JP4702692B2 - Wireless telephone and method for determining range thereof - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a radiotelephone and its range determination method, and more particularly to a radiotelephone for determining whether a radio base station is within or out of range and its range determination method.
[0002]
[Prior art]
The wireless telephone system includes a plurality of wireless base stations corresponding to the parent device and a wireless telephone corresponding to the child device. A radio telephone (slave unit) is connected to a plurality of radio base stations (base units) connected to a public line via a time division multiplex radio transmission path. Moreover, the wireless telephone is provided with a rechargeable battery as a power source. Examples of the master unit include a self-operated base station installed in a city area and installed in a home or company, and a public base station installed outdoors. A radio telephone can transmit and receive radio waves (channel data) to and from a plurality of radio base stations through a time division multiplex radio transmission path.
[0003]
A plurality of radio base stations and radio telephones transmit and receive radio waves (channel data) having a unique word (synchronization signal), audio data, and a frame including control data used for control for transmitting audio data. The radiotelephone receives one radio wave among radio waves transmitted from a plurality of radio base stations.
[0004]
In the zone mode (standby mode), the radio telephone transmits and receives radio waves to and from a plurality of radio base stations through a time division multiplex radio transmission path. The standby mode indicates that the mobile phone is within a range of a plurality of radio base stations (one radio base station), and the radio telephone makes a call via one radio base station of the plurality of radio base stations. This is a mode in which the user can make a call.
[0005]
In the out-of-service mode, the radio telephone receives radio waves with a plurality of radio base stations on a time division multiplex radio transmission path at a predetermined cycle (every X seconds (X is an integer)). The out-of-service mode indicates that the plurality of wireless base stations are out of the service area, and is a mode in which a telephone call cannot be made through one wireless base station among the plurality of wireless base stations (a call cannot be made). . The out-of-service mode means that the wireless telephone receives a radio wave at a predetermined cycle, so that the wireless telephone searches for a plurality of wireless base stations (one of these wireless base stations) every X seconds and is wireless. In this mode, the power consumption of the telephone can be suppressed compared to the standby mode.
[0006]
In the standby mode, the radio telephone receives one radio wave having a frame including a unique word, voice data, and control data transmitted from a plurality of radio base stations, and extracts a unique word contained in the frame. Then, by synchronizing the frames, the standby mode is continued, and when the synchronization cannot be established, the out-of-service mode is set.
[0007]
The wireless telephone also compares the received electric field value indicating the strength of the radio wave when receiving the radio wave in the standby mode with a reference electric field value (range level), and compares the received electric field value with the range level. Thus, the standby mode is normally continued when the received electric field value is higher than the in-range level, and the out-of-range mode is set when the received electric field value is lower than the in-range level. A radiotelephone compares the received electric field value when the radio wave is received at a predetermined cycle with the in-range level in the out-of-service mode, and the received electric field value is usually within the in-range by comparing the received electric field value with the in-range level. The standby mode is set when the level is higher than the level, and the out-of-service mode is continued when the received electric field value is lower than the service level.
[0008]
With such a setting, the radio telephone can make a call via one radio base station among a plurality of radio base stations in the standby mode.
[0009]
[Problems to be solved by the invention]
However, even in places where there are many wireless base stations in the urban area, the received electric field value when the radio telephone receives the radio waves in a place such as behind a building or underground mall in the urban area is local. May be lower than the level within the range, or may return to the normal reception electric field value or more. Such a location corresponds to the vicinity of the boundary between the radio base station area and the outside area, and when the received electric field value is lower than the area level, the radio telephone sets the out-of-area mode in the standby mode and the normal area level. When returning to the above, the standby mode is set in the out-of-service mode. As described above, by repeating the in-range mode and the out-of-range mode in the vicinity of the boundary between the in-range and the out-of-range, the power of the rechargeable battery provided in the wireless telephone is wasted. Moreover, since the power of the rechargeable battery is wasted, the usable time of the wireless telephone is shortened, and the usability is poor.
[0010]
For this reason, there is a demand for a wireless telephone that can reduce the waste of power caused by repeating the in-range mode and the out-of-range mode in the vicinity of the boundary between the in-range and the out-of-range. In addition, there is a demand for a wireless telephone that can extend the usable time by reducing the waste of power.
[0011]
Further, as a wireless telephone that can set the out-of-service mode when the state where the wireless telephone is out of the service area continues, JP-A-10-93502, JP-A-8-294165, and JP-A-5-30023 are disclosed. However, it is impossible to reliably set one of the in-range mode and the out-of-range mode in the vicinity of the boundary between the in-range and the out-of-range. For this reason, a wireless telephone that can reliably set one of the in-range mode and the out-of-range mode in the vicinity of the boundary between the in-range and the out-of-range is desired.
[0012]
Japanese Laid-Open Patent Publication No. 11-331916 is disclosed as a wireless telephone that can set one of the in-range mode and the out-of-range mode in the vicinity of the boundary between the in-range and the out-of-range. The wireless telephone disclosed in Japanese Patent Application Laid-Open No. 11-331916 sets the out-of-service mode in the standby mode when the received electric field value is lower than the in-service level, and enters the out-of-service mode when returning to the normal service level or higher. The standby mode is set immediately, but if the received electric field value is lower than the range level again, the out-of-range mode is set in the standby mode, so the range mode and the out-of-range mode are repeated near the boundary between the range and the out-of-range. This wastes the power of the rechargeable battery and shortens the usable time. Therefore, there is a demand for a wireless telephone that can reduce waste of power and extend the usable time by reliably setting one of the in-range mode and the out-of-range mode in the vicinity of the boundary between the in-range and the out-of-range.
[0013]
SUMMARY OF THE INVENTION An object of the present invention is to provide a radio telephone that can reduce waste of power caused by repeating the in-range mode and the out-of-range mode in the vicinity of the boundary between the in-range and the out-of-range, and an in-range determination method thereof.
[0014]
Another object of the present invention is to provide a radiotelephone capable of extending the usable time by reducing the waste of power and a method for determining the area within the radiotelephone.
[0015]
Still another object of the present invention is to provide a radio telephone that can reliably set one of the in-range mode and the out-of-range mode in the vicinity of the boundary between the in-range and the out-of-range, and an in-range determination method thereof.
[0016]
Still another object of the present invention is to wirelessly reduce power waste and extend usable time by reliably setting one of the in-range mode and out-of-range mode in the vicinity of the boundary between the in-range and out-of-range. An object is to provide a telephone and a method for determining the area within the telephone.
[0017]
[Means for Solving the Problems]
The means for solving the problem will be described below using the numbers and symbols used in the [Embodiments of the Invention]. These numbers and symbols are added to clarify the correspondence between the description of [Claims] and the description of [Mode for carrying out the invention]. It should not be used to interpret the technical scope of the described invention.
[0018]
The wireless telephone of the present invention includes a wireless unit (1), a storage unit (7), and a control unit (4). The radio unit (1) receives one radio wave out of radio waves including first position information transmitted from a plurality of base stations, and a first received electric field value indicating the strength of the radio wave received at the first time point And first position information indicating position information at the first time point. The storage unit (7) stores a reference electric field value and second position information indicating position information at a second time point before the first time point. The control unit (4) compares the received electric field value with the reference electric field value, compares the first position information with the second position information, compares the received electric field value with the reference electric field value, and the first position. Based on the comparison result between the information and the second location information, it indicates that it is within a range of a plurality of base stations, indicates that it is within a range of a plurality of base stations, and indicates that it is out of the range of a plurality of base stations. Set one of the impossible out-of-service modes.
[0019]
The control unit (4) sets the out-of-service mode when the comparison between the first received electric field value and the reference electric field value is the first comparison result.
[0020]
The radio unit (1) receives one radio wave out of radio waves including second position information transmitted from a plurality of base stations, and a second received electric field value representing the strength of the radio wave received at the second time point And the second position information are output. When the comparison between the second received electric field value and the reference electric field value is the first comparison result, the control unit (4) sets a set count value before setting the out-of-service mode, and the first received electric field value, the reference electric field value, Is the second comparison result, and the comparison between the first position information and the second position information is the first position comparison result, the count value is compared with the set count value, and the count value and the set count are compared. The range mode is set based on the result of the comparison with the value.
[0021]
The set count value corresponds to a set time from setting the out-of-service mode to setting the in-service mode.
[0022]
As a result of the comparison between the count value and the set count value, the control unit (4) continues to set the out-of-service mode when the count value does not match the set count value, and within the range when the count value matches the set count value. Set the mode.
[0023]
The count value when the count value matches the set count value is a continuous value counted by the control unit (4) when the second comparison result and the first position comparison result.
[0024]
In the first comparison result, the first received electric field value or the second received electric field value is lower than the reference electric field value. The second comparison result is that the first received electric field value or the second received electric field value is greater than or equal to the reference electric field value. In the first position comparison result, the first position information matches the second position information.
[0025]
In the first comparison result, the first received electric field value or the second received electric field value is less than or equal to the reference electric field value. In the second comparison result, the first received electric field value or the second received electric field value is higher than the reference electric field value. In the first position comparison result, the first position information matches the second position information.
[0026]
When the comparison between the first received electric field value and the reference electric field value is the second comparison result and the comparison between the first position information and the second position information is the second position comparison result, the control unit (4) Set. In this case, the first position information does not match the second position information in the second position comparison result.
[0027]
The wireless telephone of the present invention further includes a rechargeable battery (not shown) serving as a power source. The radio telephone according to the present invention is based on the result of comparison between the received electric field value and the reference electric field value and the result of comparison between the first position information and the second position information. Is set, and the in-range mode and the out-of-range mode are not repeated near the boundary between the in-range and out-of-range, so that the power of the rechargeable battery is not wasted. As a result, the wireless telephone of the present invention can reduce waste of power of the rechargeable battery by repeating the standby mode and the out-of-service mode near the boundary between the in-service area and the out-of-service area. Moreover, the wireless telephone of this invention can lengthen the use time of the wireless telephone of this invention by reducing the waste of the electric power of a rechargeable battery.
[0028]
In the range determination method for a wireless telephone of the present invention, (a) one of the radio waves including the first position information transmitted from a plurality of base stations is received at a first time, and is received at the first time Outputting a first received electric field value indicating the strength of radio waves and first position information indicating position information at a first time point; and (b) comparing the first received electric field value with a reference electric field value. (C) comparing the first position information with the second position information indicating the position information at the second time point before the first time point; and (d) comparing the first received electric field value with the reference electric field value. And the comparison result between the first position information and the second position information indicate that it is within a range of a plurality of base stations, and within the range of a plurality of base stations, And setting one of the out-of-service modes incapable of calling. .
[0029]
In step (a), (e) one of the radio waves including the second position information transmitted from a plurality of base stations is received at the second time point, and the strength of the radio wave received at the second time point A step of outputting a second received electric field value representing the second position information and the second received electric field value. The step (d) includes (f) setting a set count value when the comparison between the second received electric field value and the reference electric field value is the first comparison result and setting the out-of-service mode, and (g) first receiving A step of counting when the comparison between the electric field value and the reference electric field value is the second comparison result, and the comparison between the first position information and the second position information is the first position comparison result; and (h) a count value and setting A step of comparing the count value; and (i) a step of setting the coverage area mode based on a result of the comparison between the count value and the set count value.
[0030]
In the wireless telephone range determination method of the present invention, the set count value corresponds to a set time from setting the out-of-service mode to setting the within-range mode.
[0031]
The step (i) includes (j) a step of continuing the setting of the out-of-service mode when the count value does not match the set count value by comparing the count value with the set count value, and (k) the count value and the set count value. And the step of setting the coverage area mode when the count value matches the set count value.
[0032]
In the wireless telephone range determination method of the present invention, the count value when the count value matches the set count value in step (k) is the continuous value counted in step (g).
[0033]
In the wireless telephone range determination method of the present invention, the first comparison electric field value or the second reception electric field value is lower than the reference electric field value as the first comparison result. The second comparison result is that the first received electric field value or the second received electric field value is greater than or equal to the reference electric field value. In the first position comparison result, the first position information matches the second position information.
[0034]
In the wireless telephone range determination method of the present invention, the first comparison electric field value or the second reception electric field value is less than or equal to the reference electric field value as the first comparison result. In the second comparison result, the first received electric field value or the second received electric field value is higher than the reference electric field value. In the first position comparison result, the first position information matches the second position information.
[0035]
In step (d), (1) the comparison between the first received electric field value and the reference electric field value is the second comparison result, and the comparison between the first position information and the second position information is the second position comparison result. A step of setting a time zone mode. In this case, the first position information does not match the second position information in the second position comparison result.
[0036]
Thereby, the range determination method of the radio telephone according to the present invention can reduce the waste of the power of the rechargeable battery due to repeating the standby mode and the out-of-range mode near the boundary between the within-range and the out-of-range. Moreover, the range determination method of the wireless telephone of the present invention can extend the usable time of the wireless telephone of the present invention by reducing the waste of power of the rechargeable battery.
[0037]
DETAILED DESCRIPTION OF THE INVENTION
With reference to the accompanying drawings, an embodiment of a wireless telephone and a method of determining a range thereof according to the present invention will be described below. FIG. 1 is a block diagram showing a configuration of a wireless telephone according to the present invention.
[0038]
The radio telephone (slave unit) 10 of the present invention is connected to a plurality of radio base stations (base units) connected to a public line via a time division multiplex radio transmission path. The radio telephone 10 can transmit and receive radio waves (channel data) to and from a plurality of radio base stations via a time division multiplex radio transmission path. As shown in FIG. 1, the radio telephone 10 includes a radio unit 1 having an antenna, a baseband unit 2, a transmission / reception unit 3, a control unit 4, an operation unit (operation key) 5, and a notification unit 6. And a storage unit 7. The radio telephone 10 further includes a rechargeable battery (not shown) serving as a power source, and can be turned on and off by the operation unit 5. A wireless unit 1, a baseband unit 2, an operation unit 5, a notification unit 6, and a storage unit 7 are connected to the control unit 4. The baseband unit 2 and the transmission / reception unit 3 are connected.
[0039]
The transmitter / receiver unit 3 includes a transmitter unit 11 and a receiver unit 12. The notification unit 6 includes an LCD display unit 13 that displays as an image in order to notify an incoming call from the caller, and a sounder 14 that outputs a notification sound to notify the incoming call from the caller. The storage unit 7 includes a reference electric field value storage unit 15 and a position information storage unit 16.
[0040]
The plurality of radio base stations and the radio telephone 10 transmit / receive radio waves (channel data) having a unique word (synchronization signal), audio data, and a frame including control data used for control for transmitting audio data. The radio unit 1 of the radio telephone 10 receives one radio wave among radio waves transmitted from a plurality of radio base stations. Here, the one radio wave described above is a radio wave transmitted from one radio base station among a plurality of radio base stations.
[0041]
In the zone mode (standby mode), the radio unit 1 transmits and receives radio waves to and from a plurality of radio base stations via a time division multiplex radio transmission path. The stand-by mode indicates that it is within a range of a plurality of radio base stations (one radio base station among them), and the radio telephone 10 makes a call via one radio base station among the plurality of radio base stations. This is a mode in which a user can talk (can talk).
[0042]
In the out-of-service mode, the radio unit 1 receives radio waves at a predetermined cycle (every X seconds (X is an integer)) with a plurality of radio base stations through a time division multiplex radio transmission path. The out-of-service mode indicates that the plurality of wireless base stations are out of the service area, and is a mode in which a telephone call cannot be made through one wireless base station among the plurality of wireless base stations (a call cannot be made). . Further, the out-of-service mode means that the radio unit 1 receives radio waves at a predetermined cycle, so that the radio telephone 10 searches for a plurality of radio base stations (one radio base station) every X seconds. In addition, this is a mode in which the power consumption of the radio telephone 10 can be suppressed compared to the standby mode.
[0043]
In the case of radio wave reception, the radio unit 1 receives a radio wave having a frame including a unique word, audio data, and control data from one radio base station among a plurality of radio base stations via an antenna. The unique word contained in is extracted and the frames are synchronized. At the same time, the radio unit 1 cancels scrambling of the audio data and control data included in the frame, outputs the audio data to the baseband unit 2, and outputs the control data to the control unit 4. At the same time, the radio unit 1 receives radio waves from one radio base station among a plurality of radio base stations at a first time point, and controls a received electric field value indicating the strength of the radio wave received at the first time point. Output to part 4. In the case of radio wave reception, the voice data includes ADPCM sender voice data indicating the voice of the caller sent to the user who uses the radio telephone 10. Further, the control data includes a caller telephone number from the caller and a radio base station ID of one radio base station as a first position information of the radio telephone 10. The first position information indicates position information at the first time point.
[0044]
In the case of radio wave transmission, the wireless unit 1 adds control data output from the control unit 4 to the audio data output from the baseband unit 2 and adds a unique word (synchronization signal) after being scrambled. Then, a radio wave having a frame including a unique word, voice data, and control data is transmitted to one of the plurality of radio base stations via the antenna. In the case of radio wave transmission, ADPCM user voice data indicating the voice of the user who uses the radio telephone 10 is included. The control data includes a user telephone number by the user and a radio base station ID of one radio base station among a plurality of radio base stations.
[0045]
The reference electric field value storage unit 15 of the storage unit 7 stores in advance a reference electric field value indicating the area level of the radio base station.
[0046]
The location information storage unit 16 of the storage unit 7 indicates location information when the radio unit 1 receives radio waves from one of the plurality of radio base stations before the first time point (second time point). Second position information is stored.
[0047]
In the case of radio wave reception, the control unit 4 inputs the received electric field value and the first position information included in the control data from the radio unit 1, and receives the received electric field value and the reference electric field value storage unit 15. The electric field value is compared, and the first position information is compared with the second position information stored in the position information storage unit 16. The control unit 4 determines one of the standby mode and the out-of-service mode based on the comparison result between the received electric field value and the reference electric field value and the comparison result between the first position information and the second position information. Set. Here, in the case of radio wave transmission, the control unit 4 outputs the first position information (the radio base station ID of one radio base station among a plurality of radio base stations) to the radio unit 1.
[0048]
In the case of reception of radio waves, the control unit 4 outputs the first position information to the position information storage unit 16 in order to update the second position information after setting one of the standby mode and the out-of-service mode. To do. The position information storage unit 16 updates and stores the first position information output from the control unit 4 as second position information.
[0049]
The operation unit 5 is operated by a user, and the user sets an operation mode using the operation unit 5. The operation mode of the wireless telephone 10 by the operation unit 5 includes a mode for making a call by inputting the other party's telephone number by operating the operation unit 5 when the wireless telephone 10 is in a standby mode, and an operation of the operation unit 5 at the time of an incoming call. There are a mode for answering a call and a mode for making a call and a mode for answering a call.
[0050]
In the mode for making a call and the mode for answering a call, the operation unit 5 causes a control unit to transmit a transmission / reception start signal for starting transmission / reception between the user and the other party (including the above-described caller) by the operation of the user. 4 is output. In the mode for making a call, the operation unit 5 outputs the other party's telephone number to the control unit 4 by a user operation. In the mode to hang up the telephone, the operation unit 5 outputs a transmission / reception end signal for ending transmission / reception between the user and the other party to the control unit 4 by the user's operation. The controller 4 decodes and encodes the voice data until the transmission / reception end signal is input until the transmission / reception start signal is input, and the digital / analog (D / A), analog / digital (A / D) The baseband unit 2 is controlled to perform conversion.
[0051]
When receiving a call, the control unit 4 acquires the caller telephone number included in the control data from the wireless unit 1 to recognize that the call is incoming, and outputs the caller telephone number to the notification unit 6. The LCD display unit 13 of the notification unit 6 displays the caller telephone number from the control unit 4 when receiving a call. The sounder 14 of the notification unit 6 outputs a notification sound based on the caller telephone number from the control unit 4. Here, when the operation unit 5 is operated by the user at the time of an incoming call, the radio telephone 10 shifts to a mode for answering a call.
[0052]
The baseband unit 2 decompresses the ADPCM caller voice data included in the voice data output from the radio unit 1 by decoding it into PCM caller voice data, D / A converts the PCM caller voice data, The data is output to the receiver 12 as analog voice data indicating the voice of the caller. The receiver 12 outputs the caller's voice using analog voice data.
[0053]
When the operation unit 5 is operated by the user and the mode is changed to a mode for making a call, the transmission unit 11 of the transmission / reception unit 3 inputs the voice of the user who uses the wireless telephone 10 and outputs it to the baseband unit 2 To do. The baseband unit 2 A / D converts analog voice data indicating the user's voice output from the transmitter 11 into PCM user voice data, and encodes the PCM user voice data into ADPCM user voice data. Thus, the data is compressed and output to the wireless unit 1 as audio data including ADPCM user audio data.
[0054]
Next, referring to FIG. 2, the wireless telephone 10 that sets the standby mode in the area, sets the out-of-range mode outside the area, and reliably sets one of the standby mode and the out-of-range mode near the boundary between the area and the outside. explain. Even in places where there are many wireless base stations in the urban area, the radio waves transmitted from multiple wireless base stations (one of these wireless base stations) can be used as a place behind a building or underground mall in the urban area. When the radio telephone 10 receives the received electric field value, the received electric field value may be locally lower than the in-zone level or may return to the normal received electric field value or more. Such a location corresponds to the vicinity of the boundary between the range and the outside of the radio base station.
[0055]
FIG. 2 is a system diagram showing an embodiment of the wireless telephone of the present invention. The radio base station 20 is connected to a public line. The radio base station 20 corresponds to one radio base station among the plurality of radio base stations described above.
[0056]
As shown in FIG. 2, the radio base station 20 exists in the first range 101. The first range 101 indicates the range of the radio base station 20, and the radio telephone 10 in the first range 101 can make a call via the radio base station 20 (can talk). In this case, the received electric field value received at the first time by the receiving unit 1 of the radio telephone 10 indicates a value equal to or higher than the reference electric field value (range level), and the control unit 4 of the radio telephone 10 sets the standby mode.
[0057]
The second range 102 is a range obtained by removing the first range 101 from a range slightly larger than the first range 101. The area outside the second range 102 indicates that the radio base station 20 is out of range, and the radio telephone 10b outside the second range 102 cannot make a call via the radio base station 20 (cannot make a call). Here, the radio telephone 10b has the same configuration as the radio telephone 10. In this case, the received electric field value received by the receiving unit 1 of the radio telephone 10b is lower than the in-zone level, and the control unit 4 of the radio telephone 10b sets the out-of-service mode.
[0058]
In addition, the second range 102 indicates the vicinity of the boundary between the range and the outside of the radio base station 20, and the received electric field value received by the radio telephone 10a in the second range 102 may be a value equal to or higher than the range level depending on circumstances. The value is lower than the surrounding level. Here, the radio telephone 10a has the same configuration as the radio telephone 10. When the receiving unit 1 of the radio telephone 10a receives a received electric field value indicating a value lower than the in-zone level, the control unit 4 of the radio telephone 10a sets the out-of-service mode. In this case, the radio telephone 10 a cannot make a call via the radio base station 20.
[0059]
When the receiving unit 1 of the radio telephone 10a receives a received electric field value indicating a value equal to or higher than the range level, the control unit 4 of the radio telephone 10a determines that the first position information at the first time is a second time before the first time. If there is no change with respect to the second position information (if the first position information and the second position information match), the received electric field value successively received within the set time continuously exceeds the range level. When the standby mode is set. In this case, the radio telephone 10 a can make a call via the radio base station 20.
[0060]
In addition, when the receiving unit 1 of the radio telephone 10a receives a received electric field value indicating a value that is equal to or higher than the range level, the control unit 4 of the radio telephone 10a determines that the first position information has changed with respect to the second position information. (If the first position information and the second position information do not match), the radio telephone 10 moves and is within a range other than the radio base station 20 (one radio base station) among the plurality of radio base stations. Recognize and set standby mode. In this case, the radio telephone 10a can make a call via another radio base station.
[0061]
As described above, the radio telephone 10a (the radio telephone 10 of the present invention) is based on the comparison result between the received electric field value and the reference electric field value and the comparison result between the first position information and the second position information. One of the standby mode and the out-of-service mode is set, and the standby mode and the out-of-service mode are not repeated near the boundary between the in-service area and the out-of-service area, so that the power of the rechargeable battery is not wasted. Thereby, the radio telephone 10a (the radio telephone 10 of the present invention) can reduce the waste of the power of the rechargeable battery due to the repetition of the standby mode and the out-of-service mode near the boundary between the in-service area and the out-of-service area. In addition, the radio telephone 10a (the radio telephone 10 of the present invention) reduces the waste of power of the rechargeable battery provided in the radio telephone 10a (the radio telephone 10 of the present invention), thereby reducing the radio telephone 10a (the radio telephone of the present invention). The usable time of the telephone 10) can be increased.
[0062]
Next, an operation of setting one of the standby mode and the out-of-service mode by the control unit 4 of the radio telephone 10 will be described with reference to FIG. FIG. 3 is a flowchart showing the operation of the wireless telephone of the present invention.
[0063]
First, in the standby mode, the wireless unit 1 receives a radio wave having a frame including a unique word, audio data, and control data from the wireless base station 20 at a first time point, extracts a unique word included in the frame, and When the control data is output to the control unit 4, the standby mode is determined (step A1-NO), and the control unit 4 continues the standby mode (step A9). In this case, the radio telephone 10 can make a call via the radio base station 20.
[0064]
Next, in the standby mode, the radio unit 1 receives a radio wave having a frame including a unique word, voice data, and control data from the radio base station 20 at a first time point, synchronizes the frame, and the radio base station 20 When the received electric field value indicating the strength of the radio wave received at the first time point (current time) and the control data including the current current position information (corresponding to the first position information) are output to the control unit 4 The unit 4 acquires the current received electric field value and the current position information (step A10).
[0065]
Next, in the standby mode, the control unit 4 compares the current received electric field value with the reference electric field value (range level) stored in the reference electric field value storage unit 15 (step A11). In the standby mode, as a result of the comparison between the received electric field value and the in-service level, the control unit 4 determines that the current out-of-range electric field value is lower than the in-service level [first comparison result] out-of-service mode (step A11-NO). ), A set count value N (N is a positive number greater than or equal to 1) is set as the in-zone monitoring count of the radio base station 20 (step A2), an out-of-service mode is set (step A3), and the current position information is set as the previous position information. The data is output to the position information storage unit 16 for updating. In this case, the radio telephone 10 cannot make a call via the radio base station 20. On the other hand, in the standby mode, the control unit 4 determines that the standby mode is selected when the current received electric field value is equal to or higher than the range level as a result of the comparison between the received electric field value and the range level (second comparison result) (step A11). -YES), the set standby mode is continued, the current position information is output to the position information storage unit 16 to be updated as the previous position information, and the process returns to step A1.
[0066]
In the standby mode, when the radio unit 1 cannot receive the radio wave from the radio base station 20 and synchronize the frame, the control unit 4 synchronizes the frame by not outputting the control data from the radio unit 1. The out-of-service mode is detected by detecting a deviation (step A1-YES), the set count value N is set as the number of in-zone monitoring of the radio base station 20 (step A2), and the out-of-service mode is set (step A3). In this case, the radio telephone 10 cannot make a call via the radio base station 20.
[0067]
Next, in the out-of-service mode, the radio unit 1 receives a radio wave having a frame including a unique word, audio data, and control data from the radio base station 20 at a predetermined cycle, synchronizes the frames, and performs a predetermined cycle. When the received electric field value indicating the strength of the radio wave received at the first time (current time) and the control data including the current current position information (corresponding to the first position information) are output to the control unit 4 (wireless When searching for the base station 20, the control unit 4 acquires the current received electric field value and the current position information (step A4).
[0068]
Here, the current received electric field value acquired from the radio base station 20 via the radio unit 1 in step A4, the received electric field value acquired via the radio unit 1 from the radio base station 20 before the current position information. The current position information (for example, the received electric field value obtained in step A10 and passed through step A11-NO, the current position information) is transmitted from the radio base station 20 to the second time point (previous time point) before the current time point. , And the received electric field value indicating the strength of the radio wave received at the previous time point and the previous position information indicating the position information at the previous time point are output. This previous position information is stored in the position information storage unit 16. In this case, when the received electric field value at the previous time point is lower than the in-range level as a result of the comparison between the received electric field value at the previous time point and the in-zone level, the control unit 4 sets the set count (step A11-NO). The value N is set (step A2), the out-of-service mode is set (step A3), and the position information acquired in, for example, step A10 before the current time is output to the position information storage unit 16 as the previous position information, and the current reception is performed. An electric field value and current position information are acquired (step A4).
[0069]
In the out-of-service mode, the control unit 4 compares the current received electric field value with the reference electric field value (in-service level) stored in the reference electric field value storage unit 15 (step A5). When the received electric field value is lower than the in-range level as a result of the comparison between the current received electric field value and the in-area level, the control unit 4 determines that the out-of-range mode is set (step A5-NO), and sets it. Return to step A2 to continue the out-of-service mode. On the other hand, in the out-of-service mode, when the current received electric field value is equal to or higher than the in-service level as a result of the comparison between the current received electric field value and the in-service level, the control unit 4 (second comparison result) (step A5-YES). The current position information is compared with the previous position information (corresponding to the second position information) at the previous time point stored in the position information storage unit 16 (step A6).
[0070]
Next, in the out-of-service mode, when the control unit 4 matches the current position information and the previous position information [first position comparison result] (step A6-YES), the wireless telephone 10 is at the same position. Recognizing that the mobile phone is not moving (recognizing that the wireless telephone 10 is in the vicinity of the boundary between the wireless base station 20 and the outside of the wireless base station 20), counting the number of areas by 1 (steps A7 and A8), In order to update it as the previous position information, it is output to the position information storage unit 16, and the process returns to step A3.
[0071]
In the out-of-service mode, steps A3 to A8 are repeated, and in step A7, the control unit 4 compares the count value with the set count value N, and continues setting the out-of-service mode when the count value does not match the set count value. To do. On the other hand, in the out-of-service mode, when the control unit 4 continuously counts the number of service areas N times at step A8, the control unit 4 matches the count value (N times continuous count) with the set count value N at step A7. When it is determined, the standby mode is determined and the standby mode is set (step A9). The count value when the count value matches the set count value is a continuous value counted by the control unit 4 when the second comparison result and the first position comparison result are obtained by repeating steps A3 to A8. As described above, the set count value corresponds to the set time from the setting of the out-of-service mode to the setting of the in-service mode (the above-described setting time described in FIG. 2).
[0072]
In the out-of-service mode, when the user moves while repeating steps A3 to A8, the radio telephone 10 is other than the radio base station 20 (one radio base station) among the plurality of radio base stations. Move within the range of one radio base station. Here, in the out-of-service mode, the wireless unit 1 receives a radio wave having a frame including a unique word, voice data, and control data from another wireless base station at a predetermined period, and synchronizes the frame. The control unit includes a received electric field value representing the strength of the radio wave received from the one wireless base station at the first time point (current time) and control data including the current current position information (other one wireless base station). 4 (when another one radio base station is searched), the control unit 4 acquires the current received electric field value and the current position information (step A4).
[0073]
Here, before the current received electric field value and current position information acquired from another wireless base station through the wireless unit 1 in step A4, the wireless unit 1 is connected from the wireless base station 20 in step A4 described above. The received electric field value and the current position information acquired via the radio unit 1 are received electric field values representing the strength of the electric wave received from the radio base station 20 at the previous time point before the current time point. This corresponds to the reception electric field value and the previous position information at the previous time when the previous position information indicating the position information at the previous time is output. The previous position information (wireless base station 20) is stored in the position information storage unit 16.
[0074]
Next, in the out-of-service mode, the control unit 4 compares the current received electric field value with the reference electric field value (area level) stored in the reference electric field value storage unit 15 so that the received electric field value is equal to or higher than the area level. When [second comparison result] (step A5-YES), comparison between the current position information (one other radio base station) and the previous position information (radio base station 20) stored in the position information storage unit 16 As a result, the current position information (another one radio base station) and the previous position information (radio base station 20) do not match [second position comparison result] (step A6-NO). The wireless base station is recognized as a wireless base station other than the wireless base station 20 (one wireless base station) (determined as the standby mode), and the standby mode is set (step A9). In this case, the radio telephone 10 can make a call via another radio base station.
[0075]
As described above, when the comparison between the received electric field value at the previous time point and the out-of-service mode is the first comparison result, the control unit 4 sets the set count value N before setting the out-of-service mode, When the comparison with the mode is the second comparison result and the comparison between the current position information and the previous position information is the first position comparison result, the count is performed, the count value is compared with the set count value N, and the count value is set. As a result of the comparison with the count value N, the setting of the out-of-service mode is continued when the count value does not match the set count value, and the standby mode is set when the count value matches the set count value. The control unit 4 sets the standby mode when the comparison between the current received electric field value and the out-of-service mode is the second comparison result, and the comparison between the current position information and the previous position information is the second position comparison result. . Here, in the first comparison result, the current received electric field value (or the previous received electric field value) is lower than the reference electric field value. The second comparison result indicates that the current received electric field value (or the received electric field value at the previous time) is equal to or greater than the reference electric field value. In the first position comparison result, the first position information matches the second position information. In the second position comparison result, the first position information and the second position information do not match.
[0076]
Thereby, the radio telephone 10 can reliably set one of the in-range mode and the out-of-range mode in the vicinity of the boundary between the in-range and the out-of-range. In addition, the wireless telephone 10 reliably sets one of the standby mode and the out-of-service mode in the vicinity of the boundary between the service area and the service area, thereby reducing power consumption of the rechargeable battery provided in the service telephone 10. Ten usable times can be increased.
[0077]
The first comparison result and the second comparison result are not limited to the above description. As the first comparison result, the current reception electric field value (or the reception electric field value at the previous time) is equal to or lower than the reference electric field value, As a comparison result, the current received electric field value (or the previous received electric field value) may be higher than the reference electric field value.
[0078]
As described above, according to the wireless telephone of the present invention, it is possible to reduce waste of power due to repeating the in-range mode and the out-of-range mode in the vicinity of the boundary between the in-range and the out-of-range.
[0079]
Further, according to the wireless telephone of the present invention, the usable time can be extended by reducing the waste of power.
[0080]
In addition, according to the wireless telephone of the present invention, it is possible to reliably set one of the in-range mode and the out-of-range mode in the vicinity of the boundary between the in-range and the out-of-range.
[0081]
In addition, according to the wireless telephone of the present invention, it is possible to reduce the waste of power and lengthen the usable time by reliably setting one of the in-range mode and out-of-range mode near the boundary between the in-range and out-of-range. it can.
[0082]
【The invention's effect】
The wireless telephone according to the present invention can reduce waste of power caused by repeating the in-range mode and the out-of-range mode near the boundary between the in-range and the out-of-range.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration of a wireless telephone according to the present invention.
FIG. 2 is a system diagram showing an embodiment of a radiotelephone of the present invention.
FIG. 3 is a flowchart showing the operation of the wireless telephone of the present invention.
[Explanation of symbols]
1 Radio section
2 Baseband part
3 Transceiver
4 Control unit
5 Operation part (operation keys)
6 Notification Department
7 Memory part
10 Wireless telephone
11 Sending part
12 Receiver
13 LCD display
14 Sounder
15 Reference electric field value storage unit
16 Location information storage unit
20 radio base stations
101 1st range
102 2nd range

Claims (8)

A previous received electric field value representing the strength of the radio wave received at the previous time point, receiving one of the radio waves including the previous position information transmitted from a plurality of base stations at a previous time point before the current time point; The previous position information is output, one of the radio waves including the current position information transmitted from a plurality of base stations is received at the current time, and the current reception indicating the strength of the radio wave received at the current time A radio unit that outputs an electric field value and the current position information indicating the current position information;
A storage unit for storing a reference electric field value and the previous position information;
A set count value is set when the current reception electric field value is lower than the reference electric field value, the current reception electric field value is equal to or greater than the reference electric field value, and the current position information and the previous position information match. Is counted, and based on the result of the comparison between the count value and the set count value, indicates that it is within the range of the plurality of base stations. A wireless telephone including a control unit that sets one of a non-service mode and a non-service mode indicating that the call is out of service. The radio telephone according to claim 1,
The controller is
When the current electric field value is lower than the reference electric field value, the set count value is set,
Set the out-of-service mode when setting the set count value,
The current reception electric field value is equal to or greater than the reference electric field value, and the current position information and the previous position information match when counting.
A wireless telephone that sets the in-range mode or the out-of-range mode based on a result of comparison between the count value and the set count value. The radio telephone according to claim 2,
The controller is
Prior SL close mode, setting the set count value when the the current received field value lower than the reference electric field value,
Set the out-of-service mode when setting the set count value,
The current reception electric field value is equal to or greater than the reference electric field value, and the current position information and the previous position information match when counting.
If the count value does not match the set count value, continue the out-of-service mode,
A radio telephone that sets the coverage mode when the count value matches the set count value. In the radio telephone according to claim 2 or 3,
The set count value is a radio telephone corresponding to a set time from setting the out-of-service mode to setting the in-service mode. (A) Previous reception of the strength of the radio wave received at the previous time point by receiving one of the radio waves including the previous position information transmitted from a plurality of base stations at the previous time point before the current time point Obtaining an electric field value and the previous position information;
(B) One of the radio waves including the current position information transmitted from a plurality of base stations is received at the current time, and the current received electric field value indicating the strength of the radio wave received at the current time, and the current time Obtaining the current position information indicating the position information;
(C) setting a set count value when the current received electric field value is lower than the reference electric field value;
(D) counting when the current received electric field value is equal to or greater than the reference electric field value, and the current position information and the previous position information match;
(E) Based on the result of comparison between the count value and the set count value, it indicates that it is within the range of the plurality of base stations, and is within the range of the plurality of base stations and within the range of the plurality of base stations A range determination method for a wireless telephone, comprising the step of: setting a mode out of an out-of-service mode incapable of calling. In the range determination method of the radio telephone according to claim 5 ,
(F) A wireless phone coverage area determining method further comprising the step of setting the out-of-service mode when the set count value is set. In the range determination method of the radio telephone according to claim 6 ,
Step before Symbol (c) is,
In the coverage area mode , when the current received electric field value is lower than the reference electric field value, the set count value is set ,
The step (d) is performed after the steps (c) and (f).
In the out-of-service mode, including the step of counting when the current received electric field value is equal to or greater than the reference electric field value, and the current position information and the previous position information match,
The step (e)
If the count value does not match the set count value, continuing the out-of-service mode;
When the count value and the set count value match, setting the range mode;
A method for determining the area of a wireless telephone. In the range determination method of the radio telephone according to claim 6 or 7 ,
The set count value is a range determination method of a radio telephone corresponding to a set time from setting the out-of-service mode to setting the in-service mode.

Images