CN1695311A - Cordless wireless local loop phone - Google Patents

Abstract

Methods and apparatus for implementing a phone system providing a local wireless connection and a wide area wireless connection. in one implementation, a phone system includes: a terminal unit comprising: a first antenna, a first modem connected to said first antenna, a second antenna, a second modern connected to said second antenna, a modern interface connected to said first modern and to said second modern; wherein said first modem provides a first air Interface using said first antenna for short range communication, said second modern provides a second air interface using said second antenna, and said second air interface is different than said first air interface.

Description

Wireless wireless local loop phone

The application requires the U.S. Provisional Application No.60/409 of submission on September 10th, 2002,721 priority, and its full content is incorporated this paper by reference into.

Background technology

The wireless local loop phone is used for and honeycomb or PCS network service.Usually, the wireless local loop phone comprises the mobile phone that is connected to terminal installation.Terminal installation provide air interface with the wireless communication of all CDMA in this way, GSM or TDMA network.The disabled place of connection telephone system by land, the wireless local loop phone is through being often used as this locality or long apart from home phone number.

Summary of the invention

A kind of method and apparatus of realizing to provide the local wireless telephone system that connection is connected with wide-area wireless.In one embodiment, telephone system comprises: terminal installation, and this terminal installation comprises: first antenna; First modulator-demodulator is connected to described first antenna; Second antenna; Second modem is connected to described second antenna; Modem interface is connected to described first modulator-demodulator and described second modem, and wherein, described first modulator-demodulator utilizes described first antenna to be provided for first air interface of junction service; Described second modem utilizes described second antenna that second air interface is provided; And described second air interface is different from described first air interface.

In another embodiment, wireless communications method comprises: by first antenna of terminal installation, with the first air interface form from the wireless base station received signal; With described conversion of signals is the second air interface form; And second antenna that passes through described terminal installation, with the described second air interface form described signal is sent to wireless phone; Wherein, the described first air interface form is a wireless local loop air interface form; The described second air interface form is a short-distance radio air interface form; And described signal comprises speech data.

In another embodiment, wireless communications method comprises: by first antenna of terminal installation, with the first air interface form from the wireless phone received signal; With described conversion of signals is the second air interface form; And send described signal with the described second air interface form to the wireless base station by second antenna of described terminal installation; Wherein, the described first air interface form is a short-distance radio air interface form; The described second air interface form is a wireless local loop air interface form; And described signal comprises speech data.

In another embodiment, wireless communications method comprises: by first antenna of terminal installation, receive the signal that comprises instruction from wireless phone with the first air interface form; With the director data of described conversion of signals for the described instruction of expression; And carry out described instruction at described terminal installation; Wherein, the described first air interface form is a short-distance radio air interface form; The described second air interface form is a wireless local loop air interface form; And described terminal installation comprises second antenna that is used to support second air interface.

Description of drawings

Fig. 1 represents an embodiment of wireless local loop telephone system;

Fig. 2 represents the block diagram of an embodiment of Wireless Local Loop line terminal;

Fig. 3 represents the block diagram of an embodiment of cordless handset;

Fig. 4 represents to send to wireless network from mobile phone the flow chart of an embodiment of speech data;

Fig. 5 represents from the flow chart of wireless network to an embodiment of mobile phone transmission voice data;

Fig. 6 represents the flow chart of an embodiment sending instructions to the Wireless Local Loop line terminal from mobile phone.

Embodiment

Method and apparatus provided by the invention is used to implement a kind of local wireless that can provide and connects the telephone system that is connected with wide-area wireless.In one embodiment, terminal installation provides the wireless local loop interface that is used for honeycomb or PCS network service, and is used for the cordless telephone interface of communicating by letter with cordless handset.The user sends and receipt of call by cordless handset.Terminal installation and cordless handset and cellular network cooperatively interact, and serve as passage or intermediate equipment between cordless handset and the public switch telephone network (PSTN).

The illustrative example of an embodiment is described below.Other variation is described after this example.

In the example of an embodiment, the Wireless Local Loop line terminal comprises two modulator-demodulators: cdma modem and cordless telephone modulator-demodulator.Terminal installation also comprises and these two modem interfaces that modulator-demodulator links to each other.Cordless handset comprises the cordless telephone modulator-demodulator, and the cordless telephone modulator-demodulator of this cordless telephone modulator-demodulator and terminal installation is compatible.

The user facing to the microphone talk of cordless handset to send speech data, for example when in telephone talk, talking with another user.The audio frequency that cordless handset is handled into generates speech data simultaneously.Cordless handset sends to terminal installation by the cordless telephone modulator-demodulator with speech data.Terminal installation receives speech data by its cordless telephone modulator-demodulator.Terminal installation uses modem interface to come the processed voice data, and the speech data of handling is sent to cdma modem.Terminal installation sends to the cdma wireless network by cdma modem with speech data.Cdma network is sent to PSTN with speech data.

For the speech data of coming in, terminal installation receives speech data from the cdma wireless network (for example, from PSTN speech data) by cdma modem.Terminal installation uses modem interface to handle this speech data, and transmits the speech data of handling to the cordless telephone modulator-demodulator.Terminal installation sends this speech data by the cordless telephone modulator-demodulator to cordless handset.Cordless handset receives this speech data by its cordless telephone modulator-demodulator.Cordless handset is handled the speech data of reception and is exported corresponding audio frequency by loud speaker.

In this example, the user can utilize cordless telephone interface and wireless local loop interface to send to PSTN and call out and from the PSTN receipt of call.By this way, by the wireless connection between mobile phone and the terminal installation, the user can obtain ambulant advantage in home environment.The user also obtains the advantage (for example, eliminating the installation and maintenance cost that the landline between terminal installation and PSTN connects) that the wireless local loop between terminal installation and the PSTN connects.

Fig. 1 represents an embodiment of wireless local loop telephone system.Terminal installation 105 has first wireless connections that connect mobile phone 110.These first wireless connections are that local wireless connects, and for example cordless telephone connects or IEEE802.11 connects (" Wi-Fi ").Terminal installation 105 has second wireless connections that are connected to base station 115.These second wireless connections are that wide-area wireless connects, and for example honeycomb, PCS or fixed wireless connect.In one embodiment, wireless network is special-purpose radio local loop network.In another embodiment, wireless network is cellular network or the PCS network that also can be used for wireless cell phone (for example, cell phone).Base station 115 is connected to public switch telephone network (PSTN).In another embodiment, the base station is connected to different telephone networks, for example private branch exchange system or private cellular network.

Fig. 2 represents the block diagram of an embodiment of Wireless Local Loop line terminal 200 (for example, the terminal installation shown in Fig. 1 105).Terminal installation 200 comprises wireless local loop (WLL) modulator-demodulator 205 and wireless modulator-demodulator 210.This wireless local loop modulator-demodulator 205 is wireless telephony modem, and it supports radio telephone to connect and cordless telephone protocol, or supports to be used for the air interface with wireless communication, and this wireless network is for example comprising CDMA, TDMA, or GSM.Wireless modulator-demodulator 210 is another wireless telephony modem, it supports radio telephone to connect and cordless telephone protocol, or support to be used for the air interface of carrying out this locality or junction service with wireless device or mobile phone, the wireless connection of for example typical simulation, digital cord-less connects or WLAN connects (for example, 802.11 or " Wi-Fi ").

Wireless local loop modulator-demodulator 205 is connected to first radio interface, 215, the first radio interface 215 and is connected to first antenna 220.In one embodiment, radio interface 215 is typical radio interface, and comprises: radio frequency (RF) partly, duplexer, low noise amplifier (LNA), band pass filter (BPF), insulator and power amplifier.The class of operation of radio interface 215 is similar to the typical radio interface in the mobile wireless mobile phone.Send signal in order to utilize wireless local loop to connect, wireless local loop modulator-demodulator 205 provides modulated signal to radio interface 215.In radio interface 215, RF part provides modulation signal from wireless local loop modulator-demodulator 205 to power amplifier.Power amplifier provides amplifying signal to insulator, and insulator offers signal duplexer again and upwards offers antenna 220.In order to utilize wireless local loop to connect received signal, antenna 220 provides the signal that receives from wireless network to duplexer.Duplexer provides this signal to LNA, and LNA provides amplifying signal to BPF.BPF partly provides filtering signal to RF, and the RF part provides this signal to wireless local loop modulator-demodulator 205.

Wireless modulator-demodulator 210 is connected to second radio interface, 225, the second radio interface 225 and is connected to second antenna 230.The class of operation of second radio interface 225 and antenna 230 is similar to first radio interface 215 and antenna 220, to send and received signal between wireless modulator-demodulator 210 and cordless handset (for example, the cordless handset shown in Fig. 1 110).

Wireless local loop modulator-demodulator 205 and wireless modulator-demodulator 210 all are connected to modem interface 235.This modem interface 235 is handled and transmit signal between two modulator-demodulator 205,210.Modem interface 235 provides conversion and formats any necessity, signal and data, transmits data to be supported between mobile phone and the wireless network.For example, in one embodiment, modem interface 235 receives demodulated signal from wireless modulator-demodulator 210, and provides the preliminary treatment of this signal to come to be wireless local loop modulator-demodulator 205 ready signals.In alternative embodiment, wireless local loop modulator-demodulator and wireless modulator-demodulator provide dateout with suitable form for another modulator-demodulator, so they directly influence each other.In this case, modem interface is omitted or is integrated in the modulator-demodulator.

Terminal installation 200 comprises control module 240 and the memory 245 that is connected, with the operation of support and control terminal device 200.Control module 240 and modulator-demodulator 205,210 are operated simultaneously, to send and to receive call by wireless network.Instruction interface 250 is connected to control module 240.This instruction interface 250 is handled the instruction of giving mobile phone that is received by terminal installation 200, and handles the instruction of giving terminal installation 200 that receives from mobile phone.The instruction that control module 240 and instruction interface 250 co-operate receive with execution.

Terminal installation 200 also comprises wireless local loop terminal and the typical extention of ropeless phone terminal: power supply 255 (for example, battery or external power source connect) is connected to the power-actuated part of using in the terminal installation 200 (not shown connection among Fig. 2); Phase-locked loop (PLL) 260; User interface 265 comprises keyboard (for example, numerical key or page-turning button), ringer and display; Peripheral interface 270 comprises one or more connections (for example, RJ-11 is to analogue simulation, and RJ-11 is to other phones (wireless or wired), and RJ-45/RS-232 connects or the network connection to the data of PC) of external equipment; And bearing 275, be used to hold mobile phone and provide charge power supply to mobile phone.

Fig. 3 represents the block diagram of an embodiment of cordless handset 300 (example is mobile phone 110 as shown in Figure 1).Mobile phone 300 comprises wireless modulator-demodulator 305.This wireless modulator-demodulator 305 is wireless telephony modem, it supports radio telephone to connect and cordless telephone protocol, or support to be used for the air interface of carrying out this locality or junction service with wireless device or mobile phone, the wireless connection of for example typical simulation, digital cord-less connect, are used for WLAN and connect (for example, 802.11 or " Wi-Fi ").Wireless modulator-demodulator 305 is connected to radio interface 310, and radio interface 310 is connected to antenna 315.The class of operation of radio interface 310 and antenna 315 is similar to above-mentioned radio interface 225 and antenna 230, in order to send and received signal between wireless modulator-demodulator 305 and cordless terminal device (for example, the terminal installation shown in Fig. 1 105).

Mobile phone 300 comprises control module 320 and the memory 325 that is connected, and supports and control the operation of mobile phone 300.Control module 320 and modulator-demodulator 305 are operated simultaneously, to send and to receive call by terminal installation and wireless network.Instruction interface 330 is connected to control module 320.Instruction interface 330 is handled by mobile phone instruction 300 receptions, that give terminal installation, and handles the instruction that receives from terminal installation, give mobile phone 300.Control module 320 and instruction interface 330 co-operate are carried out the instruction that receives.

Mobile phone 300 also comprises the typical extention of cordless portable part: power supply 335 (for example, rechargeable battery), be connected to mobile phone 300 (Fig. 3 not shown its connect) by power-actuated part; Phase-locked loop (PLL) 340; Audio-frequency module 345 comprises microphone and loud speaker; User interface 350 comprises keyboard (for example, numerical key), ringer and display; And a base connector 355, be used for mobile phone 300 is connected to terminal installation and provides charge power supply to mobile phone 300.

Terminal installation and mobile phone are operated simultaneously, thereby the telephone network of the radio local loop network that the user can be by being connected to terminal installation makes a call and receipt of call.For example, mobile phone and terminal installation provide basic wireless local loop telephony feature, such as analog dialup sound function and autompulse sending function.

Fig. 4 represents to send to wireless network from mobile phone the flow chart 400 of an embodiment of speech data.At first, send or receive call, set up between mobile phone and the terminal installation and the open connection between terminal installation and the wireless network by mobile phone and terminal installation.

At square frame 405, the user is facing to the microphone talk of mobile phone.Square frame 410, this audio signal of handset processes, and this audio signal is converted to the signal of the air interface call format that meets between mobile phone and the terminal installation.In one embodiment, this audio signal is handled and modulated to mobile phone according to typical cordless telephone air interface.At square frame 415, mobile phone sends formatted signal to terminal installation.Mobile phone uses the wireless modulator-demodulator of mobile phone and a day alignment terminal installation to send formatted signal.

At square frame 420, terminal installation is from the mobile phone received signal.Corresponding antenna of air interface between terminal installation utilization and mobile phone and the terminal installation and modulator-demodulator receive and processing signals.At square frame 425, terminal installation is the signal that meets the air interface call format between terminal installation and the wireless network with the conversion of signals that receives.In one embodiment, terminal installation uses modem interface that signal is sent to modulator-demodulator with the corresponding air interface of wireless network from the modulator-demodulator with the corresponding air interface of mobile phone.This signal is handled and modulated to terminal installation according to the wireless local loop air interface such as the CDMA interface.At square frame 430, terminal installation sends formative once more signal to wireless network.Utilize the wireless local loop modulator-demodulator and the antenna of terminal installation, the base station of terminal installation in wireless network sends formative once more signal.

Fig. 5 represents from the flow chart 500 of wireless network to an embodiment of mobile phone transmission voice data.At first, send or receive call, set up between mobile phone and the terminal installation and the open connection between terminal installation and the wireless network by mobile phone and terminal installation.

At square frame 505, terminal installation receives the signal that comprises speech data from wireless network.Terminal installation receives and handles from signal of base station in the wireless network by wireless local loop modulator-demodulator and the antenna that uses terminal installation.At square frame 510, terminal installation is the signal that meets the air interface call format between terminal installation and the mobile phone with the conversion of signals that receives.In one embodiment, terminal installation uses modem interface that signal is sent to modulator-demodulator with the corresponding air interface of mobile phone from the modulator-demodulator with the corresponding air interface of wireless network.Terminal installation is handled and modulation signal according to typical cordless telephone air interface.At square frame 515, terminal installation sends to mobile phone with formatted signal.Utilize the wireless modulator-demodulator and the antenna of terminal installation, terminal installation sends this signal to mobile phone.

At square frame 520, mobile phone receives the signal from terminal installation.Utilize the modulator-demodulator and the antenna of mobile phone, mobile phone receives and handles the signal from terminal installation.At square frame 525, the signal that handset processes receives, and be audio signal with this conversion of signals.In one embodiment, mobile phone is handled and this signal of demodulation according to typical cordless telephone air interface.At square frame 530, mobile phone by loud speaker to user's output audio.

Terminal installation and mobile phone be operation simultaneously also, comes by mobile phone control terminal device with by terminal installation control mobile phone to allow user input instruction.As mentioned above, in one embodiment, each in terminal installation and the mobile phone all comprises the user interface that is used for input instruction and shows relevant instruction results information.In another embodiment, the one or both in mobile phone and the terminal installation comprises such part, and it is used to support the speech recognition with the processed voice instruction.

Fig. 6 represents the flow chart 600 of an embodiment sending instructions to the Wireless Local Loop line terminal from mobile phone.At first, the user start mobile phone and open mobile phone and terminal installation between wireless connections.At square frame 605, the user is by the user interface input instruction of mobile phone.In one embodiment, the user uses the keyboard selection instruction of mobile phone.At square frame 610, the instruction of handset processes input.Mobile phone is determined that this instruction is intended to give terminal installation rather than is planned to give mobile phone.Mobile phone uses instruction interface to handle and interpretative order.At square frame 615, mobile phone is the signal that meets the call format of the air interface between mobile phone and the terminal installation with instruction transformation.In one embodiment, this director data is handled and modulated to mobile phone according to typical cordless telephone air interface.At square frame 620, mobile phone sends to terminal installation with formatted signal.Utilize the wireless modulator-demodulator and the antenna of mobile phone, mobile phone sends to terminal installation with formatted signal.

At square frame 625, terminal installation receives the signal from mobile phone.Corresponding antenna of air interface between terminal installation utilization and mobile phone and the terminal installation and modulator-demodulator received signal.At square frame 630, terminal installation is director data and handles this instruction the conversion of signals that receives.Terminal installation uses instruction interface to handle and interpretative order.At square frame 635, the terminal installation execution command.

The user can control mobile phone by the terminal installation input instruction in a similar fashion.In this case, terminal installation is handled the instruction of input, and sends instruction by the wireless air interface between terminal installation and the mobile phone.The instruction of reception is handled and carried out to mobile phone again.

Each embodiment of the present invention can realize with the combination of electronic hardware, computer software or these technology.Some embodiment comprise one or more computer programs of being carried out by programmable processor or computer.For example, with reference to Fig. 1, in one embodiment, terminal installation 105 and mobile phone 110 comprise one or more programmable processors.Usually, every computer (for example comprises one or more processors, one or more storage part, volatibility or non-volatile memory module and persistent optical memory device and magnetic storage apparatus, such as hard disk and floppy disk, CD-ROM drive and tape drive), one or more input equipment (for example, mouse and keyboard) and one or more output equipment (for example, display console and printer).

Computer program comprises executable code, and described executable code is stored in usually in the permanent storage media and when operation and is copied in the memory.Processor instructs run time version by predefined procedure search utility from memory.When the executive program code, computer receives data from input and/or memory device, and to this data executable operations, then result data is transported to output and/or memory device.

Though each illustrative embodiment of the present invention has been described,, those of ordinary skill in the art should be realized that, also can have other embodiment within the scope of the invention.For example, more than describe to concentrate on and use wireless local loop to connect the embodiment that is connected with cordless telephone, also can use other connection, for example, two honeycombs connect, and perhaps two WLAN connect.In another alternative embodiment, the one or both in terminal installation and the mobile phone is not an independent device, but is integrated into the part in the other system, such as being integrated into (for example, kneetop computer) in the computer system.

Therefore, the present invention is not limited only to those above-mentioned embodiment.

Claims (47)

1. telephone system comprises:

Terminal installation, this terminal installation comprises:

First antenna;

First modulator-demodulator is connected to described first antenna;

Second antenna;

Second modem is connected to described second antenna;

Modem interface is connected to described first modulator-demodulator and described second modem,

Wherein, described first modulator-demodulator utilizes described first antenna to be provided for first air interface of junction service;

Described second modem utilizes described second antenna that second air interface is provided; And

Described second air interface is different from described first air interface.

2. telephone system as claimed in claim 1, wherein,

Described modem interface provides signal from described first modulator-demodulator to described second modem, and provides signal from described second modem to described first modulator-demodulator.

3. telephone system as claimed in claim 2, wherein,

The conversion of signals that described modem interface will receive from described first modulator-demodulator is first switching signal compatible mutually with described second modem, and provides described first switching signal to described second modem; And

The conversion of signals that described modem interface will receive from described second modem is second switching signal compatible mutually with described first modulator-demodulator, and provides described second switching signal to described first modulator-demodulator.

4. telephone system as claimed in claim 1, wherein,

Described first air interface provides the cordless telephone air interface.

5. telephone system as claimed in claim 1, wherein,

Described second air interface provides the wireless local loop air interface.

6. telephone system as claimed in claim 1, wherein,

Described second air interface provides cellular telephone air interface.

7. telephone system as claimed in claim 1, wherein,

Described second air interface provides PCS air interface.

8. telephone system as claimed in claim 1 also comprises:

Mobile phone, this mobile phone comprises:

Third antenna;

The 3rd modulator-demodulator is connected to described third antenna;

Cellphone subscriber's interface;

Wherein, described the 3rd modulator-demodulator utilizes described third antenna that the 3rd air interface is provided; And

Described the 3rd air interface is identical with described first air interface, make like this 3rd modulator-demodulator can with first modem communication.

9. telephone system as claimed in claim 8, wherein,

Described mobile phone also comprises:

The mobile phone instruction interface is used to handle the instruction that receives by described cellphone subscriber's interface.

10. telephone system as claimed in claim 9, wherein,

Described mobile phone instruction interface is handled the instruction that receives from described terminal installation.

11. telephone system as claimed in claim 9, wherein,

Described terminal installation also comprises:

The terminal instruction interface is used to handle the instruction that receives from described mobile phone.

12. telephone system as claimed in claim 1, wherein,

Described terminal installation also comprises:

End user interface.

13. telephone system as claimed in claim 12, wherein,

Described terminal installation also comprises:

The terminal instruction interface is used to handle the instruction that receives by described end user interface.

14. telephone system as claimed in claim 13, wherein,

Described terminal instruction interface is handled the instruction that receives from described mobile phone.

15. a wireless communications method comprises:

By first antenna of terminal installation, with the first air interface form from the wireless base station received signal;

With described conversion of signals is the second air interface form; And

By second antenna of described terminal installation, described signal is sent to wireless phone with the described second air interface form;

Wherein, the described first air interface form is a wireless local loop air interface form;

The described second air interface form is a short-distance radio air interface form; And

Described signal comprises speech data.

16. method as claimed in claim 15, wherein,

Described first air interface provides cellular telephone air interface.

17. method as claimed in claim 15, wherein,

Described first air interface provides PCS air interface.

18. method as claimed in claim 15, wherein,

The described second air interface form is a cordless telephone air interface form.

19. method as claimed in claim 15 also comprises:

By described second antenna, send command signal from described terminal installation to described mobile phone with the described second air interface form.

20. method as claimed in claim 15 also comprises:

By described second antenna, receive command signal with the described second air interface form from described mobile phone at described terminal installation.

21. a wireless communications method comprises:

By first antenna of terminal installation, with the first air interface form from the wireless phone received signal;

With described conversion of signals is the second air interface form; And

Second antenna by described terminal installation sends described signal with the described second air interface form to the wireless base station;

Wherein, the described first air interface form is a short-distance radio air interface form;

The described second air interface form is a wireless local loop air interface form; And

Described signal comprises speech data.

22. method as claimed in claim 21, wherein,

The described first air interface form is a cordless telephone air interface form.

23. method as claimed in claim 21, wherein,

Described second air interface provides cellular telephone air interface.

24. method as claimed in claim 21, wherein,

Described second air interface provides PCS air interface.

25. method as claimed in claim 21 also comprises:

By described second antenna, send command signal from described terminal installation to described mobile phone with the described first air interface form.

26. method as claimed in claim 21 also comprises:

By described second antenna, receive command signal with the described first air interface form from described mobile phone at described terminal installation.

27. a wireless communications method comprises:

By first antenna of terminal installation, receive the signal that comprises instruction from wireless phone with the first air interface form;

With the director data of described conversion of signals for the described instruction of expression; And

Carry out described instruction at described terminal installation;

Wherein, the described first air interface form is a short-distance radio air interface form;

The described second air interface form is a wireless local loop air interface form; And

Described terminal installation comprises second antenna that is used to support second air interface.

28. method as claimed in claim 27, wherein,

The described first air interface form is a cordless telephone air interface form.

29. method as claimed in claim 27, wherein,

Described second air interface provides cellular telephone air interface.

30. method as claimed in claim 27, wherein,

Described second air interface provides PCS air interface.

31. method as claimed in claim 27, wherein,

Carry out described instruction and comprise described second air interface of use.

32. a system that is used for radio communication comprises:

Be used for by terminal installation first antenna, with the device of the first air interface form from the wireless base station received signal;

Be used for described conversion of signals is the device of the second air interface form; And

Be used for second antenna by described terminal installation, the device that sends to wireless phone with the described second air interface form, with described signal;

Wherein, the described first air interface form is a wireless local loop air interface form;

The described second air interface form is a short-distance radio air interface form; And

Described signal comprises speech data.

33. system as claimed in claim 32, wherein,

Described first air interface provides cellular telephone air interface.

34. system as claimed in claim 32, wherein,

Described first air interface provides PCS air interface.

35. system as claimed in claim 32, wherein,

The described second air interface form is a cordless telephone air interface form.

36. system as claimed in claim 32 also comprises:

Be used for sending to described mobile phone from described terminal installation the device of command signal by described second antenna, with the described second air interface form.

37. system as claimed in claim 32 also comprises:

Be used for by described second antenna, receive device with the described second air interface form from the command signal of described mobile phone at described terminal installation.

38. a system that is used for radio communication comprises:

Be used for by terminal installation first antenna, with the device of the first air interface form from the wireless phone received signal;

Be used for described conversion of signals is the device of the second air interface form; And

Be used for by described terminal installation second antenna, send the device of described signal to the wireless base station with the described second air interface form;

Wherein, the described first air interface form is a short-distance radio air interface form;

The described second air interface form is a wireless local loop air interface form; And

Described signal comprises speech data.

39. system as claimed in claim 38, wherein,

The described first air interface form is a cordless telephone air interface form.

40. system as claimed in claim 38, wherein,

Described second air interface provides cellular telephone air interface.

41. system as claimed in claim 38, wherein,

Described second air interface provides PCS air interface.

42. system as claimed in claim 38 also comprises:

Be used for sending to described mobile phone from described terminal installation the device of command signal by described second antenna, with the described first air interface form.

43. system as claimed in claim 38 also comprises:

Be used for by described second antenna, receive device with the described first air interface form from the command signal of described mobile phone at described terminal installation.

44. a system that is used for radio communication comprises:

Be used for receiving from wireless phone with the first air interface form device of the signal that comprises instruction by first antenna of terminal installation;

Be used for the device of described conversion of signals for the director data of the described instruction of expression; And be used to utilize second air interface to carry out the device of described instruction at described terminal installation;

Wherein, the described first air interface form is a short-distance radio air interface form; And the described second air interface form is a wireless local loop air interface form.

45. system as claimed in claim 44, wherein,

The described first air interface form is a cordless telephone air interface form.

46. system as claimed in claim 44, wherein,

Described second air interface provides cellular telephone air interface.

47. system as claimed in claim 44, wherein,

Described second air interface provides PCS air interface.

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