CN105472555A - Device and method for communicating with GPS device - Google Patents

Abstract

The present invention discloses a device and method for communicating with a GPS device, and provides a GPS mobile data network system using a GPS satellite, including at least one GPS satellite and a mobile data network. The system includes a mobile data network GPS device connected to the GPS satellite and a mobile data network signal; a mobile data network GPS call center connected to the GPS satellite and a mobile data network signal; the mobile data network GPS device communicates with the call center through the mobile data network.

Description

Device and method for communicating with GPS device

This application is a divisional application of an invention patent application with an application date of March 7, 2008, an application number of 200810083541.X, and an invention title of "equipment and method for communicating with GPS equipment".

technical field

The invention relates to a device and a method for communicating with a GPS device.

Background technique

In the prior art, the GPS device can provide the GPS satellite with the position coordinate signal of its final destination and its moving position coordinate signal, and accordingly the GPS satellite can provide the GPS device with its current position image information and how to move to the final destination. image information. Therefore, GPS satellites and GPS devices are widely used in navigation systems of vehicles traveling on the ground.

However, existing GPS devices cannot easily communicate with third-party devices. Moreover, due to the limited bandwidth resources of the satellite, it is not suitable for transmitting two-way audio communication signals. In addition, a satellite is an object with a limited volume, and it is impossible to load many communication hardware devices and a large amount of communication software on it, or to set up a personnel system on it to conduct two-way interactive control and communication with GPS equipment. This greatly limits the function and efficiency of GPS satellites and GPS equipment.

Contents of the invention

One of the objects of the present invention is to provide a GPS device capable of two-way communication with a third-party device.

Another object of the present invention is to provide a GPS device with multiple functions for two-way communication with third-party devices, including two-way communication of data signals and two-way communication of audio signals.

Yet another object of the present invention is to provide a system capable of tracking and supervising GPS equipment on ground equipment.

In order to achieve the above object, the present invention provides a GPS mobile data network system using the GPS satellite system, including at least one GPS satellite and a mobile data network. GPS mobile data network system includes:

A mobile data network GPS device, connected to the GPS satellite and the mobile data network signal;

A mobile data network GPS call center is connected with the GPS satellites and mobile data network signals;

The mobile data network GPS device communicates with the call center through the mobile data network.

In order to achieve the above object, the present invention also provides a system for tracking GPS equipment on the ground using GPS satellites, including at least one GPS satellite and a mobile data network. Systems that use GPS satellites to track GPS devices on the ground include:

A GPS device, connected with the GPS satellite and a mobile data network signal, and transmits its position information to the GPS satellite;

A mobile data network GPS call center (CALLCENTER), connected with the GPS satellite and a mobile data network signal;

The GPS satellite transmits the location information and ID information of the GPS equipment to the GPS call center (CALLCENTER) of the mobile data network;

According to the location information and ID information, the mobile data network GPS call center (CALLCENTER) communicates with the GPS device through the mobile data network.

The system of the present invention has the following advantages:

When encountering an emergency (such as encountering a robbery), the user of the mobile data network GPS device can press the emergency help button group to ask for help from the mobile data network GPS call center.

The GPS call center of the mobile data network can send information to the GPS device of the mobile data network (such as a schematic diagram of traffic jams and a schematic diagram of diversion driving on the map; sending map updates and upgrades; advertising information network).

The mobile data network GPS call center can carry out two-way voice communication with the mobile data network GPS equipment.

The invention can utilize the ground equipment to track and monitor the GPS equipment of the mobile data network.

Description of drawings

FIG. 1 is a structural block diagram of a GPS mobile data network system 100 of the present invention.

FIG. 2 is a structural block diagram of the mobile data network GPS device 104 of the present invention.

Fig. 3 is a structural block diagram of the mobile data network GPS call center 105 of the present invention.

detailed description

FIG. 1 is a structural block diagram of a GPS mobile data network system 100 of the present invention. As shown in Figure 1, GPS mobile data network system 100 comprises GPS satellite 102 (comprising one or several satellites); A mobile data network 106; A mobile data network GPS device 104, communicates with GPS satellite 102 and mobile data network 106 respectively Connected; a mobile data network GPS call center (CALLCENTER) 105 is connected with the GPS satellite 102 and the mobile data network 106 respectively. In the structure shown in FIG. 1 , the mobile data network GPS device 104 performs two-way communication with the mobile data network call center 105 through the mobile data network 106 , including two-way communication of data signals and two-way communication of voice signals.

FIG. 2 is a structural block diagram of the mobile data network GPS device 104 of the present invention. As shown in Figure 2, mobile data network GPS equipment 104 comprises the GPS equipment 202 that can communicate with GPS satellite 102; Communication is connected (shown in Fig. 1); audio/digital conversion line 208, one end is connected with mobile data network interface line 206, and its other end is connected with audio transmission/reception line 210 (such as equipment such as microphone); Signal conversion One end of the line 212 is connected to the mobile data network interface line 206 , and the other end is connected to the button group 214 . The mobile data network GPS device 104 of the present invention can be installed on various mobile devices such as automobiles for navigation and positioning.

In the GPS device 104 of the mobile data network, the GPS device 202 can be an existing GPS circuit, has all the software, hardware and functions of the existing GPS circuit, and can perform two-way communication with the GPS satellite 102 . Other circuits in the mobile data network GPS device 104 are used to realize the function of carrying out two-way communication with the existing GPS device 202 (through the mobile data network 106) and the mobile data network GPS call center 105 (comprising data signal two-way communication and sound signal two-way communication function).

The mobile data network interface circuit 206 can convert the signal received from the GPS device 202, the audio/digital conversion circuit 208 and the signal conversion circuit 212 into a signal that the mobile data network 106 can recognize and process, and the mobile data network interface circuit 206 can convert The signal received from the mobile data network 106 is converted into a signal that the GPS device 202 and the audio/digital conversion circuit 208 can recognize and process.

In addition, the mobile data network interface line 206 is provided with a storage device and a processing device (such as CPU and other equipment), which are used to store the identification information (ID) of the mobile data network GPS call center 105 and the identification information (ID) of the mobile data network GPS equipment 104 ( ID). The mobile data network 106 can send the information sent by the mobile data network GPS device 104 and its own identification information (ID) to the mobile data network GPS call center 105 according to the identification information (ID) of the mobile data network GPS call center 105 .

Fig. 3 is a structural block diagram of the mobile data network GPS call center 105 of the present invention. As shown in Figure 3, the GPS call center 105 of the mobile data network includes a GPS device identification line 302, one end of which is connected with a call center (CALLCENTER) device 303, and the other end communicates with the GPS satellite 102 through 108 (shown in Figure 1 ). connect. The GPS device identification circuit 302 has all the software, hardware and functions of the existing GPS device, can communicate with the GPS satellite 102 two-way, and can receive, track and supervise the information sent by the GPS device 104 in the mobile data network. The call center equipment 303 may be an existing call center (CALLCENTER) equipment, which has all the software, hardware and functions of the existing call center equipment.

In the present invention, the GPS device 202 and the GPS device identification circuit 302 are symmetrical circuits, that is, the GPS device 202 and the GPS device identification circuit 302 have similar functions and can receive the same information from the GPS satellite 102 at the same time. In this way, the call center equipment 303 can obtain the GPS identification (GPSID) of the GPS equipment 202 in real time and the current position and the destination position of the mobile data network GPS equipment 104, so that the call center equipment 303 can track and carry out two-way communication with the mobile data network GPS equipment 104 , including two-way communication of data signals and two-way communication of sound signals.

The mobile data network GPS call center 105 also includes a mobile data network interface line 306 , a digital signal input/output line 307 and an audio/digital conversion line 308 . The mobile data network interface line 306 is communicatively connected with the mobile data network 106; the mobile data network interface line 306 is also connected with the GPS equipment identification line 302, the call center equipment 303, the digital signal input/output line 307 and the audio/digital conversion line 308 respectively .

The mobile data network interface line 306 can convert the signal received from the GPS equipment identification line 302, call center equipment 303, digital signal input/output line 307 and audio/digital conversion line 308 into a signal that the mobile data network 106 can identify and process , and the mobile data network interface line 306 can convert the signal received from the mobile data network 106 into a signal that the call center equipment 303, the digital signal input/output line 307 and the audio/digital conversion line 308 can recognize and process.

In addition, the mobile data network interface line 306 is provided with a storage device and a processing device (such as CPU and other equipment), which are used to store the identification information (ID) of the mobile data network GPS call center 105 and the identification of a plurality of mobile data network GPS devices 104 Information (ID). The mobile data network 106 can send the information sent by the mobile data network GPS call center 105 and its own identification information (ID) to the mobile data network GPS device 104 according to the ID of a specific mobile data network GPS device 104 .

In the mobile data network GPS call center 105 of the present invention, the call center equipment 303 can be an existing call center equipment, and has all the software, hardware and functions of the existing call center equipment. Other circuits of the GPS call center 105 in the mobile data network of the present invention are used to realize the function of carrying out two-way communication with the existing call center equipment 303 through the mobile data network 106 and the GPS equipment 104 of the mobile data network (comprising data signal two-way communication and sound signal two-way communication function).

In use, when the mobile data network GPS call center 105 will communicate with the mobile data network GPS device 104, the mobile data network interface circuit 306 obtains the ID, present location and purpose of the mobile data network GPS device 104 through the GPS device identification circuit 302 Location. If the audio signal is to be transmitted to the mobile data network GPS device 104, the operator can send the audio signal to the audio/digital conversion circuit 308 (such as a microphone, etc.), and the audio/digital conversion circuit 308 converts the audio signal into a digital signal and converts the digital signal into a digital signal. The signal is sent to the mobile data network interface line 306. The mobile data network interface line 306 converts the digital signal and the ID of the GPS device 104 of the mobile data network into a format that conforms to the format approved by the mobile data network protocol, and sends the converted signal to the mobile data network 106 . According to the ID of the mobile data network GPS device 104, the mobile data network 106 sends the converted signal to the mobile data network interface line 206 in the mobile data network GPS device 104. The mobile data network interface circuit 206 processes the received signal into a digital signal recognizable by the audio/digital conversion circuit 208, and sends the digital signal to the audio/digital conversion circuit 208, which converts the digital signal into an audio signal. After receiving the audio signal from the audio/digital conversion circuit 208, the audio sending/receiving circuit 210 plays the audio signal.

In use, if data signals (such as updated maps) are to be transmitted from the mobile data network GPS call center 105 to the mobile data network GPS device 104, the operator can input digital signals to the data input/output line 307, and the data input/output Line 307 sends the data signal to mobile data network interface line 306 . The mobile data network interface circuit 306 obtains the ID, current location and destination location of the mobile data network GPS device 104 through the GPS device identification circuit 302 . The mobile data network interface circuit 306 converts the data signal and the ID of the GPS device 104 of the mobile data network into a format that conforms to the format approved by the mobile data network protocol, and sends the converted signal to the mobile data network 106 . According to the ID of the mobile data network GPS device 104, the mobile data network 106 sends the converted signal to the mobile data network interface line 206 in the mobile data network GPS device 104. The mobile data network interface line 206 converts the received signal into a signal that the GPS device 202 can recognize. After receiving the signal sent from the mobile data network interface line 206, the GPS device 202 stores the signal and displays it on its display screen.

In use, when the mobile data network GPS device 104 will communicate with the mobile data network GPS call center 105, the mobile data network interface circuit 206 obtains the ID, the present position and the destination position of the mobile data network GPS device 104 by the GPS device 202, Simultaneously, the mobile data network interface line 206 takes out the ID of the mobile data network GPS call center 105 from its memory. If the audio signal is to be transmitted to the mobile data network GPS call center 105, the user of the mobile data network GPS device 104 sends the audio signal to the audio transmission/reception circuit 210 (such as equipment such as a microphone), and the audio/digital conversion circuit 208 converts the audio signal Convert into digital signals and send the digital signals to the mobile data network interface line 206. The mobile data network interface line 206 converts the ID of the digital signal, the mobile data network GPS device 104 and the mobile data network GPS call center 105 into a format that meets the mobile data network protocol approval format, and sends the converted signal to the mobile data network 106 . According to the ID of the mobile data network GPS call center 105, the mobile data network 106 sends the converted signal to the mobile data network interface line 306 of the mobile data network GPS call center 105. The mobile data network interface circuit 306 processes the received signal into a digital signal recognizable by the audio/digital conversion circuit 308 , and sends it to the audio/digital conversion circuit 308 . The audio/digital conversion circuit 308 converts the digital signal into an audio signal and plays it through the speaker.

When the user of the mobile data network GPS device 104 encounters an emergency, she/he can press the emergency button set 214 . After being pressed, the emergency help button group 214 transmits an emergency help signal to the signal conversion circuit 212 . The signal converting circuit 212 converts the emergency help signal into a signal recognizable by the mobile data network interface circuit 206 , and transmits the converted signal to the mobile data network interface circuit 206 . The mobile data network interface circuit 206 obtains the ID of the mobile data network GPS device 104, the present location through the GPS device 202, and the mobile data network interface circuit 206 takes out the ID of the mobile data network GPS call center 105 from its memory simultaneously. The mobile data network interface line 206 converts the emergency signal, the ID of the mobile data network GPS device 104 and the ID of the mobile data network GPS call center 105 into a format that meets the mobile data network protocol approval, and sends the converted signal to the mobile data network. Net 106. According to the ID of the mobile data network GPS call center 105, the mobile data network 106 sends the ID of the GPS device 104, the current location and the emergency signal to the mobile data network interface line 306 of the mobile data network GPS call center 105. The mobile data network interface circuit 306 processes the received emergency help signal into a digital signal recognizable by the input/output circuit 307 and the audio/digital conversion circuit 308, and it will be sent to the input/output circuit 307 and the audio/digital conversion circuit 308 . The audio/digital conversion circuit 308 converts the digital signal into an emergency audio signal and plays it through the speaker; the digital input/output circuit 307 can display the emergency request and the position of the mobile data network GPS device 104 on the map. After receiving the emergency signal, the call center 105 can take emergency measures.

During use, the GPS device identification line 302 can track and supervise the current location and the target location of the GPS device 202 on the ground through the GPS satellite 102 in real time.

In the present invention, the mobile data network interface lines 206, 306 are provided with at least one processor, which has a CPU and a memory, and has the functions of storing program instructions and executing programs.

Claims (57)

1. a GPS device system (104), is characterized in that comprising:

GPS device (202); With

Mobile data network interface circuit (206).

2. GPS device system (104) as claimed in claim 1, characterized by further comprising:

Button groups (214).

3. GPS device system (104) as claimed in claim 1, is characterized in that mobile data network interface circuit (206) comprising:

Processor.

4. GPS device system (104) as claimed in claim 1, characterized by further comprising:

Signal conversion line (212).

5. the method for operation GPS device system (104) as described in claim 1-4.

6. a call center (105), is characterized in that comprising:

GPS device (302); With

Mobile data network interface circuit (306).

7. as claimed in claim 6 call center (105), characterized by further comprising:

Calling center apparatus (303).

8. as claimed in claim 6 call center (105), it is characterized in that mobile data network interface circuit (306) comprising:

Processor.

9. as claimed in claim 6 call center (105), characterized by further comprising:

Digital signal input/out line (307).

10. as claimed in claim 6 call center (105), characterized by further comprising:

Audio frequency/digital conversion circuit (308).

11. 1 kinds of operations method of call center (105) as described in claim 6-10.

12. 1 kinds of communication systems, comprise GPS device system (104) and call center (105), it is characterized in that:

Described GPS device system (104) comprises GPS device (202) and mobile data network interface circuit (206);

Described call center (105) comprises GPS device (302) and mobile data network interface circuit (306).

13. communication systems as claimed in claim 12, characterized by further comprising:

Button groups (214).

14. communication systems as claimed in claim 12, is characterized in that mobile data network interface circuit (206) comprising:

Processor.

15. communication systems as claimed in claim 12, characterized by further comprising:

Signal conversion line (212).

16. communication systems as claimed in claim 12, characterized by further comprising:

Calling center apparatus (303).

17. as claimed in claim 12 call center (105), it is characterized in that mobile data network interface circuit (306) comprising:

Processor.

18. communication systems as claimed in claim 12, characterized by further comprising:

Digital signal input/out line (307).

19. communication systems as claimed in claim 12, characterized by further comprising:

Audio frequency/digital conversion circuit (308).

The method of 20. 1 kinds of operations communication system as described in claim 12-19.

21. 1 kinds of GPS mobile data network systems (100) using gps satellite, comprise gps satellite (102) and a mobile data network (106), it is characterized in that:

Mobile data network GPS device (104), is connected with described gps satellite (102) and mobile data network (106) signal;

Mobile data network GPS call center (CALLCENTER) (105), are connected with mobile data network (106) signal with described gps satellite (102);

Described mobile data network GPS device (104) carries out communication by mobile data network (106) and call center (105).

22. GPS mobile data network systems as claimed in claim 21, is characterized in that described communication comprises data-signal both-way communication and voice signal both-way communication.

23. 1 kinds use gps satellite in the system (100) of Deep space tracking GPS device, comprise gps satellite (102) and a mobile data network (106), it is characterized in that:

GPS device (202), is connected with described gps satellite (102) and mobile data network (106) signal, and transmits its positional information to described gps satellite (102);

Mobile data network GPS call center (CALLCENTER) (105), are connected with described gps satellite (102) and mobile data network (106) signal;

The positional information of GPS device (202) and id information are sent to described mobile data network GPS call center (CALLCENTER) (105) by described gps satellite (102);

According to positional information and id information, described mobile data network GPS call center (CALLCENTER) (105) carries out communication by mobile data network (106) and GPS device (202).

The system of 24. Deep space tracking GPS device as claimed in claim 23, described communication comprises data-signal both-way communication and voice signal both-way communication.

The communication system (101) of 25. GPS device as described in claim 21-24, is characterized in that:

Described mobile data network GPS device (104) is provided with button groups (214), and after button press group, mobile data network GPS device (104) and mobile data network GPS call center (105) directly connect.

The communication system (101) of 26. GPS device as described in claim 21-24, is characterized in that:

Described mobile data network GPS device (104) need not send its positional information from trend mobile data network GPS call center (105) by artificial interference.

27. GPS mobile data network systems as described in claim 21-24, is characterized in that:

Described mobile data network GPS call center (105) can with the communication of multiple mobile data network GPS device (104).

The means of communication of 28. 1 kinds of uses gps satellite (102) and mobile data network (106), is characterized in that the described means of communication comprise the steps:

Mobile data network GPS device (104) is connected with described gps satellite (102) and mobile data network (106) signal;

Mobile data network GPS call center (CALLCENTER) (105) are connected with mobile data network (106) signal with described gps satellite (102);

Described mobile data network GPS device (104) is made to carry out communication by mobile data network (106) with call center (105).

29. means of communication as claimed in claim 28, is characterized in that:

Described communicating step comprises data-signal both-way communication and voice signal both-way communication.

The means of communication of 30. 1 kinds of uses gps satellite (102) and mobile data network (106), is characterized in that the described means of communication comprise the steps:

GPS device (202) is connected with described gps satellite (102) and mobile data network (106) signal, and makes described GPS device (202) transmit its positional information to described gps satellite (102);

Mobile data network GPS call center (CALLCENTER) (105) are connected with described gps satellite (102) and mobile data network (106) signal;

Make described gps satellite (102) that the positional information of GPS device (202) and id information are sent to described mobile data network GPS call center (CALLCENTER) (105);

Described mobile data network GPS call center (CALLCENTER) (105) is made to carry out communication according to positional information and id information by mobile data network (106) and GPS device (202).

31. means of communication as claimed in claim 30, is characterized in that:

Described communicating step comprises data-signal both-way communication and voice signal both-way communication.

32. means of communication as described in claim 28-31, is characterized in that:

By pressing the button groups (214) be arranged in mobile data network GPS device (104), mobile data network GPS device (104) is directly connected with mobile data network GPS call center (105).

33. means of communication as described in claim 28-31, is characterized in that:

Make described mobile data network GPS device (104) its positional information need not be sent from trend mobile data network GPS call center (105) by artificial interference.

34. as described in claim 28-31 the means of communication, it is characterized in that:

Make described mobile data network GPS call center (105) can with the communication of multiple mobile data network GPS device (104).

35. 1 kinds of GPS mobile data network systems (100) using gps satellite, comprise gps satellite (102) and a mobile data network (106), it is characterized in that:

A mobile data network GPS device (104), is connected with described gps satellite (102) and mobile data network (106) signal;

A mobile data network GPS call center (CALLCENTER) (105), is connected with mobile data network (106) signal with described gps satellite (102);

Described mobile data network GPS device (104) carries out communication by mobile data network (106) and call center (105).

36. GPS mobile data network systems as claimed in claim 35, described communication comprises data-signal both-way communication and voice signal both-way communication.

37. 1 kinds use gps satellite in the system (100) of Deep space tracking GPS device, comprise gps satellite (102) and a mobile data network (106), it is characterized in that:

A GPS device (202), is connected with described gps satellite (102) and mobile data network (106) signal, and transmits its positional information to described gps satellite (102);

A mobile data network GPS call center (CALLCENTER) (105), is connected with described gps satellite (102) and mobile data network (106) signal;

The positional information of GPS device (202) and id information are sent to described mobile data network GPS call center (CALLCENTER) (105) by described gps satellite (102);

According to positional information and id information, described mobile data network GPS call center (CALLCENTER) (105) carries out communication by mobile data network (106) and GPS device (202).

The system of 38. Deep space tracking GPS device as claimed in claim 37, described communication comprises data-signal both-way communication and voice signal both-way communication.

GPS device (202) is connected to the method for third party device or ground installation, following steps included by the method by 39.:

(1) ID or the telephone number of GPS device (202) is obtained;

(2) GPS device (202) is found;

(3) ID of GPS device (202) or telephone number are sent to mobile data network (106);

(4) by mobile data network (106), GPS device (202) is connected to third party device or ground installation.

40. methods as claimed in claim 39, comprise the steps: further

The ID of described GPS device (202) is obtained at third party device or ground installation.

41. methods as claimed in claim 39, comprise the steps: further

By gps satellite system, obtain the ID of described GPS device (202) at third party device or ground installation.

42. methods as claimed in claim 39, comprise the steps: further

Described gps satellite system and described GPS device (202) carry out both-way communication.

43. methods as described in claim 39-42, described third party device or ground installation are calling center apparatus (303).

44. use third party device or ground installation and GPS device (202) to carry out the method for real-time communication, following steps included by the method:

(1) ID or the telephone number of GPS device (202) is obtained;

(2) GPS device (202) is found;

(3) ID of GPS device (202) or telephone number are sent to mobile data network (106);

(4) by mobile data network (106), GPS device (202) is connected to third party device or ground installation;

(5) by mobile data network (106), between GPS device (202) and third party device or ground installation, real-time communication is carried out.

45. methods as claimed in claim 44, comprise the steps: further

Described gps satellite system and described GPS device (202) carry out both-way communication.

46. methods as claimed in claim 44, comprise the steps: further

The ID of described GPS device (202) is obtained at third party device or ground installation.

47. methods as claimed in claim 44, comprise the steps: further

By gps satellite system, obtain the ID of described GPS device (202) at third party device or ground installation.

48. methods as described in claim 44-47, described third party device or ground installation are calling center apparatus (303).

49. use third party device or ground installation follow the tracks of or supervise the method for GPS device (202), following steps included by the method:

(1) ID or the telephone number of one or several GPS device (202) is obtained;

(2) described one or several GPS device (202) is found;

(3) ID of described or several GPS device (202) or telephone number are sent to mobile data network (106);

(4) by mobile data network (106), described one or several GPS device (202) are connected to third party device or ground installation;

(5) follow the tracks of on third party device or ground installation and/or supervise described one or several GPS device (202).

50. methods as claimed in claim 49, comprise the steps: further

Described gps satellite system and described GPS device (202) carry out both-way communication.

51. methods as claimed in claim 49, comprise the steps: further

The ID of described GPS device (202) is obtained at third party device or ground installation.

52. methods as described in claim 49-51, described third party device or ground installation are calling center apparatus (303).

53. methods requiring communication in GPS device (202) to third party device or ground installation, following steps included by the method:

(1) in the upper button press group (214) of described GPS device (202);

(2) described GPS device (202) is connected with third party device or ground installation communication;

(3) in described GPS device (202), signal is sent request to third party device or ground installation;

(4) in described GPS device (202), its positional information is sent to third party device or ground installation;

(5) at third party device or ground installation process request signal.

54. methods as claimed in claim 53, is characterized in that:

(6) result of reason request signal is sent to described GPS device (202).

55. methods as claimed in claim 53, is characterized in that:

In described (2) step, described GPS device (202) is connected with third party device or ground installation communication by mobile data network (106);

In described (6) step, described GPS device (202) carries out both-way communication by mobile data network (106) and third party device or ground installation.

56. methods as claimed in claim 53, comprise the steps: further

The ID that acquisition third party device or ground installation obtain.

57. methods as described in claim 53-56, described third party device or ground installation are calling center apparatus (303).