CN104833984A - Equipment and method for communicating with GPS equipment - Google Patents
Equipment and method for communicating with GPS equipment Download PDFInfo
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- CN104833984A CN104833984A CN201510181019.5A CN201510181019A CN104833984A CN 104833984 A CN104833984 A CN 104833984A CN 201510181019 A CN201510181019 A CN 201510181019A CN 104833984 A CN104833984 A CN 104833984A
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W4/00—Services specially adapted for wireless communication networks; Facilities therefor
- H04W4/02—Services making use of location information
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01S—RADIO DIRECTION-FINDING; RADIO NAVIGATION; DETERMINING DISTANCE OR VELOCITY BY USE OF RADIO WAVES; LOCATING OR PRESENCE-DETECTING BY USE OF THE REFLECTION OR RERADIATION OF RADIO WAVES; ANALOGOUS ARRANGEMENTS USING OTHER WAVES
- G01S19/00—Satellite radio beacon positioning systems; Determining position, velocity or attitude using signals transmitted by such systems
- G01S19/01—Satellite radio beacon positioning systems transmitting time-stamped messages, e.g. GPS [Global Positioning System], GLONASS [Global Orbiting Navigation Satellite System] or GALILEO
- G01S19/03—Cooperating elements; Interaction or communication between different cooperating elements or between cooperating elements and receivers
- G01S19/05—Cooperating elements; Interaction or communication between different cooperating elements or between cooperating elements and receivers providing aiding data
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01S—RADIO DIRECTION-FINDING; RADIO NAVIGATION; DETERMINING DISTANCE OR VELOCITY BY USE OF RADIO WAVES; LOCATING OR PRESENCE-DETECTING BY USE OF THE REFLECTION OR RERADIATION OF RADIO WAVES; ANALOGOUS ARRANGEMENTS USING OTHER WAVES
- G01S19/00—Satellite radio beacon positioning systems; Determining position, velocity or attitude using signals transmitted by such systems
- G01S19/01—Satellite radio beacon positioning systems transmitting time-stamped messages, e.g. GPS [Global Positioning System], GLONASS [Global Orbiting Navigation Satellite System] or GALILEO
- G01S19/03—Cooperating elements; Interaction or communication between different cooperating elements or between cooperating elements and receivers
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04M—TELEPHONIC COMMUNICATION
- H04M11/00—Telephonic communication systems specially adapted for combination with other electrical systems
- H04M11/04—Telephonic communication systems specially adapted for combination with other electrical systems with alarm systems, e.g. fire, police or burglar alarm systems
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- Engineering & Computer Science (AREA)
- Radar, Positioning & Navigation (AREA)
- Remote Sensing (AREA)
- Computer Networks & Wireless Communication (AREA)
- Physics & Mathematics (AREA)
- General Physics & Mathematics (AREA)
- Signal Processing (AREA)
- Mobile Radio Communication Systems (AREA)
- Position Fixing By Use Of Radio Waves (AREA)
- Telephonic Communication Services (AREA)
Abstract
The invention discloses equipment and a method for communicating with GPS equipment and provides a GPS mobile data network system using a GPS satellite. The GPS mobile data network system comprises at least one GPS satellite and a mobile data network. The system comprises mobile data network GPS equipment and a mobile data network GPS call center, wherein the mobile data network GPS equipment is in signal connection with the GPS satellite and the mobile data network, the mobile data network GPS call center is in signal connection with the GPS satellite and the mobile data network, and the mobile data network GPS equipment carries out communication through the mobile data network and the call center.
Description
The divisional application that the application is the applying date is on March 6th, 2009, international application no is PCT/CN2009/070664, national applications number is 200980108651.X, denomination of invention is the application for a patent for invention of " carrying out the apparatus and method for of communication with GPS device ".
Technical field
The present invention relates to and a kind ofly carry out communication with GPS device and can the apparatus and method for of network consisting collaborative work.
Background technology
In the prior art, gps satellite system generally includes multiple gps satellite, the location information signal of each satellite broadcasting satellite self earthward.A GPS device receives the position signalling of several gps satellite, by calculating self latitude and longitude information, thus determines the position of self.Thus gps satellite system and GPS device are in a large number for the navigational system at ground run vehicle.
But existing GPS device easily and effectively can not carry out communication with surface facility.And, due to frequency range and the hardware and software resource-constrained of gps satellite, be not thus suitable for the transferring equipment of posting two way audio communication signal.Satellite is the object of a finite volume, can not load much communication hardware equipment and a large amount of bitcom above, so just greatly limit function and the service efficiency of gps satellite system and GPS device.
In addition, when GPS device is for navigating, user requires to carry out with surface facility fast or real-time communication sometimes.
Summary of the invention
One of the object of the invention is to provide a kind of GPS device, can carry out both-way communication with third party device.
Another object of the present invention is to provide a kind of GPS device, has multiple function of carrying out both-way communication with third party device, comprises data-signal both-way communication and voice signal both-way communication.
A further object of the invention is to provide a kind of GPS device, can carry out fast or real-time communication by square surface facility when needed.
Another object of the present invention is to provide a kind of system, can follow the tracks of and supervision GPS device in the network of uphole equipment and needs.
In order to reach above object, the invention provides a kind of GPS mobile data network facility using gps satellite system, comprising:,
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 (CALL CENTER) (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).
In order to reach above object, present invention also offers a kind of gps satellite system that uses in the system of Deep space tracking GPS device, comprising at least one gps satellite and mobile network's facility.Gps satellite system is used to comprise in the system of Deep space tracking GPS device:
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 (CALL CENTER) (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 (CALL CENTER) (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).
In order to reach above object, present invention also offers a kind of GPS mobile data network facility using gps satellite system, comprising:
Mobile data network GPS device (104);
Mobile data network GPS call center (105);
PSTN/ mobile voice communication network (117);
Operator base station and data network (119);
Wherein, voice bidirectional communication between mobile data network GPS device (104) and mobile data network GPS call center (105) is completed by PSTN/ mobile voice communication network (117), and the data double-way communication between mobile data network GPS device (104) and mobile data network GPS call center (105) is completed by PSTN/ mobile voice communication network (117).
System of the present invention has following advantage:
In case of emergency (as running into robbery), mobile data network GPS device user can press flash appeal button groups and seek help to mobile data network GPS call center.
Mobile data network GPS call center can send information (as traffic jam schematic diagram on map and the traveling schematic diagram that changes its course to mobile data network GPS device; Transmission map rejuvenation is upgraded; Advertisement information network).
Mobile data network GPS call center can carry out two-way voice communications with mobile data network GPS device.
The present invention can utilize uphole equipment to follow the tracks of and supervision mobile data network GPS device.
Accompanying drawing explanation
Figure 1A is the structured flowchart of first embodiment of the invention (GPS mobile data network system 100).
Figure 1B is the structured flowchart of second embodiment of the invention (GPS mobile data network system 101).
Fig. 2 is the structured flowchart of mobile data network GPS device 104 of the present invention.
Fig. 3 is the structured flowchart of mobile data network GPS call center 105 of the present invention.
Fig. 4 is the structural representation of processor 400 in mobile data network interface circuit 206 in Fig. 2.
Fig. 5 is the structural representation of processor 401 in mobile data network interface circuit 306 in Fig. 3.
Fig. 6 is mobile data network GPS device 104 of the present invention requires to carry out process flow diagram from communication to mobile data network call center 105.
Fig. 7 is mobile data network call center 105 of the present invention requires to carry out process flow diagram from communication to mobile data network GPS device 104.
Embodiment
Figure 1A is the structured flowchart of first embodiment of the invention (GPS mobile data network system 100).As shown in Figure 1A, GPS mobile data network system 100 comprises gps satellite system 102 ,-individual mobile network's facility 106, and-individual mobile data network GPS device 104 is connected by communication with gps satellite system 102 and mobile network's facility 106 respectively; A mobile data network GPS call center (CALL CENTER) 105, is connected by communication with gps satellite system 102 and mobile network's facility 106 respectively.In structure as shown in Figure 1A, mobile data network GPS device 104 carries out both-way communication by mobile network's facility 106 and mobile data network call center 105, comprises data-signal both-way communication and voice signal both-way communication.
In a first embodiment, gps satellite system 102 comprises multiple gps satellite, the location information signal of each satellite GPS device 202 (see Fig. 2) broadcasting satellite self earthward.GPS device 202 receives the position signalling of several gps satellite, can draw self latitude and longitude information, thus determine the position of self by calculating.The identifying information of mobile data network GPS device 104 and positional information are sent to mobile data network GPS call center 105 by gps satellite system 102.So require that mobile data network GPS device 104 energy and gps satellite system 102 carry out both-way communication, namely require there is the interface circuit carrying out both-way communication with gps satellite system 102 in mobile data network GPS device 104, gps satellite system 102 also will have the interface circuit carrying out both-way communication with mobile data network GPS device 104.
Figure 1B is the structured flowchart of second embodiment of the invention (GPS mobile data network system 101).As shown in Figure 1B, GPS mobile data network system 101 comprises gps satellite system 102, and gps satellite system 102 comprises multiple gps satellite, the location information signal of each satellite GPS device 202 (see Fig. 2) broadcasting satellite self earthward.GPS device 202 receives the position signalling of several gps satellite, can draw self latitude and longitude information, thus determine the position of self by calculating.But, in a second embodiment, the identifying information of mobile data network GPS device 104 and positional information are sent to mobile data network GPS call center 105 by the base station of operator and data network 119, and mobile data network GPS call center 105 also can send data message by the base station of operator and data network 119 to mobile data network GPS device 104.Meanwhile, mobile data network GPS device 104 also can carry out speech communication with mobile data network GPS call center 105 by PSTN/ mobile voice communication network 117.
In the embodiment of Figure 1B, the base station of operator and data network 119 have a base station, this base station is connected with multiple (1-n) launching tower, and each launching tower covers a certain region and in this region, can carry out wireless telecommunications with mobile data network GPS device 104.When mobile data network GPS device 104 will carry out data communication with mobile data network call center 105 time, first this mobile data network GPS device 104 finds a certain launching tower, wireless telecommunications are set up with it, mobile data network GPS device 104 is connected to base station by this launching tower, and it is connected to further base station and the data network 119 of operator, by PSTN/ mobile voice communication network 117, mobile data network GPS device 104 is carried out wireless data communication with mobile data network GPS call center 105 and is connected.
In second embodiment of the invention, when mobile data network GPS device 104 will carry out speech communication with mobile data network call center 105 time, this GPS device carries out speech communication by PSTN/ mobile voice communication network 117 and mobile data network GPS call center 105.When mobile data network GPS call center 105 will set up communication with mobile data network GPS device 104, mobile data network GPS call center 105 goes to find mobile data network GPS device 104 by PSTN/ mobile voice communication network 117.When mobile data network GPS device 104 is replied, by being connected mobile data network GPS call center 105 with this PSTN/ mobile voice communication network 117, thus being connected by communication with mobile data network GPS call center 105, carrying out voice bidirectional communication.Simultaneously, mobile data network GPS device 104 can carry out two-way data communication by the base station of operator and data network 119 and mobile data network GPS call center 105, can realize mobile data network GPS device 104 and send the functions such as steering order to mobile data network GPS call center 105 report position information and mobile data network GPS call center 105 to mobile data network GPS device 104.
Fig. 2 is the structured flowchart of mobile data network GPS device 104 of the present invention.As shown in Figure 2, mobile data network GPS device 104 comprise can with the GPS device 202 of gps satellite system 102 both-way communication (or unidirectional from gps satellite system 102 Received signal strength); Mobile data network interface circuit 206, its one end is connected with GPS device 202, its other end is connected by communication by 109 and mobile network's facility 106 and connects (Figure 1A illustrates), or to be connected with PSTN/ mobile voice communication network 117 map interlinking (1B illustrates) by 109, or be connected with the base station of operator and data network 119 by 113; Audio frequency/digital conversion circuit 208, its one end is connected with mobile data network interface circuit 206, and its other end and audio frequency send/receive circuit 210 and be connected (equipment such as such as microphone); Signal conversion line 212, its one end is connected with mobile data network interface circuit 206, and its other end is connected with danger button 215 with communication button 214, also comprises audio frequency sending/receiving circuit 210, communication button 214 and danger button 215.Mobile data network GPS device 104 of the present invention can be arranged on the various mobile devices such as automobile as Navigation and localization.
In mobile data network GPS device 104, GPS device 202 can be existing GPS circuit, has all soft and hardwares and the function of existing GPS circuit.All other routes in mobile data network GPS device 104 are used for realizing GPS device 202 (base station and data network 119 by mobile network's facility 106 or operator) and carry out the function (comprising the function of data-signal both-way communication and voice signal both-way communication) of both-way communication with mobile data network GPS call center 105.
Mobile data network interface circuit 206 energy will from GPS device 202, the signal that audio frequency/digital conversion circuit 208 and signal conversion line 212 receive becomes mobile network's facility 106 (Figure 1A illustrates) by protocol conversion, the signal that the base station of PSTN 〃 mobile voice communication network 117 (1B illustrates) or operator and data network 119 can identify and process, and mobile data network interface circuit 206 energy will from mobile network's facility 106 (Figure 1A illustrates), PSTN/ mobile voice communication network 117 (Figure 1B illustrates), the base station of operator and data network 119 receive the signal that signal becomes GPS device 202 and audio frequency/digital conversion circuit 208 to identify and to process by protocol conversion
In addition, memory storage and treating apparatus (as equipment such as CPU) is provided with, for the identifying information (ID) of storing movement data net GPS call center 105 and the identifying information (ID) of mobile data network GPS device 104 in mobile data network interface circuit 206.The base station of mobile network's facility 106 or operator and data network 119 can according to the identifying informations (ID) of mobile data network GPS call center 105, and the identifying information (ID) of the information send mobile data network GPS device 104 and mobile data network GPS device 104 itself delivers to mobile data network GPS call center 105.
For the first embodiment in Figure 1A, in Fig. 2, GPS device 202 will have circuit and the function of carrying out communication with gps satellite system 102, and GPS device 202 also will have circuit and the function of carrying out voice-and-data both-way communication with mobile network's facility 106, because its identifying information and positional information can be delivered to mobile data network GPS call center 105 by gps satellite system 102 by GPS device 202.
For the second embodiment in Figure 1B, in Fig. 2 GPS device 202 need to have simultaneously the ability of carrying out double-directional speech communication with PSTN/ mobile voice communication network 117 and and the base station of operator and data network 119 carry out the ability of two-way data communication, because GPS call center 105 is the identifying information and the positional information that are obtained GPS device 202 by the base station of operator and data network 119, and carry out double-directional speech communication by PSTN/ mobile voice communication network 117 and GPS device 202.
Fig. 3 is the structured flowchart of mobile data network GPS call center 105 of the present invention.As shown in Figure 3, mobile data network GPS call center 105 comprises GPS device identification circuit 302, its one end is connected with call center (CALL CENTER) equipment 303, its other end is connected by communication by 108 (Figure 1A illustrates) and gps satellite system 102 and connects, and the other end is connected with mobile data network interface circuit.GPS device identification circuit 302 has all soft and hardwares and the function of existing GPS device, can the broadcast singal of unidirectional reception gps satellite system 102, can receive, follows the tracks of and supervise the information that mobile data network GPS device 104 sends; Calling center apparatus 303 can be existing call center (CALL CENTER) equipment, has all soft and hardwares and the function of existing call central apparatus.
For in the embodiment of first in the present invention, GPS device 202 and GPS device identification circuit 302 are symmetric lines, i.e. GPS device 202 and GPS device identification circuit 302 functional similarity, and can receive same signal from gps satellite system 102 simultaneously.Like this, calling center apparatus 303 can Real-time Obtaining GPS device 202 GPS mark (GPS ID), calling center apparatus 303 can be followed the tracks of and carry out both-way communication by mobile network's facility 106 and mobile data network GPS device 104, comprising data-signal both-way communication and voice signal both-way communication.
Mobile data network GPS call center 105 also comprises mobile data network interface circuit 306, digital signal input/out line 307 and audio frequency/digital conversion circuit 308.Mobile data network interface circuit 306 is connected (Figure 1A illustrates) with mobile network's facility 106 communication by 110, or be connected (Figure 1B illustrates) with PSTN/ mobile voice communication network 117 by 111, or be connected (Figure 1B illustrates) by 114 with the base station of operator and data network 119; Mobile data network interface circuit 306 is also connected with audio frequency/digital conversion circuit 308 with GPS device identification circuit 302, calling center apparatus 303, digital signal input/out line 307 respectively.
Mobile data network interface circuit 306 energy will from GPS device identification circuit 302, calling center apparatus 303, the signal that digital signal input/out line 307 and audio frequency/digital conversion circuit 308 receive becomes mobile network's facility 106 by protocol conversion, PSTN/ mobile voice communication network 117, and the signal that the base station of operator and data network 119 can identify and process, and mobile data network interface circuit 306 can will from mobile network's facility 106 by agreement, PSTN/ mobile voice communication network 117, and the signal that the base station of operator and data network 119 receive converts calling center apparatus 303 to, the signal that digital signal input/out line 307 and audio frequency/digital conversion circuit 308 can identify and process.
In addition, memory storage and treating apparatus (as equipment such as CPU) is provided with, for the identifying information (ID) of storing movement data net GPS call center 105 and the identifying information (GPS ID) of multiple mobile data network GPS device 104 in mobile data network interface circuit 306.The base station of mobile network's facility 106 or operator and data network 119 can according to the GPS ID of certain mobile data network GPS device 104 concrete, and the information sent mobile data network GPS call center 105 and the identifying information (GPS ID) of itself are delivered in this mobile data network GPS device 104.
For the first embodiment in Figure 1A, the GPS device identification circuit 302 in Fig. 3 is necessary, because this circuit may be used for the GPS identifying information (GPS ID) obtaining GPS device 202 from gps satellite system 102.For the second embodiment in Figure 1B, mobile data network GPS call center 105 obtains the GPS identifying information (GPSID) of GPS device 202 by the base station of operator and data network 119.
In mobile data network GPS call center 105 of the present invention, calling center apparatus 303 can be existing calling center apparatus, has all soft and hardwares and the function of existing call central apparatus.The All other routes of mobile data network GPS call center 105 of the present invention are used for realizing existing call central apparatus 303
By mobile network's facility 106, (Figure 1A illustrates), PSTN/ mobile voice communication network 117 (Figure 1B illustrates), be connected (Figure 1B illustrates) and mobile data network GPS device 104 of the base station of operator and data network 119 carries out the function (comprising the function of data-signal both-way communication and voice signal both-way communication) of both-way communication.
In use, for the first embodiment in Figure 1A, when mobile data network GPS call center 105 will carry out communication with mobile data network GPS device 104, mobile data network interface circuit 306 obtains the ID of mobile data network GPS device 104 by GPS device identification circuit 302, present position and the destination locations of mobile data network GPS device 104 then can be obtained by gps satellite system 102, mobile data network GPS call center 105 connects mobile data network GPS device 104 according to the ID of mobile data network GPS device 104, and carry out data-signal and voice signal both-way communication by mobile network's facility 106 and mobile data network GPS device 104.When mobile data network GPS device 104 will carry out communication with mobile data network GPS call center 105, mobile data network interface circuit 206 according to prior stored in the ID of mobile data network GPS call center 105, connect mobile data network GPS call center 105, carry out data-signal and voice signal both-way communication by mobile network's facility 106 and mobile data network GPS call center 105.
For the second embodiment in Figure 1B, when mobile data network GPS call center 105 will carry out communication with mobile data network GPS device 104, mobile data network interface circuit 306 is connected with GPS device 104 by the base station of operator and data network 119 according to the ID (ID can be telephone number) of mobile data network GPS device 104, and obtains GPS ID and its present position and the destination locations of GPS device.If sound signal will be sent to mobile data network GPS device 104, operator can send sound signal to audio frequency/digital conversion circuit 308 (equipment such as such as microphone), audio frequency/digital conversion circuit 308 converts sound signal to digital signal and digital signal is delivered to mobile data network interface circuit 306, mobile data network interface circuit 306 converts the GPS ID of digital signal and mobile data network GPS device 104 to meet the accreditation of Mobile data fidonetFido form, and the signal after conversion is delivered to PSTN/ mobile voice communication network 117 (Figure 1B illustrates), then by mobile data network interface circuit 306, sound signal is delivered to mobile data network GPS device 104.If data-signal will be sent to mobile data network GPS device 104, data are delivered to base station and the data network 119 of operator by mobile data network interface circuit 306 by agreement, then deliver to mobile data network GPS device 104 by the base station of operator and data network 119.
For the second embodiment in Figure 1B, when mobile data network GPS device 104 will carry out communication with mobile data network GPS call center 105, mobile data network interface circuit 206 according to prior stored in the ID (ID can be telephone number) of mobile data network GPS call center 105, by PSTN/ mobile voice communication network 117, audio signal channel is connected, carry out speech communication; By the base station of operator and data network 119, data signal channel is connected, carry out data communication.
In use, if data-signal (as to mobile data network GPS device 104 reported road traffic jam environment cartographic information or transmission map rejuvenation information) will be sent to mobile data network GPS device 104 from mobile data network GPS call center 105, operator can to data input/out line 307 supplied with digital signal, and data-signal is delivered to mobile data network interface circuit 306 by data input/out line 307.Mobile data network interface circuit 306 can pass through GPS device identification circuit 302, or obtains the GPS ID of mobile data network GPS device 104 by the base station of mobile network's facility 106 or operator and data network 119.Mobile data network interface circuit 306 converts the GPS ID of data-signal and mobile data network GPS device 104 to meet the accreditation of Mobile data fidonetFido form, and the signal after conversion is delivered to base station and the data network 119 of mobile network's facility 106 or operator.According to the GPS ID of mobile data network GPS device 104, the signal after conversion is delivered to the mobile data network interface circuit 206 in mobile data network GPS device 104 by the base station of mobile network's facility 106 or operator and data network 119.The signal received is converted to the signal that GPS device 202 can identify by mobile data network interface circuit 206.After receiving the signal sent here from mobile data network interface circuit 206, signal stores away and shows on its display screen by GPS device 202.According to road traffic stopping state cartographic information, the user of mobile data network GPS device 104 can preferred drive route.
In use, when mobile data network GPS device 104 will carry out communication with mobile data network GPS call center 105, the user of mobile data network GPS device 104 presses communication button 214 in Fig. 2 or danger button 215, after pressing communication button 214 or danger button 215, communication button 214 or danger button 215 transmit a request signal to signal conversion line 212, this request signal is converted to the signal that mobile data network interface circuit 206 can identify by signal conversion line 212, and the signal after conversion is sent to mobile data network interface circuit 206.Mobile data network interface circuit 206 also obtains ID, the present position of mobile data network GPS device 104 by GPS device 202, mobile data network interface circuit 206 takes out the ID of mobile data network GPS call center 105 from its storer simultaneously.Mobile data network interface circuit 206 converts the ID of the ID of flash appeal signal, mobile data network GPS device 104 and mobile data network GPS call center 105 to meet the accreditation of Mobile data fidonetFido form, and the signal after conversion is delivered to base station and the data network 119 of mobile network's facility 106 or operator.According to the ID of mobile data network GPS call center 105, the ID of mobile data network GPS device 104, present position and flash appeal signal are delivered to the mobile data network interface circuit 306 of mobile data network GPS call center 105 by the base station of mobile network's facility 106 or operator and data network 119.The request signal received is processed into the signal that input/out line 307 and audio frequency/digital conversion circuit 308 can identify by mobile data network interface circuit 306, and it will deliver to input/out line 307 and audio frequency/digital conversion circuit 308.Audio frequency/digital conversion circuit 308 is converted digital signal to flash appeal sound signal and is played back by loudspeaker; Numeral input/out line 307 can show flash request and the position of mobile data network GPS device 104 on map.After receiving flash request, mobile data network GPS call center 105 can give first-aid measures.
In use, for the first embodiment in Figure 1A, GPS device identification circuit 302 can pass through mobile network's facility 106 in real time at Deep space tracking and the GPS ID supervising GPS device 202.For the second embodiment in Figure 1B, mobile data network interface circuit 306 is found on ground by the base station of operator and data network 119, follow the tracks of and the current location of supervision GPS device 202 and destination locations.
Mobile data network interface circuit 206,306 is provided with at least one processor in the present invention, has CPU and storer, has the function of stored program instruction and executive routine.
Mobile data network interface circuit 206 is connected by the base station of mobile data network standard agreement and mobile network's facility 106, PSTN/ mobile voice communication network 117 or operator and data network 119 with 306.Mobile data network standard agreement comprises various protocols standard, as UMTS, CDMA2000, TDMA and TD-SCDMA.Circuit in mobile data network interface circuit 206 and 306 and software are compatible with standard agreement.
Fig. 4 is the structural representation of processor 400 in mobile data network interface circuit 206.As shown in Figure 4, processor 400 comprises a processing element 402 ,-individual interior memory unit 404,-individual display 410, display interface 412, GPS communication interface 416, mobile data network communication interface 417, PSTN/ mobile voice network communication interface 419 and a bus 414.Display 410 is connected with display interface 412.Processing element 402, interior memory unit 404, display interface 412, GPS communication interface 416, mobile data network communication interface 417, PSTN or mobile voice network communication interface 419 are connected with system bus 414.
In the diagram, interior memory unit 404 is for storage program, instruction and data.Display 410 can provide a visual interface between the program performed and GPS user.GPS communication interface 416 can provide a communication interface between mobile data network interface circuit 206 and GPS device 202, and by GPS communication interface 416, processing element 402 also can obtain its id information and positional information from GPS device 202; Mobile data network communication interface 417 can provide a communication interface between the base station of mobile data network interface circuit 206 and mobile network's facility 106 or operator and data network 119; PSTN or mobile voice network communication interface 419 can provide a communication interface between mobile data network interface circuit 206 and PSTN/ mobile voice communication network 117.
Processing element 402 can read programmed instruction in interior memory unit 404 and external memory parts 406 and data, and by performing these programs and instruction to control the communication between mobile data network GPS device 104 and mobile data network GPS call center 105
Fig. 5 is the structural representation of processor 500 in mobile data network interface circuit 306.As shown in Figure 5, processor 500 comprises a processing element 502,-individual interior memory unit 504,-individual external memory parts (hard disk) 506, a disk drive interface 508,-individual display 510 ,-individual display interface 512, the base station of mobile data network communication interface 517 and mobile network's facility 106 or operator and data network 119 are connected and a bus 514.Processor 500 also comprises call center's communication interface 516, is connected with calling center apparatus 303; A PSTN/ mobile voice network communication interface 519, is connected with PSTN/ mobile voice network 117.
In Figure 5, external memory parts (hard disk) 506 are connected with disk drive interface 508; Display 510 is connected with display interface 512.Processing element 502, interior memory unit 504, disk drive interface 508, display interface 512, mobile data network communication interface 517, call center's communication interface 516, PSTN/ mobile voice network communication interface 519 and input/output interface 518 are connected with system bus 514.Interior memory unit 504 and external memory parts (hard disk) 506 can storage program, instruction and datas.Display 510 can provide a visual interface between the program performed and mobile data network GPS call center 105 user.
Mobile data network communication interface 517 can provide a communication interface between the base station of mobile data network interface circuit 306 and mobile network's facility 106 or operator and data network 119.Call center's communication interface 516 can provide a communication interface between data network interface circuit 306 and mobile data network GPS call center 105.By call center's communication interface 517, processing element 502 can by the request forward sent from mobile network's GPS device 104 to mobile data network GPS call center 105, this request is processed by mobile data network GPS call center 105, and result fetched, then result is mail to mobile data network GPS device 104.Process request with mobile data network GPS call center 105 and have very large advantage, because there are abundant manpower, hardware and software resource in mobile data network GPS call center 105.PSTN/ mobile voice network communication interface 519 can provide a communication interface between mobile data network interface circuit 306 and PSTN/ mobile voice network 117.
Processing element 502 can read programmed instruction in interior memory unit 504 and external memory parts 506 and data, and by performing these programs and instruction to control the communication between mobile data network GPS104 equipment and mobile data network GPS call center 105.
Fig. 6 is mobile data network GPS device 104 of the present invention requires to carry out process flow diagram from communication to mobile data network GPS call center 105.
As shown in the figure, in step 602, user's button press 214 or 215 of mobile data network GPS device 104.
In step 604, for start button 214 or 215, signal conversion line 212 produces communication request signal or flash request signal respectively, (not shown by input/output interface, these Interface & Bus are connected), this request signal is sent to processing element 402.
In step 606, the processing element 402 shown in Fig. 4 obtains the ID (or telephone number) of the call center 303 kept in advance at interior memory unit 404.
In step 608, processing element 402 performs the instruction in memory unit 404.In embodiment as shown in Figure 1A, processing element 402 controls to connect with mobile network's facility 106 by mobile data network communication interface 417.Mobile data network facility 106 is connected according to the ID (or telephone number) of call center 303 and mobile data network GPS call center 105.Mobile data network GPS device 104 carries out double-directional speech and data communication by mobile data network facility 106 with mobile data network GPS call center 105.
In embodiment as shown in Figure 1B, processing element 402 controls mobile data network communication interface 417, connected by the base station of launching tower a certain in base station and operator and data network 119, the base station of operator and data network 119 are connected according to the ID (or telephone number) of call center 303 and mobile data network GPS call center 105.Simultaneously, processing element 402 control PSTN/ mobile voice network communication interface 419 and PSTN/ mobile voice network 117 are connected, and PSTN/ mobile voice network 117 is connected according to the ID (or telephone number) of call center 303 and mobile data network GPS call center 105.Mobile data network GPS device 104 carries out double-directional speech communication by PSTN/ mobile voice network 117 with mobile data network GPS call center 105; Two-way data communication is carried out with mobile data network GPS call center 105 by the base station of operator and data network 119.
After the Path Setup with mobile data network GPS call center 105, deliver to processing element 502 by mobile data network communication interface 516 and PSTN/ mobile voice network communication interface 519 or stored in interior memory unit 504 from the information of GPS device 104.
In step 609, processing element 402 performs the instruction in interior memory unit 404, sends request signal by the base station of mobile network's facility 106 or operator and data network 119 to mobile data network GPS call center 105.
In step 610, GPS device 202 can constantly update its positional information by the base station of mobile network's facility 106 or operator and data network 119 to mobile data network GPS call center 105.
In step 612, the processing element 502 shown in Fig. 5 performs the instruction of its memory unit, by call center's communication interface 516, calling center apparatus 303 is delivered in the request received, and result is fetched from calling center apparatus 303.Then processing element 502 controls mobile data network communication interface 517, by base station and the data network 119 of mobile network's facility 106 or operator, result is sent to mobile data network GPS device 104.If the request received is flash request, processing element 502 and calling center apparatus 303 carry out this request of priority processing.Because comprise the positional information of GPS device 202 continuous renewal in the information received, processing element 502 can assist GPS device 202 user to select optimize enforcement route or evade danger.And after user's button press 214 or 215, mobile data network GPS call center 105 connects automatically, dials without user.
In step 614, processing element 402 and 502 performs the instruction of its memory unit separately, carries out data letter and voice signal both-way communication.In embodiment as shown in Figure 1A, mobile data network GPS device 104 carries out double-directional speech and data communication by mobile data network facility 106 with mobile data network GPS call center 105.In embodiment as shown in Figure 1B, mobile data network GPS device 104 carries out double-directional speech communication by PSTN/ mobile voice network 117 with mobile data network GPS call center 105; Two-way data communication is carried out with mobile data network GPS call center 105 by the base station of operator and data network 119.
Fig. 7 is mobile data network GPS call center 105 of the present invention requires to carry out process flow diagram from communication to mobile data network GPS device 104
As shown in the figure, in step 702, processing element 502 shown in Fig. 5 performs the instruction in interior memory unit 504, take out the ID (or telephone number) of the GPS device 202 in existing in memory unit 504, and the ID (or telephone number) of GPS device 202 is delivered to mobile network's facility 106 (as shown in Figure 1A) by mobile data network communication interface 517, or deliver to base station and the data network 119 (as shown in Figure 1B) of PSTN/ mobile voice network 117 and operator, require to find GPS device 202.
In step 704, in embodiment as shown in Figure 1A, mobile data network facility 106 searches out mobile data network GPS device 104 according to the ID (or telephone number) of GPS device 202.In embodiment as shown in Figure 1B, the base station of operator and data network 119 search out mobile data network GPS device 104 according to the ID (or telephone number) of GPS device 202.
In step 706, in embodiment as shown in Figure 1A, mobile data network GPS call center 105 connects with mobile data network GPS device 104 by mobile data network facility 106.In embodiment as shown in Figure 1B, voice channel between mobile data network GPS call center 105 and mobile data network GPS device 104 is connected by PSTN/ mobile voice network 117, and the data channel between mobile data network GPS call center 105 and mobile data network GPS device 104 is connected by the base station of operator and data network 119.
In step 708, processing element 502 performs the instruction of interior memory unit 504, control Mobile data network interface 517 and can send request signal by mobile network's facility 106 to mobile data network GPS device 104, or control PSTN or mobile voice network communication interface 519 send request signal by PSTN/ mobile voice network 117 to mobile data network GPS device 104, require to obtain its positional information and other relevant informations.
In step 710, processing element 402 shown in Fig. 4 constantly obtains positional information and other relevant informations of GPS device 202 by GPS communication interface 416, then processing element 402 controls mobile data network communication interface 417, positional information and other relevant informations is delivered to the base station of mobile network's facility 106 (shown in Figure 1A) or operator and data network 119 (shown in Figure 1B; ); Positional information and other relevant informations are delivered to mobile data network communication interface 516 (shown in Fig. 5 by the base station of mobile network's facility 106 or operator and data network 119 again; ); Positional information and other relevant informations are being delivered to processing element 502 and interior memory unit 504 by mobile data network communication interface 516.
In step 711, the positional information of mobile data network GPS device 104 and other relevant informations are delivered to mobile data network GPS call center 105 by call center's communication interface 516 and are processed by processing element 502, and result are fetched from mobile data network GPS call center 105 by call center's communication interface 516.
In step 712, processing element 402 and 502 performs the instruction of its memory unit separately, carries out data letter and voice signal both-way communication.In embodiment as shown in Figure 1A, mobile data network GPS call center 105 carries out double-directional speech and data communication by mobile data network facility 106 and mobile data network GPS device 104.In embodiment as shown in Figure 1B, mobile data network GPS call center 105 carries out double-directional speech communication by PSTN/ mobile voice network 117 and mobile data network GPS device 104; Two-way data communication is carried out with mobile data network GPS device 104 by the base station of operator and data network 119.
Can be existed in interior memory unit 404 and/or interior memory unit 504 by the program step shown in Fig. 6 and Fig. 7, and can be performed by processing element 402 and/or processing element 502.
The present invention refer to the prioritization scheme that a kind of GPS call center is connected with GPS device by mobile data network.Because there are a large amount of human resources and software and hardware resources in GPS call center, therefore GPS call center can be connected with multiple GPS device communication, and like this, GPS call center can send information to multiple GPS device.And, after GPS call center is connected with multiple GPS device communication, the plurality of GPS device automatically (without artificial interference) transmits himself positional information and other information to GPS call center, so GPS call center can all GPS device of real-time follow-up.
Claims (16)
1. one kind uses the GPS mobile data network system (100) of gps satellite, comprises 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 (CALL CENTER) (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).
2. GPS mobile data network system as claimed in claim 1, is characterized in that described communication comprises data-signal both-way communication and voice signal both-way communication.
3. one kind uses gps satellite in the system (100) of Deep space tracking GPS device, comprises 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 (CALL CENTER) (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 (CALL CENTER) (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).
4. the system of Deep space tracking GPS device as claimed in claim 3, described communication comprises data-signal both-way communication and voice signal both-way communication.
5. the communication system (101) of a GPS device, comprises gps satellite system (102), it is characterized in that comprising:
Mobile data network GPS device (104);
Mobile data network GPS call center (105);
PSTN/ mobile voice communication network (117);
Operator base station and data network (119);
Wherein, voice bidirectional communication between mobile data network GPS device (104) and mobile data network GPS call center (105) is completed by PSTN/ mobile voice communication network (117), and the data double-way communication between mobile data network GPS device (104) and mobile data network GPS call center (105) is completed by PSTN/ mobile voice communication network (117).
6. the communication system (101) of the GPS device as described in claim 1-5, is characterized in that:
Described mobile data network GPS device (104) is provided with communication button (214,215), after pressing communication button, mobile data network GPS device (104) and mobile data network GPS call center (105) directly connect.
7. the communication system (101) of the GPS device as described in claim 1-5, 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.
8. the GPS mobile data network system as described in claim 1-5, is characterized in that:
Described mobile data network GPS call center (105) can with the communication of multiple mobile data network GPS device (104).
9. use means of communication for gps satellite (102) and mobile data network (106), it 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 (CALL CENTER) (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).
10. the means of communication as claimed in claim 9, is characterized in that:
Described communicating step comprises data-signal both-way communication and voice signal both-way communication.
The means of communication of 11. 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 (CALL CENTER) (105) are connected with described gps satellite (102) and mobile data network (106) signal;
Described gps satellite (102) is made the positional information of GPS device (202) and id information to be sent to described mobile data network GPS call center (CALL CENTER) (105);
Described mobile data network GPS call center (CALL CENTER) (105) is made to carry out communication according to positional information and id information by mobile data network (106) and GPS device (202).
12. means of communication as claimed in claim 11, is characterized in that:
Described communicating step comprises data-signal both-way communication and voice signal both-way communication.
The means of communication of 13. 1 kinds of uses gps satellite system (102), is characterized in that the described means of communication comprise the steps:
Mobile data network GPS device (104) is provided;
Mobile data network GPS call center (105) is provided;
PSTN/ mobile voice communication network (117) is provided;
Operator base station and data network (119) are provided;
Wherein, voice bidirectional communication between mobile data network GPS device (104) and mobile data network GPS call center (105) is completed by PSTN/ mobile voice communication network (117), the data double-way communication between mobile data network GPS device (104) and mobile data network GPS call center (105) is completed by PSTN/ mobile voice communication network (117).
14. means of communication as described in claim 9-13, is characterized in that:
By pressing the communication button (214,215) 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).
15. means of communication as described in claim 9-13, 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.
16. as described in claim 9-13 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).
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CN201510181019.5A CN104833984A (en) | 2008-03-07 | 2009-03-06 | Equipment and method for communicating with GPS equipment |
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CN200810083541.XA CN101527877B (en) | 2008-03-07 | 2008-03-07 | The apparatus and method for of communication is carried out with GPS device |
CN201510181019.5A CN104833984A (en) | 2008-03-07 | 2009-03-06 | Equipment and method for communicating with GPS equipment |
CN200980108651.XA CN101978768B (en) | 2008-03-07 | 2009-03-06 | Equipment and method for communicating with GPS equipment |
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CN201510181048.1A Pending CN104833985A (en) | 2008-03-07 | 2009-03-06 | Equipment and method for communicating with GPS equipment |
CN200980108651.XA Active CN101978768B (en) | 2008-03-07 | 2009-03-06 | Equipment and method for communicating with GPS equipment |
CN201510181019.5A Pending CN104833984A (en) | 2008-03-07 | 2009-03-06 | Equipment and method for communicating with GPS equipment |
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CN201510816070.9A Pending CN105472555A (en) | 2008-03-07 | 2008-03-07 | Device and method for communication with GPS equipment |
CN201510811618.0A Pending CN105445754A (en) | 2008-03-07 | 2008-03-07 | Equipment communicating with GPS equipment, and method |
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CN201510180752.5A Pending CN104833982A (en) | 2008-03-07 | 2009-03-06 | Equipment and method for communicating with GPS equipment |
CN201510180824.6A Pending CN104833983A (en) | 2008-03-07 | 2009-03-06 | Equipment and method for communicating with GPS equipment |
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CN103944647A (en) * | 2013-01-23 | 2014-07-23 | 昆达电脑科技(昆山)有限公司 | Method and navigation apparatus for data linking in audio transmission mode |
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CN101527877A (en) | 2009-09-09 |
CN105372674A (en) | 2016-03-02 |
HK1209842A1 (en) | 2016-04-08 |
HK1216118A1 (en) | 2016-10-14 |
CN101978768A (en) | 2011-02-16 |
HK1209841A1 (en) | 2016-04-08 |
HK1216669A1 (en) | 2016-11-25 |
CN105472555A (en) | 2016-04-06 |
WO2009109142A1 (en) | 2009-09-11 |
CN101978768B (en) | 2015-04-01 |
CN105445754A (en) | 2016-03-30 |
HK1216668A1 (en) | 2016-11-25 |
HK1216696A1 (en) | 2016-11-25 |
CN105467401A (en) | 2016-04-06 |
CN104833985A (en) | 2015-08-12 |
CN101527877B (en) | 2015-11-25 |
CN104833983A (en) | 2015-08-12 |
HK1209843A1 (en) | 2016-04-08 |
HK1209840A1 (en) | 2016-04-08 |
CN105487085A (en) | 2016-04-13 |
CN104833982A (en) | 2015-08-12 |
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