JP3608447B2 - Channel assignment method and connection control station - Google Patents

Description

[0001]
[Technical field to which the invention belongs]
The present invention relates to a channel assignment method and a connection control station when a base station and a plurality of telephone terminal stations communicate via multiple lines, and are suitable for application to a cellular system.
[0002]
[Prior art]
There are a base station and a plurality of mobile phone systems known as analog cellular systems and digital cellular systems, wireless telephone systems such as PDC (Personal Digital Cellular telecommunication system), and simple mobile phone systems (PHS). The telephone terminal stations communicate with each other via a time-division multiplexed (TDMA) wireless line. The base station is assigned a band of a specific frequency that does not cause interference with an adjacent base station, and a plurality of telephone terminals are configured as a plurality of time division multiplexed (TDMA) lines. The station and the base station can communicate with each other.
[0003]
A conventional mode of channel assignment when a base station and a mobile phone as a telephone terminal station communicate will be described with reference to FIG. FIG. 8 shows a time-division transmission / reception channel assigned to each mobile phone when the base station communicates with the mobile phones 1a to 1c, and a time-division transmission / reception channel used by the base station. An embodiment is shown.
The transmission (downlink) channel from the base station to the mobile phone and the reception (uplink) channel from the mobile phone of the base station are time-divided into four channels of CH1 to CH4. Yes. For example, when three mobile phones 1a, 1b, and 1c are communicating with a base station, CH1 is assigned to the mobile phone 1a, and the CH1 downlink channel is used for transmission to the mobile phone 1a. Is assigned to reception from the mobile phone 1a, CH2 is assigned to the mobile phone 1b, the downstream channel of CH2 is assigned to transmission to the mobile phone 1b, and the upstream channel of CH2 is assigned to reception from the mobile phone 1b. CH3 is assigned to 1c, and the downlink channel of CH3 is assigned to transmission to the mobile phone 1c, and the uplink channel of CH3 is assigned to reception from the mobile phone 1c. That is, as shown in the figure, the mobile phone 1a can transmit and receive with the base station by CH1, the mobile phone 1b can transmit and receive with the base station and CH2, and the mobile phone 1c can transmit and receive with the base station and CH3. It becomes like this.
[0004]
[Problems to be solved by the invention]
As described above, in the conventional cellular system, when a mobile phone communicates, one channel composed of an upstream channel and a downstream channel is assigned to each mobile phone for communication. For this reason, if the number of multiplexed lines between the base station and the mobile phone is 4 channels as shown in FIG. 8, when the number of mobile phones requesting communication exceeds 4, the excess mobile phone is You will not be able to communicate with the station. That is, there is a problem that call loss occurs. In particular, the distribution of information such as weather forecasts and news and the distribution of data such as music data for incoming melody has been actively performed recently, and the frequency of call loss has increased.
[0005]
SUMMARY OF THE INVENTION An object of the present invention is to provide a channel assignment method and a connection control station that can efficiently transmit data by improving the line utilization rate.
[0006]
[Means for Solving the Problems]
In order to achieve the above object, a channel allocation method according to the present invention provides channel allocation in a telephone network comprising a plurality of telephone terminal stations and a connection control station that controls connection of the telephone terminal stations connected via multiple lines. When a connection request for the same content request is received from two or more telephone terminal stations within a predetermined time, one channel of the multiple lines is provided.Down channelAnd the two or more telephone terminal stations are connected to the connection control station, and the content data is simultaneously transmitted from the connection control station to the two or more telephone terminal stations by the allocated one downlink channel. IsThe uplink channel of one channel is sequentially assigned to the two or more telephone terminal stations receiving on the assigned downlink channel of the assigned channel every period which is an integral multiple of the frame of the multiplexed line. Have.
[0007]
Another channel allocation method of the present invention that can achieve the above object is a telephone comprising a plurality of telephone terminal stations and a connection control station that performs connection control of the telephone terminal stations connected via multiple lines. A channel allocation method in a network, wherein when a connection request for a content request is made from a telephone terminal station, one channel of the multiple linesDown channelIs assigned to the telephone terminal station and the connection control station, and the content data is transmitted from the connection control station to the telephone terminal station through the allocated one downlink channel, and the content data is transmitted to the telephone terminal station. The one channel assigned to the telephone terminal station when a connection request for the same content as the content is received from another telephone terminal station during transmissionDown channelIs assigned to the other telephone terminal station, the telephone terminal station and the other telephone terminal station are connected to the connection control station, and the content data is transmitted by the assigned one downlink channel. Simultaneously transmitted from the connection control station to the telephone terminal station and the other telephone terminal stationA one-channel uplink channel is sequentially allocated to the telephone terminal station and the other telephone terminal station that are receiving on the allocated one-channel downlink channel every cycle that is an integral multiple of the frame of the multiple line. Have been.
[0008]
Furthermore, in the channel allocation method of the present invention, after the transmission of the content data to the telephone terminal station is completed, the remaining data of the content is transmitted to the other telephone terminal station. Also good.
[0009]
The connection control station of the present invention that can achieve the above object is a connection control station that performs connection control of a plurality of telephone terminal stations connected via multiple lines, and the connection control station receives from the telephone terminal station Determining whether the request signal is a normal call request or a content request and outputting channel assignment information according to the request, and according to the channel assignment information from the connection request signal detection means, A channel allocating means for allocating a channel of the multiplex line to the telephone terminal station that has issued the connection request signal; and a control means for controlling connection with the upper line, wherein the connection request signal detecting means comprises: When a connection request for the same content request is detected from two or more telephone terminal stations within a predetermined time, the connection request signal detecting means In accordance with the output channel-allocation information, one channel of said channel assignment means of said multi-lineDown channelIs assigned to the two or more telephone terminal stationsIn addition, one or more uplink channels are sequentially assigned to the two or more telephone terminal stations to which the one downlink channel is assigned at every cycle that is an integral multiple of the frame of the multiple line.The requested content data fetched from the upper line by the control means is simultaneously transmitted to the two or more telephone terminal stations via the assigned one-channel downlink channel.
[0010]
Further, another connection control station of the present invention capable of achieving the above object is a connection control station for controlling connection of a plurality of telephone terminal stations connected via multiple lines, wherein the telephone terminal station A connection request signal detecting means for judging whether the connection request signal received from the terminal is a normal call request or a content request, and outputting channel assignment information according to the request, and channel assignment from the connection request signal detecting means Channel connection means for allocating a channel of the multiplex line with the telephone terminal station that has issued the connection request signal according to the information, and a control means for controlling connection with the upper line, the connection request In accordance with the channel assignment information output when the signal detection means detects a connection request for a content request from the telephone terminal station, 1 channel assignment means of said multi-lineDown channelIs assigned to the telephone terminal station, and the requested data of the content fetched from the upper line by the control means is transmitted to the telephone terminal station via the assigned one-channel downlink channel. When the connection request signal detecting means detects a connection request for the same content request as the content from another telephone terminal station during transmission of the content data, the connection request signal detecting means In accordance with the output channel assignment information, the one channel assigned by the channel assignment means to the telephone terminal stationDown channelIs assigned to the other telephone terminal station, and the requested data of the content fetched from the upper line by the control means is transmitted to the telephone terminal station and the other telephone by the assigned downlink channel. To transmit to the terminal station at the same timeThe channel allocating unit sequentially allocates one channel of the uplink channel to the telephone terminal station and the other telephone terminal station to which the one channel of the downlink channel is allocated in every cycle that is an integral multiple of the frame of the multiple line.I am doing so.
Further, in the connection control station of the present invention, after the transmission of the content data to the telephone terminal station is completed, the remaining data of the content is transmitted to the other telephone terminal station. Also good.
[0011]
According to the present invention, when the same content data is transmitted to two or more telephone terminal stations, one downlink channel is allocated and simultaneously transmitted to two or more telephone terminal stations. Data can be transmitted by connecting two or more telephone terminal stations and a base station which is a connection control station through a channel. As a result, the line utilization rate can be improved and the occurrence of call loss can be prevented as much as possible.
According to another aspect of the present invention, when a request for the same content occurs during transmission of the content data, one downlink channel is assigned to all requested telephone terminal stations and the same content data is transmitted. To transmit. For this reason, data can be transmitted by connecting two or more telephone terminal stations and a base station as a connection control station through one channel, so that the line utilization rate can be improved and call loss occurs. Can be prevented as much as possible.
[0012]
Further, the uplink channel assigned to the telephone terminal station at the time of requesting content is assigned to the telephone terminal station sequentially every period which is an integral multiple of the frame period. Alternatively, the uplink channel of the allocated channel is time-divided, and each divided channel is allocated to all the telephone terminal stations that have requested it. In this way, even if a low-speed uplink channel is assigned, the data transmitted from the telephone terminal station can be transmitted sufficiently because the request change is the main data.
[0013]
DETAILED DESCRIPTION OF THE INVENTION
A schematic configuration of a cellular system to which the channel allocation method of the present invention can be applied is shown in FIG.
A cellular system generally employs a small zone method, and a large number of wireless zones are arranged in a service area. It is the base station that manages each of these radio zones, and when a mobile phone that is a mobile station makes a call with a general phone, the mobile switching center via the base station that manages the radio zone to which the mobile phone belongs Connected to the general telephone network from the mobile switching center. As a result, the mobile phone can make a call with another phone by being connected to the base station managing each radio zone via the radio line.
[0014]
An example of such a cellular system is shown in FIG. 1, in which mobile phones 1a to 1d are shown to belong to a wireless zone managed by base station 2c among base stations 2a to 2d. Yes. The cellular phones 1a to 1d and the base station 2c are connected by a time-division multiplexed (TDMA) wireless line, and an uplink signal when performing a call or location registration transmitted from the cellular phones 1a to 1d. Are received and processed by the base station 2c. In addition, a call signal from the other party's telephone terminal station, which is a downlink signal transmitted from the base station 2c, and data for download are received by the source mobile phones 1a to 1d. The base station 2a to the base station 2d manage different radio zones, but the peripheral edges of the radio zones may overlap each other. The base stations 2a to 2d are connected to the mobile switching center 3 through multiplexed lines, and the plurality of mobile switching centers 3 are concentrated at the gateway switching center 4 and connected to the general telephone switching center 5a. A plurality of gateway exchanges 4 are connected to each other via a relay transmission path. The general telephone exchanges 5a, 5b, 5c,... Are installed in each area, and the general telephone exchanges 5a, 5b, 5c,. A number of general telephones are connected to each of the general telephone exchanges 5a, 5b, 5c..., For example, a download center 6 and a content distribution center 7 are connected to the general telephone exchange 5a.
[0015]
The download center 6 is provided with a music database (music DB) in which new music is added at any time and a large number of music data is stored. In the present invention, the download center 6 is connected to the general telephone network from the mobile phone. Music data can be downloaded to the telephones 1a to 1d and other telephone terminal stations. In addition, the content distribution center 7 stores the latest weather forecasts and news that are updated as needed, and these contents are transferred from the content distribution center 7 connected to the general telephone network to the mobile phones 1a to 1d, It can be distributed to other telephone terminal stations.
For example, when the mobile phone 1a downloads music data, the mobile phone 1a calls the telephone number of the download center 6. Accordingly, the route between the download center 6 and the mobile phone 1 is the route of the mobile phone 1a-base station 2c-mobile switching center 3-gateway switching center 4-general telephone switching center 5b-general telephone switching center 5a-download center 6. Is connected. Next, the cellular phone 1a can download music data of a desired music title from the music DB by operating a dial button or the like according to a menu displayed on the display. In this case, the music data is composed of musical score data and tone color data. Further, weather forecasts and news can be distributed from the content distribution center 7 to the mobile phone 1a by the same method as described above.
[0016]
The cellular phones 1a to 1d shown in FIG. 1 have the same configuration, and an example of the configuration is shown in FIG.
In FIG. 2, the cellular phone 1 includes an antenna 25 that is generally made retractable, and the antenna 25 is connected to a communication unit 13 having a modulation / demodulation function. A central processing unit (CPU) 10 for the system is a system control unit that controls the operation of each unit of the mobile phone 1 by executing a telephone function program, and indicates an elapsed time during the operation or specifies a specific time. A timer that generates a timer interrupt at the time interval is provided. The RAM 11 is a RAM (Random Access Memory) in which a music data storage area composed of musical score data and tone color data downloaded from the download center 6, a user setting data storage area, a work area of the CPU 10, and the like are set. The ROM 12 is a ROM (Read Only Memory) in which programs such as various telephone function programs for transmission and reception executed by the CPU 10 and various data such as preset musical score data and tone color data are stored.
[0017]
The communication unit 13 demodulates a signal transmitted from the base station 2 and received by the antenna 25, modulates a signal to be transmitted toward the base station 2, and transmits the modulated signal from the antenna 25. The received signal demodulated by the communication unit 13 is decoded by a voice processing unit (coder / decoder) 14, and the transmission signal input from the microphone 21 is compressed and encoded by the voice processing unit 14. The voice processing unit 14 performs high-efficiency compression encoding / decoding of voice for transmission, and is, for example, a CELP (Code Excited LPC) system or ADPCM (Adaptive Differential PCM Coding) coder / decoder. The music reproduction unit 15 emits the reception signal from the audio processing unit 14 from the reception speaker 22 or reproduces the music data and outputs it as a ring tone / holding tone. Note that the ring tone is emitted from the incoming speaker 23, and the hold tone is emitted from the incoming speaker 22.
[0018]
Further, when the music reproducing unit 15 reproduces the music data, the CPU 10 reads out the music data stored in the RAM 11 or the ROM 12 and transfers it to the music reproducing unit 15. The interface (I / F) 16 is an interface for downloading music data composed of musical score data and timbre data from an external device 20 such as a personal computer. The input unit 17 is an input unit that includes a numeric keypad “0” to “9”, a jog dial, and the like provided in the mobile phone 1. The display unit 18 is a display that displays a menu corresponding to a telephone function or a button operation such as a numeric keypad or jog dial. The vibrator 19 is a vibrator that informs the user of an incoming call by vibrating the main body of the mobile phone 1 instead of a ringtone when receiving an incoming call. Each functional block exchanges data and commands via the bus 24.
[0019]
Next, a first embodiment of the channel assignment method of the present invention executed in the cellular system shown in FIG. 1 will be described with reference to FIG.
FIG. 3 shows time-division transmission / reception channels assigned to each mobile phone when the base station 2c and the mobile phones 1a to 1d shown in FIG. 1 communicate with each other, and time division used by the base station 2c. An aspect of the transmitted / received channel is shown. FIG. 3 shows channel assignment when the time-division multiplexed radio line between the base station 2c and the mobile phones 1a to 1d is configured with 4 channels, and 1 frame is 4 channels. . That is, the transmission (downlink) channel from the base station 2c to the mobile phones 1a to 1d and the receive (uplink) channel from the mobile phones 1a to 1d of the base station 2c are time-divided into four frames. 4 channels of CH1 to CH4. FIG. 3 shows that three mobile phones 1a, 1b, and 1c are communicating with the base station 2c and requesting and downloading the same music data from the download center 6, or the same data from the content distribution center 7. The channel assignment when the request is made and the data is distributed is shown.
[0020]
In this way, when requesting data of the same content (hereinafter, the content also includes music data) and transferring the data, the downlink channel CH1 in the base station 2c is shared as shown in the figure. CH1 (subchannel 1) assigned as a transmission channel to the three mobile phones 1a to 1c, and frame 1 every four frame periods of the uplink channel₁) Is assigned to the transmission channel from the mobile phone 1a to the base station 2c, and CH1 (subchannel 1) of frame 2 every four frame periods of the uplink channel.₂) Is assigned to the transmission channel from the mobile phone 1b to the base station 2c, and CH1 (subchannel 1) of frame 3 every four frame periods of the uplink channel.₃) Is assigned to the transmission channel from the mobile phone 1c to the base station 2c.
[0021]
That is, as shown in the figure, the three mobile phones 1a to 1c and the base station 2c share CH1 of the four multiplexed channels, so that the base station 2c transmits the same content data on the downstream channel. doing. The three mobile phones 1a to 1c can receive the same content data transmitted from the base station 2c by receiving the assigned CH1. Then, the three mobile phones 1a to 1c have sub-channel 1 of uplink CH1 every four frame periods at different timings.₁~ 1₃Can be transmitted to the base station 2c. As a result, the three mobile phones 1a to 1c can transmit and receive each other by using only one channel of the base station 2c and CH1, and the line utilization rate can be improved. Note that when content data is transferred to the three mobile phones 1a to 1c, the information transmitted from each of the mobile phones 1a to 1c becomes information such as content changes, so that the assigned transmission channel is slow. Even this channel can be transmitted sufficiently.
[0022]
Next, a second embodiment of the channel assignment method of the present invention executed in the cellular system shown in FIG. 1 will be described with reference to FIG. However, FIG. 4 shows a time-division transmission / reception channel assigned to each mobile phone when the base station 2c and the mobile phones 1a to 1d communicate, and a time-division transmission used by the base station 2c. The mode of the receiving channel is shown.
FIG. 4 also shows an example in which the time-division multiplexed radio line between the base station 2c and the mobile phones 1a to 1d is configured with 4 channels, and 1 frame is 4 channels. That is, the transmission (downlink) channel from the base station 2c to the mobile phones 1a to 1d and the receive (uplink) channel from the mobile phones 1a to 1d of the base station 2c are time-divided into four frames. 4 channels of CH1 to CH4. FIG. 4 shows that three mobile phones 1a, 1b, and 1c are communicating with the base station 2c and requesting and downloading the same music data from the download center 6, or the same data from the content distribution center 7. The channel assignment when the request is made and the data is distributed is shown.
[0023]
In the second embodiment, when requesting data of the same content (the content also includes music data) and transferring the data, as shown in FIG. 4, the CH1 of the downlink channel in the base station 2c Is used as a transmission channel to the three mobile phones 1a to 1c, and the CH1 of the uplink channel is further time-divided into four subchannels 1₁~ 1₄Subchannel 1₁Is assigned to the transmission channel from the mobile phone 1a to the base station 2c, and the subchannel 1₂Is assigned to the transmission channel from the mobile phone 1b to the base station 2c, and the subchannel 1₃Is assigned to the transmission channel from the mobile phone 1c to the base station 2c.
[0024]
That is, as shown in the figure, the three mobile phones 1a to 1c and the base station 2c share CH1 of the four multiplexed channels, so that the base station 2c transmits the same content data on the downstream channel. doing. The three mobile phones 1a to 1c can receive the same content data transmitted from the base station 2c by receiving the assigned CH1. The three mobile phones 1a to 1c include subchannel 1 obtained by time-division of the upstream channel of CH1.₁~ 1₃Can be transmitted to the base station 2c. As a result, the three mobile phones 1a to 1c can transmit and receive each other by using only one channel of the base station 2c and CH1, and the line utilization rate can be improved. Note that when content data is transferred to the three mobile phones 1a to 1c, the information transmitted from each of the mobile phones 1a to 1c becomes information such as content changes, so that the assigned transmission channel is slow. Even this channel can be transmitted sufficiently.
[0025]
The first embodiment and the second embodiment of the channel allocation method of the present invention described above are channel allocation methods when requesting content and transferring the data to a mobile phone. Thus, when a normal call is requested, the channel allocation shown in FIGS. 3 and 4 is not performed. In the cellular system shown in FIG. 1, channel assignment when three mobile phones 1a, 1b, 1c request a normal call is as shown in FIG. 8 as a conventional example.
FIG. 8 corresponds to an example in which a time-division multiplex radio line between the base station 2c and the mobile phones 1a to 1d is configured with 4 channels, and transmission (downstream) channels from the base station 2c to the mobile phones 1a to 1d. The reception (upstream) channel of the base station 2c from the mobile phones 1a to 1d is four channels CH1 to CH4 by time-dividing one frame into four.
[0026]
Here, when three mobile phones 1a, 1b, and 1c are communicating with the base station 2c, CH1 is assigned to the mobile phone 1a, and the downlink channel of CH1 is transmitted from the base station 2c to the mobile phone 1a. In addition, the CH1 up-channel is assigned to reception from the mobile phone 1a, the mobile phone 1b is assigned CH2, the CH2 down-channel is transmitted to the mobile phone 1b, and the CH2 up-channel is received from the mobile phone 1b. The mobile phone 1c is assigned CH3, the CH3 downlink channel is assigned to transmission to the mobile phone 1c, and the CH3 uplink channel is assigned to reception from the mobile phone 1c.
That is, as shown in the figure, the mobile phone 1a can transmit and receive by the base station 2c and CH1, the mobile phone 1b can transmit and receive by the base station 2c and CH2, and the mobile phone 1c transmits and receives by the base station 2c and CH3. Will be able to.
As described above, when a normal call is performed, the same channel assignment as in the conventional case is performed, and in this case, the line utilization rate is the same as in the conventional case.
[0027]
Next, FIG. 5 shows a configuration of an embodiment of the base station 2 which is a connection control station according to the present invention. In FIG. 5, reference numeral 31 denotes an antenna that is generally a diversity antenna, and 32 denotes a duplexer (DUP) that branches a reception signal received by the antenna 31 to the reception unit 33 and branches a transmission signal from the transmission unit 38 to the antenna 31. ). A receiving unit 33 demodulates the received signal, supplies the connection request signal in the received signal to the connection request signal detection unit 34, and supplies the connection request signal to the disconnection signal detection unit 37 if the received signal is a disconnection signal. Then, the receiving unit 33 supplies signals other than the connection request signal and the disconnection signal to the control unit 36. When a connection request signal is received, 34 determines whether the request is a normal call request or a content request, and supplies a channel allocation information corresponding to the request to a channel allocation unit (CH allocation) 35. It is. The connection request signal detection unit 34 determines that the request is for a content based on the telephone number of the connection destination in the connection request signal, or determines that the request is for the content based on the destination address in the connection request signal.
[0028]
Reference numeral 35 denotes a channel assignment unit that assigns channels according to the channel assignment information, sets the channels assigned to the base station 2 in the transmission unit 38, and supplies the channel assignment information assigned to the mobile phone 1 to the control unit 36. 36 sends the transmission information and the call signal supplied from the receiving unit 33 to the line and sends them to the mobile switching center 3, and also supplies a connection request signal from the line to the connection request signal detection unit 34 to request disconnection from the line. The control unit 36 supplies a signal to the disconnection signal detection unit 37. Further, the control unit 36 supplies incoming information from the line, a call signal, or content data to the transmission unit 38 and controls the base station 2 as a whole. Reference numeral 38 denotes a transmission unit that modulates various signals supplied from the control unit 36 and transmits the modulated signals to the DUP 32 so as to be transmitted through the channel set by the channel allocation unit 35.
[0029]
The first channel allocation method of the present invention executed by the base station 2 according to the present invention having the configuration shown in FIG. 5 will be described with reference to the first communication sequence shown in FIG.
In the communication sequence shown in FIG. 6, a connection request signal is first transmitted from the mobile phone 1a using the control channel. It is assumed that this connection request signal is a request for downloading the music piece 1 from the download center 6. The connection request signal detection unit 34 determines that it is a content request because the telephone number of the connection destination in the connection request signal is the download center 6, and determines from the connection request signal from the mobile phone 1a for a predetermined time, for example, 5 Wait for a similar connection request from another mobile phone for a second. Here, it is assumed that there is a connection request signal of a request for downloading the music piece 1 from the download center 6 from the mobile phone 1b and the mobile phone 1c as illustrated. When the connection request signal detection unit 34 of the base station 2 detects such a connection request signal requesting the same content, the connection request signal detection unit 34 assigns a transmission channel and a reception channel to the three mobile phones 1a to 1c, respectively. . In this case, since the three mobile phones 1a to 1c are regarded as requests for the same content, the channels are shared and assigned.
[0030]
That is, the mobile phone 1a has CH1 as a reception channel and CH1 of frame 1 shown in FIG. 3 as a transmission channel (hereinafter referred to as “subchannel CH1”).₁Is assigned to the mobile phone 1b, and CH1 of the frame 2 shown in FIG. 3 (hereinafter referred to as “subchannel CH1”) is set as the reception channel and the transmission channel.₂Is assigned to the mobile phone 1c, and CH1 of the frame 3 shown in FIG. 3 (hereinafter referred to as “subchannel CH1”) is set as the reception channel and the transmission channel.₃Is assigned). The channel allocation information is sent from the CH allocation unit 35 to the control unit 36, modulated by the transmission unit 38, and transmitted from the antenna 31 to the three mobile phones 1a to 1c via the DUP 38. The CH allocation unit 35 sets the transmission channel of the base station 2 in the transmission unit 38 according to the channel allocation. In this case, the channel to be transmitted to the mobile phones 1a to 1c is set to CH1.
[0031]
Since the connection request signal is a request to download the music piece 1, the control unit 36 is connected via the line of the mobile switching center 3-gateway switching center 4-general telephone switching center 5 b-general telephone switching center 5 a-download center 6. The music data of music 1 is read from the download center 6. The read music data of the music 1 is supplied from the control unit 36 to the transmission unit 38, modulated by the transmission unit 38, and the music data of the music 1 is transmitted from the antenna 31 via CH 1 via the DUP 38. Thereby, the three mobile phones 1a to 1c can download the music data of the music 1 by receiving CH1. When downloading of the music data of the music 1 is completed on the mobile phone 1a and the end button is operated, a disconnection request is sent to the base station 2 from the subchannel CH1.₁The base station 2 receives this and disconnects the line with the mobile phone 1a. Similarly, when downloading of the music data of music 1 is completed in the mobile phone 1b and the end button is operated, a disconnection request is sent to the base station 2 from the subchannel CH1.₂The base station 2 receives this and disconnects the line with the mobile phone 1b.
[0032]
Here, when downloading of the music data of the music 1 is completed in the mobile phone 1c, a connection request for further downloading the music 2 from the download center 6 is sent to the base station 2 in the subchannel CH1.₃Suppose that the data is transmitted on the transmission channel. Then, when waiting for a predetermined time from the connection request signal from the mobile phone 1c, for example, it is assumed that there is a connection request for downloading the music piece 2 from the download center 6 from the mobile phone 1d while waiting for 5 seconds. In response to this, the base station 2 detects that there are a plurality of connection request signals for requesting the same content, and the connection request signal detection unit 34 detects that the connection request signal detection unit 34 transmits again to the two mobile phones 1c and 1d. Reassign channels and receive channels respectively.
[0033]
That is, the mobile phone 1c has a reception channel CH1 and a transmission channel subchannel CH1.₁Is assigned to the mobile phone 1d as a reception channel CH1 and a transmission channel subchannel CH1.₂Is assigned. The channel allocation information is sent from the CH allocation unit 35 to the control unit 36, modulated by the transmission unit 38, and transmitted from the antenna 31 to the two mobile phones 1c and 1d via the DUP 38. The CH allocation unit 35 sets the transmission channel of the base station 2 in the transmission unit 38 according to the channel allocation. In this case, the channel to be transmitted to the mobile phones 1c and 1d is set to CH1.
[0034]
The control unit 36 reads the music data of the music 2 from the download center 6 via the line to the download center 6. The read music data of the music 2 is supplied from the control unit 36 to the transmission unit 38, modulated by the transmission unit 38, and the music data of the music 2 is transmitted from the antenna 31 through CH1 via the DUP 38. Thereby, the two mobile phones 1c and 1d can download the music data of the music 2 by receiving CH1. When downloading of the music data of music 2 is completed on the cellular phone 1c and the end button is operated, a disconnection request is sent to the base station 2 from the subchannel CH1.₁The base station 2 receives this and disconnects the line with the mobile phone 1c. Similarly, when downloading of the music data of music 2 is completed on the mobile phone 1d and the end button is operated, a disconnection request is sent to the base station 2 from the subchannel CH1.₂The base station 2 receives this and disconnects the line with the mobile phone 1d.
[0035]
In this way, when the music data to be downloaded is the same, the music data can be distributed to a plurality of telephone terminal stations using only one channel. In addition, when a plurality of telephone terminal stations request distribution of weather forecasts and news of the same content, not music data, within a predetermined time, only one channel is used from the content distribution center 7 by the channel allocation method described above. The same content weather forecasts and news can be distributed to multiple telephone terminal stations. Furthermore, the predetermined time to wait until a connection request for the same content occurs is not limited to 5 seconds, and may be longer or shorter.
In the above description, the channel allocation is performed by the first channel allocation method of the present invention shown in FIG. 3, but it may be performed by the second channel allocation method of the present invention shown in FIG.
Note that music data distributed from the download center 6 and weather forecasts and news distributed from the content distribution center 7 are stream data, and are used when distributing such stream data to a plurality of telephone terminal stations. The channel to be used may be reserved in advance as a multicast line so that it can be used preferentially.
[0036]
Next, the second channel allocation method of the present invention executed by the base station 2 according to the present invention having the configuration shown in FIG. 5 will be described with reference to the second communication sequence shown in FIG.
In the communication sequence shown in FIG. 7, a connection request signal for downloading the music piece 1 is first transmitted from the mobile phone 1a using the control channel. The connection request signal detection unit 34 determines that it is a content request because the telephone number of the connection destination in the connection request signal is the download center 6, and the connection request signal detection unit 34 sends the transmission channel and reception to the mobile phone 1a. Assign each channel. In this case, the mobile phone 1a has CH1 as the reception channel and subchannel CH1 as the transmission channel.₁Assign. Since the connection request signal is a request to download the music piece 1, the control unit 36 is connected via the line of the mobile switching center 3-gateway switching center 4-general telephone switching center 5 b-general telephone switching center 5 a-download center 6. The music data of music 1 is read from the download center 6. The read music data of the music 1 is supplied from the control unit 36 to the transmission unit 38, modulated by the transmission unit 38, and the music data of the music 1 is transmitted from the antenna 31 via CH 1 via the DUP 38. Thereby, the mobile phone 1a can download the music data of the music 1 by receiving CH1.
[0037]
Assume that there is a connection request signal for downloading music 1 from the mobile phone 1b while downloading music data of the music 1. When the connection request signal detection unit 34 of the base station 2 detects such a connection request signal for requesting the same content, the connection request signal detection unit 34 uses the mobile phone 1b as CH1 as a reception channel and as a transmission channel a subchannel CH1.₂Assign. At this time, the music data of the music 1 is being transmitted from the transmission unit 38 of the base station 2 via CH 1 via the DUP 38 and the antenna 31. Therefore, when the mobile phone 1b receives CH1, the music data of music 1 that is stream data is downloaded from the middle. At this time, the mobile phone 1a continuously downloads the music data of the music 1 by receiving CH1.
[0038]
Next, it is assumed that there is a connection request signal for downloading the music piece 2 from the mobile phone 1c. The connection request signal detection unit 34 determines that the request is a content because the connection destination telephone number in the connection request signal is the download center 6, but the connection request signal detection unit 34 determines that the content is different. The mobile phone 1c has CH2 as a reception channel and CH2 of the frame 1 shown in FIG.₁"). Since the connection request signal is a request for downloading the music piece 2, the control unit 36 is connected via the line of the mobile switching center 3-gateway switching center 4-general telephone switching center 5 b-general telephone switching center 5 a-download center 6. Then, the music data of the music 2 is read from the download center 6. The read music data of the music 2 is supplied from the control unit 36 to the transmission unit 38, modulated by the transmission unit 38, and the music data of the music 2 is transmitted from the antenna 31 via CH2 via the DUP 38. Thereby, the cellular phone 1c can download the music data of the music 2 by receiving CH2.
[0039]
While downloading the music data of this music 2, downloading of the music 1 in the mobile phone 1a is completed, and the mobile phone 1a sends a connection request signal for downloading the music 2 upon request change to the base station 2 in the subchannel CH1.₁Suppose that When the connection request signal detecting unit 34 of the base station 2 detects the connection request signal for requesting the download of the music 2, since the music data of the music 2 is already being transmitted on CH2, the connection request signal detecting unit 34 The mobile phone 1a has CH2 as a reception channel and CH2 of the frame 2 shown in FIG.₂"). Therefore, the mobile phone 1b receives CH2, so that the music data of the music 2 that is stream data transmitted from the transmission unit 38 of the base station 2 via the DUP 38 and the antenna 31 on CH2 can be downloaded from the middle. Become. At this time, the mobile phone 1c continues to download the music data of the music 2 by receiving CH2.
Further, the music data of music 1 as stream data is transmitted from CH1 through the DUP 38 and the antenna 31 from the transmission unit 38 of the base station 2, and the mobile phone 1b downloading the music 1 from the middle receives the CH1. The music data of the music 1 remaining by receiving is continuously downloaded.
[0040]
When downloading of the music data of the remaining music 1 in the mobile phone 1b is finished and the end button is operated, a disconnection request is sent to the base station 2 to the subchannel CH1.₂The base station 2 receives this and disconnects the line with the mobile phone 1b. Similarly, when downloading of the music data of music 2 is completed on the mobile phone 1c and the end button is operated, a disconnection request is sent to the base station 2 from the subchannel CH2.₁The base station 2 receives this and disconnects the line with the mobile phone 1c.
Further, the music data of music 2 as stream data is transmitted from CH2 through the DUP 38 and the antenna 31 from the transmission unit 38 of the base station 2, and the mobile phone 1a that has downloaded music 2 from the middle transmits the CH2. The music data of the music 2 remaining by receiving is continuously downloaded. When the mobile phone 1a finishes downloading the music data of the remaining music 2 and operates the end button, a disconnection request is sent to the base station 2 from the subchannel CH2.₂The base station 2 receives this and disconnects the line with the mobile phone 1a.
[0041]
In the above description, the channel allocation is performed by the first channel allocation method of the present invention shown in FIG. 3, but may be performed by the second channel allocation method of the present invention shown in FIG.
Note that music data distributed from the download center 6 and weather forecasts and news distributed from the content distribution center 7 are stream data, and are used when distributing such stream data to a plurality of telephone terminal stations. The channel to be used may be reserved in advance as a multicast line so that it can be used preferentially.
If the content downloaded to the telephone terminal station is music data as described above, the downloaded music data can be used for incoming melody or music on hold for notifying incoming calls, or by calling The downloaded music data may be reproduced and used as BGM.
[0042]
【The invention's effect】
As described above, in the present invention, when data of the same content is transmitted to two or more telephone terminal stations, one downlink channel is allocated and simultaneously transmitted to two or more telephone terminal stations. Data can be transmitted by connecting two or more telephone terminal stations and a base station which is a connection control station through a channel. As a result, the line utilization rate can be improved and the occurrence of call loss can be prevented as much as possible.
In addition, when the same content request occurs during the transmission of the content data, one downlink channel is allocated to all requested telephone terminal stations to transmit the same content data. . For this reason, data can be transmitted by connecting two or more telephone terminal stations and a base station as a connection control station through one channel, so that the line utilization rate can be improved and call loss occurs. Can be prevented as much as possible.
[0043]
Further, the uplink channel assigned to the telephone terminal station at the time of requesting content is assigned to the telephone terminal station sequentially every period which is an integral multiple of the frame period. Alternatively, the uplink channel of the allocated channel is time-divided, and each divided channel is allocated to all the telephone terminal stations that have requested it. In this way, even if a low-speed uplink channel is assigned, the data transmitted from the telephone terminal station can be transmitted sufficiently because the request change is the main data.
[Brief description of the drawings]
FIG. 1 is a diagram showing a schematic configuration of a cellular system to which a channel allocation method of the present invention can be applied.
FIG. 2 is a diagram showing a configuration example of a mobile phone in a cellular system to which the channel allocation method of the present invention can be applied.
FIG. 3 is a diagram showing a first embodiment of a channel assignment method of the present invention.
FIG. 4 is a diagram showing a second embodiment of the channel assignment method of the present invention.
FIG. 5 is a diagram showing a configuration of an embodiment of a base station which is a connection control station of the present invention.
FIG. 6 is a first communication sequence diagram showing the first channel allocation method of the present invention executed by the base station according to the present invention.
FIG. 7 is a second communication sequence diagram showing the second channel assignment method of the present invention executed by the base station according to the present invention.
FIG. 8 is a diagram showing a conventional method of channel assignment when a base station and a mobile phone as a telephone terminal station communicate with each other.
[Explanation of symbols]
1, 1a to 1d mobile phone, 2, 2a to 2d base station, 3 mobile switching center, 4 gateway switching office, 5a, 5b, 5c general telephone switching office, 6 download center, 7 content distribution center, 10 CPU, 11 RAM , 12 ROM, 13 communication unit, 14 audio processing unit, 15 music playback unit, 16 interface, 17 input unit, 18 display unit, 19 vibrator, 20 external device, 21 microphone, 22 receiving speaker, 23 incoming speaker, 24 Bus, 25 antenna, 31 antenna, 32 duplexer, 33 receiver, 34 connection request signal detector, 35 channel allocation unit, 36 controller, 37 disconnection signal detector, 38
Transmitter

Claims (6)

A channel assignment method in a telephone network comprising a plurality of telephone terminal stations and a connection control station that performs connection control of the telephone terminal stations connected via multiple lines,
When connection requests for the same content request are made from two or more telephone terminal stations within a predetermined time, one channel of the downlink is assigned to the two or more telephone terminal stations and the connection control is performed. The content data is simultaneously transmitted from the connection control station to the two or more telephone terminal stations by the allocated one-channel downlink channel, and received by the allocated one-channel downlink channel. A channel allocation method , wherein one uplink channel is sequentially allocated to each of the two or more telephone terminal stations every period which is an integral multiple of the multiple line frame . A channel assignment method in a telephone network comprising a plurality of telephone terminal stations and a connection control station that performs connection control of the telephone terminal stations connected via multiple lines,
When there is a connection request for a content request from a telephone terminal station, one downlink channel of the multiple lines is allocated to connect the telephone terminal station and the connection control station, and the allocated one channel The content data is transmitted from the connection control station to the telephone terminal station by the downlink channel of
When there is a connection request for the same content request as the content from another telephone terminal station during transmission of the content data, the downlink channel of the one channel assigned to the telephone terminal station is transferred to the other telephone. The terminal station is also assigned to connect the telephone terminal station and the other telephone terminal station to the connection control station, and the content data is transmitted from the connection control station by the assigned one downlink channel. Simultaneously transmitted to the telephone terminal station and the other telephone terminal station ,
An uplink channel of one channel is sequentially allocated to the telephone terminal station and the other telephone terminal station that are receiving on the allocated one downlink channel every period that is an integral multiple of the frame of the multiple line. A channel assigning method characterized by the above . 3. The channel according to claim 2, wherein after the transmission of the content data to the telephone terminal station is completed, the remaining data of the content is transmitted to the other telephone terminal station. Assignment method. A connection control station that performs connection control of a plurality of telephone terminal stations connected via multiple lines,
A connection request signal detecting means for determining whether the connection request signal received from the telephone terminal station is a normal call request or a content request, and outputting channel assignment information according to the request;
According to channel assignment information from the connection request signal detection means, channel assignment means for assigning a channel of the multiplex line to a telephone terminal station that has issued the connection request signal;
And a control means for controlling connection with the upper line,
When the connection request signal detection means detects a connection request for the same content request from two or more telephone terminal stations within a predetermined time, according to the channel assignment information output by the connection request signal detection means at this time the assignment channel assignment means downstream channel of one channel of said multi-lines to the two or more telephone terminal station Rutotomoni, said two or more telephone terminal station downlink channel is allocated in said first channel, said multiplexing One channel of upstream channel is sequentially allocated every cycle of an integral multiple of the frame of the line, and the requested content data fetched from the upper line by the control means is transmitted via the allocated one channel of the downstream channel. A connection control station characterized in that transmission is simultaneously made to the two or more telephone terminal stations. A connection control station that performs connection control of a plurality of telephone terminal stations connected via multiple lines,
A connection request signal detecting means for determining whether the connection request signal received from the telephone terminal station is a normal call request or a content request, and outputting channel assignment information according to the request;
According to channel assignment information from the connection request signal detection means, channel assignment means for assigning a channel of the multiplex line to a telephone terminal station that has issued the connection request signal;
And a control means for controlling connection with the upper line,
In accordance with the channel assignment information output when the connection request signal detection means detects a connection request for a content request from the telephone terminal station, the channel assignment means assigns the downlink channel of one channel of the multiplex line to the telephone. Assigned to the terminal station, and the control means transmits the requested data of the content fetched from the upper line to the telephone terminal station via the assigned one-channel downlink channel, If the connection request signal detection means detects a connection request for the same content request as the content from another telephone terminal station during transmission of content data, the channel output by the connection request signal detection means at this time According to the allocation information, the channel allocation means is allocated to the telephone terminal station. And are assigned also to the down channel of the 1 channel said other telephone terminal station, the data of the control means the requested content taken from the top of the line, the downlink channels of one channel assigned said, the Transmission to the telephone terminal station and the other telephone terminal station is performed at the same time , and the channel allocating means transmits the multiplexed line to the telephone terminal station and the other telephone terminal station to which the one-channel downlink channel is allocated. A connection control station characterized in that one uplink channel is sequentially assigned every period which is an integral multiple of a frame . 6. The connection according to claim 5 , wherein after the transmission of the content data to the telephone terminal station is completed, the remaining data of the content is transmitted to the other telephone terminal station. Control station.

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