CN102301605A - System and method for virtualizing the peripherals in a terminal device to enable remote management via removable portable media with processing capability - Google Patents

Abstract

Systems and methods for virtualizing the peripherals in a wireless device to enable remote management via removable portable media with processing capability are described. One aspect may include a system for virtualizing a peripheral device of a wireless device from a media device, the system comprising a media device, including a first memory; a processor coupled to said first memory; and a virtualization device controller interface remote layer adapted to run on said processor and first memory, wherein said virtualization device controller interface remote layer is adapted to communicate with a peripheral device of the wireless device.

Description

Be used for making the system and method for realizing telemanagement by removable portable equipment with processor ability at the virtual ancillary equipment of terminal equipment

The cross reference of related application

The application requires the U.S. Patent application the 12/386th of submission on April 14th, 2009, No. 212 priority, wherein the sequence number of this U.S. Patent application requirement submission on January 30th, 2009 is 61/206,454,61/206,453 and 61/206,427 U.S. Provisional Patent Application, and the sequence number that on February 4th, 2009 submitted to is 61/206, the priority of 797 U.S. Provisional Patent Application, its full content mode by reference is incorporated into this.

Technical field

The present invention relates to be used at the virtual ancillary equipment of terminal equipment to realize the system and method for telemanagement by removable portable equipment with processor ability.

Background technology

The design of present wireless device or radio hand-held equipment has to operate in and has to the primary processor of the direct path of the ancillary equipment that connects or the function of the software layer on the application processor, and ancillary equipment is such as but not limited to display, keyboard, communication hardware, codec, printer, camera and the network hardware.Application and runtime environment depend on the operating system and the hardware architecture of each wireless device or radio hand-held equipment.Runtime environment is by hardware structure (framework) layer access hardware, and the hardware structure layer uses embedded OS to come control hardware with relevant device driver.When transplanting software, particularly when strengthening wireless device characteristic and upgrading operation system, need a large amount of effort to keep using and runtime environment.

Summary of the invention

What may need is to have a kind of being used at the virtual ancillary equipment of wireless device to realize the system and method for telemanagement by the removable portable equipment with processor ability.This makes runtime environment and application not rely on the radio hardware that realizes on the radio hand-held equipment.Removable media with processor and installed software can be connected to has different radio hardware configuration and still normal any other radio hand-held equipment that moves.

In some aspects, the present invention can provide a kind of method.In one aspect, described method can comprise the teleprocessing unit encapsulation on the removable media that is arranged on virtualization hardware on terminal or the radio hand-held equipment.

In one aspect, the present invention can provide the teleprocessing unit that is arranged in removable media package system.Aspect can comprise a kind of system of the external equipment by the virtual wireless device of media device, and described system comprises: media device, and it comprises first memory; Be coupled to the processor of described first memory; And being adapted to operate in the long-range layer of virtual equipment control unit interface on described processor and the first memory (remote layer), the long-range layer of wherein said virtual equipment control unit interface is suitable for communicating by letter with the ancillary equipment of wireless device.Can comprise a kind of method that is used for by the ancillary equipment of the virtual wireless device of media device on the other hand, described method is included in emulation on the media device and is used for the hardware interface of communicating by letter with runtime environment; On media device, receive the hardware configuration of wireless device; By the long-range layer of the virtual equipment control unit interface on the media device ancillary equipment of wireless device is mapped to the hardware interface of described emulation, makes media device operate as directly being connected to ancillary equipment; Transmit the logic port that is used for the ancillary equipment on the wireless device from media device; By the long-range layer of the described virtual equipment control unit interface on the media device ancillary equipment command wrapper is become packet; The packet that will comprise the described packing of described ancillary equipment order by the long-range layer of the described virtual equipment control unit interface on the media device sends wireless device to; And the media device fill order, just as the ancillary equipment of wireless device directly is connected to media device.

Description of drawings

In conjunction with the drawings, explain the feature and the others of embodiments of the present invention in the following description, wherein:

Fig. 1 shows the radio hand-held equipment block diagram of typical radio hand-held equipment;

Fig. 2 shows the radio hand-held equipment block diagram of processor in the removable media device of an aspect of system and a method according to the invention;

Fig. 3 shows the radio hand-held equipment of an aspect of system and a method according to the invention and the block diagram of the communication between the removable media device;

Fig. 4 shows the flow chart that is used for WiFi hardware requests process of an aspect of system and a method according to the invention;

Fig. 5 shows the radio handsets of an aspect of system and a method according to the invention and the VDCI of removable media device realizes; And

Fig. 6 shows the block diagram of removable media device hardware designs.

Embodiment

Now, will introduce various execution mode of the present invention.

As shown in Figure 1, the typical structure of wireless device comprises the processor 102 of the interface hardware remainder that is positioned at radio hand-held equipment 101.Interface hardware can comprise LCD display, keyboard or touch-screen 108, radio hardware 109, audio codec 110, bluetooth 111, WiFi 112, GPS 113 and camera 114, and each all is connected to primary processor 102 by hardware device driver 107.In addition, handheld device 101 also comprises application 103, runtime environment 104, radio hardware framework 105 and embedded operating system kernel 106.

One aspect of the present invention can comprise a kind of method, and removable (removable) media device 202 that wherein has disposal ability can be by communication link 203 remotely application software 103, runtime environment 104, intercommunication framework of management terminal device 201 or radio hand-held equipment (include but not limited to wireless or fixedly copper cash) 105 and embedded OS 106.In one aspect, communication link 203 can be bus, for example USB.In others, communication link 203 can be wireless connections.Aspect further, communication link 203 can be a high-speed bus.Others include but not limited to as the USB of communication link 203, SD, little SD, SIM, SAM and MMC.In others, terminal equipment 201 or radio hand-held equipment be meant have RAM, the equipment of ROM and processor 301 and the embedded OS that on processor, moves.On the other hand, removable media device 202 can comprise at least one processor, memory and have other circuit of communication link 203.Others can be by including but not limited to that in profile factor (form factor) SIM, SAM, SD, little SD, MMC or USB come removable media device 202 is encapsulated.

In one aspect, terminal equipment 201 and removable media device 202 can communicate by virtual equipment control unit interface (" VDCI ").Aspect further, the VDCI on the terminal equipment 201 realizes being meant VDCI equipment or VDCI equipment background program 205.In others, the VDCI on the removable media device realizes being meant the long-range or long-range layer 204 of VDCI of VDCI.In one aspect, the VDCI equipment background program 205 in the terminal equipment 201 is the software programs that operate on terminal equipment 201 interior basic processing units or the baseband processor 301.On the other hand, the long-range layer of VDCI 204 is to be present on the embedded OS 106 of removable media device 202 and the background program under the hardware structure 105 of the runtime environment 104 of removable media device 202 or windows system.

Aspect use virtual in terminal equipment 201 virtual peripherals, and make the application 103 in the removable media device 202 control these ancillary equipment by communication link 203.Others can have terminal equipment 201, and it has the thin layer software that is called as VDCI equipment 205 with virtual and all ancillary equipment of management, and do not need whole application of existing in the terminal equipment 201.Can comprise that on the other hand VDCI in the removable media device 202 is long-range 204, it can receive request from application software 103.In others, VDCI long-range 204 will communicate with VDCI equipment 205.In others, VDCI equipment 205 points to suitable physical equipment or the ancillary equipment that is used for proper handling with VDCI telecommunication 204.

On the other hand, terminal equipment 201 may only require to install VDCI equipment background program 205.In others, removable media device 202 can require to install the long-range layer 204 of corresponding VDCI.Aspect further, the application 103 that is present in the movable equipment 202 can utilize any terminal equipment 201 with VDCI equipment 205 to move, and does not need customization and carry out further Acceptance Test.Fig. 2 shows to describe has an aspect of carrying out the mutual terminal equipment 201 with VCDI equipment background program 205 with the removable media device 202 with the long-range layer 204 of VDCI.In one aspect, removable media device 202 can be connected to terminal equipment 201 by communication link 203.In one aspect, terminal equipment 201 can comprise processor 301, and it can control hardware equipment and ancillary equipment, for example radio hardware 109, bluetooth 111, audio codec 110, WiFi112, GPS 113, display 108 and camera 114.Aspect further, the processor 301 in the terminal equipment 201 can be connected to removable media device 202 by communication link 203.

In one aspect, the long-range layer of VDCI 204 hardware that can shine upon in the wireless terminal device 201 with VDCI equipment background program 205 make the runtime environment 104 in the movable equipment 202 and use 103 hardware on can access terminal equipment 201.Aspect further, the long-range layer of VDCI 204 can allow the directly hardware on the access terminal equipment 201 of application 103 on the removable media device 202 and runtime environment 104, rather than removable media device 202 operating systems 106 of the hardware driver by not having any realization visit hardware.Others allow runtime environment 104 and use 103 hardware that are independent of existence in the terminal equipment 201 and move.Others require the renewal of VDCI equipment background program 205 for new hardware change, realize to be mapped to the long-range layer 204 of existing VDCI.On the other hand, under the situation of application 103 on the maintenance removable media device 202 and user interface, user with removable media device 202 can be inserted in any other terminal equipment 201 with VDCI equipment background program 205, and it can realize the portability of user and application.

In one aspect, can on the transmitting layer 3 02 of communication link 203 between terminal equipment 201 and the removable media device 202, use point to point link to realize VDCI.Others can be used the communication of client to server on the transmitting layer 3 02 of communication link between terminal equipment 201 and the removable media device 202.Transmitting layer 3 02 can be responsible for transfer of data suitable applications process to the master computer.In one aspect, Fig. 3 shows the logical data exchange between removable media device 202 and the terminal equipment 201.In Fig. 3, use the transmitting layer 3 02 of communication link 203, WiFi hardware 112 is mapped to the long-range layer 204 of VDCI in the removable media device 202.In one aspect, communication link 203 can also comprise network layer 303, data link layer 304 and physical layer 305.Aspect further, the long-range layer of VDCI 204 is mapped to transmitting layer 3 02, shown in 306b, and transmitting layer 3 02 is mapped to VDCI equipment background program 205, shown in 306a.On the other hand, embedded OS 106 is mapped to physical layer 305, shown in 307b, and physical layer 305 is mapped to basic processing unit 301, shown in 307a.

On the other hand, Fig. 4 shows the flow chart that is used for WiFi hardware 112 is mapped to the long-range layer 204 of VDCI of removable media device 202.At first, the user can start the scanning to the WiFi access point, 401.Application can receive request with the scanning of startup to access point, and 402, and transmission is asked and data arrive the long-range layer of VDCI, 403.The long-range layer of VDCI can be caught request to start scanning and the establishment TCP/IP packing around request and data, 404.So the long-range layer of VDCI can send to the logic port that distributes into WiFi hardware, 405 with the TCP/IP packing.VDCI equipment background program can receive TCP/IP packing, 406 from the logic port that distributes for WiFi hardware.VDCI equipment background program can be with TCP/IP packing stripping for being used to ask to start the system command to the scanning of access point and data, 407.VDCI equipment background program can send to order WiFi hardware.WiFi hardware can receive order and issue an order, 408.So wireless device can be established to the connection of access point, 409.So VDCI equipment background program can be warned the long-range layer of VDCI: successful connection, 410.The long-range layer of VDCI can receive warning, and 411, and warning can be passed to user's application, 412.VDCI equipment background program can use the controller on the terminal equipment to set up bridge, 413.Web browser can be asked access to netwoks by bridge, and 414.The bridge client can send to server with request, and 415.Bridge can be transmitted to WAP (wireless access point) with request, and 416.WAP (wireless access point) can send to data network and receive data, 417.Bridge can receive data from WAP (wireless access point), and 418.Next step, network bridge can forward the data to web browser, 419.Web browser can receive and deal with data, and can be to user's video data, 420.

In others, can be assigned to logic port by the hardware device that each is mapped, it communicates by described logic port.

In one aspect, the VDCI equipment background program 205 on the terminal equipment 201 can send hardware configuration to the long-range layer 204 of VDCI on the removable media device 202.Each hardware device assignment logic port that the long-range layer of VDIC 204 can be reported for VDCI equipment background program 205.Logic port can for example start on 8889, and the port address that can successively decrease for the every next hardware device that exists on the terminal equipment 201.The long-range layer 204 of VDCI can be notified the distribution of VDCI equipment background program 205 hardware device logic ports.

On the other hand, for example, can distribute port 8889 so that WiFi hardware 112 is mapped to removable media device 202 from terminal equipment 201.When the application in the removable media device 202 103 and runtime environment 104 request WiFi functions, for example scan access point, the long-range layer 204 of VDCI sends to VDCI equipment background program 205 in the terminal equipment 201 by port 8889 with described order.So VDCI equipment background program 205 can be indicated 112 scannings of WiFi hardware and be returned the access point of being found by identical logic port 8889 and tabulate.The long-range layer 204 of VDCI can send to call applications 103 or runtime environment 104 with the access point tabulation.

According to an aspect, Fig. 5 shows from the information flow of application 103 to the WiFi hardware 112 of request visit.Aspect this, usb driver 501 can be controlled the USB hardware 502 on the removable media device 202.The usb driver 507 that radio handsets 201 can also have baseband processor 504, be used for the radio driver 505 of radio hardware 109, is used for the WiFi driver 506 of WiFi hardware 112 and is used for USB hardware 503.

When the WiFi access point was set up in 103 requests of using, sequence was as follows.Application can utilize scan command to ask WiFi hardware 112, shown in 511.The long-range layer 204 of VDCI can be caught this request that is used for the WiFi hardware resource, and order and data encapsulation can be sent to communication link 203 in the TCP/IP packet and with described packet, shown in 552.Removable media device 202 can be regarded terminal equipment 201 as CDC RNDIS/ ethernet device and the TCP/IP packet can be sent to the certain port number corresponding to WiFi hardware 112 of terminal equipment 201, shown in 553.Terminal equipment 201 can receiver packet number according to and described packet can be sent to the VDCI equipment background program 205 of terminal equipment 201, shown in 554.Shown in 555, the VDCI equipment background program 205 on the terminal equipment 201 can be monitored TCP/IP on the certain port number corresponding with WiFi hardware 112.In case receive described packet, VDCI equipment background program 205 can remove encapsulation from described packet.VDCI equipment background program 205 can check whether described order is that WiFi hardware 205 directly supports, and can revise order with the compatibility of assurance with the hardware command collection of being supported.Because VDCI equipment background program 205 can change the command set that order is supported to meet, so different hardware configuration still can be worked.VDCI equipment background program 205 can pass to request WiFi hardware 112.WiFi hardware 112 can receive order and can carry out described order, shown in 556.Result from order can turn back to call applications 103 by the reverse order (for example 556 turning back to 551) of information flow.

In one aspect, can use OpenMoke Neo Free Runner (new free-running operation person) handheld device, be possible by any hardware configuration.Aspect further, handset applications and runtime environment may be movably and be replaced by VDCI equipment background program 205.In others, Samsung S3C2443 development board can be used as removable media device 202.In one aspect, in removable media device 202, may there be hardware device driver.Aspect further, terminal equipment 201 can only have the VDCI equipment background program 205 on baseband processor of operating in 504.

Fig. 6 shows the block diagram of removable media device hardware designs.In one aspect, removable media device 202 can set handling device 602, RAM 601 and ROM 603.In others, removable media device can have the communication link 203 that communicates with terminal equipment 201.

Can select the increase income operating system of Linux as embodiment of the present invention.Other available operating system can include but not limited to or be restricted to: Win CE, Symbian or any other embedded OS.X Window can be comprised on the other hand, but other graphics system arbitrarily can be used.Can comprise Openmoko OM 2008 on the other hand as runtime environment, but can use arbitrarily other runtime environment, comprise Android, QT, MontaVista, MatchBox or other runtime environment arbitrarily.

The advantage of embodiment of the present invention can below one or more in every: the cost between (1) terminal equipment and the removable media device separates; (2) can reduce the cost of product development, maintenance and enhancing, particularly be similar to the safety product of EMV payment terminal; (3) owing to the use of Intel Virtualization Technology, safety certificate can quicken (accelerate) on safety product; And (4) are owing to application can be stored in the removable media device, so can simplify distribution.

Although described in detail here and described schematic execution mode, should be noted that and those skilled in the art are scrutable is that various deformation and other execution mode of the content equivalence that specifies and describe with these arranged.For example, scope of the present invention there is no need to be restricted in all cases and carries out abovementioned steps by the order of being discussed.Unless make Special Statement, term that has used here and expression only are used for illustrative purposes, and are not used in restriction.Therefore, the execution mode that the present invention is not limited to specify and introduce (perhaps be used for term or expression that they are described), and only limited by the scope of claims.

Claims (143)

1. system by the ancillary equipment of the virtual wireless device of media device comprises:

Wireless device comprises:

Processor;

Memory with described processor coupling;

Ancillary equipment with described processor coupling; And

Virtual equipment control unit interface program is adapted to operate on described memory and the described processor, and wherein said virtual equipment control unit interface program is suitable for communicating with described ancillary equipment and media device.

2. system according to claim 1, wherein said virtual equipment control unit interface program are suitable for communicating with media device by the long-range layer of the virtual equipment control unit interface on the media device.

3. system according to claim 1, wherein said virtual equipment control unit interface program is a background program.

4. system according to claim 1, wherein said virtual equipment control unit interface program is suitable for communicating by communication link and media device.

5. system according to claim 4, wherein said communication link is a data/address bus.

6. system according to claim 4, wherein said communication link is wireless.

7. system according to claim 1, wherein said virtual equipment control unit interface program are suitable for being sent to media device with one or more configurations of described ancillary equipment relevant data being set.

8. system according to claim 7, wherein said configuration setting comprise with thresholding, minimum value, maximum, capital and small letter character, language, susceptibility, frequency, channel, frame rate, resolution, color, bit rate, sample size, sample rate, ISO and power in one or more relevant setting.

9. system according to claim 1, wherein said virtual equipment control unit interface program are suitable for receiving from media device the data of the one or more settings be used to dispose described ancillary equipment.

10. system according to claim 1, wherein said virtual equipment control unit interface program are suitable for receiving from media device and are used for the data carried out at described ancillary equipment.

11. system according to claim 4, wherein said virtual equipment control unit interface program are suitable for using the transport layer of described communication link and described media device to communicate.

12. system according to claim 4, wherein basic processing unit is suitable for using the physical layer of described communication link and the embedded OS of media device to communicate.

13. system according to claim 4, wherein said communication link also comprises at least one in network layer and the data link layer.

14. the system by the ancillary equipment of the virtual wireless device of media device, described system comprises:

Media device comprises:

First memory;

Processor with described first memory coupling; And

Be adapted to operate in the long-range layer of virtual equipment control unit interface on described processor and the first memory, the long-range layer of wherein said virtual equipment control unit interface is suitable for communicating with the ancillary equipment of wireless device.

15. system according to claim 14, wherein said media device removably is coupled with wireless device.

16. system according to claim 14, wherein said media device and wireless device mechanical connection.

17. system according to claim 14 is on the form factors of wherein said media device attached to SIM, SAM, SD, little SD or USB dongle.

18. system according to claim 14, wherein said media device is the removable media card.

19. system according to claim 14, wherein said first memory is RAM.

20. system according to claim 19, wherein said media device comprises second memory, and wherein said second memory is ROM.

21. system according to claim 14, the long-range layer of wherein said virtual equipment control unit interface is suitable for communicating by the ancillary equipment of communication link and wireless device.

22. system according to claim 21, wherein said communication link is a data/address bus.

23. system according to claim 21, wherein said communication link is wireless.

24. system according to claim 14, wherein said processor is suitable for moving embedded OS.

25. system according to claim 24, wherein said embedded OS is Linux, Win CE or Symbian.

26. system according to claim 14, wherein said processor is suitable for moving the embedded graphic engine that is used to provide graphical user interface.

27. system according to claim 26, wherein said embedded graphic engine is X-Windows.

28. system according to claim 14, wherein said processor is suitable for moving embedded runtime environment.

29. system according to claim 28, wherein said runtime environment are MatchBox, Android, QT, MontaVista or Openmoko.

30. system according to claim 14, the long-range layer of wherein said virtual equipment control unit interface is suitable for communicating with the virtual equipment control unit interface program of wireless device.

31. system according to claim 14, the long-range layer of wherein said virtual equipment control unit interface is a background program.

32. system according to claim 21, the long-range layer of wherein said virtual equipment control unit interface is suitable for using the transport layer of described communication link and the ancillary equipment of wireless device to communicate.

33. system according to claim 21, wherein said embedded OS is suitable for using the physical layer of described communication link and the basic processing unit of wireless device to communicate.

34. system according to claim 21, wherein said communication link also comprises at least one in networking layer and the data link layer.

35. system according to claim 14, the long-range layer of wherein said virtual equipment control unit interface is suitable for using the ancillary equipment of virtual equipment control unit interface agreement and wireless device to communicate.

36. system according to claim 14, the long-range layer of wherein said virtual equipment control unit interface is suitable for transmitting and is used for the peripheral data carried out on the ancillary equipment of wireless device.

37. system according to claim 14, the long-range layer of wherein said virtual equipment control unit interface is suitable for being sent to wireless device with one or more ancillary equipment of the ancillary equipment of wireless device relevant data being set.

38. according to the described system of claim 37, wherein said ancillary equipment setting comprise with thresholding, minimum value, maximum, capital and small letter character, language, susceptibility, frequency, channel, frame rate, resolution, color, bit rate, sample size, sample rate, ISO and power in one or more relevant setting.

39. system according to claim 14, the long-range layer of wherein said virtual equipment control unit interface is suitable for one or more configurations of the ancillary equipment of wireless device relevant data being set from the wireless device reception.

40. according to the described system of claim 39, wherein said configuration setting comprise with thresholding, minimum value, maximum, capital and small letter character, language, susceptibility, frequency, channel, frame rate, resolution, color, bit rate, sample size, sample rate, ISO and power in one or more relevant setting.

41. system according to claim 14, the long-range layer of wherein said virtual equipment control unit interface is suitable for the ancillary equipment that packet by will packing sends wireless device and wireless device to and communicates.

42. the system by the ancillary equipment of media device operate wireless device, described system comprises:

Wireless device comprises:

First processor;

First memory with described first processor coupling;

Ancillary equipment with described first processor coupling; And

Be adapted to operate in the virtual equipment control unit interface program on described first memory and the described first processor, wherein said virtual equipment control unit interface program is suitable for communicating with described ancillary equipment; And

Media device comprises:

Second memory;

Second processor with described second memory coupling; And

Be adapted to operate in the long-range layer of virtual equipment control unit interface on described second processor and the second memory, the long-range layer of wherein said virtual equipment control unit interface is suitable for communicating with the described virtual equipment control unit interface program of described wireless device, and described virtual equipment control unit interface program is suitable for communicating with the long-range layer of the described virtual equipment control unit interface of described media device.

43. according to the described system of claim 42, the long-range layer of wherein said virtual equipment control unit interface is a background program.

44. according to the described system of claim 42, wherein said virtual equipment control unit interface program is a background program.

45. according to the described system of claim 42, wherein said virtual equipment control unit interface program is suitable for communicating by communication link and the long-range layer of described virtual equipment control unit interface.

46. according to the described system of claim 45, wherein said communication link is a data/address bus.

47. according to the described system of claim 45, wherein said communication link is wireless.

48. according to the described system of claim 42, wherein said virtual equipment control unit interface program is suitable for being sent to the long-range layer of described virtual equipment control unit interface with one or more configurations of described ancillary equipment relevant data being set.

49. according to the described system of claim 42, the long-range layer of wherein said virtual equipment control unit interface is suitable for being sent to described virtual equipment control unit interface program with described ancillary equipment one or more relevant data being set.

50. according to the described system of claim 49, wherein said setting one or more corresponding in thresholding, minimum value, maximum, capital and small letter character, language, susceptibility, frequency, channel, frame rate, resolution, color, bit rate, sample size, sample rate, ISO and the power.

51. according to the described system of claim 42, the data that the long-range layer of wherein said virtual equipment control unit interface is suitable for being used for carrying out on described ancillary equipment send described wireless device to.

52. according to the described system of claim 42, wherein said first memory is a buffer storage.

53. according to the described system of claim 42, wherein said wireless device is a cell phone.

54. according to the described system of claim 53, wherein said cell phone is OpenMokoNeo FreeRunner.

55. according to the described system of claim 42, wherein said ancillary equipment comprises touch-screen.

56. according to the described system of claim 42, wherein said first processor is a baseband processor.

57. according to the described system of claim 42, wherein said wireless device further comprises one or more ancillary equipment that are adapted to operate on the described first processor.

58. according to the described system of claim 57, at least one in the wherein said ancillary equipment is the radio hardware that is used to receive and send radio signal.

59. according to the described system of claim 58, wherein said radio hardware is suitable for receiving or send one or more in CDMA, GPRS, GSM, bluetooth and the WiFi signal.

60. according to the described system of claim 57, at least one in the wherein said ancillary equipment is suitable for receiving input from the user.

61. according to the described system of claim 60, wherein said input represents to be used to control one or more orders of the described ancillary equipment of wireless device.

62. according to the described system of claim 57, at least one in the wherein said ancillary equipment comprises keypad, joystick, button, keyboard, bluetooth, GPS, camera or trace ball.

63. according to the described system of claim 57, at least one in the wherein said ancillary equipment comprises audio codec.

64. according to the described system of claim 57, at least one in the wherein said ancillary equipment comprises wireless network adapter.

65. according to the described system of claim 42, wherein said wireless device further comprises and is used to store the hardware configuration module that relevant data are set with the ancillary equipment that is used for described ancillary equipment.

66. according to the described system of claim 42, wherein said media device removably is coupled with wireless device.

67. according to the described system of claim 42, wherein said media device and wireless device mechanical couplings.

68. according to the described system of claim 42, on the form factors of wherein said media device attached to SIM, SAM, SD, little SD or USB dongle.

69. according to the described system of claim 42, wherein said media device is the removable media card.

70. according to the described system of claim 42, wherein said second memory is RAM.

71. according to the described system of claim 70, wherein said media device comprises the 3rd memory, and wherein the 3rd memory is ROM.

72. according to the described system of claim 42, wherein said second processor is suitable for moving embedded OS.

73. according to the described system of claim 72, wherein said embedded OS is Linux, Win CE or Symbian.

74. according to the described system of claim 42, wherein said second processor is suitable for moving the embedded graphic engine that is used to provide graphical user interface.

75. according to the described system of claim 74, wherein said embedded graphic engine is X-Windows.

76. according to the described system of claim 42, wherein said second processor is suitable for moving embedded runtime environment.

77. according to the described system of claim 76, wherein said runtime environment is MatchBox, Android, QT, MontaVista or Openmoko.

78. according to the described system of claim 42, the long-range layer of wherein said virtual equipment control unit interface is suitable for using application layer protocol and described virtual equipment control unit interface program to communicate.

79. according to the described system of claim 42, the long-range layer of wherein said virtual equipment control unit interface is suitable for using virtual equipment control unit interface agreement and described virtual equipment control unit interface program to communicate.

80. according to the described system of claim 42, the long-range layer of wherein said virtual equipment control unit interface is suitable for being sent to described virtual equipment control unit interface program by the packet with packing and comes and the interprogram communication of described virtual equipment control unit interface.

81. according to the described system of claim 45, the long-range layer of wherein said virtual equipment control unit interface is suitable for using the transport layer of described communication link and the ancillary equipment of wireless device to communicate.

82. according to the described system of claim 45, wherein embedded OS is suitable for using the physical layer of described communication link and the basic processing unit of wireless device to communicate.

83. according to the described system of claim 45, wherein said communication link also comprises at least one in network layer and the data link layer.

84. according to the described system of claim 45, wherein said virtual equipment control unit interface program is suitable for using the transport layer of described communication link and described media device to communicate.

85. according to the described system of claim 45, wherein said basic processing unit is suitable for using the physical layer of described communication link and the embedded OS of media device to communicate.

86. the system by the ancillary equipment of media device operate wireless device, described system comprises:

Wireless device comprises:

The device that is used to handle;

Be used for storage device with the described device coupling that is used to handle;

Be used for equipment with the input data of described storage device coupling; And

Be used to untie the device that is suitable for the hardware command that moves on described device that is used to store and the described device that is used to handle, the wherein said device that is used to untie hardware command is suitable for communicating with described media device and the described device that is used to import data.

87. the system by the ancillary equipment of media device operate wireless device, described system comprises:

Media device comprises:

The device that is used to handle;

Be used for storage device with the described device coupling that is used to handle; And

Be used for emulation is suitable for the ancillary equipment that moves on described device that is used to store and the described device that is used to handle device, the wherein said device that is used for emulation ancillary equipment is suitable for communicating with the ancillary equipment of wireless device.

88. 7 described systems according to Claim 8, wherein said media device removably is coupled with wireless device.

89. 7 described systems according to Claim 8, wherein said media device and wireless device mechanical couplings.

90. 7 described systems according to Claim 8 are on the form factors of wherein said media device attached to SIM, SAM, SD, little SD or USB dongle.

91. the system by the ancillary equipment of media device operate wireless device, described system comprises:

Wireless device comprises:

First device that is used to handle;

Be used for first storage device with the described first device coupling that is used to handle;

Be used for device with the input data of described first processing unit coupling; And

Be used to untie the device that is suitable for the hardware command that moves on described first storage device and described first processing unit, the wherein said device that is used to untie hardware command is suitable for communicating with the described device that is used to import data;

Media device comprises:

Second device that is used to handle;

Be used for second storage device with the described second device coupling that is used to handle; And

Be used for the described device that is used to import the device that is suitable for the data on described second storage device and described second processing unit, moved of emulation, the wherein said device of untiing the hardware command of wireless device is suitable for communicating with the described device that is used for emulation of media device, and the described device that is used for emulation is suitable for communicating with the described device that is used to untie hardware command.

92. according to the described system of claim 91, wherein said media device removably is coupled with wireless device.

93. according to the described system of claim 91, wherein said media device and described wireless device mechanical couplings.

94. according to the described system of claim 91, on the form factors of wherein said media device attached to SIM, SAM, SD, little SD or USB dongle.

95. the method by the ancillary equipment of the virtual wireless device of media device comprises:

A. assess the hardware configuration of wireless device by wireless device;

B. from described wireless device the described hardware configuration of wireless device is sent to media device;

C. on wireless device, shine upon the processor of media device by virtual equipment control unit interface program;

D. on wireless device, receive the packet of the packing that comprises the ancillary equipment order from media device;

E. on wireless device, untie the packet of the described packing that comprises the ancillary equipment order;

F. carry out described ancillary equipment order by wireless device.

96., further comprise by wireless device and set up the access point step of connecting according to the described method of claim 95.

97., further comprise long-range layer of step that communicates of virtual equipment control unit interface of described virtual equipment control unit interface program and media device according to the described method of claim 95.

98. according to the described method of claim 95, the packet of wherein said packing is to receive from the long-range layer of the virtual equipment control unit interface of media device.

99., further be included in the step of operation background program on the described virtual equipment control unit interface program according to the described method of claim 95.

100. according to the described method of claim 97, wherein said communication steps further comprises by the long-range layer of communication link and described virtual equipment control unit interface and communicating.

101. according to the described method of claim 100, wherein described communication takes place in the transport layer by described communication link.

102. according to the described method of claim 100, wherein said communication link is a data/address bus.

103. according to the described method of claim 100, wherein said communication link is wireless.

104., further comprise from wireless device and transmit the step that relevant data are set with one or more configurations of ancillary equipment to media device according to the described method of claim 95.

105., wherein finish described execution in step by the ancillary equipment of wireless device according to the described method of claim 95.

106., further comprise the step that transmits command result from described wireless device according to the described method of claim 95.

107. the method by the ancillary equipment of the virtual wireless device of media device comprises:

A. emulation is used for the hardware interface that communicates with runtime environment on media device;

B. on media device, receive the hardware configuration of wireless device;

C. by the long-range layer of the virtual equipment control unit interface on the media device ancillary equipment of wireless device is mapped to the hardware interface of described emulation, thereby media device is operated as directly being connected with ancillary equipment;

D. transmit the logic port that is used for ancillary equipment on the wireless device from media device;

E. by the long-range layer of the described virtual equipment control unit interface on the media device ancillary equipment command wrapper is become packet;

F. the packet that will comprise the described packing of described ancillary equipment order by the long-range layer of the described virtual equipment control unit interface on the media device is sent to wireless device; And

G. by the media device fill order, just as the ancillary equipment of wireless device directly links to each other with media device.

108. according to the described method of claim 107, wherein media device removably is coupled with wireless device.

109. according to the described method of claim 107, wherein media device and wireless device mechanical connection.

110. according to the described method of claim 107, wherein on the form factors of media device attached to SIM, SAM, SD, little SD or USB dongle.

111. according to the described method of claim 107, wherein media device is the removable media card.

112., further comprise the step that the ancillary equipment by communication link and wireless device communicates according to the described method of claim 107.

113. according to the described method of claim 112, wherein described communication takes place in the transport layer by described communication link.

114. according to the described method of claim 112, wherein said communication steps further comprises utilizes the long-range layer of described virtual equipment control unit interface and the virtual equipment control unit interface program of wireless device to communicate.

115. according to the described method of claim 112, wherein communication link is a data/address bus.

116. according to the described method of claim 112, wherein communication link is wireless.

117., further be included in the step that the long-range layer of described virtual equipment control unit interface is gone up the operation background program according to the described method of claim 107.

118., further comprise the step that receives command result by media device according to the described method of claim 107.

119., further comprise the step that transmits one or more ancillary equipment settings of the ancillary equipment that is used for wireless device from media device to wireless device according to the described method of claim 107.

120. according to the described method of claim 119, wherein said ancillary equipment setting comprise with thresholding, minimum value, maximum, capital and small letter character, language, susceptibility, frequency, channel, frame rate, resolution, color, bit rate, sample size, sample rate, ISO and power in one or more relevant setting.

121., further comprise the step that is transmitted in the peripheral data that ancillary equipment carries out from media device to wireless device according to the described method of claim 107.

122. according to the described method of claim 107, wherein said ancillary equipment order comprise ancillary equipment configurable on the inquiry wireless device and can not configuration attribute, change one or more that the configuration setting that is used for ancillary equipment and the configuration that detects ancillary equipment are provided with.

123., wherein finish execution in step by the processor of media device according to the described method of claim 107.

124. the method by the ancillary equipment of the virtual wireless device of media device comprises:

A. on media device, emulation is used for the hardware interface that communicates with runtime environment;

B. assess the hardware configuration of wireless device by wireless device;

C. transmit the described hardware configuration of wireless device to media device from wireless device;

D. on media device, receive the hardware configuration of wireless device; Transmit the described hardware configuration of wireless device to media device from wireless device;

E. by the long-range layer of the virtual equipment control unit interface of media device the ancillary equipment of wireless device is mapped to the hardware interface of described emulation, thereby media device is operated as directly being connected with ancillary equipment;

F. transmit the logic port that is used for ancillary equipment on the wireless device from media device;

G. by the virtual equipment control unit interface program of wireless device the processor of media device is mapped to ancillary equipment, thereby ancillary equipment is operated as directly being connected with processor;

H. by the long-range layer of the described virtual equipment control unit interface on the media device ancillary equipment command wrapper is become packet;

I. the packet that will comprise the described packing of ancillary equipment order by the long-range layer of described virtual equipment control unit interface is sent to the described virtual equipment control unit interface program of wireless device;

J. receive the packet of the described packing that comprises the ancillary equipment order from the long-range layer of described virtual equipment control unit interface by described virtual equipment control unit interface program;

K. the packet that will comprise the described packing of ancillary equipment order on wireless device is untied; And

L. carry out described ancillary equipment order by wireless device.

125., further be included in the step that the long-range layer of described virtual equipment control unit interface is gone up the operation background program according to the described method of claim 124.

126., further be included in the step of operation background program on the described virtual equipment control unit interface program according to the described method of claim 124.

127., wherein the ancillary equipment order of described packing is sent to described virtual equipment control unit interface program from the long-range layer of described virtual equipment control unit interface by communication link according to the described method of claim 124.

128. according to the described method of claim 127, wherein described communication takes place in the transport layer by described communication link.

129. according to the described method of claim 127, wherein said communication link is a data/address bus.

130. according to the described method of claim 127, wherein said communication link is wireless.

131. according to the described method of claim 124, wherein said media device removably is coupled with wireless device.

132. according to the described method of claim 124, wherein said media device and wireless device mechanical connection.

133. according to the described method of claim 124, on the form factors of wherein said media device attached to SIM, SAM, SD, little SD or USB dongle.

134. according to the described method of claim 124, wherein said media device is the removable media card.

135., further comprise from wireless device and transmit the step that relevant data are set with one or more configurations of ancillary equipment to media device according to the described method of claim 124.

136., further comprise the step that transmits one or more ancillary equipment settings of the ancillary equipment that is used for wireless device from media device to wireless device according to the described method of claim 124.

137. according to the described method of claim 136, wherein said ancillary equipment setting comprise with thresholding, minimum value, maximum, capital and small letter character, language, susceptibility, frequency, channel, frame rate, resolution, color, bit rate, sample size, sample rate, ISO and power in one or more relevant setting.

138., further comprise the step that is transmitted in the peripheral data that ancillary equipment carries out from media device to wireless device according to the described method of claim 124.

139. according to the described method of claim 124, wherein said ancillary equipment order comprise ancillary equipment configurable on the inquiry wireless device and can not configuration attribute, change one or more that the configuration setting that is used for ancillary equipment and the configuration that detects ancillary equipment are provided with.

140., wherein finish execution in step by the ancillary equipment of wireless device according to the described method of claim 124.

141. according to the described method of claim 124, wherein said execution in step further is included on the media device step of carrying out described ancillary equipment order, just as the ancillary equipment of wireless device directly is connected with media device.

142., further comprise the step that receives command result by media device according to the described method of claim 124.

143., further comprise by wireless device and set up the access point step of connecting according to the described method of claim 124.

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