JP4660278B2 - Wireless communication terminal equipped with multiple wireless communication units - Google Patents

Description

  The present invention relates to a wireless communication terminal equipped with a plurality of wireless communication units, and in particular, a wireless communication unit to be used among a plurality of wireless communication units is determined based on information on a corresponding upper protocol, a used frequency band, a throughput, and power consumption. The present invention also relates to a wireless communication terminal equipped with a plurality of wireless communication units that can automatically select an appropriate one without making the user aware of it.

  In recent years, as one of the wireless communication systems, Ultra Wideband (hereinafter referred to as UWB) using a wide band of 3.1 GHz to 10.6 GHz, or a system using millimeter waves in the 60 GHz band (hereinafter referred to as mmWave). Has attracted attention.

  The wireless communication technology using these bands is being standardized by the IEEE 802.15 committee, and is different from a wireless LAN and is targeted at a wireless network within 10 meters, WPAN (Wireless Personal Area Network).

  Since this wireless technology enables high-speed gigabit-level wireless communication compared to a wireless LAN, it is promising as a wireless technology for communication protocols such as USB, IEEE 1394, DVI, and HDMI capable of high-speed communication in existing wired communication. It is believed that.

  FIG. 15 is a block diagram showing a configuration of a conventional wireless communication terminal. In conventional wireless communication terminals, when UWB is used, data is demultiplexed by a data communication unit 305 and wireless communication is performed by one wireless communication unit 302 in a wired communication protocol such as USB or IEEE 1394.

In this conventional wireless communication terminal, since there is a limit to the communication speed supported by one wireless communication unit, there is a problem that the communication speed decreases when a plurality of various communication protocols are used simultaneously. However, in order to solve this problem, a wireless communication terminal equipped with a plurality of wireless communication units has been reported (for example, see Patent Document 1).
JP 2004-363728 A

  However, according to the conventional wireless communication terminal described in Patent Document 1 and the like, when wirelessly using a plurality of different wired technologies, which wireless communication unit to use with which protocol among the plurality of wireless communication units, etc. There was a problem that the user had to give instructions one by one.

  In addition, from the viewpoint of interference, throughput, and power consumption, it is impossible to unify any one wireless communication unit to be used or control to use a plurality of wireless communication units. There was a problem of inviting.

  Accordingly, an object of the present invention is to appropriately use a wireless communication unit to be used among a plurality of wireless communication units without making the user aware of the information on the upper protocol, the used frequency band, the throughput, and the power consumption. Is to provide a wireless communication terminal equipped with a plurality of wireless communication units.

In order to achieve the above object, the present invention provides a plurality of wireless communication units, a wireless communication unit information storage unit that stores attribute information related to the wireless communication unit, and an ID for specifying the wireless communication unit as the wireless communication unit. obtained from parts, a wireless communication unit detecting unit that acquires attribute information of the wireless communication unit from the wireless communication unit information storing unit corresponding to the basis of the ID, the corresponding upper included in the attribute information of the corresponding radio communication unit A communication interface control unit that determines a data communication path with an application used by a user based on protocol information and establishes a connection link, and establishes connection links for a plurality of different applications A wireless communication terminal is provided.

  According to the wireless communication terminal equipped with a plurality of wireless communication units of the present invention, the wireless communication unit to be used among the plurality of wireless communication units is determined based on the information on the corresponding upper protocol, the used frequency band, the throughput, and the power consumption. In addition, an appropriate item can be automatically selected without making the user aware of it.

  Embodiments of the present invention are specifically described below, but the present invention is not limited thereto.

[First Embodiment]
The first embodiment of the wireless communication terminal of the present invention is a wireless communication terminal using UWB using a wide band of 3.1 GHz to 10.6 GHz or mmWave using a millimeter wave of 60 GHz as a wireless communication technology. It is.

  FIG. 1 is a conceptual diagram showing a communication form of a wireless communication terminal according to the first embodiment of the present invention.

  In FIG. 1, a PC (Personal Computer) 100, a mobile HDD (Hard Disk Drive) 101, an HDD / DVD (Digital Versatile Disk) recorder 102, and a digital TV (Television) 103 form a wireless network. The PC 100 and the mobile HDD 101 perform wireless communication by wireless USB via the antenna 104 of each other, the PC 100 and the HDD / DVD recorder 102 perform wireless communication by wireless IEEE 1394 via the antenna 104 of each other, and the PC 100 and the digital TV 103 communicate with each other. Wireless communication is performed by wireless HDMI (High-Definition Multimedia Interface) via the antenna 104.

(Configuration of wireless communication terminal)
FIG. 2 is a block diagram showing the configuration of the wireless communication terminal according to the first embodiment of the present invention.

  A wireless communication terminal 300 illustrated in FIG. 2 is included in the PC 100 described with reference to FIG. 1, and includes a mmWave wireless communication unit 301, a UWB wireless communication unit 302, and a wireless communication unit that detects and recognizes a connected communication terminal. The detection unit 303, a wireless communication unit information storage unit 304 that identifies a communication terminal and stores attribute information thereof, a data communication unit 305 that performs communication protocol control and actual communication for communication, and this data communication Through the unit 305, a communication interface control unit 306 for controlling which of the mmWave wireless communication unit 301 and the UWB wireless communication unit 302 communicates with the connection partner, and the information of the wireless communication terminal 300 visually. A display unit 307 to be provided, a control unit 308 for controlling the wireless communication terminal 300, and a data type for storing data of the wireless communication terminal 300. A part 309 comprises the input and output unit 310 is an interface for inputting and outputting information. Also, the mmWave wireless communication unit 301 and the UWB wireless communication unit 302 each include an antenna 311 for performing wireless communication.

  Here, the control unit 308 is specifically a CPU or the like, the data storage unit 309 is specifically a ROM, RAM, HDD or the like, and the input / output unit 310 is specifically a keyboard or mouse, FDD or removable. Storage, etc.

  In the wireless communication terminal 300, the mmWave wireless communication unit 301 is attached as an external device 312 such as a PC card.

  FIG. 3 is a schematic diagram showing attribute information stored in the wireless communication unit information storage unit 304. In the same figure, wireless communication unit attribute information A, B,..., N for UWB and HDMI / DVI are shown as a table, and upper limit frequency, center frequency, lower limit frequency, power consumption, throughput are shown as table items. Supports upper protocol.

(Operation of wireless communication terminal)
FIG. 4 is a flowchart illustrating an operation procedure when the wireless communication terminal 300 automatically selects a wireless communication unit.

  For example, if the UWB wireless communication unit 302 exists first, the wireless communication unit detection unit 303 acquires the Radio ID (step A1). The Radio ID is a unique ID for identifying the UWB wireless communication unit 302. The wireless communication unit detection unit 303 searches the wireless communication unit information storage unit 304 based on the acquired Radio ID (step A2), and finally acquires the wireless communication unit attribute information of the UWB wireless communication unit 302 (step A3). ). The wireless communication unit detection unit 303 transmits the acquired wireless communication unit attribute information to the communication interface control unit 306 (step A4).

  The communication interface control unit 306 obtains information on the upper protocol supported by the UWB wireless communication unit 302 included in the wireless communication unit attribute information (step A5), and determines a data communication path based on the information (step A5). A6). In this case, the upper protocol indicates a communication protocol such as USB, IEEE 1394, Ethernet (registered trademark), HDMI / DVI (Digital Visual Interface).

  Further, when there are a plurality of wireless communication units as well as the UWB wireless communication unit 302, a data communication path is determined by following the same procedure for each wireless communication unit.

(Specific example of operation)
FIG. 5 shows a block diagram showing a specific example in which the communication interface control unit 306 automatically determines each higher level protocol. FIG. 6 is a flowchart showing the operation procedure.

  In FIG. 5, the upper protocol supported by the UWB wireless communication unit 302A is USB, the upper protocol supported by the UWB wireless communication unit 302B is IEEE 1394, and the upper protocol supported by the mmWave wireless communication unit 301 is HDMI / DVI and Ethernet (registered trademark). ).

  When the user starts using the application 320 using wireless communication (step B1), the wireless communication unit detection unit 303 searches the wireless communication unit information storage unit 304, and searches for the UWB wireless communication unit 302A, the UWB wireless communication unit 302B, and The wireless communication unit attribute information of the mmWave wireless communication unit 301 is acquired (step B2).

  Here, for example, when the user uses a USB application (step B3-1), since the UWB wireless communication unit 302A supports USB from the wireless communication unit attribute information, the communication interface control unit 306 is used. Decides to use the UWB wireless communication unit 302A as a wireless communication path.

  A connection link is established using the UWB wireless communication unit 302A thus determined (step B4).

  Also, when the user uses an IEEE 1394 application, an Ethernet (registered trademark) application, or an HDMI / DVI application, the wireless communication path is similarly determined by the procedure of steps B3-2 to B3-4.

(Effects of the first embodiment)
According to the first embodiment, a wireless communication terminal 300 includes a wireless communication unit detection unit 303, a wireless communication unit information storage unit 304, and a communication interface control unit 306, and supports higher-level protocols as wireless communication unit attribute information. By using this information, it is possible to automatically select which wireless communication unit is to be used by a plurality of different communication protocols such as USB and IEEE 1394 without any instruction from the user.

  In the first embodiment, the configuration in which the wireless communication terminals directly communicate with each other has been described as an example. However, for example, the network may be configured wirelessly and wired.

  FIG. 7 is a conceptual diagram showing another communication form of the wireless communication terminal according to the first embodiment of the present invention.

  Here, the wireless docking station 205 performs wired communication with the mobile HDD 201, the HDD / DVD recorder 202, and the digital TV 203 via USB, IEEE 1394, and HDMI, respectively. We are communicating. In this way, by using the wireless docking station 205, wireless communication is performed between the PC 200 and a wired connection device. Even in such a configuration, it is possible to automatically select which wireless communication unit is used by a plurality of different communication protocols.

[Second Embodiment]
In the wireless communication terminal 300 according to the first embodiment of the present invention, when a plurality of wireless communication units using the same frequency band are operated, there is a possibility that interference may occur and the communication quality may be deteriorated.

  Therefore, in the second embodiment of the present invention, the use frequency band information indicating the use upper limit, the lower limit, and the center frequency of the radio communication unit is added to the radio communication unit attribute information and used when determining the radio communication path. To do.

(Operation of wireless communication terminal)
FIG. 8 is a flowchart illustrating an operation procedure when the wireless communication terminal 300 determines a wireless communication path based on the used frequency band information.

  When wireless communication is performed by newly starting an application, first, the wireless interface that the communication interface control unit 306 can use from the supported higher-level protocol information in the wireless communication unit attribute information by the same operation procedure as in the first embodiment. A communication unit is selected as a candidate (step B1). At this stage, no connection link is established.

  Next, it is checked whether there is a wireless communication unit already operating (step B2).

  When there is no active wireless communication unit, there is no possibility of interference, so any wireless communication unit in the candidate can be used (step B3), and a connection link is established (step B4).

  If there is an operating wireless communication unit, the attribute information of the operating wireless communication unit is acquired (step B5), and the used frequency band information is acquired from the attribute information (step B6).

  Next, use frequency band information of a candidate for a wireless communication unit to be newly used is acquired from the wireless communication unit attribute information (step B7).

  It is checked whether there is a candidate radio communication unit that does not use the same frequency band as the active radio communication unit (step B8).

  Here, if there is a wireless communication unit that does not use the same frequency band as the active wireless communication unit, the use of the wireless communication unit is determined (step B9), and a connection link is established (step B10). ).

  On the other hand, if all candidate wireless communication units use the same frequency band as the active wireless communication unit, the user is notified that interference is expected in the wireless communication (step B11).

  Here, when there are a plurality of candidate wireless communication units, the user can select a wireless communication unit to be used. When a wireless communication unit that is already operating is included in the candidates, interference can be avoided by using the wireless communication unit that is operating.

  Further, when the candidate radio communication unit supports a plurality of frequency bands, the frequency band to be used can be selected in order to avoid interference.

  Also, if multiple wireless communication units support the communication protocol used by the application that uses the active wireless communication unit, change the active wireless communication unit to avoid interference. Can do.

  In addition, when the operating wireless communication unit supports a plurality of frequency bands, the frequency band to be used can be changed in order to avoid interference.

(Specific example 1 of operation)
When the wireless communication unit that can use a newly started application is the UWB wireless communication unit 302A and the mmWave wireless communication unit 301, and the wireless communication unit that can use an already running application is the UWB wireless communication unit 302B, UWB wireless communication Since unit 302A and UWB wireless communication unit 302B use the same frequency band, there is a risk of causing interference.

  Therefore, in step B8 in FIG. 8, among the candidates for the new wireless communication unit to be used, the mmWave wireless communication unit 301 is selected as the wireless communication unit that is predicted not to cause interference and is determined to be used for connection. (Step B9).

(Specific operation example 2)
When the wireless communication unit that can use a newly activated application is the UWB wireless communication unit 302A and the UWB wireless communication unit 302B, and the wireless communication unit that can use the already running application is the UWB wireless communication unit 302B, Since the communication unit also uses the same frequency band, “No” is determined in step B8 in FIG. 8, and the user is notified that there is a possibility of interference (step B11).

  Here, when the UWB wireless communication unit 302A is selected as a newly used wireless communication unit, there is a possibility of causing interference with the already operating UWB wireless communication unit 302B.

  On the other hand, when the UWB wireless communication unit 302B is selected as a newly used wireless communication unit, the wireless communication unit that is already in operation is used, and the communication speed decreases due to the limit of the communication speed of the wireless communication unit. Interference can be avoided.

  Therefore, the user can select a wireless communication unit capable of performing high-quality communication as quickly as possible according to the situation at the site.

(Effect of the second embodiment)
According to the second embodiment, a wireless communication terminal 300 includes a wireless communication unit detection unit 303, a wireless communication unit information storage unit 304, and a communication interface control unit 306, and uses a frequency band as wireless communication unit attribute information. By using this information, it is possible to automatically select radio communication units using different frequency bands to avoid interference, and when a radio communication unit using different frequency bands cannot be used, 1 Interference can be avoided by taking measures such as using two identical wireless communication units.

[Third Embodiment]
In the wireless communication terminal 300 according to the first embodiment of the present invention, when a plurality of wireless communication units support a communication protocol to be used, the communication interface control unit 306 automatically determines the wireless communication unit to be used. There are cases where it cannot be selected automatically.

  Therefore, in the third embodiment of the present invention, throughput information of each wireless communication unit is added to the wireless communication unit attribute information and used when determining the wireless communication path.

(Operation of wireless communication terminal)
FIG. 9 is a flowchart illustrating an operation procedure when the wireless communication terminal 300 determines a wireless communication path based on the throughput information.

  First, the communication interface control unit 306 obtains information on the supported higher-level protocol from the wireless communication unit attribute information, and determines a wireless communication unit that supports the communication protocol to be used (step C1).

  Next, it is checked whether there are a plurality of usable wireless communication units (step C2).

  Here, when there is only one usable wireless communication unit, it is determined to use the wireless communication unit for connection (step C3).

  On the other hand, when there are a plurality of usable wireless communication units, throughput information is acquired from each wireless communication unit attribute information (step C4), and the wireless communication unit with the highest throughput is determined (step C5). ).

  After the wireless communication unit to be used in the above process is determined, a connection link is established (step C6).

(Specific example of operation)
FIG. 10 is a flowchart showing a specific operation procedure of the communication interface control unit 306 until such a wireless communication unit having the fastest communication speed is automatically determined.

  Here, as an example, in the attribute information of each wireless communication unit, the UWB wireless communication unit 302A supports USB and TCP / IP, and the corresponding throughput is 480 Mbps, and the UWB wireless communication unit 302B supports IEEE 1394 and TCP. Suppose that / IP and the corresponding throughput are 480 Mbps, and the mmWave wireless communication unit 301 supports HDMI / DVI and TCP / IP, and the corresponding throughput is 3000 Mbps.

  When the user starts using an application that uses wireless communication (step D1), the wireless communication unit detection unit 303 searches the wireless communication unit information storage unit 304 to search for the UWB wireless communication unit 302A, the UWB wireless communication unit 302B, and the mmWave. The wireless communication unit attribute information of the wireless communication unit 301 is acquired, and the wireless communication unit used by the application is determined from the information of the supported upper protocol (step D2).

  Here, when the application to be used is a USB application, an IEEE 1394 application, and an HDMI / DVI application, there is only one wireless communication unit that supports these communication protocols, so the communication interface control unit 306 At this stage, the UWB wireless communication unit 302A, the UWB wireless communication unit 302B, and the mmWave wireless communication unit 301 are determined to be used for connection (step D3).

  On the other hand, if the application to be used is an Ethernet (registered trademark) application in step D3, the wireless communication unit that supports this communication protocol is the UWB wireless communication unit 302A, the UWB wireless communication unit 302B, and the mmWave wireless communication. Since there are a plurality of units 301, they are selected as candidates, and at this stage, the wireless communication unit used for connection is not determined.

  Next, the wireless communication unit detection unit 303 acquires throughput information from the respective attribute information of the UWB wireless communication unit 302A, the UWB wireless communication unit 302B, and the mmWave wireless communication unit 301 (step D4), and the communication interface control unit 306 Is determined to use the mmWave wireless communication unit 301 having the fastest communication speed (step D5).

  After the wireless communication unit to be used in the above process is determined, a connection link is established (step D6).

(Effect of the third embodiment)
According to the third embodiment, a wireless communication terminal 300 includes a wireless communication unit detection unit 303, a wireless communication unit information storage unit 304, and a communication interface control unit 306, and information on throughput as wireless communication unit attribute information. By using, it becomes possible to automatically select the wireless communication unit with the fastest communication speed without the user giving instructions one by one.

[Fourth Embodiment]
In the wireless communication terminal 300 according to the first embodiment of the present invention, there may be a situation where it is desired to suppress power consumption as much as possible, for example, when the wireless communication terminal 300 is mounted on a mobile device or the like.

  Therefore, in the fourth embodiment of the present invention, power consumption information of the wireless communication unit is added to the wireless communication unit attribute information and used when determining the wireless communication path.

(Operation of wireless communication terminal)
FIG. 11 is a flowchart illustrating an operation procedure when the wireless communication terminal 300 determines a wireless communication path based on power consumption information.

  First, the communication interface control unit 306 obtains information on the supported higher-level protocol from the wireless communication unit attribute information, and determines a wireless communication unit that supports the communication protocol to be used (step E1).

  Next, it is checked whether there are a plurality of usable wireless communication units (step E2).

  Here, when there is only one usable wireless communication unit, it is determined to use that wireless communication unit for connection (step E3).

  On the other hand, when there are a plurality of usable wireless communication units, the power consumption information is acquired from the respective wireless communication unit attribute information (step E4), and the wireless communication unit with the lowest power consumption is determined among them (step E4). Step E5).

  After the wireless communication unit to be used in the above process is determined, a connection link is established (step E6).

(Specific example of operation)
FIG. 12 is a flowchart showing a specific example of the operation procedure when the communication interface control unit 306 automatically determines the wireless communication unit with the lowest power consumption.

  Here, as an example, in the attribute information of each wireless communication unit, UWB wireless communication unit 302A supports USB and Ethernet (registered trademark) and power consumption is 250 mW, and UWB wireless communication unit 302B supports IEEE 1394. And Ethernet (registered trademark), power consumption is 300 mWs, and the mmWave wireless communication unit 301 is assumed to support HDMI / DVI and Ethernet (registered trademark), and power consumption is 500 mW.

  When the user starts using an application that uses wireless communication (step F1), the communication interface control unit 306 obtains information on the supported upper protocol from the wireless communication unit attribute information (step F2).

  Here, when the application to start using is a USB application, an IEEE 1394 application, or an HDMI / DVI application, there is only one wireless communication unit that supports these communication protocols, so the communication interface control unit 306 At this stage, it is determined that the UWB wireless communication unit 302A, the UWB wireless communication unit 302B, and the mmWave wireless communication unit 301 are used for connection (step F3).

  On the other hand, when the application to be used is an Ethernet (registered trademark) application, there are a plurality of wireless communication units that support this communication protocol, such as the UWB wireless communication unit 302A, the UWB wireless communication unit 302B, and the mmWave wireless communication unit 301. Since they exist, they are selected as candidates, and the wireless communication unit used for connection is not determined at this stage (step F4).

  Here, the communication interface control unit 306 first checks whether the UWB wireless communication unit 302A, the UWB wireless communication unit 302B, and the mmWave wireless communication unit 301 are already operating (step F5). This is because it is possible to reduce power consumption by using a wireless communication unit that is already in operation rather than newly supplying power to the wireless communication unit and operating it.

  If there is an already operating wireless communication unit, information on power consumption is acquired from the attribute information (step F6), and it is determined to use the wireless communication unit with the lowest power consumption for connection (step F6). F7).

  When there is no wireless communication unit that is already operating, information on power consumption is acquired from the attribute information of the UWB wireless communication unit 302A, the UWB wireless communication unit 302B, and the mmWave wireless communication unit 301 (step F8). It is determined to use the power consumption mmWave wireless communication unit 301 for connection (step F9).

  When using a wireless communication unit that is already in operation, in step F6 and step F7 in FIG. 12, the wireless communication unit with the lowest power consumption takes into account the decrease in communication speed due to the limit of the maximum communication speed. Alternatively, the wireless communication unit with the highest throughput may be selected.

  After the wireless communication unit used in the above process is determined, a connection link is established (step F10).

(Effect of the fourth embodiment)
According to the fourth embodiment, the wireless communication terminal 300 includes the wireless communication unit detection unit 303, the wireless communication unit information storage unit 304, and the communication interface control unit 306, and uses power consumption as wireless communication unit attribute information. By using the information, it becomes possible to automatically select the wireless communication unit with the lowest power consumption without any instruction from the user.

[Fifth Embodiment]
In the case where the wireless communication terminal 300 according to the first embodiment of the present invention is mounted on a desktop PC capable of always supplying power and the case where the wireless communication terminal 300 is mounted on a device having a limited battery capacity such as a mobile device, User requirements are different. In the former, there are many cases in which high-speed communication is generally desired, but in the latter, high-speed communication and low power consumption are selected depending on the use scene, such as when power is supplied from an outlet or when carrying around. There are many possible.

  Therefore, in the fifth embodiment of the present invention, a function for automatically selecting a data communication path for performing high-speed communication of the wireless communication terminal 300 of the present invention according to the third embodiment, In addition to the function of automatically selecting the data communication path for suppressing the power consumption of the wireless communication terminal 300 of the present invention according to the embodiment of the present invention, the user can By designating which of the functions has priority, a function capable of dynamically switching the control mode is added to the wireless communication terminal 300.

(Operation of wireless communication terminal)
FIG. 13 is a flowchart illustrating an operation procedure when the wireless communication terminal 300 determines the wireless communication path by dynamically switching the control mode.

  First, the communication interface control unit 306 obtains information about the supported higher-level protocol from the wireless communication unit attribute information, and determines a wireless communication unit that supports the communication protocol to be used (step G1).

  Next, it is checked whether there are a plurality of usable wireless communication units (step G2).

  Here, when there is only one usable wireless communication unit, it is determined to use that wireless communication unit for connection (step G3).

  On the other hand, when there are a plurality of usable wireless communication units, the user determines which of the two control modes, the high-speed communication mode in which communication speed is important and the power saving mode in which power consumption is important, is used. Designate (step G4).

  FIG. 14 is a front view showing the display unit indicating the designated state of the control mode. The display unit 321 is provided in the main body of the wireless communication terminal 300 and includes lamps 321A, 321B, and 321C that indicate the high-speed communication mode, the power saving mode, and the operation stop mode. The display unit 321 is not provided in the main body of the wireless communication terminal 300 but may be displayed on the screens of the PCs 100 and 200.

  When the high-speed communication mode is selected, throughput information is acquired from each wireless communication unit attribute information (step G5), and the wireless communication unit with the highest throughput is determined. On the other hand, when the high-speed communication mode is selected, power consumption information is acquired from each wireless communication unit attribute information (step G6), and the wireless communication unit with the lowest power consumption is determined.

  After the wireless communication unit to be used in the above process is determined, a connection link is established (step G7).

(Effect of 5th Embodiment)
According to the fifth embodiment, the wireless communication terminal 300 includes the wireless communication unit detection unit 303, the wireless communication unit information storage unit 304, and the communication interface control unit 306, and a high-speed communication mode in which communication speed is important. The wireless communication unit most suitable for the situation without the user giving instructions one by one by controlling which one of the two control modes of the power saving mode that emphasizes power consumption is used. Can be automatically selected.

  The present invention is not limited to the above embodiments, and various modifications can be made without departing from the spirit of the invention. For example, in each of the above embodiments, UWB or mmWave has been described as an example of the wireless communication technology. However, another wireless communication technology such as IEEE802.11 or Bluetooth (registered trademark) may be used. Further, the number of wireless communication units is not limited to two and may be three or more. These wireless communication units may be provided from the beginning in the wireless communication terminal 300 or may be added as an external terminal such as a PC card.

It is a conceptual diagram which shows the communication form of the radio | wireless communication terminal which concerns on the 1st Embodiment of this invention. It is a block diagram showing the structure of the radio | wireless communication terminal which concerns on the 1st Embodiment of this invention. It is the schematic which shows the radio | wireless communication part attribute information which concerns on the 1st Embodiment of this invention. It is a flowchart which shows the operation | movement procedure at the time of automatically selecting the radio | wireless communication part of the radio | wireless communication terminal which concerns on the 1st Embodiment of this invention. It is a block diagram which shows the specific example in which the communication interface control part of the radio | wireless communication terminal which concerns on the 1st Embodiment of this invention determines each higher-order protocol automatically. It is a flowchart which shows the specific example of the operation | movement procedure when the communication interface control part of the radio | wireless communication terminal which concerns on the 1st Embodiment of this invention determines each higher-order protocol automatically. It is a conceptual diagram which shows the other communication form of the radio | wireless communication terminal which concerns on the 1st Embodiment of this invention. It is a flowchart which shows the operation | movement procedure at the time of determining a radio | wireless communication path based on the use frequency band information of the radio | wireless communication terminal which concerns on the 2nd Embodiment of this invention. It is a flowchart which shows the operation | movement procedure at the time of determining a radio | wireless communication path based on the throughput information of the radio | wireless communication terminal which concerns on the 3rd Embodiment of this invention. It is a flowchart showing the specific example of the operation | movement procedure of the radio | wireless communication terminal which concerns on the 3rd Embodiment of this invention. It is a flowchart which shows the operation | movement procedure at the time of determining a radio | wireless communication path based on the power consumption information of the radio | wireless communication terminal which concerns on the 4th Embodiment of this invention. It is a flowchart which shows the specific example of the operation | movement procedure at the time of automatically determining the radio | wireless communication part of the lowest power consumption of the communication interface control part of the radio | wireless communication terminal which concerns on the 4th Embodiment of this invention. It is a flowchart which shows the operation | movement procedure at the time of dynamically switching the control mode of the radio | wireless communication terminal which concerns on the 5th Embodiment of this invention, and determining a radio | wireless communication path. It is a front view which shows the display part showing the designation | designated state of the control mode of the radio | wireless communication terminal which concerns on the 5th Embodiment of this invention. It is a schematic block diagram of the conventional radio | wireless communication terminal.

Explanation of symbols

100, 200 PC
101, 201 Mobile HDD
102, 202 HDD / DVD recorder 103, 203 Digital TV
104, 204 Antenna 205 Wireless docking station 300 Wireless communication terminal 301 mmWave wireless communication unit 302, 302A, 302B UWB wireless communication unit 303 Wireless communication unit detection unit 304 Wireless communication unit information storage unit 305 Data communication unit 306 Communication interface control unit 307 Display Unit 308 Control unit 309 Data storage unit 310 Input / output unit 311 Antenna 312 External device

Claims (6)

A plurality of wireless communication units;
A wireless communication unit information storage unit for storing attribute information related to the wireless communication unit;
Said acquires the ID for specifying the wireless communication unit from the radio communication unit, acquires the attribute information of the wireless communication unit corresponding based on the ID from the wireless communication unit information storing unit wireless communication unit detecting unit,
A communication interface control unit that determines a data communication path with an application used by a user and establishes a connection link based on information of a corresponding higher-level protocol included in the attribute information of the corresponding wireless communication unit, and includes a plurality of A wireless communication terminal that establishes a connection link for different applications . The wireless communication unit information storage unit holds information on frequency bands used by each wireless communication unit as attribute information, and uses information on frequency bands held by each wireless communication unit for a plurality of different applications. The wireless communication terminal according to claim 1, wherein a connection link is established .   The wireless communication terminal according to claim 1 or 2, wherein the wireless communication unit information storage unit holds, as attribute information, information related to a maximum throughput with which each wireless communication unit can communicate.   The wireless communication terminal according to claim 1, wherein the wireless communication unit information storage unit stores information regarding power consumption of each wireless communication unit as attribute information.   The wireless communication terminal according to claim 1, wherein the communication interface control unit selects a wireless communication unit according to a communication mode designated by a user and determines a data communication path.   The wireless communication terminal according to claim 5, wherein the communication mode includes a first communication mode that prioritizes maximum throughput and a second communication mode that prioritizes power consumption.

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