claim 1, wherein the occurrence of a handover is detected. 7. The handover prediction communication system according to claim 1, wherein the distribution control unit controls a packet transmission rate before and after the estimated handover occurrence time. 8. The transmitting terminal previously transmits a packet to be transmitted before and after the estimated handover occurrence time, the receiving terminal receives a previously transmitted packet, stores the received packet, The handover prediction communication system according to any one of claims 1 to 4, wherein the transmitting terminal suspends transmission of packets before and after the estimated handover occurrence time. 9. The transmission terminal includes a plurality of error correction means of different systems, the reception state receiving unit receives a value of a variable indicating a reception state before and after the estimated handover occurrence time, and the transmission terminal 5. The handover prediction communication system according to claim 1, wherein the error correction unit selects error correction means based on the value of the received variable and the estimated handover occurrence time. 6.