JP2014127978A - Communication apparatus and communication method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a communication terminal and communication method, capable of suppressing an influence of a high frequency generated from a circuit in the communication terminal onto communication.SOLUTION: The communication terminal comprises: an antenna, radio control means, and storage means. The radio control means controls radio communication with a radio base station through the antenna. The storage means stores frequency information about a frequency band of noise generated from a control circuit in the terminal itself and a connector. The radio control means transmits the stored frequency information to the radio base station.

Description

  Embodiments described herein relate generally to a communication terminal and a communication method.

In WWAN (Wireless Wide Area Network) communication such as mobile communication, a communication channel determined by negotiation between a base station and a communication terminal is used from a predetermined frequency band according to the communication method and communication carrier. Communication is executed. WLAN (Wireless L
In (ocal Area Network) communication, communication is performed using a communication channel determined by a base station (access point) from a predetermined frequency band corresponding to a communication method.

JP 2007-282180 A

In a communication terminal, high frequency noise generated from an electronic circuit in the terminal may overlap with a frequency band used for communication, and communication quality may deteriorate.

Therefore, an object of the present invention is to provide a communication terminal and a communication method capable of reducing the influence on communication due to high frequency noise generated from a circuit in the communication terminal.

According to the embodiment, the communication terminal includes an antenna, a radio control unit, and a storage unit. The radio control unit controls radio communication with the radio base station via the antenna. The storage means stores frequency information related to a frequency band of noise generated from a control circuit and a connector in the communication terminal. The radio control unit transmits the stored frequency information to the radio base station.

The figure which shows the usage example of the communication apparatus of embodiment. The block diagram which shows the system configuration example of the base station of embodiment. The block diagram which shows the system configuration example of the communication apparatus of embodiment. The figure which shows the example of a channel selection process by the base station of embodiment. The figure which shows the example of a communication processing sequence by the communication apparatus and base station of embodiment.

Hereinafter, embodiments will be described with reference to the drawings.
FIG. 1 is a perspective view illustrating an example of an information processing apparatus according to the present embodiment. The information processing apparatus is realized as a slate type tablet 200, a notebook type PC 300, or the like, for example.

FIG. 2 shows a system configuration example of the base station 100. The base station 100 includes a controller 101, an antenna 102, and the like. The controller 101 has a function of controlling WWAN communication. The controller 101 includes an information processing apparatus that operates as a wireless communication terminal and an antenna 102.
The WWAN communication is executed via

FIG. 3 shows a system configuration example of the tablet 200. The system configuration of the PC 300 is almost the same as that of the tablet 200, and here, the configuration of the tablet 200 will be mainly described.

The tablet 200 includes a CPU 201, a system controller 202, a main memory 203,
Graphics controller (GPU) 204, display 205, solid state drive (SSD) 206, BIOS-ROM 207, embedded controller / keyboard controller (EC / KBC) 208, touch sensor 209, keyboard 210, W
WAN (Wireless Wide Area Network) controller 211, antenna 212, WLAN
(Wireless Local Area Network) A controller 213, an antenna 214, and the like are provided.

The CPU 201 is a processor that controls the operation of each component of the tablet 200. The CPU 201 executes programs loaded from the SSD 206 to the main memory 203, such as an operating system (OS) and a WWAN communication driver 250. The CPU 201 also executes a BIOS (Basic Input Output System) stored in the BIOS-ROM 207 which is a nonvolatile memory. BI
The OS is a system program for hardware control.

The system controller 202 is a bridge device that connects between the CPU 201 and each component. The system controller 202 has a built-in serial ATA controller for controlling the SSD 206. Furthermore, the system controller 202
It also has a function of executing communication with the GPU 204 via a PCI EXPRESS serial bus or the like.

The GPU 204 is a display controller that controls a display 205 used as a display monitor of the tablet 200. The GPU 204 generates a display signal to be supplied to the display 205 from display data stored in a video memory (not shown). A part of the main memory 203 may be used as the video memory described above.

The EC / KBC 208 includes an embedded controller (power management controller) for performing power management of the tablet 200, a touch sensor controller for controlling the touch sensor 209, and a keyboard controller for controlling the keyboard 120. A one-chip microcomputer.

The touch sensor 209 is, for example, a touch panel provided on the display 205 or a PC
300 touch pad provided on the palm rest, etc.
Detects touch operations on the touchpad. In the present embodiment, the operation detection by the touch sensor will be mainly described, but a mouse or the like may be used as the input device.

The WWAN controller 211 is a communication unit that controls communication of mobile communication, for example, and communicates with the base station 100 of mobile communication via the antenna 212. WLAN controller 21
3 communicates with the WLAN base station via the antenna 214.

When executing the WWAN communication, the PC 100 executes various operations of WWAN communication under the control of the WWAN communication driver 250 and the WWAN controller 211.
In this embodiment, the WWAN communication driver 250 and the WWAN controller 211 are
Noise information in the PC 100 is collected. The noise information is information on high frequency noise generated by the electronic circuit of the PC 100, and includes information on noise intensity for each frequency. The high-frequency noise is, for example, a high-frequency clock generated from a control circuit such as a USB controller (not shown), the CPU 201 and the GPU 204, and a connector portion of these control circuits, and harmonics of these clocks. For example, the USB controller clock is 480M
Although 960 MHz, which is the harmonic of this clock, may overlap with the band used in 3G communication, there is a risk that the quality of 3G communication will deteriorate.

In collecting noise information, the PC 100 maintains reception while stopping transmission in WWAN communication in a state where the apparatus is operating, and the WWAN controller 211 uses each frequency of a signal input from the antenna 212 to the WWAN controller. Detect the intensity of. The WWAN controller 211 stores noise information with a frequency band having a signal intensity equal to or higher than a threshold as a noise band. The noise information may be stored in a memory in the WWAN controller 211 or may be stored in the SSD 206.

Then, the PC 100 transmits the noise information to the base station 10 when registering the location with the base station 100.
Send to 0. Then, the base station 100 determines a frequency band to be used for communication with the PC 100 based on the received noise information.

FIG. 4 shows an example of communication channel determination processing by the tablet 200, the PC 300, and the base station 100. FIG. 4A shows communication bands and noise bands that the tablet 200 supports. The tablet 200 uses the WWAN controller 211 and the antenna 212 to
When performing AN communication, for example, an arbitrary communication channel within the band fc can be used. The band fc varies depending on the communication method, country, and telecommunications carrier.
This is a continuous frequency band at 845 MHz.

However, in the band f1, which is a part of the band fc, the signal strength of the high-frequency noise generated from the electronic circuit in the tablet 200 is equal to or higher than a predetermined value, and when communication is performed using a channel overlapping with the band f1, Communication quality may deteriorate. For this reason, the tablet 200 and the base station 100 determine a communication channel in order to communicate using a band different from the f1.

Here, the tablet 200 transmits its own noise information (noise profile) to the base station when registering the location with the base station 100. As the format of the noise information, a format indicating the band f1 which is a band where the influence of noise is equal to or greater than a threshold, a format indicating the bands f2 and f3 which are bands where the influence of noise is equal to or less than the threshold, and the like can be considered. Based on the received noise information, the base station 100 communicates with the tablet 200 from the bands f2 and f3 different from the band f1 that is the noise band of the tablet 200, as shown in FIG. Determine the communication channel to be used.

FIG. 4C shows the communication band and noise band supported by the PC 300. PC300
For example, it is possible to use an arbitrary communication channel within the band fc, but in the band f4 which is a part of the band fc, the signal strength of the high frequency noise generated from the electronic circuit in the PC 300 is equal to or higher than a predetermined value. . For this reason, the PC 300 transmits its own noise information (noise profile) to the base station at the time of location registration with the base station 100. And the base station 100
Based on the received noise information, a communication channel used for communication with the PC 300 is determined from the bands f5 and f6 different from the band f4 that is the noise band of the PC 300, as shown in FIG.

FIG. 5 shows a processing flow example relating to establishment of WWAN communication between the tablet 200 and the base station 100. First, when the user moves while holding the tablet 200 or when the user turns on the WWAN communication function of the tablet 200, the tablet 200 enters the communication area of the base station 100 (Yes in S401). 200 is tablet 2
00 device identifier and noise information are transmitted to the base station 100 (S402). The tablet 200 receives the identifier of the base station 100 from the base station 100, and determines whether or not it has entered a new base station area.

When the base station 100 receives the device identifier and the noise information, the base station 100 notifies the server of the communication carrier that the device corresponding to the device identifier exists in the area of the base station, and the position of the tablet 200 is notified to the server. Let me register. In addition, the base station 100 determines a communication band used for communication with the tablet 200 based on the received noise information (S403). That is, FIG.
As described in the above, communication with the tablet 200 from the bands f2 and f3 excluding the band f1 indicated by the noise information as being unusable among the bands fc used by the communication carrier in the predetermined communication method. The communication channel to be used for is determined.

Then, the base station 100 notifies the determined communication channel to the tablet 200 (S40).
4) The base station 100 and the tablet 200 use the determined communication channel to
WAN communication is executed and voice and images are transmitted (S405 and S406).

Although several embodiments of the present invention have been described, these embodiments are presented by way of example and are not intended to limit the scope of the invention. These novel embodiments can be implemented in various other forms, and various omissions, replacements, and changes can be made without departing from the scope of the invention. These embodiments and modifications thereof are included in the scope and gist of the invention, and are included in the invention described in the claims and the equivalents thereof.

DESCRIPTION OF SYMBOLS 100 ... Base station, 101 ... Controller, 102 ... Antenna, 200 ... Tablet, 2
01 ... CPU, 202 ... system controller, 203 ... memory, 204 ... graphics controller, 205 ... display, 206 ... SSD, 207 ... BIOS-ROM, 2
08 ... EC / KBC, 209 ... Touch sensor, 210 ... Keyboard, 211 ... WWAN controller, 212 ... Antenna, 213 ... WLAN controller, 214 ... Antenna, 2
50 ... WWAN communication driver, 300 ... PC

Claims (6)

An antenna,
Radio control means for controlling radio communication with the radio base station via the antenna;
Storage means for storing frequency information relating to a frequency band of noise generated from a control circuit and a connector in the terminal;
With
The radio control means is a communication terminal that transmits the stored frequency information to the radio base station. The wireless control means detects the noise input via the antenna;
The communication terminal according to claim 1, wherein the storage unit stores the frequency information based on noise detected by the wireless control unit. The communication terminal according to claim 1, wherein the radio control unit transmits the frequency information when detecting that the radio control unit is within a radio communication area of a new radio base station. The communication terminal according to claim 1, wherein the radio control unit performs radio communication with the base station using a frequency band corresponding to the frequency information after transmitting the frequency information. A communication method in a communication terminal comprising an antenna, radio control means for controlling radio communication with the radio base station via the antenna, and a control circuit and a connector for generating noise different from the radio control means. ,
Storing frequency information relating to the frequency band of the noise;
Transmitting the stored frequency information to the radio base station;
A communication method comprising: A communication method in a radio base station comprising an antenna and radio control means for controlling radio communication with the radio terminal via the antenna,
Receiving information regarding the noise frequency of the wireless terminal transmitted from the wireless terminal;
Performing wireless communication with the wireless terminal using a frequency band different from the noise frequency;
A communication method comprising:

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