JP2004015783A - Radio packet communication device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a radio packet communication device in which the throughput is improved and the system capacity is increased. <P>SOLUTION: In the radio packet communication device, a transmission rate control means has three constants of a rate up threshold U, a rate down threshold D and a rate fixture threshold F and a timer and when a communication is not stably performed after increasing a transmission rate by judging that a communication quality is excellent in any one state of an ordinary state, a rate up monitoring state and a rate down monitoring state, a transmission rate just before the case is immediately recovered. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a wireless packet communication device, and more particularly, to a wireless packet communication device that selects one transmission speed from a plurality of available transmission speeds and transmits data.
[0002]
[Prior art]
Wireless packet communication is a communication form employed in various systems such as IEEE 802.11 wireless LAN. The physical layer of the IEEE802.11a or IEEE802.11b standard has a transmission rate control unit that supports multi-rate, and the transmission rate control unit uses an available transmission rate (for example, , The IEEE 802.11a standard defines eight types of available transmission speeds: 6M, 9M, 12M, 18M, 24M, 36M, 48M, and 54Mbit / s.) Select and use.
[0003]
FIG. 5 is a diagram showing an example of a conventional wireless packet communication device having the transmission rate control means.
The transmission data input to the transmitter 510 is modulated at the transmission rate specified by the transmission rate control means 550, and transmitted from the antenna 540 via the transmission / reception switch 530.
[0004]
In wireless communication, generally, when a higher transmission rate is used, higher communication quality is required.
Therefore, one communication quality is good from the viewpoint of performing stable communication at a certain transmission speed, but is inferior from the viewpoint of performing communication at a transmission speed one higher than the transmission speed. The case exists.
[0005]
For this reason, the transmission rate control means 550 has a rate increase threshold and a rate decrease threshold internally in order to control the transmission rate according to the quality of the communication, and is input from the transmitter 510. By comparing the transmission notification of the transmission data with the reception notification of the arrival acknowledgment signal for the transmission data input from the receiver 520, the communication quality in the transmission path is determined. The transmission rate is controlled based on the noise power ratio (S / N: Signal to Noise ratio)) and the determined communication quality.
[0006]
Specifically, the transmission rate control unit 550 determines that the data transmission has succeeded when the reception notification of the arrival confirmation signal corresponding to the transmission notification is input within a predetermined time after the input of the transmission notification. And judge.
[0007]
If the transmission of the wireless packet has succeeded continuously for the number of times specified by the rate increase threshold, the transmission rate control means 550 determines that the communication quality is extremely good, and determines the transmission to be used. Control is performed to increase the speed by one step.
[0008]
On the other hand, if the transmission of the wireless packet has failed continuously for the number of times specified by the rate reduction threshold, the transmission rate control means 550 determines that the communication quality is extremely poor, and determines the transmission to use. Control is performed to reduce the speed by one step.
[0009]
In this case, in the transmission rate control means 550 in the conventional wireless packet communication, even if the communication quality is improved, the conditions for increasing the transmission rate are strict, and the transmission rate is frequently changed. There are some that prevent communication from being performed and stabilize communication.
[0010]
[Problems to be solved by the invention]
However, a conventional wireless packet communication device that determines communication quality from past data transmission results and determines the transmission rate based on the determined quality of communication quality, that is, based on data transmission at a certain transmission rate In a conventional wireless packet communication device that determines the communication quality and increases the transmission rate of the next transmission data based on the determined quality of the communication, the communication quality is determined by the transmission rate after the increase in the transmission rate. It may be poor from the viewpoint of performing communication.
[0011]
In this case, the transmission / reception side in the conventional wireless packet communication device cannot correctly demodulate the transmitted data, and the reception confirmation is not returned from the reception side to the transmission side.
On the other hand, the transmitting side in the conventional wireless packet communication device does not return the transmission speed to the previous value unless the arrival confirmation for the transmission data does not return continuously for a certain number of times or more.
[0012]
Therefore, in the conventional wireless packet communication apparatus, a situation may occur in which all data transmissions until the transmission rate returns to the previous value fail.
Therefore, in the conventional wireless packet communication device, a decrease in the throughput from the viewpoint of a communication link between transmission and reception and a decrease in the system capacity from the viewpoint of the entire system such as a wireless LAN have become serious problems. Was.
[0013]
In view of such circumstances, an object of the present invention is to provide a wireless packet communication device capable of improving throughput and increasing system capacity.
[0014]
[Means for Solving the Problems]
According to the present invention, the above-mentioned object is solved by the means described in the claims.
[0015]
That is, according to the first aspect of the present invention, there is provided a transmission rate control means for controlling a transmission rate of a transmission signal, and a radio packet signal which modulates transmission data inputted according to a transmission rate specified by a control signal of the transmission rate control means. , A transmission output terminal of the transmitter and a reception input terminal of a receiver are connected, the transmission output terminal is connected to a common terminal during transmission, and the reception input terminal is connected to a common terminal during reception. A transmission / reception switch, a receiver connected to a reception input terminal of the transmission / reception switch, for demodulating a received wireless packet signal and outputting received data, an antenna, and returning an arrival confirmation signal for correctly received data. Wireless protocol processing means for processing the communication procedure,
The transmission rate control means determines the communication quality by comparing the transmission notification input from the transmitter and the reception notification of the arrival confirmation signal input from the receiver, based on the result of the determination, In a wireless packet communication device, which determines a transmission speed when generating a wireless packet signal to be transmitted next,
The transmission rate control means,
It has three constants, a speed increase threshold U, a speed decrease threshold D, and a speed fixing threshold F, and a timer, and has one of a normal state, a speed increase monitoring state, and a speed reduction monitoring state. In state,
In the case of the normal state, and as a result of comparing the transmission notification input from the transmitter and the reception notification of the arrival confirmation signal input from the receiver, the transmission success of the wireless packet signal indicates that the speed increases. In the case where observations are continuously performed for the number of times specified by the threshold value U (hereinafter, referred to as “case (a-1)”),
It is determined that the communication quality is extremely good, and if a transmission speed higher than the transmission speed in use is available, the transmission speed to be used is changed to a one-step higher speed, and the timer is started to monitor the speed increase. , While maintaining the current state if the transmission rate in use is the highest available transmission rate,
In the case of the normal state, and as a result of comparing the transmission notification input from the transmitter and the reception notification of the arrival confirmation signal input from the receiver, the transmission failure of the wireless packet signal causes the speed drop. In the case where the data is continuously observed for the number of times specified by the threshold value D (hereinafter, referred to as “case (a-2)”),
It is determined that the communication quality has deteriorated, and if a transmission speed lower than the currently used transmission speed is available, the transmission speed to be used is changed to a lower transmission speed by one step, and the timer is started to switch to the speed reduction monitoring state. Make a transition, while maintaining the current state if the current transmission rate is the lowest available transmission rate,
In the case of the normal state, and in cases other than the cases (a-1) and (a-2), the normal state is maintained,
Also, as a result of comparing the transmission notification input from the transmitter and the reception notification of the arrival confirmation signal input from the receiver in the speed increase monitoring state, continuous transmission of the wireless packet signal is performed. If the number of successes is less than the number of times specified by the speed fixing threshold value F (hereinafter referred to as “case (b-1)”),
Change the transmission speed to be used to a lower transmission speed by one step and stop the timer to make a transition to the normal state,
As a result of comparing the transmission notification input from the transmitter and the reception notification of the arrival acknowledgment signal input from the receiver in the speed increase monitoring state, the success of transmission of the wireless packet signal indicates that the speed increase. In the case where the observation is continuously performed for the number of times specified by the threshold value U (hereinafter, referred to as “case (b-2)”),
If it is determined that the communication quality is extremely good and a transmission speed higher than the transmission speed in use is available, the transmission speed to be used is changed to a higher speed by one step, and the current state is maintained. If the middle transmission rate is the highest available transmission rate, stop the timer and make a transition to the normal state,
In the speed increase monitoring state, and when it is confirmed that the elapsed time after the transition to this state has exceeded the specified value T1 due to the timeout of the timer (hereinafter, “(b-3)”) To the normal state)
In the speed increase monitoring state, and in cases other than the cases (b-1), (b-2), and (b-3), the speed increase monitoring state is maintained;
Further, in the speed reduction monitoring state, and as a result of comparing the transmission notification input from the transmitter and the reception notification of the arrival confirmation signal input from the receiver, the transmission failure of the wireless packet signal is When the number of times of continuous observation is equal to or more than the number specified by the speed reduction threshold D (hereinafter, referred to as “case (c-1)”),
It is determined that the communication quality has deteriorated, and if a lower speed than the currently used transmission speed is available, the transmission speed to be used is changed to a lower speed by one step, and the current state is maintained. If the transmission rate is the lowest available transmission rate, stop the timer and make a transition to the normal state,
In the speed reduction monitoring state, and comparing the transmission notification input from the transmitter with the reception notification of the arrival acknowledgment signal input from the receiver, the successful transmission of the wireless packet signal indicates that the speed increases. In the case where the data is continuously observed for the number of times specified by the threshold value U (hereinafter referred to as “case (c-2)”),
Judge that the communication quality is extremely good, stop the timer and make a transition to the normal state,
When it is in the speed reduction monitoring state and it is confirmed that the elapsed time after the transition to this state has exceeded the specified value T2 due to the timeout of the timer (hereinafter, in the case of “(c-3)”) To the normal state)
In the speed reduction monitoring state, and in cases other than the cases (c-1), (c-2), and (c-3), the speed reduction monitoring state is maintained. A wireless packet communication device characterized by the following.
[0016]
According to the first aspect of the present invention, the transmission speed control means has a transmission speed fixing threshold value, unlike the related art, and increases the transmission speed after determining that the communication quality is good. When communication cannot be performed stably, control is performed to immediately return to the immediately preceding transmission rate.
[0017]
According to a second aspect of the present invention, the transmission rate control means includes a rate increase threshold Ui (i = 1, 2,..., N) and a rate decrease threshold Di (i = 1, 2,...). .., n), speed fixing threshold Fi (i = 1, 2,..., N),
And the correspondence between the rate-up threshold Ui (i = 1, 2,..., N) to be used and the transmission rate, and the rate-down threshold Di (i = 1, 2,..., N) to be used ) And the transmission speed, the correspondence between the speed fixing threshold Fi to be used (i = 1, 2,..., N) and the transmission speed,
Manage
2. The wireless packet communication according to claim 1, wherein the speed increasing threshold, the speed decreasing threshold, and the speed fixing threshold are dynamically changed according to a currently used transmission speed. Device.
[0018]
According to the second aspect of the present invention, the transmission speed control means has a plurality of speed increase threshold values, a speed decrease threshold value, and a speed fixing threshold value, which are different from conventional ones. The values of the speed increase threshold, the speed decrease threshold, and the speed fixing threshold are properly used according to the transmission speed.
[0019]
According to a third aspect of the present invention, there is provided a transmission rate and antenna switching control means for controlling a transmission rate of a transmission signal and selection of an antenna to be transmitted, and a transmission rate specified by a control signal of the transmission rate and the antenna switching control means. A transmitter that modulates input transmission data to generate a wireless packet signal, a transmission output terminal of the transmitter and a reception input terminal of a receiver are connected, and at the time of transmission, the transmission output terminal is connected to a common terminal, and reception is performed. Sometimes, a transmission / reception switch that connects the reception input terminal to a common terminal and a plurality of antennas are connected, and one antenna is selected from the plurality of antennas according to the transmission rate and a control signal input from the antenna switching control unit. An antenna switch connected to a common terminal of the transmission / reception switch, and a received radio packet signal connected to a reception input terminal of the transmission / reception switch. Comprising a receiver for outputting received data by demodulating a wireless protocol processing means for processing the communication procedure including the return of the arrival confirmation signal for the correctly received data and,
The transmission rate control means determines the communication quality by comparing the transmission notification input from the transmitter and the reception notification of the arrival confirmation signal input from the receiver, based on the result of the determination, In a wireless packet communication device that determines a transmission speed when generating a wireless packet signal to be transmitted next,
The transmission speed control means has three constants of a speed increase threshold value U, a speed decrease threshold value D, and a speed fixing threshold value F and a timer, and has a normal state, an antenna switching monitoring state, and a speed increase monitoring. State, slowdown monitoring state,
In the normal state, as a result of comparing the transmission notification input from the transmitter with the reception notification of the arrival confirmation signal input from the receiver, the success of the transmission of the wireless packet signal indicates that the speed increase threshold has been reached. In the case where the observation is continuously performed for the number of times specified by the value U (hereinafter, referred to as “case (a2-1)”),
It is determined that the communication quality is extremely good, and if a speed higher than the currently used transmission speed is available, the used transmission speed is changed to a higher speed by one step, and the timer is started to monitor the speed increase monitoring state. , While maintaining the normal state if the transmission rate in use is the highest available transmission rate,
As a result of comparing the transmission notification input from the transmitter and the reception notification of the arrival confirmation signal input from the receiver in the normal state, the transmission failure of the wireless packet signal indicates that the speed reduction threshold is reached. In the case where the observation is continuously performed for the number of times specified by the value D (hereinafter, referred to as “case (a2-2)”),
It is determined that the communication quality has deteriorated, and if a transmission speed lower than the currently used transmission speed is available, the transmission speed to be used is changed to a lower transmission speed by one step, and the timer is started to switch to the speed reduction monitoring state. Make a transition, while maintaining the current state if the current transmission rate is the lowest available transmission rate,
In the normal state, and in cases other than the cases (a2-1) and (a2-2), the normal state is maintained;
In the speed increase monitoring state, and as a result of comparing the transmission notification input from the transmitter and the reception notification of the arrival confirmation signal input from the receiver, continuous transmission of the wireless packet signal is successful. When the number of times specified by the speed fixing threshold value F is less than the above (hereinafter, referred to as “case (b2-1)”),
Change the transmission speed to be used to a lower transmission speed by one step and stop the timer to make a transition to the normal state,
In the speed increase monitoring state, and as a result of comparing the transmission notification input from the transmitter and the reception notification of the arrival confirmation signal input from the receiver, the transmission success of the wireless packet signal increases the speed. In the case where the observation is continuously performed for the number of times specified by the threshold value U (hereinafter, referred to as “case (b2-2)”),
If it is determined that the communication quality is extremely good and a transmission speed higher than the transmission speed in use is available, the transmission speed to be used is changed to a higher speed by one step, and the current state is maintained. If the middle transmission rate is the highest available transmission rate, stop the timer and make a transition to the normal state,
In the speed increase monitoring state, and when it is confirmed that the elapsed time after the transition to this state has exceeded a specified value Tl due to the timeout of the timer (hereinafter, “(b2-3)” To the normal state)
In the speed increase monitoring state, and in cases other than the cases (b2-1), (b2-2), and (b2-3), the speed increase monitoring state is maintained;
As a result of comparing the transmission notification input from the transmitter and the reception notification of the arrival confirmation signal input from the receiver in the antenna switching monitoring state, the success of the wireless packet signal transmission increases the speed. In the case where the observation is continuously performed for the number of times specified by the threshold value U (hereinafter, referred to as “case (c2-1)”),
Judge that the communication quality is extremely good, stop the timer and make a transition to the normal state,
In the antenna switching monitoring state, and comparing the transmission notification input from the transmitter with the reception notification of the arrival confirmation signal input from the receiver, the transmission failure of the wireless packet signal causes the speed drop. In the case where the data is continuously observed for the number of times specified by the threshold value D (hereinafter, referred to as “case (c2-2)”),
Judgment that the communication quality has deteriorated, switch to an antenna different from the antenna used so far, and if a transmission rate lower than the currently used transmission rate is available, change the transmission rate to be used. Change to a lower transmission speed by one step, restart the timer and perform transition to the speed reduction monitoring state, while if the transmission speed in use is the lowest speed, stop the timer and return to the normal state Make a transition,
When it is in the antenna switching monitoring state and it is confirmed that the elapsed time after the transition to this state has exceeded a specified value T3 due to the timeout of the timer (hereinafter, in the case of “(c2-3)”). State transition to the normal state,
In the antenna switching monitoring state, and in cases other than the cases (c2-1), (c2-2), and (c2-3), the antenna switching monitoring state is maintained;
In the speed reduction monitoring state, and as a result of comparing the transmission notification input from the transmitter and the reception notification of the arrival confirmation signal input from the receiver, the transmission failure of the wireless packet signal indicates that the speed reduction has occurred. In the case where the data is continuously observed for the number of times specified by the threshold value D (hereinafter, referred to as “case (d2-1)”),
If it is determined that the communication quality has deteriorated and a lower speed than the currently used transmission speed is available, the used transmission speed is changed to a lower speed by one step and the current state is maintained. If the transmission rate being used is the lowest available transmission rate, stop the timer and make a transition to the normal state,
In the speed reduction monitoring state, and comparing the transmission notification input from the transmitter with the reception notification of the arrival acknowledgment signal input from the receiver, the successful transmission of the wireless packet signal indicates that the speed increases. When the number of times of continuous observation is equal to or more than the number specified by the threshold value U (hereinafter, referred to as “case (d2-2)”),
Judge that the communication quality is extremely good, stop the timer and make a transition to the normal state,
When it is in the speed reduction monitoring state and it is confirmed that the elapsed time after the transition to this state has exceeded a specified value T2 due to the timeout of the timer (hereinafter, in the case of “(d2-3)”). To the normal state)
In the speed reduction monitoring state, and in cases other than the cases (d2-1), (d2-2), and (d2-3), the speed reduction monitoring state is maintained. A wireless packet communication device characterized by the following.
[0020]
According to the third aspect of the present invention, the transmission speed and the antenna switching control means have a transmission speed fixing threshold value different from the conventional one, and increase the transmission speed by determining that the communication quality is good. After that, if communication cannot be performed stably, control is performed to immediately return to the immediately preceding transmission rate.
[0021]
The invention according to claim 4 is characterized in that the transmission rate and antenna switching control means include:
The speed increase threshold value Ui (i = 1, 2,..., N), the speed decrease threshold value Di (i = 1, 2,..., N), and the speed fixing threshold value Fi (i = 1) , 2, ..., n),
And the correspondence between the rate-up threshold Ui (i = 1, 2,..., N) to be used and the transmission rate, and the rate-down threshold Di (i = 1, 2,..., N) to be used ) And the transmission speed, the correspondence between the speed fixing threshold Fi to be used (i = 1, 2,..., N) and the transmission speed,
Manage
4. The wireless packet communication according to claim 3, wherein the values of the speed increase threshold, the speed decrease threshold, and the speed fixing threshold are dynamically changed according to the currently used transmission speed. Device.
[0022]
According to the fourth aspect of the present invention, the transmission speed and antenna switching control means have a plurality of speed increase thresholds, speed decrease thresholds, and speed fixing thresholds, unlike the related art. When judging quality, the values of the speed increase threshold, the speed decrease threshold, and the speed fixing threshold are properly used according to the transmission speed used.
[0023]
BEST MODE FOR CARRYING OUT THE INVENTION
<Embodiments of the invention described in claim 1 and the invention described in claim 2>
FIG. 1 is a diagram showing a configuration example of a wireless packet communication device according to the invention described in claim 1 and the invention described in claim 2.
[0024]
The transmission data is input to the transmitter 110 via the wireless protocol processing means 100 and is modulated to a radio frequency. At this time, the transmitter 110 performs modulation at the speed specified by the transmission speed control unit 150, and outputs a transmission notification to the transmission speed control unit 150 after the transmission is completed.
[0025]
The wireless packet signal generated by the transmitter 110 is input to the transmission / reception switch 130. When transmitting / receiving a wireless packet signal, the transmission / reception switch 130 outputs the input wireless packet signal to a common terminal to which the antenna 140 is connected.
[0026]
On the other hand, the transmission / reception switch 130 inputs a reception signal from the antenna 140 connected to the common terminal to the receiver 120 when receiving the wireless packet signal. The receiver 120 outputs the data to the wireless protocol processor 100 when the input wireless packet signal has been correctly demodulated.
[0027]
When the output signal of the receiver 120 is input, the wireless protocol processing unit 100 transmits the arrival confirmation signal to the wireless packet communication device that transmitted the data via the transmitter 110, the transmission / reception switch 130, and the antenna 140. Send to.
[0028]
When the receiver 120 of the wireless packet communication device that has transmitted the data receives the arrival confirmation signal for the transmitted data via the antenna 140, the reception notification is input to the transmission rate control unit 150.
[0029]
The transmission rate control unit 150 regards the data transmission as successful when the reception notification corresponding to the transmission notification is returned, and fails when the reception notification corresponding to the transmission notification is not returned within the specified time. It is considered to have been done.
[0030]
In the configuration example of the wireless packet communication device according to the first aspect of the present invention, the transmission rate control means 150 internally includes a speed increase threshold U, a speed decrease threshold D, and a speed fixing threshold F. The communication quality between the transmitting and receiving apparatuses is determined based on the thresholds and the history of the past data transmission results.
[0031]
Here, the determination of the communication quality is performed as follows. That is, the transmission rate control unit 150 determines that the communication quality is extremely good when the arrival confirmation signal corresponding to the transmission data is continuously received for the number of times specified by the rate increase threshold U. judge.
[0032]
If the arrival confirmation signal corresponding to the transmission data is not received continuously within a certain time for the number of times specified by the speed reduction threshold D, it is determined that the communication quality is poor.
[0033]
Further, after increasing the transmission rate, the transmission rate control unit 150 determines that the communication quality is insufficient if the data transmission fails continuously for the number of times specified by the speed fixing threshold value F. It is determined that there is. Then, the transmission rate control unit 150 determines the transmission rate to be used based on the above-described determination of the communication quality.
The transmission rate is determined by the method described in FIG.
[0034]
FIG. 3 is a diagram illustrating a method of determining a transmission rate to be used by the transmission rate control unit 150.
In the figure, condition A is when the communication quality is determined to be extremely good, condition B is when the communication quality is determined to be poor, and condition C is when the communication quality is determined to be insufficient. Means
[0035]
The transmission rate control means 150 is in one of three states, a normal state, a speed increase monitoring state, and a speed reduction monitoring state, and controls the transmission rate while performing state transition according to the following conditions.
[0036]
[Normal state]
First, when in the normal state, the transmission rate control unit 150 performs the following processing.
When it is determined that the communication quality is extremely good (when the condition A is satisfied), the transmission rate control unit 150 performs the following processing according to the currently used transmission rate. That is, when a transmission speed higher than the currently used transmission speed is available, the transmission speed to be used is increased by one step, and a state transition to the speed increase monitoring state is performed.
[0037]
Further, the transmission rate control means 150 starts a timer in order to measure an elapsed time from the transition to the rate increase monitoring state.
The transmission rate control means 150 stays in the current state when the transmission rate higher than the currently used transmission rate is not available, that is, when the currently used transmission rate is the maximum rate.
[0038]
On the other hand, when it is determined that the communication quality is poor (when the condition B is satisfied), the transmission rate control unit 150 performs the following processing according to the transmission rate in use. That is, when a transmission speed lower than the transmission speed in use is available, the transmission speed to be used is reduced by one step, and a state transition to the speed reduction monitoring state is performed.
[0039]
Further, the transmission rate control means 150 starts a timer in order to measure an elapsed time from the transition to the speed reduction monitoring state.
The transmission rate control unit 150 maintains the current state when a transmission rate lower than the transmission rate in use is not available, that is, when the transmission rate currently used is the lowest transmission rate.
[0040]
[Speed increase monitoring status]
When the transmission rate control unit 150 is in the rate increase monitoring state, the transmission rate control unit 150 performs the following processing.
[0041]
When it is determined that the communication quality is insufficient (when the condition C is satisfied), the transmission rate control unit 150 stops the timer started at the time of transition to the current state, and sets the transmission rate to be used. The state is lowered by one step, and a state transition to the normal state is performed.
[0042]
When it is determined that the communication quality is extremely good (when the condition A is satisfied), the transmission rate control unit 150 performs the following processing according to the transmission rate in use.
That is, when a transmission speed higher than the transmission speed in use is available, the transmission speed to be used is increased by one step, and the speed increase monitoring state is maintained.
[0043]
On the other hand, if the transmission speed higher than the currently used transmission speed is not available, that is, if the currently used transmission speed is the maximum speed, the transmission speed control unit 150 stops the timer and returns to the normal state. Make a transition.
[0044]
When the transmission rate control unit 150 detects that the timer started at the time of transition to the speed increase monitoring state has timed out and the elapsed time from the transition to the current state has exceeded the specified value T1, Perform a state transition to a normal state.
[0045]
[Speed drop monitoring status]
When the transmission speed control unit 150 is in the speed reduction monitoring state, it performs the following processing.
When it is determined that the communication quality is poor (when the condition B is satisfied), the transmission rate control unit 150 performs the following processing according to the transmission rate in use. That is, when a transmission speed lower than the transmission speed in use is available, the transmission speed to be used is reduced by one step, and the speed reduction monitoring state is maintained.
[0046]
The transmission rate control means 150 stops the timer when the transmission rate lower than the transmission rate in use is not available, that is, when the transmission rate in use is the lowest rate, and makes the state transition to the normal state. Do.
[0047]
On the other hand, when it is determined that the communication quality is extremely good (when the condition A is satisfied), the transmission rate control unit 150 stops the timer and performs state transition to the normal state.
[0048]
In addition, when the transmission rate control unit 150 detects that the elapsed time from the transition to the rate reduction monitoring state exceeds the specified value T2 due to the timeout of the timer, the state transition to the normal state is performed.
[0049]
In the configuration example of the wireless packet communication device according to the second aspect of the present invention, the transmission rate control means 150 internally includes a plurality of rate increase thresholds Ui (i = 1, 2,..., N), It has a speed reduction threshold Di (i = 1, 2,..., N) and a speed fixing threshold Fi (i = 1, 2,..., N), and has communication quality according to the transmission speed. The above control is performed by dynamically changing the value of the threshold value used in the determination of.
For example, when the transmission speed R3 is used, the transmission speed control unit 150 uses the speed increase threshold U3, the speed decrease threshold D3, and the speed fixing threshold F3 in determining the communication quality.
[0050]
When transmitting wireless packets, the transmission efficiency often differs depending on the transmission speed used. Therefore, if the speed increase threshold, the speed decrease threshold, and the speed fixing threshold are fixed to certain values, the transmission efficiency may be reduced depending on the transmission speed in use. According to the transmission rate control means 150 in the configuration example of the wireless packet communication device according to the invention described in (1), the transmission rate can be controlled while suppressing a decrease in efficiency.
[0051]
<Embodiments of the invention described in claim 3 and the invention described in claim 4>
FIG. 2 is a diagram illustrating a configuration example of a wireless packet communication device according to the invention described in claim 3 and the invention described in claim 4.
[0052]
The transmission data is input to the transmitter 110 via the wireless protocol processing means 100 and is modulated to a radio frequency. At this time, the transmitter 110 performs modulation at the transmission speed and the speed specified by the antenna switching control unit 160, and outputs a transmission notification to the transmission speed and antenna switching control unit 160 after the transmission is completed.
[0053]
The wireless packet signal generated by the transmitter 110 is input to the transmission / reception switch 130. When transmitting / receiving a wireless packet signal, the transmission / reception switch 130 outputs the input wireless packet signal to a common terminal to which the antenna switch 170 is connected.
[0054]
The antenna switch 170 selects one of the plurality of connected antennas 140a and 140b based on the transmission rate and the control signal input from the antenna switching control unit 160, and transmits a radio packet signal.
[0055]
On the other hand, the transmission / reception switch 130 inputs a reception signal from the antenna switch 170 connected to the common terminal to the receiver 120 when receiving a wireless packet signal.
The receiver 120 outputs the demodulated data to the radio protocol processing unit 100 when the input radio packet signal has been correctly demodulated.
[0056]
When receiving the demodulated data, the wireless protocol processing unit 100 transmits the wireless packet communication via the transmitter 110, the transmission / reception switch 130, the antenna switch 170, the antenna 140a or the antenna 140b. An arrival confirmation signal is transmitted to the device.
[0057]
When the receiver 120 of the wireless packet communication device that has transmitted the data receives an arrival confirmation signal for the transmitted data via the antenna 140a or the antenna 140b, the antenna switch 170, and the transmission / reception switch 130, the reception notification Is given to the transmission rate control means 150.
[0058]
The transmission rate control unit 150 considers that the data transmission has succeeded when the reception notification corresponding to the transmission notification is returned, and fails when the reception notification corresponding to the transmission notification is not returned within the specified time. It is considered to have been done.
[0059]
In the configuration example of the wireless packet communication device according to the second aspect of the present invention, the transmission speed and antenna switching control means 160 includes a speed increase threshold U, a speed decrease threshold D, and a speed fixing threshold internally. F, and the communication quality between the transmitting and receiving apparatuses is determined from the thresholds and the history of the past data transmission results.
[0060]
Here, the determination of the communication quality is performed as follows.
The transmission rate and antenna switching control means 160 determines that the communication quality is extremely good when the arrival confirmation signal corresponding to the transmission data is continuously received for the number of times specified by the rate increase threshold U. judge.
[0061]
In addition, the transmission rate and antenna switching control means 160 determines that the communication confirmation signal corresponding to the transmission data has not been received within the predetermined time for the number of times specified by the rate reduction threshold D. Judge that the quality is poor.
Further, the transmission rate and antenna switching control means 160 increases the transmission rate, and if the data transmission fails continuously for the number of times specified by the speed fixing threshold F, the communication quality is reduced. It is determined to be insufficient.
[0062]
The transmission rate and antenna switching control unit 160 determines the transmission rate to be used and the antenna to be used based on the above-described determination of the communication quality.
The determination of the transmission speed to be used and the antenna to be used are performed by the method described in FIG.
[0063]
FIG. 4 is a diagram illustrating a method of determining a transmission rate to be used and an antenna to be used by the transmission rate and antenna switching control unit 160.
In the figure, condition A is determined to have extremely poor communication quality, condition B is determined to be poor communication quality, and condition C is determined to be insufficient communication quality. Means the case.
[0064]
The transmission rate and antenna switching control means 160 is in one of four states: a normal state, a speed increase monitoring state, an antenna switching monitoring state, and a speed reduction monitoring state. And control of antenna switching.
[0065]
[Normal state]
The transmission rate and antenna switching control means 160 performs the following processing when in the normal state.
[0066]
When it is determined that the communication quality is extremely good (when the condition A is satisfied), the transmission rate and antenna switching control unit 160 performs the following processing according to the transmission rate in use. That is, if a higher transmission rate than the currently used transmission rate is available, the transmission rate to be used is increased by one step while the antenna used so far is continued, and the state is changed to the rate increase monitoring state. State transition.
[0067]
At this time, the transmission rate and antenna switching control means 160 starts a timer in order to measure the elapsed time from the transition to the rate increase monitoring state.
The transmission rate and antenna switching control means 160 maintains the current state when the transmission rate higher than the currently used transmission rate is not available, that is, when the currently used transmission rate is the maximum rate. I do.
[0068]
On the other hand, when it is determined that the communication quality is poor (when the condition B is satisfied), the transmission rate and antenna switching control unit 160 executes switching to an antenna different from the antenna used so far, State transition to the antenna switching monitoring state is performed. At this time, the transmission rate and antenna switching control means 160 starts a timer in order to measure an elapsed time from the transition to the antenna switching monitoring state.
[0069]
[Speed increase monitoring status]
When the transmission rate and antenna switching control unit 160 is in the rate increase monitoring state, it performs the following processing.
[0070]
When it is determined that the communication quality is insufficient (when the condition C is satisfied), the transmission rate and antenna switching control unit 160 stops the timer and continues using the antenna that has been used. At the same time, the transmission speed to be used is reduced by one step, and the state transition to the normal state is performed.
[0071]
When it is determined that the communication quality is extremely good (when the condition A is satisfied), the transmission rate and antenna switching control unit 160 performs the following processing according to the transmission rate in use. That is, when a transmission rate higher than the transmission rate in use is available, the transmission rate and antenna switching control unit 160 reduces the transmission rate to be used while continuing to use the antenna used so far. Increase the number of steps and maintain the speed increase monitoring state.
[0072]
When the transmission speed and the antenna switching control unit 160 cannot use a transmission speed higher than the transmission speed in use, that is, when the transmission speed in use is the maximum speed, the state to the normal state after stopping the timer is set. Make a transition.
[0073]
Further, the transmission rate and antenna switching control means 160 detects that the timer started at the time of transition to the speed increase monitoring state has timed out and the elapsed time since the transition to the speed increase monitoring state has exceeded the specified value T1. In this case, a state transition to the normal state is performed.
[0074]
[Antenna switching monitoring status]
The transmission rate and antenna switching control unit 160 performs the following processing when in the antenna switching monitoring state.
[0075]
When it is determined that the communication quality is poor (when the condition B is satisfied), the transmission rate and antenna switching control unit 160 executes switching to an antenna different from the antenna used so far and The following processing is performed according to the medium transmission speed. That is, when a transmission speed lower than the transmission speed in use is available, the transmission speed to be used is reduced by one step, and a state transition to the speed reduction monitoring state is performed.
[0076]
At this time, the transmission rate and antenna switching control means 160 resets and restarts the timer in order to measure the elapsed time from the transition to the speed reduction monitoring state. The transmission rate and antenna switching control means 160 stops the timer when the transmission rate lower than the transmission rate in use is not available, that is, when the transmission rate in use is the lowest rate, and returns to the normal state. Perform state transition.
[0077]
On the other hand, when it is determined that the communication quality is extremely good (when the condition A is satisfied), the transmission rate and antenna switching control unit 160 sets the timer while cascading the use of the antenna used so far. Is stopped and the state transition to the normal state is performed.
[0078]
In addition, the transmission rate and antenna switching control unit 160 performs a state transition to a normal state when the elapsed time from the transition to the antenna switching monitoring state exceeds the specified value T3 due to a timer timeout.
[0079]
[Speed drop monitoring status]
The transmission rate and antenna switching control means 160 performs the following processing when in the rate reduction monitoring state.
[0080]
When it is determined that the communication quality is poor (condition B is satisfied), the transmission speed and antenna switching control unit 160 performs the following processing according to the transmission speed in use. That is, when a transmission rate lower than the currently used transmission rate is available, the transmission rate and antenna switching control unit 160 reduces the transmission rate to be used while continuing to use the antenna used so far. Decrease the stage and maintain the speed reduction monitoring state.
[0081]
The transmission speed and antenna switching control means 160 stops the timer when a speed lower than the currently used transmission speed is not available, that is, when the currently used transmission speed is the lowest speed, Perform transition to the normal state.
On the other hand, when it is determined that the communication quality is extremely good (when the condition A is satisfied), the timer is stopped, and transition to the normal state is performed.
[0082]
When the transmission speed and antenna switching control unit 160 detects that the elapsed time from the transition to the speed reduction monitoring state exceeds the specified value T2 due to the timeout of the timer, the state transition to the normal state is made. .
[0083]
In the configuration example of the wireless packet communication device according to the fourth aspect of the present invention, the transmission rate and antenna switching control means 160 includes a plurality of rate increase thresholds Ui (i = 1, 2,..., n), a speed reduction threshold Di (i = 1, 2,..., n), and a speed fixing threshold Fi (i = 1, 2,..., n), depending on the transmission speed. The value of the threshold value used in the determination of the communication quality is dynamically changed, and the control described in the configuration example of the wireless packet communication device according to the third aspect is performed.
[0084]
For example, when the transmission rate R3 is used, the transmission rate and antenna switching control unit 160 sets the speed increase threshold U3, the speed decrease threshold D3, and the speed fixing threshold F3 in the determination of the communication quality. use.
[0085]
When transmitting wireless packets, the transmission efficiency often differs depending on the transmission speed used. For this reason, if the speed increase threshold, the speed decrease threshold, and the speed fixing threshold are fixed to certain values, the transmission efficiency may decrease depending on the transmission speed in use. According to the configuration example of the wireless packet communication device according to the invention described in (1), it is possible to control the transmission rate while suppressing a decrease in efficiency.
[0086]
【The invention's effect】
As described above, according to the present invention, after it is determined that the communication quality is good and the transmission rate is increased, if the communication cannot be performed stably, the transmission rate can be immediately returned to the immediately preceding transmission rate. it can.
[0087]
Therefore, according to the present invention, it is possible to reduce deterioration in efficiency in controlling the transmission rate as compared with the related art.
[0088]
Therefore, according to the present invention, since the frequency utilization rate can be improved, the throughput can be improved from the viewpoint of the link between the transmitter and the receiver, and the system capacity can be increased from the viewpoint of the entire system. it can.
[Brief description of the drawings]
FIG. 1 is a diagram illustrating a configuration example of a wireless packet communication device according to the invention described in claim 1 and the invention described in claim 2;
FIG. 2 is a diagram showing a configuration example of a wireless packet transmitting / receiving apparatus according to the invention described in claim 3 and the invention described in claim 4;
FIG. 3 is a diagram illustrating a method of determining a transmission rate to be used by a transmission rate control unit 150;
FIG. 4 is a diagram illustrating a method of determining a transmission rate to be used and an antenna to be used by a transmission rate and antenna switching control unit 160;
FIG. 5 is a diagram illustrating an example of a conventional wireless packet communication device.
[Explanation of symbols]
100 wireless protocol processing means
110 transmitter
120 receiver
130 duplexer
140, 140a, 140b antenna
150 Transmission speed control means
160 Transmission speed and antenna switching control means
170 antenna switch
500 Wireless protocol processing means
510 transmitter
520 receiver
530 duplexer
540 antenna
550 Transmission speed control means

Claims (4)

Transmission rate control means for controlling a transmission rate of a transmission signal, a transmitter for modulating transmission data inputted according to a transmission rate designated by a control signal of the transmission rate control means to generate a radio packet signal, and A transmission output terminal and a reception input terminal of a receiver are connected, a transmission output terminal is connected to a common terminal during transmission, and a transmission / reception switch that connects the reception input terminal to a common terminal during reception, and reception of the transmission / reception switch. A receiver connected to the input terminal for demodulating a received wireless packet signal and outputting received data; an antenna; and a wireless protocol processing means for performing a communication procedure including returning an arrival confirmation signal for correctly received data. ,
The transmission rate control means determines the communication quality by comparing the transmission notification input from the transmitter and the reception notification of the arrival confirmation signal input from the receiver, based on the result of the determination, In a wireless packet communication device, which determines a transmission speed when generating a wireless packet signal to be transmitted next,
The transmission rate control means,
It has three constants, a speed increase threshold U, a speed decrease threshold D, and a speed fixing threshold F, and a timer, and has one of a normal state, a speed increase monitoring state, and a speed reduction monitoring state. In state,
In the case of the normal state, and as a result of comparing the transmission notification input from the transmitter and the reception notification of the arrival confirmation signal input from the receiver, the transmission success of the wireless packet signal indicates that the speed increases. In the case where observations are continuously performed for the number of times specified by the threshold value U (hereinafter, referred to as “case (a-1)”),
It is determined that the communication quality is extremely good, and if a transmission speed higher than the transmission speed in use is available, the transmission speed to be used is changed to a one-step higher speed, and the timer is started to monitor the speed increase. , While maintaining the current state if the transmission rate in use is the highest available transmission rate,
In the case of the normal state, and as a result of comparing the transmission notification input from the transmitter and the reception notification of the arrival confirmation signal input from the receiver, the transmission failure of the wireless packet signal causes the speed drop. In the case where the data is continuously observed for the number of times specified by the threshold value D (hereinafter, referred to as “case (a-2)”),
It is determined that the communication quality has deteriorated, and if a transmission speed lower than the currently used transmission speed is available, the transmission speed to be used is changed to a lower transmission speed by one step, and the timer is started to switch to the speed reduction monitoring state. Make a transition, while maintaining the current state if the current transmission rate is the lowest available transmission rate,
In the case of the normal state, and in cases other than the cases (a-1) and (a-2), the normal state is maintained,
Also, as a result of comparing the transmission notification input from the transmitter and the reception notification of the arrival confirmation signal input from the receiver in the speed increase monitoring state, continuous transmission of the wireless packet signal is performed. If the number of successes is less than the number of times specified by the speed fixing threshold value F (hereinafter referred to as “case (b-1)”),
Change the transmission speed to be used to a lower transmission speed by one step and stop the timer to make a transition to the normal state,
As a result of comparing the transmission notification input from the transmitter and the reception notification of the arrival acknowledgment signal input from the receiver in the speed increase monitoring state, the success of transmission of the wireless packet signal indicates that the speed increase. In the case where the observation is continuously performed for the number of times specified by the threshold value U (hereinafter, referred to as “case (b-2)”),
If it is determined that the communication quality is extremely good and a transmission speed higher than the transmission speed in use is available, the transmission speed to be used is changed to a higher speed by one step, and the current state is maintained. If the middle transmission rate is the highest available transmission rate, stop the timer and make a transition to the normal state,
In the speed increase monitoring state, and when it is confirmed that the elapsed time after the transition to this state has exceeded the specified value T1 due to the timeout of the timer (hereinafter, “(b-3)”) To the normal state)
In the speed increase monitoring state, and in cases other than the cases (b-1), (b-2), and (b-3), the speed increase monitoring state is maintained;
Further, in the speed reduction monitoring state, and as a result of comparing the transmission notification input from the transmitter and the reception notification of the arrival confirmation signal input from the receiver, the transmission failure of the wireless packet signal is When the number of times of continuous observation is equal to or more than the number specified by the speed reduction threshold D (hereinafter, referred to as “case (c-1)”),
It is determined that the communication quality has deteriorated, and if a lower speed than the currently used transmission speed is available, the transmission speed to be used is changed to a lower speed by one step, and the current state is maintained. If the transmission rate is the lowest available transmission rate, stop the timer and make a transition to the normal state,
In the speed reduction monitoring state, and comparing the transmission notification input from the transmitter with the reception notification of the arrival acknowledgment signal input from the receiver, the successful transmission of the wireless packet signal indicates that the speed increases. In the case where the data is continuously observed for the number of times specified by the threshold value U (hereinafter referred to as “case (c-2)”),
Judge that the communication quality is extremely good, stop the timer and make a transition to the normal state,
When it is in the speed reduction monitoring state and it is confirmed that the elapsed time after the transition to this state has exceeded the specified value T2 due to the timeout of the timer (hereinafter, in the case of “(c-3)”) To the normal state)
In the speed reduction monitoring state, and in cases other than the cases (c-1), (c-2), and (c-3), the speed reduction monitoring state is maintained.
A wireless packet communication device characterized by the above-mentioned. The transmission speed control means includes a speed increase threshold value Ui (i = 1, 2,..., N), a speed decrease threshold value Di (i = 1, 2,. Threshold value Fi (i = 1, 2,..., N),
And the correspondence between the rate-up threshold Ui (i = 1, 2,..., N) to be used and the transmission rate, and the rate-down threshold Di (i = 1, 2,..., N) to be used ) And the transmission speed, the correspondence between the speed fixing threshold Fi to be used (i = 1, 2,..., N) and the transmission speed,
Manage
2. The wireless packet communication according to claim 1, wherein the speed increasing threshold, the speed decreasing threshold, and the speed fixing threshold are dynamically changed according to a currently used transmission speed. apparatus. A transmission rate and antenna switching control means for controlling a transmission rate of a transmission signal and selection of an antenna to be transmitted; and a radio apparatus for modulating input transmission data according to a transmission rate designated by a control signal of the transmission rate and the antenna switching control means. A transmitter that generates a packet signal, a transmission output terminal of the transmitter and a reception input terminal of a receiver are connected, the transmission output terminal is connected to a common terminal at the time of transmission, and the reception input terminal is a common terminal at the time of reception. A transmission / reception switch to be connected, a plurality of antennas are connected, and a common terminal of the transmission / reception switch is selected by selecting one antenna from the plurality of antennas according to the control signal input from the transmission rate and antenna switching control means. An antenna switch to be connected and a reception input terminal of the transmission / reception switch, which demodulate a received wireless packet signal and output received data. Comprising a receiver for a wireless protocol processing means for processing the communication procedure including the return of the arrival confirmation signal for the correctly received data and,
The transmission rate control means determines the communication quality by comparing the transmission notification input from the transmitter and the reception notification of the arrival confirmation signal input from the receiver, based on the result of the determination, In a wireless packet communication device that determines a transmission speed when generating a wireless packet signal to be transmitted next,
The transmission speed control means has three constants of a speed increase threshold value U, a speed decrease threshold value D, and a speed fixing threshold value F and a timer, and has a normal state, an antenna switching monitoring state, and a speed increase monitoring. State, slowdown monitoring state,
In the normal state, as a result of comparing the transmission notification input from the transmitter with the reception notification of the arrival confirmation signal input from the receiver, the success of the transmission of the wireless packet signal indicates that the speed increase threshold has been reached. In the case where the observation is continuously performed for the number of times specified by the value U (hereinafter, referred to as “case (a2-1)”),
It is determined that the communication quality is extremely good, and if a speed higher than the currently used transmission speed is available, the used transmission speed is changed to a higher speed by one step, and the timer is started to monitor the speed increase monitoring state. , While maintaining the normal state if the transmission rate in use is the highest available transmission rate,
As a result of comparing the transmission notification input from the transmitter and the reception notification of the arrival confirmation signal input from the receiver in the normal state, the transmission failure of the wireless packet signal indicates that the speed reduction threshold is reached. In the case where the observation is continuously performed for the number of times specified by the value D (hereinafter, referred to as “case (a2-2)”),
It is determined that the communication quality has deteriorated, and if a transmission speed lower than the currently used transmission speed is available, the transmission speed to be used is changed to a lower transmission speed by one step, and the timer is started to switch to the speed reduction monitoring state. Make a transition, while maintaining the current state if the current transmission rate is the lowest available transmission rate,
In the normal state, and in cases other than the cases (a2-1) and (a2-2), the normal state is maintained;
In the speed increase monitoring state, and as a result of comparing the transmission notification input from the transmitter and the reception notification of the arrival confirmation signal input from the receiver, continuous transmission of the wireless packet signal is successful. When the number of times specified by the speed fixing threshold value F is less than the above (hereinafter, referred to as “case (b2-1)”),
Change the transmission speed to be used to a lower transmission speed by one step and stop the timer to make a transition to the normal state,
In the speed increase monitoring state, and as a result of comparing the transmission notification input from the transmitter and the reception notification of the arrival confirmation signal input from the receiver, the transmission success of the wireless packet signal increases the speed. In the case where the observation is continuously performed for the number of times specified by the threshold value U (hereinafter, referred to as “case (b2-2)”),
If it is determined that the communication quality is extremely good and a transmission speed higher than the transmission speed in use is available, the transmission speed to be used is changed to a higher speed by one step, and the current state is maintained. If the middle transmission rate is the highest available transmission rate, stop the timer and make a transition to the normal state,
In the speed increase monitoring state, and when it is confirmed that the elapsed time after the transition to this state has exceeded a specified value Tl due to the timeout of the timer (hereinafter, “(b2-3)” To the normal state)
In the speed increase monitoring state, and in cases other than the cases (b2-1), (b2-2), and (b2-3), the speed increase monitoring state is maintained;
As a result of comparing the transmission notification input from the transmitter and the reception notification of the arrival confirmation signal input from the receiver in the antenna switching monitoring state, the success of the wireless packet signal transmission increases the speed. In the case where the observation is continuously performed for the number of times specified by the threshold value U (hereinafter, referred to as “case (c2-1)”),
Judge that the communication quality is extremely good, stop the timer and make a transition to the normal state,
In the antenna switching monitoring state, and comparing the transmission notification input from the transmitter with the reception notification of the arrival confirmation signal input from the receiver, the transmission failure of the wireless packet signal causes the speed drop. In the case where the data is continuously observed for the number of times specified by the threshold value D (hereinafter, referred to as “case (c2-2)”),
Judgment that the communication quality has deteriorated, switch to an antenna different from the antenna used so far, and if a transmission rate lower than the currently used transmission rate is available, change the transmission rate to be used. Change to a lower transmission speed by one step, restart the timer and perform transition to the speed reduction monitoring state, while if the transmission speed in use is the lowest speed, stop the timer and return to the normal state Make a transition,
When it is in the antenna switching monitoring state and it is confirmed that the elapsed time after the transition to this state has exceeded a specified value T3 due to the timeout of the timer (hereinafter, in the case of “(c2-3)”). State transition to the normal state,
In the antenna switching monitoring state, and in cases other than the cases (c2-1), (c2-2), and (c2-3), the antenna switching monitoring state is maintained;
In the speed reduction monitoring state, and as a result of comparing the transmission notification input from the transmitter and the reception notification of the arrival confirmation signal input from the receiver, the transmission failure of the wireless packet signal indicates that the speed reduction has occurred. In the case where the data is continuously observed for the number of times specified by the threshold value D (hereinafter, referred to as “case (d2-1)”),
If it is determined that the communication quality has deteriorated and a lower speed than the currently used transmission speed is available, the used transmission speed is changed to a lower speed by one step and the current state is maintained. If the transmission rate being used is the lowest available transmission rate, stop the timer and make a transition to the normal state,
In the speed reduction monitoring state, and comparing the transmission notification input from the transmitter with the reception notification of the arrival acknowledgment signal input from the receiver, the successful transmission of the wireless packet signal indicates that the speed increases. When the number of times of continuous observation is equal to or more than the number specified by the threshold value U (hereinafter, referred to as “case (d2-2)”),
Judge that the communication quality is extremely good, stop the timer and make a transition to the normal state,
When it is in the speed reduction monitoring state and it is confirmed that the elapsed time after the transition to this state has exceeded a specified value T2 due to the timeout of the timer (hereinafter, in the case of “(d2-3)”). To the normal state)
In the speed reduction monitoring state, and in cases other than the cases (d2-1), (d2-2), and (d2-3), the speed reduction monitoring state is maintained.
A wireless packet communication device characterized by the above-mentioned. The transmission rate and antenna switching control means,
The speed increase threshold value Ui (i = 1, 2,..., N), the speed decrease threshold value Di (i = 1, 2,..., N), and the speed fixing threshold value Fi (i = 1) , 2, ..., n),
And the correspondence between the rate-up threshold Ui (i = 1, 2,..., N) to be used and the transmission rate, and the rate-down threshold Di (i = 1, 2,..., N) to be used ) And the transmission speed, the correspondence between the speed fixing threshold Fi to be used (i = 1, 2,..., N) and the transmission speed,
Manage
4. The wireless packet communication according to claim 3, wherein the values of the speed increase threshold, the speed decrease threshold, and the speed fixing threshold are dynamically changed according to the currently used transmission speed. apparatus.

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