JP4398547B2 - Mobile radio terminal device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention is a TDMA (Time Division Multiple Access) type mobile radio terminal device used in, for example, a PHS (Personal Handyphone System) or PDC (Public Digital Cellar) system, and is particularly suitable for one mobile station. The present invention relates to a mobile radio terminal apparatus that performs communication through a plurality of time slots in a frame.
[0002]
[Prior art]
As is well known, a conventional TDMA type mobile radio terminal apparatus switches channels and slots according to the RSSI detection level.
For example, in a mobile radio terminal device compliant with ARIB RCR-STD28, when communicating with one base station through two slots in one frame, the RSSI level of each slot used for communication is detected.
[0003]
When the RSSI detection level of at least one of the two communication slots falls below a specified value continuously for a predetermined time or more, the channel or slot switching control is performed only for the communication slot that has fallen below, or for two communication slots. I am trying to execute.
[0004]
For example, as shown in FIG. 10, when the situation is such that it is not affected by an obstacle, the RSSI level of a specified value or more is detected from each of the two communication slots. The communication used is performed.
[0005]
On the other hand, the radio wave environment deteriorates due to an obstacle as shown in FIG. 11, for example, and as shown in FIG. 12, the RSSI detection level of one of the two communication slots falls below a specified value for a predetermined time or more. Then, as described above, channel and slot switching control is executed for only the communication slot in which the RSSI detection value has deteriorated or for two communication slots.
[0006]
However, in such a conventional mobile radio terminal device, due to temporary deterioration of radio wave environment, only the RSSI detection level of one slot may fall below a specified value for a predetermined time or more, and the RSSI detection level may be recovered immediately. However, in such a case, the deterioration of the radio wave environment is temporary, so that channel / slot switching control is executed even though communication can be continued.
[0007]
For this reason, in a system in which switching control is performed only for a communication slot in which the RSSI detection value has deteriorated, communication is performed by one slot during the switching control. Therefore, in a system in which communication quality deteriorates and both slots are switched and controlled, There is a problem that communication is interrupted.
[0008]
[Problems to be solved by the invention]
In a conventional mobile radio terminal apparatus, when communicating through a plurality of time slots in one frame, even if the radio wave environment is temporarily deteriorated, the RSSI detection level of one communication slot exceeds a specified value for a predetermined time or more. If the value is lower, channel and slot switching control is executed and communication quality deteriorates.
[0009]
The present invention has been made to solve the above-described problem, and when performing communication using a plurality of communication slots in one frame, the RSSI detection level of one communication slot is temporarily reduced due to temporary deterioration of radio wave environment. It is an object of the present invention to provide a mobile radio terminal apparatus capable of preventing channel quality and slot switching control from being executed and preventing communication quality from being deteriorated when the specified value continuously falls below a predetermined time. .
[0010]
[Means for Solving the Problems]
In order to achieve the above object, the present invention wirelessly connects to a partner station using a time division multiplexing method. In a mobile radio terminal apparatus capable of communicating with a partner station through a plurality of time slots in one frame, Detecting means for detecting the received electric field strength of a plurality of time slots used for communication, and whether or not the received electric field strength of the plurality of time slots detected by the detecting means is below a predetermined threshold value, respectively. When the determination means and the determination means determine that the received electric field strengths of all the time slots used by the own device for communication are respectively below the threshold continuously for a predetermined time or more, Channel control means for performing switching control of time slots used for communication is provided.
[0011]
In the mobile radio terminal having the above-described configuration, only when the received electric field strength of a plurality of time slots used for communication is continuously lower than all the thresholds for a specified time or more, the radio wave environment is considered to be deteriorated. Switching control is executed.
[0012]
In other words, during communication using a plurality of time slots, if the received electric field strength of any time slot exceeds the threshold value, the state where the received electric field strength of the remaining time slot does not exceed the threshold value continues for a specified time or longer. However, it is considered that the received electric field strength is temporarily lowered, and the time slot switching control is not executed.
[0013]
Therefore, according to the mobile radio terminal apparatus having the above-described configuration, it is unnecessary even when the received electric field strength of one time slot temporarily falls below a predetermined value continuously for a predetermined time or longer during communication using a plurality of time slots. Execution of time slot switching control can be prevented, and deterioration of communication quality can be prevented.
[0018]
Furthermore, in order to achieve the above object, the present invention wirelessly connects to a counterpart station using a time division multiplexing method. In a mobile radio terminal apparatus capable of communicating with a counterpart station through a plurality of time slots in one frame, Detection means for detecting the reception field strength of a plurality of time slots used by the own device for communication, and whether the reception field strength of the plurality of time slots detected by the detection means is less than a first threshold value, respectively. A determination means for determining whether or not the reception electric field intensity detected by the detection means has a first threshold value when the determination means determines that at least one reception electric field intensity exceeds the first threshold value. And a channel control means for performing switching control of time slots used for communication only when there is a value that is lower than a second threshold value lower than a predetermined time. .
[0019]
In the mobile radio terminal having the above configuration, when the received field strength of any time slot exceeds the first threshold, the received field strength of any remaining time slot is lower than the first threshold. Only when it is below the second threshold continuously for a prescribed time or longer, it is considered that the radio wave environment has deteriorated, and time slot switching control is executed.
[0020]
That is, if the received electric field strength of any time slot exceeds the first threshold during communication using a plurality of time slots, the received electric field strength of any remaining time slot is higher than the first threshold. If the state lower than the second threshold is not continued for a predetermined time or longer, it is regarded as a temporary decrease in received electric field strength and time slot switching control is not executed.
[0021]
Therefore, according to the mobile radio terminal apparatus having the above-described configuration, it is unnecessary even when the received electric field strength of one time slot temporarily falls below a predetermined value continuously for a predetermined time or longer during communication using a plurality of time slots. Execution of time slot switching control can be prevented, and deterioration of communication quality can be prevented.
[0022]
Furthermore, in order to achieve the above object, the present invention wirelessly connects to a counterpart station using a time division multiplexing method. In a mobile radio terminal apparatus capable of communicating with a counterpart station through a plurality of time slots in one frame. Detecting means for detecting the received electric field strength of a plurality of time slots used by the own device for communication, and an average of the received electric field strengths of the plurality of time slots detected by the detecting means is below a predetermined threshold value. A determination means for determining whether or not the time slot used for communication is switched when it is determined by the determination means that the average received electric field intensity is continuously below the threshold for a predetermined time or more. And a channel control means.
[0023]
In the mobile radio terminal apparatus having the above configuration, only when the average value of the received field strength of a plurality of time slots is continuously lower than the threshold value for a specified time or longer, it is considered that the radio wave environment has deteriorated, and channel or slot switching control is performed. I am trying to do it.
[0024]
That is, in communication using a plurality of time slots, if the reception field strength of any time slot is high, the reception field strength of the plurality of time slots is consequently reduced even if the reception field strength of the remaining time slot is low. Since the average value exceeds the threshold value, when this average value exceeds the threshold value, it is regarded as a temporary decrease in received electric field strength, and the time slot switching control is not executed.
[0025]
Therefore, according to the mobile radio terminal apparatus having the above-described configuration, it is unnecessary even when the received electric field strength of any time slot temporarily falls below a specified value for a predetermined time continuously during communication using a plurality of time slots. It is possible to prevent channel quality and slot switching control from being executed and to prevent deterioration in communication quality.
[0026]
DETAILED DESCRIPTION OF THE INVENTION
A mobile wireless terminal apparatus according to a first embodiment of the present invention will be described below with reference to the drawings. Here, a PHS terminal device will be described as an example. FIG. 1 shows the configuration.
[0027]
The PHS terminal device shown in this figure includes a radio unit 10 including an antenna 11, a modem unit 20, a TDMA unit 30, a call unit 40 including a speaker 43 and a microphone 44 (M), an incoming call notification unit 50, The memory unit 60, the user interface unit 70, the battery 80, the battery monitoring unit 90, and the control unit 100.
[0028]
The radio frequency signal transmitted from the PHS base station via the radio communication channel is received by the antenna 11 and then input to the reception unit 13 via the high frequency switch (SW) 12 of the radio unit 10.
[0029]
In the reception unit 13, the received radio frequency signal is mixed with the reception local oscillation signal generated from the frequency synthesizer 14 and frequency-converted to a reception intermediate frequency signal.
[0030]
The local oscillation frequency generated from the frequency synthesizer 14 is instructed by the control unit 100 according to the radio channel frequency. The radio unit 10 is provided with a received electric field strength detection unit (RSSI) 16.
[0031]
The reception field strength detection unit 16 detects the reception field strength (hereinafter referred to as RSSI) of the radio frequency signal arriving from the PHS base station, and notifies the control unit 100 of the detected value.
[0032]
The received intermediate frequency signal output from the receiving unit 13 is input to the demodulating unit 21 of the modem unit 20. The demodulator 21 digitally demodulates the received intermediate frequency signal, thereby reproducing a digital speech signal.
[0033]
In the TDMA decoding unit 31 of the TDMA unit 30, the digital speech signal is decomposed for each time slot in accordance with an instruction from the control unit 100. Of the plurality of decomposed digital call signals, the digital call signal of the slot addressed to the own device is input to the call unit 40.
[0034]
The call unit 40 includes an adaptive differential PCM transcoder 41 and a PCM codec 42. The digital call signal is sequentially decoded by the adaptive differential PCM transcoder 41 and the PCM codec 42. Played back as an analog call signal. The analog call signal is amplified by a not-shown receiving amplifier and then output from the speaker 43.
[0035]
On the other hand, the transmission voice input to the microphone 44 is sequentially encoded by the PCM codec 42 and the adaptive differential PCM transcoder 41 to become a digital speech signal, and is input to the TDMA encoding unit 32.
[0036]
In the TDMA encoding unit 32, the digital speech signal output from the adaptive differential transcoder 41 is inserted into the time slot designated by the control unit 100 and input to the modulation unit 22. In the modulation unit 22, the carrier signal is digitally modulated by the digital speech signal. The carrier signal modulated in this way is input to the transmitter 15.
[0037]
In the transmission unit 15, the modulated carrier wave signal is mixed with a transmission local oscillation signal generated from the frequency synthesizer 14, thereby frequency-converted to a radio channel frequency designated by the control unit 100, and then a predetermined transmission Amplified to power level. The radio frequency signal frequency-converted and amplified by the transmitter 15 is transmitted from the antenna 11 to the PHS base station via the high-frequency switch 12.
[0038]
The incoming call notification unit 50 notifies the user of an incoming call under the control of the control unit 100 when there is an incoming call addressed to the terminal device. The sounding body 51 emits an audible sound to notify the user. A light emitting body 52 that performs notification and a vibrating body 53 that performs notification by generating vibration by an eccentric motor or the like, for example.
[0039]
The memory unit 60 uses, for example, a semiconductor memory such as ROM or RAM as a storage medium. In addition to the control program of the control unit 100 and its own ID data necessary for authentication, the memory unit 60 includes various control data and various types of data. Dial data corresponding to setting data, speed dial, etc. is stored.
[0040]
The user interface unit 70 includes a display unit 71 and a key input unit 72. The display unit 71 is composed of, for example, an LCD (Liquid Crystal Display) and the like to visually indicate to the user the state of the device (calling / incoming call, remaining battery level, reception strength) and dial data read from the memory unit 60. belongs to.
[0041]
The key input unit 72 is a key for performing a normal function related to outgoing / incoming calls, such as a numeric keypad for inputting a dial number, and various types of incoming call notification methods (audible sound / light emission / vibrator / no notification). A function setting key for setting is provided.
[0042]
The battery 80 is a secondary battery such as a lithium ion battery or a nickel metal hydride battery, and is a driving power source for the terminal device. The battery monitoring unit 90 monitors the battery 80. In addition to the function of detecting the remaining amount of the battery and notifying the control unit 100, the battery detection unit 90 detects whether or not the battery 80 is being charged. 91 is provided.
[0043]
The control unit 100 includes, for example, a microcomputer as a main control unit. The control unit 100 controls each unit related to communication as described above, or dials stored in the memory unit 60 in response to a user request through the key input unit 72. Various controls such as data editing control are performed.
[0044]
In addition, the control unit 100 executes channel / slot switching control when the RSSI detection value of the communication slot is continuously lower than a preset threshold value for a predetermined time or more. As a new control function, the control unit 100 At the time of two-slot communication, channel and slot switching control is executed only when the RSSI detection values of the two communication slots are both continuously lower than the threshold value for a specified time or more.
[0045]
This is because the two slots used for communication are received through almost the same propagation path, so if one communication slot is normal, the remaining one may be only temporary, even if the other is degraded. It focuses on many points.
[0046]
Next, the operation of the PHS terminal apparatus having the above configuration will be described below. Note that the description of the normal outgoing / incoming call is omitted because it is the same as the conventional operation, and here, the start determination processing of the channel / slot switching control at the time of communication will be particularly described. FIG. 2 is a flowchart for explaining the operation, and this processing is performed by the control unit 100.
[0047]
First, when communication is started with a base station (not shown), it is determined in step 2a whether or not the communication currently being performed is 2-slot communication. Here, in the case of 1-slot communication, the process proceeds to step 2b, whereas in the case of 2-slot communication, the process proceeds to step 2c.
[0048]
In step 2b, it is determined whether or not the RSSI detection value of the slot used for communication is continuously below the threshold for a specified time or more. Here, when it is below, it transfers to step 2f, and when it is not below, it transfers to step 2b and monitors an RSSI detection value again.
[0049]
In step 2c, it is determined whether the RSSI detection value of one of the two communication slots is below a threshold value. Here, when it is below, it transfers to step 2d, and when it is not below, it transfers to step 2c and monitors an RSSI detection value again.
[0050]
In step 2d, it is determined whether or not the RSSI detection value of the remaining one communication slot that is not the communication slot monitored in step 2c is less than the threshold value among the two communication slots. Here, when it is below, it transfers to step 2e, and when it is not below, it transfers to step 2c, and monitors an RSSI detection value again.
[0051]
In step 2e, it is determined whether or not the state where the RSSI detection values of the two communication slots are below the threshold value continues for a specified time or more. Here, if it is continuous for the specified time or longer, the process proceeds to step 2f. On the other hand, if it is not lower, the process proceeds to step 2c, and the RSSI detection value is monitored again.
[0052]
In step 2f, channel or slot switching control is executed. Thereafter, when communication with the base station is resumed, the above-described processing is resumed from step 2a.
[0053]
As described above, in the mobile radio terminal device having the above-described configuration, only when the RSSI detection values of the two slots used for communication are both continuously below the threshold for a predetermined time or more, the radio wave environment is considered to be deteriorated. Channel or slot switching control is executed.
[0054]
That is, during communication using two slots, as shown in FIG. 3, if the RSSI detection value of one communication slot exceeds the threshold level, the RSSI detection value of the remaining one communication slot exceeds the threshold level. Even if the state that has not been performed continues for a predetermined time or more, it is regarded as a temporary decrease in the RSSI detection value, and channel or slot switching control is not executed. Therefore, according to the mobile radio terminal apparatus having the above-described configuration, even when the RSSI detection level of one communication slot temporarily falls below a specified value for a predetermined time or more during communication using two slots, unnecessary channels and Execution of slot switching control can be prevented, and deterioration of communication quality can be prevented.
The present invention is not limited to the above embodiment.
For example, the control unit 100 executes channel / slot switching control when the RSSI detection value of the communication slot is continuously lower than a preset threshold value for a predetermined time or more. As a new control function, the control unit 100 In 2-slot communication, if the RSSI detection value of one communication slot exceeds the above threshold and the RSSI detection value of the remaining other communication slot continuously falls below the threshold, the specified time is extended. Thus, channel and slot switching control may be executed.
[0055]
Hereinafter, a mobile radio terminal apparatus having the above-described control unit 100 will be described as channel / slot switching control start determination processing as a second embodiment. FIG. 4 is a flowchart for explaining the operation.
[0056]
First, when communication is started with a base station (not shown), it is determined in step 4a whether or not the communication currently being performed is 2-slot communication. Here, in the case of 1-slot communication, the process proceeds to step 4b, whereas in the case of 2-slot communication, the process proceeds to step 4c.
[0057]
In Step 4b, it is determined whether or not the RSSI detection value of the slot used for communication is continuously lower than the threshold value for a specified time t1 or more. Here, when it is below, it transfers to step 4g, and when it is not below, it transfers to step 4b and monitors an RSSI detection value again.
[0058]
In step 4c, it is determined whether the RSSI detection value of one of the two communication slots is below a threshold value. Here, when it is below, it transfers to step 4d, and when it is not below, it transfers to step 4c and monitors an RSSI detection value again.
[0059]
In step 4d, it is determined whether or not the RSSI detection value of one of the remaining communication slots other than the communication slot monitored in step 4c is below the threshold value. Here, when it is below, it transfers to step 4e, and when it is not below, it transfers to step 4f.
[0060]
In step 4e, it is determined whether or not the state in which the RSSI detection values of the two communication slots are below the threshold continues for a specified time t1 or more. Here, if it is continuous for the specified time t1 or longer, the process proceeds to step 4g. On the other hand, if it is not shorter, the process proceeds to step 4c and the RSSI detection value is monitored again.
[0061]
In step 4f, it is determined whether or not the RSSI detection value of the communication slot determined to be below the threshold in step 4c is continuously below the threshold for a specified time t2 (> t1).
[0062]
Here, when it is continuous for the prescribed time t2 or longer, the process proceeds to step 4g. On the other hand, when it is not lower, the process proceeds to step 4c and the RSSI detection value is monitored again.
[0063]
In step 4g, channel or slot switching control is executed. Thereafter, when communication with the base station is resumed, the above-described processing is resumed from step 4a.
[0064]
As described above, in the mobile radio terminal having the above configuration, when the RSSI detection value of one communication slot exceeds the threshold and normal communication is performed, the RSSI detection value of the remaining communication slot is Only when the threshold value is continuously below a specified time t2 longer than the normal specified time t1, it is considered that the radio wave environment has deteriorated, and channel or slot switching control is executed.
[0065]
That is, during communication using two slots, as shown in FIG. 5, if the RSSI detection value of one communication slot exceeds the threshold level, the RSSI detection value of the remaining one communication slot exceeds the threshold level. If the non-consecutive state does not continue for t2 longer than the normal specified time t1, it is regarded as a temporary decrease in the RSSI detection value, and channel or slot switching control is not executed.
[0066]
Therefore, according to the mobile radio terminal apparatus having the above-described configuration, even when the RSSI detection level of one communication slot temporarily falls below a specified value for a predetermined time or more during communication using two slots, unnecessary channels and Execution of slot switching control can be prevented, and deterioration of communication quality can be prevented.
[0067]
The present invention is not limited to the embodiment described above.
For example, the control unit 100 executes channel / slot switching control when the RSSI detection value of the communication slot continuously falls below a preset threshold th1 for a predetermined time or more, but the control unit 100 has a new control function. When the RSSI detection value of one communication slot exceeds the threshold value th1 during two-slot communication, the RSSI detection value of the remaining communication slot continues the threshold value th2 lower than the threshold value th1 for a predetermined time or more. If it falls below the limit, channel or slot switching control may be executed.
[0068]
Hereinafter, a mobile radio terminal apparatus having the configuration including the control unit 100 as described above will be described as channel / slot switching control start determination processing as a third embodiment. FIG. 6 is a flowchart for explaining the operation.
[0069]
First, when communication is started with a base station (not shown), it is determined in step 6a whether or not the communication currently being performed is 2-slot communication. Here, in the case of 1-slot communication, the process proceeds to step 6b, whereas in the case of 2-slot communication, the process proceeds to step 6c.
[0070]
In Step 6b, it is determined whether or not the RSSI detection value of the slot used for communication is continuously lower than the threshold value th1 for a specified time or more. Here, when it is below, it transfers to step 6h, and when it is not below, it transfers to step 6b and monitors an RSSI detection value again.
[0071]
In step 6c, it is determined whether the RSSI detection value of one of the two communication slots is below the threshold th1. Here, when it is below, it transfers to step 6d, and when it is not below, it transfers to step 6f.
[0072]
In Step 6d, it is determined whether or not the RSSI detection value of the remaining one communication slot that is not the communication slot monitored in Step 6c is less than the threshold th1 among the two communication slots. Here, when it is below, it transfers to step 6e, and when it is not below, it transfers to step 6c, and monitors an RSSI detection value again.
[0073]
In step 6e, it is determined whether or not the state in which the RSSI detection values of the two communication slots are below the threshold th1 continues for a specified time or more. Here, when it is below, it transfers to step 6h, and when it is not below, it transfers to step 6c, and monitors an RSSI detection value again.
[0074]
In step 6f, it is determined whether or not the RSSI detection value of the remaining one of the two communication slots that is not the communication slot monitored in step 6c is lower than the threshold th2 (<th1). Here, when it is below, it transfers to step 6g, and when it is not below, it transfers to step 6c, and monitors an RSSI detection value again.
[0075]
In step 6g, the RSSI detection value of the communication slot determined to be below the threshold in step 6c is the threshold th1, and the RSSI detection value of the communication slot determined to be below the threshold in step 6f. It is determined whether the threshold value th2 is continuously below the threshold time th2 or more.
[0076]
Here, if the RSSI detection value is lower than the respective threshold value in both communication slots, the process proceeds to step 6h. If not, the process proceeds to step 6c, and the RSSI detection value is monitored again. .
[0077]
In step 6h, channel or slot switching control is executed. Thereafter, when communication with the base station is resumed, the above-described processing is resumed from step 6a.
[0078]
As described above, in the mobile radio terminal device having the above configuration, when the RSSI detection value of one communication slot exceeds the threshold th1 and normal communication is performed, the RSSI detection value of the remaining communication slot is Only when the threshold value th2 lower than the normal threshold value th1 has been continuously reduced for a predetermined time or more, it is considered that the radio wave environment has deteriorated, and channel or slot switching control is executed.
[0079]
That is, during communication using two slots, as shown in FIG. 7, if the RSSI detection value of one communication slot exceeds the threshold th1, the RSSI detection value of the remaining communication slot is equal to the normal threshold th1. If the state lower than the lower threshold th2 does not continue for a predetermined time or longer, it is regarded as a temporary decrease in the RSSI detection value, and channel or slot switching control is not executed.
[0080]
Therefore, according to the mobile radio terminal apparatus having the above-described configuration, even when the RSSI detection level of one communication slot temporarily falls below a specified value for a predetermined time or more during communication using two slots, unnecessary channels and Execution of slot switching control can be prevented, and deterioration of communication quality can be prevented.
[0081]
Furthermore, the present invention is not limited to the embodiment described above.
For example, the control unit 100 executes channel / slot switching control when the RSSI detection value of the communication slot is continuously lower than a preset threshold value for a predetermined time or more. As a new control function, the control unit 100 In the two-slot communication, channel and slot switching control may be executed when the average value of the RSSI detection values of the two communication slots is continuously lower than the threshold value for a predetermined time or more.
[0082]
Hereinafter, a mobile radio terminal apparatus having a configuration including the control unit 100 as described above will be described as channel / slot switching control start determination processing as a fourth embodiment. FIG. 8 is a flowchart for explaining the operation.
[0083]
First, when communication is started with a base station (not shown), it is determined in step 8a whether or not the communication currently being performed is 2-slot communication. Here, in the case of 1-slot communication, the process proceeds to step 8b, whereas in the case of 2-slot communication, the process proceeds to step 8c.
[0084]
In step 8b, it is determined whether or not the RSSI detection value of the slot used for communication is continuously lower than the threshold value for a predetermined time or more. Here, when it is below, it transfers to step 8d, and when it is not below, it transfers to step 8b and monitors an RSSI detection value again.
[0085]
In step 8c, it is determined whether or not the average value of the RSSI detection values of the two communication slots is below the threshold value. Here, when it is below, it transfers to step 8d, and when it is not below, it transfers to step 8c, and monitors an RSSI detection value again.
[0086]
In step 8d, channel or slot switching control is executed. Thereafter, when communication with the base station is resumed, the above-described processing is resumed from step 8a.
[0087]
As described above, in the mobile radio terminal device having the above-described configuration, only when the average value of the RSSI detection values of the two communication slots is continuously lower than the threshold value for a predetermined time or more, the radio wave environment is considered to be deteriorated. Slot switching control is executed.
[0088]
That is, in communication using two slots, as shown in FIG. 9, if the RSSI detection value of one communication slot is high, even if the RSSI detection value of the remaining communication slot is low, as a result, Since the average value of the RSSI detection value of the communication slot exceeds the threshold value, if this average value exceeds the threshold value, it is regarded as a temporary decrease in the RSSI detection value and the channel or slot switching control is not executed. .
[0089]
Therefore, according to the mobile radio terminal apparatus having the above-described configuration, even when the RSSI detection level of one communication slot temporarily falls below a specified value for a predetermined time or more during communication using two slots, unnecessary channels and Execution of slot switching control can be prevented, and deterioration of communication quality can be prevented.
[0090]
The present invention is not limited to the embodiment described above. For example, in each embodiment, the channel or slot to be switched is not explicitly described, but this may be performed according to an existing system. For example, only a communication slot having a reduced RSSI detection value may be a switching target, or two communication slots and both may be a switching target.
[0091]
In addition, it goes without saying that the present invention can be similarly implemented even if various modifications are made without departing from the gist of the present invention, such as application of the above-described configuration to a mobile radio terminal device of a mobile phone system or a car phone system. Absent.
[0092]
【The invention's effect】
As described above, in the present invention, only when the received electric field strength of a plurality of time slots used for communication is continuously lower than all thresholds for a predetermined time or more, the time slot is regarded as a deterioration of the radio wave environment. The switching control is executed.
[0093]
In other words, during communication using a plurality of time slots, if the received electric field strength of any time slot exceeds the threshold value, the state where the received electric field strength of the remaining time slot does not exceed the threshold value continues for a specified time or longer. However, it is considered that the received electric field strength is temporarily lowered, and the time slot switching control is not executed.
[0094]
Therefore, according to the present invention, unnecessary time slot switching control is performed even when the received electric field strength of one time slot temporarily falls below a predetermined value for a predetermined time or more during communication using a plurality of time slots. It is possible to provide a mobile radio terminal apparatus that can prevent the execution of the communication and the deterioration of the communication quality.
[0098]
Furthermore, in the present invention, when the received electric field strength of any time slot exceeds the first threshold value, the second received electric field strength of any remaining time slot is lower than the first threshold value. Only when the threshold value is continuously exceeded for a predetermined time or longer, the time slot switching control is executed assuming that the radio wave environment has deteriorated.
[0099]
That is, if the received electric field strength of any time slot exceeds the first threshold during communication using a plurality of time slots, the received electric field strength of any remaining time slot is higher than the first threshold. If the state lower than the second threshold is not continued for a predetermined time or longer, it is regarded as a temporary decrease in received electric field strength and time slot switching control is not executed.
[0100]
Therefore, according to the present invention, unnecessary time slot switching control is performed even when the received electric field strength of one time slot temporarily falls below a predetermined value for a predetermined time or more during communication using a plurality of time slots. It is possible to provide a mobile radio terminal apparatus that can prevent the execution of the communication and the deterioration of the communication quality.
[0101]
Furthermore, according to the present invention, only when the average value of the received electric field strength of a plurality of time slots is continuously lower than the threshold value for a predetermined time or more, it is considered that the radio wave environment has deteriorated, and channel or slot switching control is executed. I am doing so.
[0102]
That is, in communication using a plurality of time slots, if the reception field strength of any time slot is high, the reception field strength of the plurality of time slots is consequently reduced even if the reception field strength of the remaining time slot is low. Since the average value exceeds the threshold value, when this average value exceeds the threshold value, it is regarded as a temporary decrease in received electric field strength, and the time slot switching control is not executed.
[0103]
Therefore, according to the present invention, even when the received electric field strength of any time slot temporarily falls below the specified value for a predetermined time or more during communication using a plurality of time slots, unnecessary channels and slots are It is possible to provide a mobile radio terminal device that can prevent switching quality from being deteriorated and prevent deterioration in communication quality.
[Brief description of the drawings]
FIG. 1 is a circuit block diagram showing a configuration of a mobile radio terminal apparatus according to the present invention.
FIG. 2 is a flowchart for explaining start determination processing for channel / slot switching control of the mobile radio terminal apparatus according to the first embodiment;
FIG. 3 is a diagram for explaining start determination processing for channel / slot switching control of the mobile radio terminal apparatus according to the first embodiment;
FIG. 4 is a flowchart for explaining start determination processing of channel / slot switching control of the mobile radio terminal apparatus according to the second embodiment.
FIG. 5 is a view for explaining start determination processing of channel / slot switching control of the mobile radio terminal apparatus according to the second embodiment.
FIG. 6 is a flowchart for explaining start determination processing of channel / slot switching control of a mobile radio terminal apparatus according to the third embodiment.
FIG. 7 is a diagram for explaining start determination processing of channel / slot switching control of the mobile radio terminal apparatus according to the third embodiment.
FIG. 8 is a flowchart for explaining start determination processing of channel / slot switching control of a mobile radio terminal apparatus according to the fourth embodiment.
FIG. 9 is a diagram for explaining start determination processing of channel / slot switching control of the mobile radio terminal apparatus according to the fourth embodiment.
FIG. 10 is a diagram for explaining the concept of communication using two communication slots.
FIG. 11 is a diagram for explaining the concept of communication using two communication slots.
FIG. 12 is a diagram for explaining start determination processing of channel / slot switching control of a conventional mobile radio terminal apparatus;
[Explanation of symbols]
10 ... Radio part
11 ... Antenna
13: Receiver
15 ... Transmitter
16: Received electric field intensity detector (RSSI)
20 ... Modem part
21. Demodulator
22: Modulation section
30 ... TDMA section
31 ... TDMA decoding unit
32 ... TDMA encoding section
40 ... Calling part
41 ... ADPCM TRANS CODER
42 ... PCM CODEC
43 ... Speaker
44 ... Microphone (M)
50. Incoming call notification unit
51 ... Sound generator
52. Light emitter
53. Vibrating body
60: Memory unit
70: User interface section
71 ... Display section
72 ... Key input section
80 ... Battery
90 ... Battery monitoring unit
91 ... Charge detection means
100: Control unit

Claims (3)

In a mobile wireless terminal device that is wirelessly connected to a counterpart station by time division multiplexing, and can communicate with the counterpart station through a plurality of time slots in one frame,
Detecting means for detecting received electric field strength of a plurality of time slots used by the own device for communication;
Determining means for determining whether or not the received electric field strengths of the plurality of time slots detected by the detecting means are each below a predetermined threshold;
When it is determined by this determination means that the received electric field strength of all time slots used by the own device for communication is below the threshold value continuously for a specified time or longer, the time slot used for communication is determined. A mobile radio terminal apparatus comprising: channel control means for performing switching control. In a mobile wireless terminal device that is wirelessly connected to a counterpart station by time division multiplexing, and can communicate with the counterpart station through a plurality of time slots in one frame,
Detecting means for detecting received electric field strength of a plurality of time slots used by the own device for communication;
Determining means for determining whether or not the received electric field strengths of the plurality of time slots detected by the detecting means are each below a first threshold;
If the determination means determines that at least one received electric field strength exceeds the first threshold value, the received electric field strength detected by the detecting means is a second lower than the first threshold value. A mobile radio terminal apparatus comprising: channel control means for performing switching control of a time slot used for communication only when there is a signal that falls below a threshold value for a predetermined time or more. In a mobile wireless terminal device that is wirelessly connected to a counterpart station by time division multiplexing, and can communicate with the counterpart station through a plurality of time slots in one frame,
Detecting means for detecting received electric field strength of a plurality of time slots used by the own device for communication;
Determining means for determining whether or not the average of received electric field strengths of a plurality of time slots detected by the detecting means is below a predetermined threshold;
And a channel control means for performing switching control of time slots used for communication when it is determined by the determination means that the average of the received electric field strength is continuously below the threshold for a predetermined time or more. A mobile radio terminal device characterized by the above.

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