TW201008155A - Mobile communication system utilizing peer to peer protocol and method therefor - Google Patents

Abstract

A mobile communication system utilizing a peer-to-peer protocol and a method therefor is provided. The mobile communication system includes a plurality of communication devices and a wireless communication platform. First, the communication devices logon the wireless communication platform so as to obtain the Internet protocol address and form the nodes of peer-to-peer network. The communication device provides its GPS (global positioning system) signals and communication messages to other wireless communication devices by the peer-to-peer network, and the communication device may also obtain the GPS signals and communication messages of other wireless communication devices by the peer-to-peer network and display them on the wireless communication device. The wireless communication device may install on vehicles or buildings, such that geographic location information and communications, such as guide information or ticket information of a building, can be transmitted among the vehicles.

Description

201008155 1 IX. Description of invention: • [Technical field to which the invention belongs] • The present invention is (iv) a peer-to-peer mobile communication system and its method, especially by Peer to Peer (P2P) transmission technology. A system and method for interacting with a plurality of communication devices. [Previous technology], with the development of the tool for the development of a thousand miles, the needs of the global satellite navigator

The demand is getting higher and higher. From the early stage, it only avoids getting lost, so that it can smoothly reach the intended destination, and nowadays it is developing towards the integration of high-accuracy and high-stability money with humanized functions. Please refer to Figure 1 as shown in Figure 1. Figure 1 is a schematic diagram of the Xijun ball satellite navigator. The conventional satellite navigation method is that the global satellite navigator 1 receives the satellite signal, and the satellite signal is used to obtain the full geographical position of the star guide wire. However, the above-mentioned satellite navigation methods are often only used to obtain their own location and navigation, and it is impossible to enable other mobile communication devices to interact and share at the same time. It is expected that users such as (4) road traffic information, integrated mobile communication hybrids ^ == phase, global satellite _ 1 in its application integrity and practicality left a considerable degree of shortcomings. SUMMARY OF THE INVENTION In view of the above, the problem to be solved by the present invention is to propose a peer-to-peer mobile communication interactive line and a method thereof, in which the Tasaki receives a satellite signal to generate its geographical location, and then uses point-to-point (PeertGp咐, transmission technology). One or more predetermined communication devices are provided to share the geographic location. 201008155 ' To solve the above problem, the solution proposed by the present invention is to provide a point-to-point wireless mobile communication interactive system, comprising: a wireless mobile communication providing ventilation. a platform and a plurality of wireless communication devices. The wireless communication devices are logged in to the wireless mobile communication platform to obtain an IP address. The wireless communication devices can be directly connected to form a point-to-point network. A first GPS signal can be obtained, and according to the receiving request of other wireless communication devices on the point-to-point network, the third GPS number is combined with a first object code and a first communication message, and the first packet data is sealed. Output, or obtain at least one other wireless communication from the peer-to-peer network a second packet data consisting of a second object code, a second GPS signal and a second communication message, and graphically displaying the corresponding coordinates of the first GPS signal and the second GPS signal The location and the second communication message content. The peer-to-peer wireless mobile communication interaction system of another embodiment of the present invention comprises: a wireless mobile communication platform providing a communication network; and a network server connected to the wireless mobile communication platform, The network server includes at least one IP address storage database; and a plurality of wireless communication devices that log in to the wireless mobile communication platform to obtain an IP address, and store the IP address in the network servo The wireless communication device can obtain the IP address of the other party through the network server to form a peer-to-peer network, and each of the wireless communication devices can acquire the HPS signal and can respond to other points on the peer-to-peer network. Receiving, by the wireless communication device, the first GPS signal is combined with a first object code and a first communication message, and is packaged as a first packet. Outputting, and obtaining at least one 201008155 from the peer-to-peer network, a second packet data consisting of a second object code, a second GPS nickname and a second communication message, and graphically displaying the first GPS signal Corresponding coordinate position of the second GPS signal and the content of the second communication message. ^= In the above invention, the wireless communication devices are directly connected by using a pre-established contact list in each device. Moreover, the wireless communication device can be installed in a vehicle that is moving from time to time or in a stationary building, and the manner of interaction described above includes sharing geographical coordinates, communication between vehicles, navigation information of the vehicle, or charging information. The invention relates to a peer-to-peer wireless mobile communication interactive method comprising: first, determining that the wireless receiving device's GPS receiving function and the peer-to-peer network connection function are money for normal connection. Then, if the determination is yes, two threads are generated, respectively, for generating a geographic coordinate packet transmission thread for outputting an instant geographic location of the wireless communication device for updating other wireless communication devices - instant messages; - Tutorial processing thread to update one of the other wireless communication devices. In the above-mentioned hairpin, the geographic coordinate packet transmission thread is configured to combine the code of the wireless communication device with the GPS signal to form a first object code (10) and the packet of the silk thread to be instantly transmitted through the network of the point network. And the processing step of the graphic processing thread includes: determining whether the geographic coordinate in the received packet data of the second object code and its geographic coordinates generates a moving amount; if the determination is yes, the object is The geographic coordinates are updated and displayed on the user interface module of the wireless communication device. If the judgment is no, and the object is a building, the distance between the geographic coordinates 201008155 and the """, the line communication device is calculated. And when the distance falls within a preset navigation distance, 'the navigation and charging function of the object is performed. The system of the present invention provides a user with a mobile communication device with global satellite navigation function for road navigation, and selectively communicates one or more communication devices to obtain mutual geographic position through network point-to-point transmission technology. 〇S ^, it can also provide video and audio conversations or multi-party conversations by transmitting media streaming messages of user video and audio messages, and calculate the famous scenic spots within a certain range according to the current geographical location. Landmark information and navigational information such as famous buildings are displayed on the electronic map. It can even be used in pre-agreed parking lots, amusement parks and other attractions to start charging services. [Embodiment] In order to further understand the content of the present invention, the following detailed description is made with reference to related embodiments and figures: Please refer to FIG. 2, FIG. 3 and FIG. 4, FIG. 2 illustrates the peer-to-peer wireless mobile communication interactive system of the present invention. 1 is a system diagram of FIG. 3, FIG. 3 is a schematic diagram of a user interface of a global satellite navigation system embodiment of the point-to-point wireless mobile communication interaction system of the present invention, and FIG. 4 is a wireless communication of the point-to-point wireless mobile communication interaction system of the present invention. A block diagram of a system block of an embodiment of the device. In this embodiment, a plurality of mobile phones, personal digital assistants (PDAs) or vehicles that comply with the 3.5G communication specification or the Worldwide Interoperability for Microwave Access 'WiMAX communication specification are loaded in the plurality of vehicles 201. Hand-held satellite navigation system; or wireless communication such as a personal computer or a notebook computer or a computer that is equipped with a 3.5G communication specification or a Worldwide Interoperability for 201008155 'Microwave Access' WiMAX communication specification in a plurality of buildings 202 The device 20 can obtain an IP address by using a wireless mobile communication platform (represented by the base station 11 in the figure) that is accessed by each of the wireless communication devices, and uses the IP address and each wireless communication. The peer-to-peer network technology in the Hanbei 20, each wireless communication device forms a node on the peer-to-peer network 211, and a preset list (not shown) in each wireless communication device 20 can be utilized. Corresponding to the direct transfer function between the contact list nodes on the peer-to-peer network 211. Each of the wireless communication devices 20 can acquire a first global positioning system from the artificial satellite 40 by the wireless mobile communication platform or the GPS receiving module (not shown) provided by the wireless communication device 20 itself (G1〇bai p〇siti The 〇ning System (GPS) signal can directly respond to at least one of the wireless communication devices 2 〇 on the peer-to-peer network 211, and combine the first GPS signal 50 with a first object code and a first communication. The message is encapsulated into a first packet data P1 and output to the requesting end, and a second object code, a second GPS signal and a second, of the at least one second packet data P2 are obtained from the peer-to-peer network G 211. The communication message is displayed by the instant graphical processing, and the first GPS signal 50, the corresponding coordinate position of the second GPS signal, and the content of the second communication message are displayed to be simultaneously and instantaneously in the wireless communication device 2 It shows its own GPS geographic coordinates and the gps ^ geographic coordinates of the connected party to achieve geographic coordinate sharing. The object code is the code representing the wireless communication device 20. Further, the first packet data or the second packet data transmitted by the wireless communication device 20 at both ends of the point-to-point network 211 are directly connected to the 201008155 3th message and the second communication message, and the communication message may be For each other's call voice data, text chat data, in addition to providing a vehicle between the vehicle 2〇1 and the *vehicle 201 (such as A car, B car, C car in Fig. 3), the mutual display of each other's geographic coordinates , can also talk to each other, communicate instantly; or provide between the vehicle 201 and the building 202 (such as A car in the 3, D parking lot 'E station, F restaurant), the vehicle 201 displays the geography of the building 2〇2 Please refer to FIG. 4 for each of the wireless communication devices 2 of the present embodiment, including: a point-to-point technical connection module 21, a coordinate information, a navigation material, and a parking lot. The transmission/receiving module 22, a GPS NMEA (National Marine Electronics Association) information analysis module 23, a picture processing module 24, and a user interface module 25. The point-to-point technology connection module 21 is configured to form a point-to-point network 211 with at least one of the wireless communication devices 20; the transmission/reception module 22 can apply the point-to-point network constructed by the point-to-point technology connection module 21. 211 ' directly transmitting the first packet data. pi to the connection request end of the peer-to-peer network 211 and receiving the second packet data P2 from the connection request end; the GPS NMEA information analysis module 23 can calculate the wireless communication The first GPS signal 50 obtained by the device 20 itself is a first geographic coordinate, and then the first geographic coordinate is encapsulated into the first packet data 'P1 (the first packet data P1 includes the wireless communication device 20) The first packet data P1 is transmitted through the transmitting/receiving module 22, and the GPS NMEA information analysis module 23 can analyze the object data, the first geographic coordinate, and the first communication message. The second packet data P2 received by the transmitting/receiving module 11% 201008155 22 is used to retrieve the second object code (the object code of the other vehicle or building other than the wireless communication device 20 itself) And calculating the second GPS signal as a second geographic coordinate; the image processing module 24 receives and graphically processes the first geographic coordinate and the second geographic coordinate of the GPS NMEA information analysis module 23; The interface module 25 is configured to graphically display the first geographic coordinate and to selectively display or not display the contact list according to the contact list.

❿ the second geographic coordinate and the second communication message, for example, the user can graphically display the connection list in the user interface module 25, and simultaneously display the location and order of the wireless communication device 2 of the vehicle 201 itself Other geographic information of other wireless communication devices 2装置 installed in the vehicle 2〇1 in the contact list is displayed or not displayed, communication messages of other wireless communication devices are not talking or not, or a display range is set. When other communication devices are in this range, their geographic location is displayed. Continuing to refer to the system of the second embodiment of the peer-to-peer wireless mobile communication interaction system shown in FIG. 5 (4) 4 includes: - providing a communication network of a mobile communication platform, such as a mobile station (4) base station ^; a connection to the wireless The mobile communication platform's network server (3), the network server includes at least - IP address storage database (not shown) to store the wireless money money IP scream; Wei a secret Substituting the vehicle 2 (U or building m towel, obtaining the -IP address after logging in to the wireless mobile phone, and storing the IP address in the network porter 30, the secret track device 2Q can Connect the 1P address of the other party through the __ server 3 to form the 2U network of the point-to-point network. Each of the readings of the 201008155 line communication device 20 can acquire a first GPS signal 5〇, and can also respond to the point-to-point network. At least one of the wireless communication devices 20 receives the first GPS signal 50, and combines a first object code and a first communication message into a first packet data P1 for output. Obtaining a second object code in the at least one second packet data P2 from the peer-to-peer network 211 a second GPS signal and a second communication message, and graphically displaying the first GPS signal 50, the corresponding coordinate position of the second GPS signal, and the content of the second communication message. This embodiment and the foregoing What is different in an embodiment is that the wireless communication devices of the first embodiment can directly find each other's IP addresses and directly connect to the peer-to-peer network 211, and the second embodiment utilizes After all the wireless communication devices are connected and access the IP address of the wireless communication device 20 of the connected party through the network server 30, a virtual direct connection channel between the peer-to-peer networks 211 is established to directly transmit/receive. After the point-to-point network 211 is established in the second embodiment, the application of the system is the same as that of the foregoing first embodiment, and will not be described here. Referring again to the present invention, the peer-to-peer wireless mobile communication interaction is illustrated. The flowchart of the method, and the flowchart of the lean processing thread in FIG. 6 shown in FIG. 7. The steps of the point-to-point wireless mobile communication interaction method of the embodiment include: It is judged whether the GPS receiving function of the wireless communication device 20 and the peer-to-peer network connection function are in normal connection (step S100)' to ensure the interaction function with other vehicles or buildings. Further, if the above judgment result If yes, a geographic coordinate packet transmission thread is generated on the wireless communication device 20 (step Sii) and a map processing command (step sl2): the geographic location 201008155 label transmission execution The main purpose is to combine the wireless communication device and the ^PS signal to form a package code including an object code (10) and its geographic coordinates ^ 1 and transmit it through the peer-to-peer network (4); the step of the logic thread (4) includes: Including - the object = its geographical lion - whether the second packet data is generated - if the position is judged to be, the position of the object (the object at this time) is updated and displayed on the interface of the wireless communication device Module (step S122); if the determination is no, and the object is built, the distance between the geographic coordinate and the wireless communication device is calculated, and when the distance falls within the navigation distance , It can be the object (step S123). Equal-Loop Force In the embodiment of the method of the present invention, the navigation function also includes a toll service in a pre-defined area of a toll station, a playground, a playground or an amusement park. In summary, the point-to-point wireless mobile communication interactive system and method of the present invention provides a mobile track device that can provide its own geographical location information: other members' mobile communication devices, sharing mutual location, text and voice interaction Breaking the use of positioning and navigation barriers has a feeling of being close to the world. Although the present invention has been disclosed above in the foregoing preferred embodiments, it is not intended to limit the equivalents of the present invention, and the equivalent replacement of the modifiers and retouchings within the spirit and scope of the present invention. Within the scope of patent protection. 201008155 Λ [Simple diagram of the diagram] Figure 1 is a schematic diagram of the user interface of the global satellite navigation system of the prior art; Figure 2 is a schematic diagram of the first embodiment of the peer-to-peer wireless mobile communication interaction system of the present invention, Figure 3 FIG. 4 is a schematic diagram of a system diagram of a wireless communication device embodiment of a peer-to-peer wireless mobile communication interaction system according to the present invention; FIG. 5 is a system diagram of a point-to-point wireless mobile communication interaction system according to the present invention; 2 is a schematic diagram of a system for interacting with a point-to-point wireless mobile communication; and FIG. 7 is a flow chart of a processing thread for processing in FIG. [Main component symbol description] 1 Global satellite navigator 11 Base station 20 Wireless communication device 201 Vehicle 202 Building 21 Point-to-point technology connection module 211 Point-to-point network 22 Transmission/reception module 23 GPS ΝΜΕΑ Information analysis module 15 201008155 λ 24 picture processing module 25 user interface module 30 network server 40 artificial satellite 50 first GPS signal P1 first package data P2 second packet data

Step S100: determining whether the GPS receiving function of the wireless communication device and the peer-to-peer network connection function are in a normal connection step S110, generating a geographic coordinate packet transmission thread for outputting one of the wireless communication devices, and generating an image of the instant geographic location, step S120 The processing thread is used to update one of the other wireless communication devices, and the instant message step S121 determines whether the received second packet data including an object code and its geographic coordinates generates a positional movement amount. If the determination is yes, then The geographic coordinate of the object is updated and displayed in the user interface module of the wireless communication device. If the determination is no, and the object is a building, the distance between the geographic coordinate and the wireless communication device is calculated. And when the distance falls within a navigation distance, performing a navigation function of the object 16

Claims (1)

201008155 汇 • Ten, apply for a patent park: • h A point-to-point wireless mobile communication interactive system, including: • A wireless mobile communication platform, providing a communication network 丨 and a plurality of wireless communication devices, which are registered to the wireless mobile communication platform Obtaining an (Internet Protocol) address, the wireless communication devices can be directly connected to form a point-to-point network, and each of the wireless communication devices can acquire a first global positioning system (Global Poslti〇ning) The system, the GPS signal may also be received by the at least one of the wireless communication devices on the peer-to-peer network, and the first GPS signal is combined with a first object code and a first communication message, and is encapsulated as a first packet. Outputting, and receiving at least the second object code, the first GPS number 5 and the second communication message in the second packet data from the peer-to-peer network, and graphically displaying the first GPS signal, a corresponding coordinate position of the second GPS signal and the content of the second communication message. ❹ 2. The interactive system of claim 1, wherein the direct connection between the wireless communication devices is based on a pre-established contact list in each of the wireless communication devices. 3. The interactive system of claim 1, wherein each of the wireless communication devices comprises: a point-to-point technology connection module to form a point-to-point network connection with at least one of the wireless communication devices; The receiving module 'is applying the network of the peer-to-peer technology connection module to transmit the first packet data and receive the second packet data; 17 201008155 Participating GPS NMEA (National Marine Electronics Association, National Marine Electronics Association) The information analysis module calculates that the first GPS signal is a first geographic coordinate, the first geographic coordinate is sealed in the first packet data, and is output to the transmitting/receiving module, and the first The second packet data is used to retrieve the second object code and calculate the second GPS signal as a second geographic coordinate; a graphics processing module to receive and graphically process the first of the GpS NMEA 0 information analysis module a geographic coordinate, and determining the second geographic coordinate of the second object code; and a user interface module connected to the graphic processing module for instant graphics The first geographic coordinate, the second geographic coordinate, and the first pass information are displayed. 4. The interactive system of claim 3, wherein the first Gps signal is obtained from the wireless mobile communication platform. 5. The interactive system of claim 3, wherein each of the wireless communication devices further includes a GPS receiver module, and the first GPS signal is obtained from the GPS signal receiving module. 6. The interactive system of claim 3, wherein at least one of the plurality of wireless communication devices is disposed in a fixed building. 7.= Apply for the interactive system described in item 9 of the full-time, where the first communication message is a navigation message or a charging message for the building. 8. The peer-to-peer mobile communication interactive system described in item 9 of the patent application scope is in which the wireless Wei equipment in the fixed building is in compliance with the 3.5G communication specification or the global access to the wave access (WQrldwide 201008155 ♦ * Interoperability for Microwave Access, WiMAX) A personal computer or laptop with a standard specification. 9. The interactive system of claim 3, wherein at least one of the plurality of wireless communication devices is disposed in a mobile vehicle. 10. The interactive system of claim 9, wherein the first communication message is a call message of the mobile vehicle. 〇 11. The peer-to-peer mobile communication interactive system described in claim 9 wherein the wireless communication device disposed in the mobile vehicle is in compliance with the 3. 5G communication specification or the global access for microwave access (w〇rldwide Interoperability for Microwave) Access, WiMAX) mobile phone, personal digital assistant (PDA) or car handheld satellite navigation. 12. A point-to-point wireless mobile communication interactive system, comprising: a wireless mobile communication platform providing a communication network; a network server connected to the wireless mobile communication platform, comprising at least one IP address storage database; a plurality of wireless communication devices, wherein the wireless mobile communication platform is logged in to obtain an IP address, and the IP address is stored in the network server, and the wireless communication devices can obtain the other party through the network server The IP address to form a peer-to-peer network, each of the wireless communication devices can acquire a first GPS signal, and can also respond to the receiving request of at least one of the wireless communication devices on the peer-to-peer network, the first The GPS signal is combined with a first object code and a first communication message, and is encapsulated as a first packet data for output, and receives at least one 201008155 from the peer-to-peer network. • a second object code in the second packet data, a second GPS signal and a second communication message, and graphically displaying the first GPS signal, the corresponding coordinate position of the second GPS signal And the second communication message content. 13. The interactive system of claim 12, wherein the direct connection between the wireless communication devices is based on a pre-established contact list in each of the wireless communication devices. 14. The interactive system of claim 12, wherein each of the wireless communication devices comprises: a point-to-point technology connection module to form a point-to-point network connection with at least one of the wireless communication devices; The transmitting/receiving module applies the network of the peer-to-peer technology connection module to transmit the first packet data and receive the second packet data; a GPS NMEA (National Marine Electronics φ Association) information The analyzing module calculates the first GPS signal as a first geographic coordinate, encapsulates the first geographic coordinate in the first packet data, outputs the data to the transmitting/receiving module, and analyzes the second packet data. Taking the second object code and calculating the second GPS signal as a second geographic coordinate; a graphics processing module for receiving and graphically processing the first geographic coordinate of the GPSMEA information analysis module, and Determining the second geographic coordinate of the second object code; and a user interface module connected to the image processing module, ie, 201008155 • time graphic Displaying the first geographical coordinates, the geographical coordinates of the second and the second communication message. The interactive system of claim 14, wherein the first GPS signal is obtained from the wireless mobile communication platform. 16. The interactive system of claim 14, wherein each of the wireless communication devices further comprises a GPS receiving module, and the first GPS signal is obtained from the GPS signal receiving module. 17. The interactive system of claim 14, wherein at least one of the plurality of wireless communication devices is disposed in a mobile vehicle. 18. The interactive system of claim 17, wherein the first communication message is a call message of the mobile phone. 19. The peer-to-peer mobile communication system as described in claim π, wherein the wireless communication device disposed in the mobile vehicle is in compliance with the 3. 5G communication specification or global access for microwave access (w〇ridwide Interoperability for Microwave) Access, WiMAX) Mobile phones, personal digital assistants (PDAs) or handheld satellite navigation systems. 20. The interactive system of claim 14, wherein at least one of the plurality of wireless communication devices is disposed in a fixed building. 21. The interactive system of claim 20, wherein the first communication message is a navigation message or a charging message for the building. 22. The peer-to-peer mobile communication system as described in claim 20, wherein the wireless communication device installed in the building is in compliance with 201008155 3. 5G communication specification or Worldwide Interoperability for Microwave (Worldwide Interoperability for Microwave) Access 'WiMAX' is a personal computer or laptop with a standard specification. 23·- A point-to-point wireless mobile communication interaction method, applicable to a wireless communication device with GPS function, the interaction method comprises: determining whether the GPS receiving function of the wireless communication device and the peer-to-peer network connection function are in normal connection; ❹ If the determination is yes, a geographic coordinate packet transmission thread and a graphic processing thread are generated, and the geographic coordinate packet transmission thread is used to output an instant geographic location of the wireless communication device, and the graphic processing thread is used. To update one of the other wireless communication devices for instant messaging. 24. The interactive method of claim 23, wherein the processing step of the geographic coordinate packet transmission thread comprises: 25. forming, by the code of the wireless communication device, the object code (including an object code) ID) and the first packet of one of its geographic coordinates, and the first packet data is immediately transmitted through the peer-to-peer network. The interactive method of claim 23, wherein the processing step of the graphic processing thread comprises: determining whether a received second packet data including an object code and a geographic coordinate thereof generates a position The amount of movement; and if determined to be ', then the geographic coordinates of the object are updated and displayed on one of the user interface modules of the wireless communication device. 27. The interactive method of claim 25, wherein determining the received second packet data including an object code and its geographic coordinates 201008155 a ^ whether to generate a positional movement amount further comprises the following steps: If the determination is no, and the object is a building, calculating a distance between the geographic coordinate and the wireless communication device, and when the distance falls within a navigation distance, performing a navigation function of the object. 28. The interactive method of claim 26, wherein the navigation function comprises a toll collection service. twenty three