JP2000217144A - Radio communication equipment capable of changing communication rate, radio communication system and control method therefor - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide equipment, capable of deciding optimum communication rate and transmission output by discriminating the reception electric field strength of transmitted signals and deciding the communication rate or the transmission output for outputting signals from communication equipment, based on the discriminated reception electric field strength and transmission output information and interference information added to the transmitted signals. SOLUTION: Reproting signals 10 normally transmitted by the radio base station 12 of a connection object are received. The propriety of the received reporting signals 10 is decided by an arithmetic operation using an error correction code, and whether or not it is an error continued for the stipulated number of times is decided when the error is present in reception and the reporting signals 10 are received again, when it is within the stipulated number of times. When there is no error in the reception, a control part reads the various kinds of information from the reporting signals, simultaneously measures the reception electric field strength of the reporting signals 10 and decides the transmission output by using the transmission power of the signals, interference information and the reception electric field strength from the information and a constant for the arithmetic operation stored in a setting information storage part.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a radio communication apparatus capable of changing a communication speed and a control method thereof.

[0002]

2. Description of the Related Art Conventionally, a personal handy phone system (PHS) or PDC merely determines that communication is possible if the received electric field strength from a base station exceeds a specified value. No control of the transmission power is performed.

[0003] In W-CDMA mobile communication, the communication speed can be varied. When the communication speed is increased, the transmission output is increased. When the communication speed is decreased, the transmission output is decreased, and power consumption is reduced according to the communication speed. Also change.

[0004]

However, since the wireless terminal operates on a power source such as a battery, if the communication speed is increased or the transmission output is increased to increase the power consumption, the operation time of the wireless terminal is reduced. Would.

The present invention has been made in view of the above problems, and has as its object to determine an optimum communication speed and transmission output.

It is another object of the present invention to be able to determine an optimum communication speed and transmission output in accordance with the reception electric field strength of a signal to be received and the required power consumption.

Another object of the present invention is to provide a communication service according to the form of a communication application.

It is another object of the present invention to effectively use electric power, which is a finite resource of a wireless terminal.

Another object of the present invention is to make it possible to use power, which is a finite resource of a wireless terminal, according to the user's intention and the form of communication service.

[0010]

According to the present invention, in order to solve the above-mentioned problems, in a wireless communication system having a wireless control device and a wireless communication device, the wireless control device transmits a signal transmitted from the wireless control device. Transmitting output information on transmission output, and transmitting means for adding interference information on interference detected based on a signal received by the wireless control device to a signal to be transmitted to the wireless communication device and transmitting the signal, A communication device configured to determine a reception electric field intensity of the signal transmitted by the transmission unit; a reception electric field intensity determined by the determination unit; and the transmission added to the signal transmitted by the transmission unit. Based on the output information and the interference information, having a determining means for determining a communication speed or a transmission output for outputting a signal from the wireless communication device. To provide a wireless communication system to symptoms.

In the radio communication apparatus, transmission output information on transmission output of a signal transmitted from the radio control apparatus and interference information on interference detected based on the signal received by the radio control apparatus are added. Receiving means for receiving a signal from the wireless control device; determining means for determining a received electric field strength of the signal received by the receiving means; receiving electric field strength determined by the determining means; A wireless communication apparatus comprising: a determination unit that determines a communication speed or a transmission output for outputting a signal from the wireless communication apparatus based on the transmission output information and the interference information added to the obtained signal. I will provide a.

Further, in a wireless communication device capable of changing a communication speed and changing a transmission output according to the communication speed, speed information based on the communication speed or output information relating to the transmission output is output based on a state of the wireless communication device. When receiving an instruction to perform communication using any of a plurality of communication speed values or a plurality of transmission output values, the storage unit stores the received value and the received value. There is provided a wireless communication apparatus having control means for determining a communication speed or a transmission output for transmitting a signal based on speed information or output information obtained.

[0013] In the method for controlling a wireless communication device,
A signal from the wireless control device to which transmission output information on a transmission output of a signal transmitted from the wireless control device and interference information on interference detected based on the signal received by the wireless control device are added. A receiving step, a discriminating step of discriminating a received electric field strength of the signal received in the receiving step, and a receiving electric field strength discriminated in the discriminating step, and the transmission added to the signal received in the receiving step. A method for controlling a wireless communication device, comprising: a step of determining a communication speed or a transmission output for outputting a signal from the wireless communication device based on output information and interference information.

Further, in a control method of a wireless communication device in which a communication speed can be changed and a transmission output changes in accordance with the communication speed, the method relates to speed information based on a communication speed or transmission output based on a state of the wireless communication device. A storage step of storing output information, and when receiving an instruction to perform communication using one of a plurality of transmission speed values or a plurality of transmission output values, receiving the instruction and the storage Based on the speed information or output information stored in the process,
A method for controlling a wireless communication device, comprising a control step of determining a communication speed or a transmission output for transmitting a signal.

[0015]

DESCRIPTION OF THE PREFERRED EMBODIMENTS (First Embodiment) As a first embodiment, wideband CDMA (code division multiple access) (W-CDM)
A) An example of a portable terminal device for a mobile communication system is shown.

FIG. 1 is a conceptual diagram showing the configuration of a W-CDMA mobile communication system.

Reference numeral 11 denotes a communication speed variable type wireless communication terminal device, 12 denotes a wireless base station which controls connection between a wireless communication line and a wired communication line, and 13 denotes a wired line to which the wireless base station is connected and an existing communication network ( ISDN, ATM, LAN, etc.) and is a wireless control device that routes a communication path with a wireless terminal.

[0018] The ten signals are constantly transmitted by each radio base station.
This is an annunciation signal for transmitting information essential for system control, such as a communication carrier providing a service and identification information of a wireless base station of a signal transmission source.

FIG. 2 shows an information format of a broadcast signal (10) of the W-CDMA mobile communication system.

The broadcast signal is transmitted using two radio frames (27), decoded on the radio terminal side, and
6 is read out.

Reference numeral 21 denotes information indicating the type of the broadcast signal, 22 denotes the transmission power of the source base station of the broadcast signal, 23 denotes an information frame number added cyclically, and 24 denotes the information frame number on the receiving side of the source base station. Interference information, 25 is an information element detailed area for transmitting identification information of a communication carrier or a radio base station and various information necessary for system control, and 26 is an error correction for detecting and correcting an error in the decoding. Sign.

FIG. 3 is a functional block diagram of the wireless communication terminal 11 with variable communication speed.

Reference numeral 31 denotes a radio unit for transmitting and receiving radio waves; 32, a baseband processing unit for modulation and demodulation; 33, a frame disassembly / assembly unit for disassembly / assembly of transmission / reception data in frame units; 34, various communication applications; A control unit for controlling wireless communication and communication applications, 3
A setting information storage unit 6 stores various setting values such as a transmission output maximum value, an essential communication speed, and the like and constants for various calculations based on the remaining battery power and the like.

FIG. 4 is a flowchart for selecting a communication speed required by the wireless line when setting a wireless line by a trigger from the variable speed wireless terminal device 11 side.

The present embodiment will be described with reference to the flowchart.

The control unit 35 that has received the wireless line connection request from the communication application 34 activates this processing before activating the wireless line connection sequence.

First, an annunciation signal (10) constantly transmitted by the wireless base station (12) to be connected is received (40).
1).

The legitimacy of the broadcast signal received by the operation using the error correction code (26) is determined (402), and if there is an error in the reception, it is determined whether the error has occurred a specified number of times in succession ( 409) If it is within the specified number, the notification signal is received again (401). If the specified number of times has been reached, the line setting disabled status is set (410), and then this processing is terminated.

If the line setting disabled status is set, it is determined that the radio line quality is poor, and the radio line connection sequence is not started.

If there is no error in the reception, the control unit 35
Reads the various information (21 to 25) from the broadcast signal (10) (403) and measures the received electric field strength of the broadcast signal (404).

From these information, the transmission power (22), interference information (24), received electric field strength of the signal and the constants for the calculations stored in the setting information storage section (36) are used. Then, the relationship between the communication speed that can be set in the current situation and the transmission output required for communication with the wireless base station (12) is calculated (405).

Then, the limit information (required communication speed or maximum transmittable output) set in the setting information storage section (36) is referred to (406). A communication speed that can be set within the output is selected (407), and if the limit condition is a necessary communication speed,
The transmission output necessary to realize the communication speed is selected, and the process ends.

After that, the connection sequence of the wireless line is started under the communication conditions selected in this processing.

Thus, by storing the restriction information in the setting information storage unit, a communication service according to the form of the communication application is realized, and the battery, which is a finite resource of the portable wireless terminal device, is stored by the user. It can be used according to the intention and the form of the communication service.

(Second Embodiment) In the above embodiment,
The example in which the setting condition is referred to before the wireless communication line is connected has been described.

In the present embodiment, an example is shown in which power control is performed according to set conditions while a wireless line is connected.

FIG. 5 shows a wideband CDMA system according to this embodiment.
(W-CDMA) shows a signal format for a communication channel of communication in a mobile communication system.

One time slot (52) is formed by dividing one radio frame (51) into sixteen, and the time slot starts with information (53) for synchronization pull-in.
Power control information (5
4) A logical channel information area (55) to which actual communication data is mapped.

FIG. 6 shows a flowchart of the transmission output determination process started in conjunction with the transmission output control process started during connection of the wireless line.

Referring to the transmission power control information (601, 60)
2) If it is not a request for transmission power up, 1
End the processing unit.

If the request for transmission power-up is required, the transmission output after power-up is compared with the maximum transmittable output registered in the setting information storage unit (36) (603). If so, one processing unit is terminated.

If the transmission possible output is exceeded, a communication speed that can be set within the maximum transmission possible output is selected (604), and processing for lowering the communication speed (handover processing for the same base station, etc.) is started ( 605) Then, the communication speed is reduced, and one processing unit ends.

Thus, the communication service according to the form of the communication application is realized according to the restriction information stored in the setting information storage unit even during the wireless line connection, and is a finite resource of the portable wireless terminal device. The battery can be used according to the user's intention and the form of the communication service.

(Third Embodiment) In this embodiment, a portable terminal for a wideband CDMA (W-CDMA) mobile communication system will be described as an example.

The configuration of the W-CDMA mobile communication system is the same as in the first and second embodiments, and a description thereof will be omitted.

The flowchart of FIG. 7 is a control flowchart of the variable speed wireless terminal device of the present invention during standby.

During standby, a broadcast signal (10) which is constantly transmitted by the wireless base station (12) to be connected is received (7).
01).

The legitimacy of the broadcast signal received by the operation using the error correction code (26) is determined (702), and if there is an error in the reception, it is determined whether the error is a predetermined number of consecutive errors ( 709). If the number of errors has reached the specified number, the line setting disabled status is set (710). If the number has not reached the specified number, one processing unit ends.

If there is no error in the reception, the line setting disabled status is cleared (703), various information (21 to 25) is read from the broadcast signal (10) (704), and the reception electric field strength of the broadcast signal is measured (704). 705).

From these pieces of information, the transmission power (22), interference information (24), received electric field strength of the signal and a constant for calculation stored in the setting information storage section (36) are used. Then, the relationship between the communication speed that can be set in the current situation and the transmission output required for communication with the wireless base station (12) is calculated (706).

Then, the maximum transmittable output set in the setting information storage section (36) is referred to (707). If there is no limit, the specified maximum communication speed provided by the system is set to the upper limit communication speed (711). If there is a limit, the maximum communication speed that can be set within the maximum transmittable output set in the setting information storage unit (36) is set as the upper limit communication speed (708), and one processing unit ends.

By repeating this processing during standby, the variable speed wireless terminal of the present invention always realizes setting of the optimum upper limit communication speed.

The flowchart of FIG. 8 is a control flowchart when the transmission request of the variable speed wireless terminal device is accepted.

Upon receiving a call request from the communication application (34), the control unit (35) first determines whether or not line setting is possible by referring to the line setting disabled status (801, 802), and If the setting is not possible, the rejection reason is set to “wireless line setting impossible” (808), a call request acceptance rejection is returned to the communication application (34) (809), and the process ends.

If the line can be set, the communication speed requested by the communication application is referred to (803), and the requested communication speed is compared with the upper limit communication speed set during standby (804). If the communication speed is within the upper limit communication speed, the calling sequence is started at the requested communication speed (8).
05), and the wireless channel setting of the requested communication speed is completed (80)
6) After that, the process ends. If the requested communication speed is higher than the upper limit communication speed, the rejection reason is set to “specified speed unavailable” (807), and a call request acceptance rejection is returned to the communication application (809), and the processing is performed. finish.

Note that the communication application requests a low communication speed if the communication application performs voice communication, and requests a high communication speed if the communication application performs image communication. Various communication speeds are required depending on the type of data.

FIG. 9 is a flowchart of a control example when a call acceptance rejection in the communication application (34) of the variable speed wireless terminal device is received.

The communication application (34) having received the call request acceptance rejection refers to the reason for rejection of the call (901).
If the setting of the wireless line is impossible, the line busy process is started (902, 908), and one processing unit is ended. Also,
If the specified communication speed cannot be used (903), the type of the communication application requested this time is referred to (904).
Then, it is determined (905) whether or not the application is usable even if the communication speed is reduced (for example, in the case of voice communication, the necessary communication speed is increased or decreased depending on the method of selecting the voice codec to be used). Therefore, it is possible to reduce the required communication speed unless the sound quality is given the highest priority for the telephone application.) If the communication speed can be reduced, the requested communication speed is reduced and a call is requested again (906). If the communication speed cannot be reduced, a power warning display process (908) Is started to display that some communication applications are not available, and warn the terminal user.

The flowchart in FIG. 10 is a control flowchart when the variable speed wireless terminal equipment receives incoming call information.

Upon receiving the incoming call information, the control unit (35) first determines whether or not line setting is possible by referring to the line setting disabled status (1001, 1002). If the line setting is not possible, the rejection reason is set to "wireless line setting impossible" (1008), the call request acceptance rejection is returned to the communication application (34) (1010), and the process ends.

If the line setting is possible, a wireless line setting process (1003) is performed, and the requested communication speed is read from the call setting message notified from the network (1).
004), and compares the requested communication speed with the upper limit communication speed set during standby (1005). If the requested communication speed is within the upper limit communication speed, an incoming call sequence is started at the requested communication speed (1006), and after the wireless channel setting of the requested communication speed is completed (1007), the process ends. If the requested communication speed is higher than the upper limit communication speed, the rejection reason is set to "unable to use the specified speed" (1009), and a call request acceptance rejection is returned to the communication application (1010), and the processing is performed. finish.

The flowchart of FIG. 11 is a flowchart of a control example when receiving a call acceptance rejection in the communication application of the variable speed wireless terminal device.

The communication application (34) that has received the rejection of the incoming call request refers to the reason for rejecting the reception (1101).
If the setting of the wireless line is impossible, the incoming call history management process (the process of storing the history information such as the caller number and the incoming time) is started (1102, 1106), and one processing unit ends. If the specified communication speed cannot be used (1103), the type of the communication application requested this time is referred to (11.
04), and activates the power alert display process (1105)
Then, it displays that some communication applications are unavailable, and warns the terminal user.

In this way, by storing the restriction information in the setting information storage unit, a communication service according to the form of the communication application is realized, and the battery, which is a finite resource of the portable wireless terminal device, is stored by the user. It can be used according to the intention, the form of the communication service, and the type of the communication application.

(Fourth Embodiment) In the third embodiment, an example has been described in which the setting conditions are referred to before the wireless communication line is connected.

In the present embodiment, an example is shown in which power control is performed according to set conditions during connection of a wireless line.

The wideband CDMA (W-C
DMA) The communication channel signal format of the communication in the mobile communication system is the same as that in FIG.

That is, one time slot (52) is formed by dividing one radio frame (51) into 16 parts, and the time slot is used as information (53) for synchronization pull-in.
, Power control information (54) for requesting an increase or decrease in the transmission output of the other party, and a logical channel information area (55) to which actual communication data is mapped.

During communication, the limit transmission power value for switching the communication speed is provided with hysteresis.

That is, when the transmission power value required to maintain a certain communication speed exceeds the upper limit of the limited transmission power value, the communication speed is reduced, and the required transmission power value becomes
When the transmission power value falls below the lower limit, the communication speed is increased.

FIG. 12 shows a flowchart of the transmission output determination process started in conjunction with the transmission output control process started during connection of the radio line.

Upon receiving the radio frame, the control unit (35) refers to the transmission power control information (1201, 120
2, 1208), and if there is no request to change the transmission power, one processing unit is terminated.

When a request for transmission power up is received,
Transmission output after power-up and setting information storage unit (36)
Is compared with the upper limit value of the limited transmission power, and if it is within the upper limit value, one processing unit is terminated as it is.

When the value exceeds the upper limit value, the communication application (34) is notified of a decrease in communication speed (1204).
I do.

In the communication application (34), it is determined whether or not the reduction of the communication speed is permitted depending on the type of the application under communication, and if it is desired to maintain the communication speed, the communication speed is requested to be maintained.

The control unit (35) determines whether there is a communication speed maintenance request from the communication application (34) (120).
5) If there is a request to maintain the communication speed, one processing unit is terminated as it is. If there is no request to maintain the communication speed, selection of a communication speed that can be set within the maximum transmission output (1)
206), and after starting the communication speed lowering process (1207) to the communication speed, one processing unit ends.

When a request for transmission power down is received, the transmission output after power down is compared with the lower limit value of the limited transmission power registered in the setting information storage unit (36) (1209). If it is equal to or greater than the lower limit, one processing unit is terminated.

If the value is below the lower limit, the communication application (34) is notified of the permission to increase the communication speed (12).
10).

In the communication application, it is determined whether or not a request for increasing the communication speed is made according to the type of the application under communication. If the communication speed is to be increased, the communication speed is requested to be increased.

The control unit (35) determines whether there is a communication speed increase request from the communication application (34) (121).
1) If there is no request for increasing the communication speed, one processing unit is terminated as it is. If there is a request for increasing the communication speed, a higher speed is selected from among the communication speeds that can be set within the maximum transmission output. After selecting the communication speed (1212) and activating the communication speed increasing process (1213) to the communication speed, one processing unit ends.

Further, in this embodiment, the speed change is confirmed to the communication application (34) when the transmission power exceeds or falls below the limited transmission output range. At this time, the same effect can be obtained by receiving the required communication speed condition from the communication application (34) in advance and storing it in the setting information storage unit (36).

Thus, the communication service according to the form of the communication application is realized even during the connection to the wireless line, and the battery, which is a finite resource of the portable wireless terminal device, is allocated according to the user's intention and the form of the communication service. It can be used.

(Fifth Embodiment) In this embodiment, description will be given for determining the maximum transmittable output set in the setting information storage section (36) based on the remaining battery level of the communication speed variable wireless communication terminal device. Do in detail.

FIG. 13 shows a configuration diagram of a variable communication speed type wireless communication terminal device described in this embodiment.

FIG. 13 is different from the wireless communication terminal device of FIG. 5 in that the battery 1301 for supplying power to the wireless communication terminal device and the control unit 1302 can detect and detect the remaining amount of the battery 1301. The value of the maximum transmittable output set in the setting information storage unit (36) is made variable according to the remaining amount.

FIG. 14 is a control flowchart periodically performed by the control unit (1302).

In FIG. 14, the control unit (1302)
The battery remaining amount is periodically detected, and when the battery remaining amount is equal to or more than the first predetermined value P1 (1401), it is determined that the battery remaining amount has a margin, and the maximum transmission set in the setting information storage unit (36) is set. The available output is set to a prescribed maximum transmission power M1 provided by the system, and the communication speed is also set to the prescribed maximum speed supplied by the system (1404).

When the remaining battery charge is smaller than the first predetermined value P1 and is equal to or more than the second predetermined value P2 (P1> P2), (14)
02), the maximum transmittable output set in the setting information storage unit (36) is set to a value M2 smaller than M1, and the communication speed is set lower than the maximum value (1405).

When the remaining battery power is lower than P2 (1403), the maximum transmittable output set in the setting information storage unit (36) is set to a value M3 smaller than M2, and the communication speed is further reduced (1406). ).

As described above, in the present embodiment, the maximum transmittable output set in the setting information storage section (36) is made variable in accordance with the remaining battery power, and the transmission described in the first to fourth embodiments is performed. Perform output determination processing.

(Other Embodiments) In the first to fifth embodiments, the communication speed can be selected from a plurality of predetermined values, and the wireless communication line has a higher communication speed than the wireless communication line having a lower communication speed. Is an example of a portable terminal device for a wideband CDMA (W-CDMA) mobile communication system as an example of a variable communication speed type wireless communication terminal device for a wireless communication system requiring better wireless channel quality. However, the present invention is also effective for selecting and changing the communication speed in a portable terminal device of a system (such as a narrowband CDMA mobile communication system) using another similar communication medium.

[0092]

As described above, according to the present invention, an optimum communication speed and transmission output can be determined.

Further, the optimum communication speed and transmission output can be determined according to the received electric field strength of the received signal and the required power consumption.

Further, it is possible to provide a communication service according to the form of the communication application.

Further, power, which is a finite resource of the wireless terminal, can be used effectively. .

Further, the electric power, which is a finite resource of the wireless terminal, can be used according to the user's intention and the form of the communication service.

[Brief description of the drawings]

FIG. 1 is a conceptual diagram of a configuration of a W-CDMA mobile communication system in an embodiment.

FIG. 2 is a broadcast signal format of the W-CDMA mobile communication system in the embodiment.

FIG. 3 is a functional block diagram of a terminal of the W-CDMA mobile communication system in the embodiment.

FIG. 4 is a processing flowchart when the terminal device is on standby according to the first embodiment.

FIG. 5 is a broadcast signal format of the W-CDMA mobile communication system in the embodiment.

FIG. 6 illustrates a communication speed during communication of the terminal device according to the second embodiment.
9 is a transmission output change processing flowchart.

FIG. 7 is a processing flowchart when a terminal device is on standby according to a third embodiment;

FIG. 8 is a processing flowchart when a call request is received from a communication application of a terminal device according to the third embodiment.

FIG. 9 is a processing flowchart at the time of receiving a call acceptance rejection reception of the communication application of the terminal device in the third embodiment.

FIG. 10 is a processing flowchart of the terminal device according to the third embodiment when receiving incoming call information.

FIG. 11 is a processing flowchart at the time of receiving an incoming call rejection reception of the communication application in the third embodiment.

FIG. 12 is a flowchart of a communication speed and transmission output changing process during communication of a terminal device according to the fourth embodiment.

FIG. 13 is a functional block diagram of a terminal of a W-CDMA mobile communication system in a fifth embodiment.

FIG. 14 is a flowchart illustrating a process of changing a transmission output according to a remaining battery level according to the fifth embodiment.

[Explanation of symbols]

 REFERENCE SIGNS LIST 10 broadcast signal 11 W-CDMA wireless terminal device 12 wireless base station 13 wireless control device 14 ISDN 15 ATM 16 LAN

Claims (18)

[Claims] 1. In a wireless communication system having a wireless control device and a wireless communication device, the wireless control device includes: transmission output information on a transmission output of a signal transmitted from the wireless control device; Transmitting means for adding interference information on interference detected based on a signal transmitted to the wireless communication device to the signal to be transmitted to the wireless communication device, the wireless communication device comprising: a reception electric field of the signal transmitted by the transmission means; Discriminating means for discriminating the strength; a reception electric field strength discriminated by the discriminating means; and a signal from the wireless communication device based on the transmission output information and the interference information added to the signal transmitted by the transmitting means. A wireless communication system comprising a determination unit for determining a communication speed or a transmission output for outputting a signal. 2. The wireless communication system according to claim 1, wherein the transmission output of the wireless communication device changes according to a communication speed. 3. The wireless communication device according to claim 1, wherein the wireless communication device includes a storage unit configured to store speed information based on a communication speed at which communication is possible or output information relating to a usable transmission output. A wireless communication system, wherein the communication speed or the transmission output is determined based on speed information or output information stored in a means. 4. The signal according to claim 1, wherein the signal transmitted by the transmitting unit is a notification signal that the wireless control device constantly transmits to the wireless communication device. A wireless communication system performed before connecting a wireless line to a control device. 5. The wireless communication system according to claim 1, wherein the determination by the determining unit is performed while the wireless control device is connected to a wireless line. 6. The wireless communication system according to claim 3, wherein the speed information or the output information stored in the storage unit is based on a remaining battery level of the wireless communication device. 7. The communication device according to claim 3, wherein the determination unit determines the communication speed or the transmission output based on a communication speed specified by a communication application that performs communication and speed information or output information stored in the storage unit. A wireless communication system, comprising: 8. A wireless communication apparatus, wherein transmission output information on a transmission output of a signal transmitted from a wireless control apparatus and interference information on interference detected based on a signal received by the wireless control apparatus are added. Receiving means for receiving a signal from the wireless control device; determining means for determining a received electric field strength of a signal received by the receiving means; receiving electric field strength determined by the determining means; A wireless communication apparatus comprising: a determination unit that determines a communication speed or a transmission output for outputting a signal from the wireless communication apparatus based on the transmission output information and the interference information added to the obtained signal. . 9. The wireless communication device according to claim 8, wherein a transmission output of the wireless communication device changes according to a communication speed. 10. The wireless communication apparatus according to claim 8, wherein the wireless communication device includes a storage unit configured to store speed information based on a communication speed at which communication is possible or output information relating to a usable transmission output. A wireless communication apparatus, wherein the communication speed or the transmission output is determined based on speed information or output information stored in a means. 11. The signal according to claim 8, wherein the signal received by the receiving unit is a notification signal that the wireless control device constantly transmits to the wireless communication device. A wireless communication device, which is performed before connecting a wireless line to a control device. 12. The wireless communication apparatus according to claim 8, wherein the determination by the determination unit is performed while the wireless control apparatus is connected to a wireless line. 13. The wireless communication apparatus according to claim 10, wherein the speed information or the output information stored in the storage unit is based on a remaining battery level of the wireless communication apparatus. 14. The communication device according to claim 10, wherein the determination unit determines the communication speed or the transmission output based on a communication speed specified by a communication application that performs communication and speed information or output information stored in the storage unit. A wireless communication device. 15. A wireless communication device capable of changing a communication speed and changing a transmission output according to the communication speed, wherein, based on a state of the wireless communication device, speed information based on the communication speed or output information regarding the transmission output is provided. When receiving an instruction to perform communication using one of a plurality of transmission speed values or a plurality of transmission output values, the storage unit stores the received value and the storage unit. A wireless communication apparatus comprising a control unit for determining a communication speed or a transmission output for transmitting a signal based on the speed information or the output information. 16. The wireless communication device according to claim 15, wherein the information stored in the storage unit is determined based on a remaining battery level of the wireless communication device. 17. A method for controlling a wireless communication apparatus, comprising: transmission output information on a transmission output of a signal transmitted from a wireless control apparatus, and interference information on interference detected based on a signal received by the wireless control apparatus. A receiving step of receiving the added signal from the wireless control device; a determining step of determining a received electric field strength of the signal received in the receiving step; a receiving electric field strength determined by the determining step; Determining a communication speed or transmission output for outputting a signal from the wireless communication device based on the transmission output information and the interference information added to the signal received in the step. A method for controlling a wireless communication device. 18. A control method for a wireless communication device, wherein a communication speed can be changed, and a transmission output changes according to the communication speed. A storage step of storing output information, and when receiving an instruction to perform communication using any one of a plurality of communication speed values or a plurality of transmission output values, receiving the instruction and the storing A method for controlling a wireless communication device, comprising: a control step of determining a communication speed or a transmission output for transmitting a signal based on speed information or output information stored in a process.