TW201233098A - Remote information communication system and linking method thereof - Google Patents

Abstract

A remote information communication system and its linking method are disclosed. The remote information communication system comprises an administration server, at least one linking server and at least one remote device. The linking method comprises the steps of authenticating the remote device and the linking server through the administration server; allowing a proximal device to firstly request the administration server of the linking target of an assigned remote device; the administration server responding an address of the linking server for establishing a link with the assigned remote device. The proximal device links with the linking server based upon the address replied from the administration server, and the assigned remote device can be found out via the linking server. With the support of the linking server, a link between the proximal device and the remote device can be established.

Description

201233098 VI. Description of the Invention: [Technical Field of the Invention] A remote message communication system and a connection method thereof, in particular, using a management server to direct at least one remote device, a connection server, and a near-end device connection target System and connection method. [Prior Art] Due to the rapid development of network technology, many electronic products can be connected to the Internet and have remote monitoring, online updates, or online services provided by other businesses. For example, US Patent No. 6,373,851, The previous case discloses a technique for controlling an electronic device using an Ethernet network. A communication system is disclosed that includes a first communication medium, an ethernet polling server, and a plurality of ethernet client stations. Wherein the Ethernet network feeder comprises a transmitter connected to the first transmission medium, the transmitter transmitting a signal bidirectionally with the first transmission medium. And the plurality of Ethernet device terminals are connected to each other, and each of the Ethernet device devices has a transmitter, the transmitter includes a second transmission medium, and the second transmission medium is only in the Ethernet server. A signal is transmitted to the first transmission medium when requested; but the second transmission medium can receive the signal from the first transmission medium at any time. The US 6,373, 851 patent is based on traffic control equipment and is limited by the minimum minimun rate of the Ethernet and the recommended maximun recommended distance. Therefore, the foregoing proposal proposes the foregoing design to provide a larger transmission range and avoid collision and collision of device-side transmissions. The connection between the near-end device and the device end through the Internet is a commonly used technology. If the home appliance product is to be promoted, the home appliance product needs to be routed to cause complicated wiring and increase construction troubles. Therefore, another technology that uses the power network as a communication network, such as the US Patent No. US2005/0047379, discloses a technology for transmitting audio and video content using the broadband wireless/201233098 power line communication system. C〇ntent server) After receiving the video and audio message, 'converted to plc compatible signal, where PLC stands for Power-line communication. And the former case provides a power transmission/broadband wireless transmission module (PLC/UWB module), and establishes a data connection with the signal transceiver of an electrical device through the power transmission/broadband radio. Therefore, the electrical device can receive network information and be remotely monitored, and transmitted through the power line without the need to route the network cable. Also using the power line to provide transmission technology includes the prior art patent No. US 2004/0186908, which discloses a power plug including an AC power line, a network data line, and a power line network adapter. In another embodiment of the prior invention, the power plug includes an AC-DC conversion component in addition to the AC power line, the network data line, and the power line network adapter. This type of power line transmission technology is applied to the prior art of the security surveillance system, such as the "Receiving System and Camera Control Method" of the People's Republic of China Authorized Notice No. CN 100389602. The front case discloses that a camera module is connected to a power line communication camera adapting module, and the power line communication camera adapting module receives the audio/video information recorded by the camera module, and modulates the audio/video information and inputs the power line. transmission. At the same time, the modulation signal transmitted by the power line is demodulated to obtain a control signal. The camera module is controlled by the control signal. The power line communication camera adaptation module includes an image signal processing unit, a digital multimedia information compression processing unit, an Ethernet adapter unit, and a first power line pass modulation and demodulation unit. The image signal processing unit and the digital multimedia information compression processing unit compress or convert the image signal format output by the camera module. The Ethernet adapting unit is further converted into an Ethernet signal, and the first power line communication modem unit loads the Ethernet signal onto the power carrier for transmission. With the foregoing structure, the video signal of the camera module can be transmitted to the monitoring terminal through the power line. The electrical device can solve the problem of troubles in the route of the network through the power line, so that the household 201233098 various tfl devices or security alarm devices can directly pass the power n wire to have the following questions when implementing the remote touch control. Some electrical equipment distributes an IP (possibly fixed Ip or floating ιρ) through a router, and then needs to build-ship n to accept the exchange between the terminal and the monitoring terminal (the controller). The problem with the knowledge of the rope is that the monitoring terminal needs to remember the Domain name or IP address of the electrical device or the server to connect, except for the memory address, which causes the user to trouble. When the server needs to expand the number or change the address, all the domain name or IP address needs to be updated by the user, which is very troublesome and causes troubles when the system is expanded. Furthermore, because the electrical equipment or the server 1) 〇〇^1111^1^ or the IP address are all disclosed, they are easily subject to hacking or destruction of the hacker, and the security is insufficient. SUMMARY OF THE INVENTION In order to improve the lack of scalability and security of the conventional connection method, the purpose of the present invention is to propose an improved connection and monitoring system, and to make the system expandable and enhanced. The present invention is a remote message communication system and a connection method thereof, wherein the connection method comprises the following steps: A. at least one remote device provides at least one connection supporting the remote device by requesting a management server through the Internet. The address of the line server; B. The remote device logs the information of the remote device to the connection server according to the address provided by the management server; C. A near-end device communicates to the management through the Internet The server proposes to find the designated remote device; D. The management server responds to the near-end device by the address of the connection server to which the specified remote device is logged; E. the near-end device Responding to the connection server to make a request to disconnect the specified remote device connection; F. The connection server establishes the near-end device and the designated remote end according to the request of the near-end device The connection of the device. The foregoing method can be implemented by the remote message communication system proposed in the present application. The remote message communication system includes: a management server, at least one connection server, at least one remote device, and the monitoring system is acceptable. One or more near-end devices are connected. The 201233098 management feeding device stores a server list and a device list, and the connection server registers with the management server to log in the server list, and the remote device requests the management server. When requesting to connect to the server address, it is also logged in the device list, so that the management server stores information about all the connection servers and remote devices in the remote monitoring device. Moreover, the management server responds to the request of the remote device and responds to the address of one of the connected servers, so that the remote device logs the information of the remote device according to the address that is responded to one of the connections. In the server. And a near-end device requests the management server to find the designated remote device, and the management server responds to the connection server that is logged in by the designated remote device, so that the near-end device passes the management. The connection server provided by the server establishes a connection with the designated remote device. In a specific implementation manner, the management server includes at least one management server, the number of the management servers can be expanded according to requirements, and the management server stores a servo that memorizes one or more connection servers. List of 'and a list of devices that memorize one or more remote devices. The connection server includes at least one connection server. The number of the connection server and the remote device can also be continuously expanded. The number of the connection server and the connection server connection information can be updated by updating the device list and server of the management server. Add a supported device to the list. The server list may include a connection server operated by a plurality of connection server different service providers, and the management server may assign the remote device to log in according to a different service provider supporting the remote device. Different connection servers. The management server may also assign the remote device to log in to a different connection server according to the product type of the remote device or the geographical location of the remote device. The near device has an application interface program (Application Programming) Interface, API) for the user to make a request to find any remote device. After the near-end device finds the connection server registered by the designated remote device through the management server, the near-end device requests the connection server to connect with the designated remote device, and the connection server Performing a hole punching technique on both the near-end device and the designated remote device, attempting to establish 201233098 between the near-end device and the designated remote device,

Point-to-point connection of I If the connection server does not complete the hole punching procedure for both, the data packet of the near-end device and the designated remote device is mutually forwarded through the connection server. The remote device described above can be a security alarm device or an electrical device. The remote device re-registers the information of the remote device with the connection server assigned by the management server after a period of time, so that the connection server frequently updates the latest state of the remote device. When the remote device changes, or the connection server to which the remote device is logged changes, the remote device may request the management server to provide at least one wired feed supporting the remote device. The address of the server, and the remote device logs the information to the provided connection server again. Through the foregoing technology, the remote device and the connection server do not need to directly expose their IP address or domain. Name to reduce the risk of being invaded by hackers. Similarly, the near-end device does not need to have a fixed IP address, and does not need to memorize a fixed IP address or a domain name. The management server can be used to query the connection server to which the specific remote device belongs. Therefore, the near-end device only needs to have an Application Programming Interface (API) supported by the management server to request the management server to query the connection address. Moreover, the system allows the number, specifications, and categories of the remote device and the connection server to be expanded and changed according to requirements, and only needs to update the word processor list and the device list by logging in to the management server. The manufacturer of the connection server or remote device can be changed depending on the load of the device. [Embodiment] The present invention is a remote message communication system and a connection method thereof. The following describes the technology of the present invention in conjunction with each drawing. First, 'this case defines a remote communication system including at least one remote device, a management server, and at least one connection server' and the remote communication system accepts a request from at least one near-end device to make the near-end A method for establishing a connection between the device and the remote device, and a method for connecting the remote communication system, the method includes the following steps: A. at least one remote 201233098 device provides at least one support through a network requesting a management server The address of the connection server of the remote device; B. the remote device logs the information of the remote device according to the address provided by the management server to the connection server; C· a near-end device Sending a request to the management server to find the designated remote device through the Internet; D. the management server responds to the near-end device by the address of the connection server to which the specified remote device is logged; The near-end device submits a request to the connection server to connect to the designated remote device according to the responded address; F. the connection server establishes the near-end according to the request of the near-end device Preparation of the designated remote device connection. The technical focus of the method is that the connection server and the remote device do not need to directly disclose their IP address or Domain name, and all the near-end devices can only request the management server to find the designated remote device first. The address of the connection server provided by the management server is then requested by the near-end device to establish a connection. This reduces the risk of connecting the server and the remote device to the intrusion of the hacker. From the perspective of the near-end device, the near-end device does not need to have a fixed IP, nor does it need to memorize a fixed IP address or Domain name, which can save a lot of technical problems of connection settings for users of the near-end device. . In order to more specifically describe the foregoing method, the present disclosure further discloses a remote message communication system for implementing the method, the remote message communication system comprising at least a ___ management feeding device, at least one connection server, and at least one Remote device. Please refer to FIG. 1. FIG. 1 discloses the architecture of the remote communication system. In Fig. 1, it can be seen that two management feeders 11, 12 form a management server group 1 for mutual backup. The management server u, 12 stores a device list and a server list, and the device list stores information of a plurality of remote devices that are allowed to log in. The server list stores information about the multiple connection servers. In the specific implementation of the sample towel, the list of 彳 ^ ^ 可能 可能 可能 可能 可能 可能 可能 可能 可能 ^ ^ 可能 可能 可能 可能 可能 列表 列表 列表 列表 列表 列表 列表 列表 列表 列表 列表 列表 列表 列表 列表 列表 列表 列表 列表 列表 列表 列表 列表 列表 列表 列表 列表 列表The location is not _ connected to the feeding device. Further, there is a corresponding _ between the device list and the ship-made list, which is detailed later. In Fig. 8 201233098, it can be seen that the remote communication system further has a connection feeding device 201 and a connection server 211. In this embodiment, the connection feeding device 201 and the connection servo are provided. The device 202 can be operated by a distinct service provider. In addition, it can be seen that the connection server 2〇1 can form a connection server group A 20 with another connection server 202 for mutual backup; similarly, the connection server 211 and the other A connection server 212 constitutes a connection server group b 21 for mutual backup. In order to facilitate the description of the technology of the present case, the following connection objects will directly belong to the management server group 1 and the connection server group A 20, and the connection server group b 21 represents the server to which it belongs. The message communication system further includes a remote device A 31, a remote device B 32, and a remote device C 33. As described above, the device list has information of a plurality of remote devices, and the remote devices A~C 31, 32, and 33 each have their unique serial number (Unique ID), and the remote devices A to C 31 The service provider's messages of 32, 33 are pre-stored in the device list stored in the management server group 1. In the connection server group A 20, the connection server group Β 21, and the remote device a 31, a remote device B 32, a remote device c 33, just connected to the Internet, the connection server group a 20, the wired feeder group β 21 transmits a server login information 92 to the management server group 1 through the Internet to log in its address and configuration information (model, connection status, etc.). The management server group 1 verifies whether the connection server group A 2〇 and the connection server group β 21 are legitimate devices that have been pre-stored in the server_list, and if the connection server is replied to the connection server Group A 20 and the connection server group β 21 have been successfully registered. In order to find a server that can be supported, the remote device a 31 to the remote C 33 respectively send a server query information 91 to the management server group 1 through the Internet, and the management server group 1 verifies. After the remote device A 31 to the remote device c 33 are pre-stored in the device list, the remote device A 31 to the remote device c 33 respectively reply to the connected target. In a specific implementation manner, the connection server group A 2〇 and the connection server group B 21 can be operated by different service providers respectively, therefore, the management server group 1 will The remote device A 31 assigns a connection to the connection server group A 20 that is serviced by the service provider supporting the remote device 2012 31 201233098. Similarly, based on the service provider, the remote device B 32 and the remote device C 33 are assigned by the management server group 1 to the service provider supporting the remote device B 32 and the remote device C 33. The connected server group B 21 that is operated. However, the remote messaging system also includes different implementations. The management server group 1 may also assign the remote device separately because the remote device A 31 to the remote device C 33 are different product types. A 31 to remote device C 33 log in to connection server group A 20 or connection server group B 20. Another different implementation manner is that the management server group i can also be assigned to connect to the closer connection server group A 20 according to the geographical location of the remote device A 31 to the remote device C 33 itself. Connect to server group B 20. Referring to FIG. 2, based on the connection address that the management server group 1 responds, the remote device A 31 is connected to the connection server group A 20 and logs the information of the remote device a 31 to the Connect to server group A 20. Similarly, according to the connection address that the management server group 1 responds, the remote device B 32 and the remote device C 33 are connected to the connection server group B 21 ' and log in its own information to the connection. In the line feeder group b 21, the connection server group A 20 knows the network address of the remote device A 31; the connection server group b 21 knows the remote end The network address of device B 32 and remote device C 33. Referring to FIG. 3, the remote communication system can accept one or more near-end devices 4 to connect. The near-end device 4 needs to have an application interface program supporting the connection with the management server group 1. Programming Interface (API), the near-end device 4 can select a designated remote device through the application interface program. It is assumed that the near-end device 4 is connected to the remote device A 31 through the application interface program, and the near-end device 4 sends a connection query information 94 to the management server group 1 through the application interface program to query the management server. What is the connection server group that can be connected to the remote device A 31? The management server group 1 provides the location of the connection server group A 20 to which the designated remote device (the remote device A 31) is registered. Therefore, the application interface program of the near-end device 4 is further connected to the connection server group A 2〇 according to the address of the management server group 1, and the 201233098 near-end device 4 issues the desired remote device. A connection to A 31 requests information 95. Referring to FIG. 5, the connection server group A 20 preferentially uses a hole punching technique to transmit a dozen holes connection messages 960 and 961 to the near-end device 4 and the remote device A 31, respectively. Having the near-end device 4 establish a point-to-point transmission connection 97 with the designated remote device A 31, the near-end device 4 can obtain information of the remote device A 31 through the point-to-point transmission technology, or the remote device A 31 controls. The aforementioned hole punching technology can be referred to the Patent No. 200935808 of the Republic of China, or the patent of the Republic of China Patent No. M382669. Since the hole punching technique is not the technical feature claimed in the present case, the technical content of the wood is further described. . Alternatively, as shown in FIG. 6, if the connection server group A 20 does not complete the hole punching procedure for both, the near-end device 4 and the designated one are mutually forwarded through the connection server group a 20 The data packet of the remote device a 31. Since the near-end device 4 needs to obtain the connection address of the connection server group A 20 and the connection server group b 21 through the management server group 1, the connection server group A 20 The address and mechanical specification change of the connection server group B 21 does not prevent the near-end device 4 from inquiring about the connection object. Based on this feature, the architecture (quantity, specification, category, etc.) of the connection server group b 21 can be changed according to the needs of the market. For example, when the number of online products of a certain type of product increases, the support for such products can be increased. The number of connected servers to match the device load. When you add a connection server group or change the connection information of the connection server group (such as IP address change) or change the number of machines in the connection server group, you only need to update the server W table. And the connection feeding group ^ group is again sent to the management server group '1 to send the server registration information 92 to log in#. Similarly, when the number and type of remote devices change, or when the number of connected server groups registered by the remote device changes, the same list is updated, and the device is again provided to the connected device. The group asks for the connection server group information for the connection. Referring to FIG. 7 ® 7 as an embodiment of the extension of the remote communication system, the embodiment adds a remote device D 34, such as estimating the secrets, and even if the number 1 or the address changes, The number of supported remote devices (or specifications) can be increased by updating the device list of the management server group 1 of 201233098. The remote device A 31 to the remote device D 34 can re-inquire the connectable connection server group by the management server group 1 through the process of transmitting the feeding device inquiry information 91. Similarly, in FIG. 7, it can be seen that the connection server group β 21 adds a connection server 213, and a new connection server group composed of connection servers 221, 222, and 223 is added. c 22. Similarly, the number of connection servers entering the remote messaging system is amplified by updating the server list of the management server group. Therefore, the remote communication system allows the number, specifications, and categories of the remote device and the connection server group to be expanded and changed according to requirements, and only needs to update the server list, the device list, and again to the management word processor. Group 1 login can 'make the connection server group or the manufacturer of the remote device change depending on the device load. The remote messaging system allows multiple wired feeders to accept the same remote device login 'see Figure 8'. Figure 8 reveals that the remote messaging system includes connected feeder groups A, D, Ε 20, 23, 24, the connection feeder group D 23 is composed of a connection server 23 232, and the connection server group E 24 is composed of a connection server 24 242. After the remote device A 31 queries the management server group 2 by issuing the server query information 91, the management server group 1 replies to the remote device A 31 and the connection server groups A and D. , E 20, 23, 24 to log in. Through this feature, the different connected word server groups A, D, E 20, 23, 24 can jointly support the remote device A 31 〇 assume that the wired feeder group A 20 is faulty or other reasons are offline. The remote device A 31 can still log in to one of the connection server group D 23 or the connection server group e 24 . It is also assumed that the remote device A 31 is a mobile device, and the remote device A 31 can be connected to any of the connected server groups whose physical distance is closest through the allocation of the management server group 1. The correspondence between the multiple remote devices and the connection server group is shown in Table 1: 12 201233098 One-line server code Remote device serial number Note Service provider SerOl, D01, D02, D03, D04, SerOl: Shanghai A Ser02 , D05 Ser02 : Tokyo Ser03 Ser03 : Los Angeles Ser04 , D06 , D07 , D08 , D09 Ser04 : New York Ser05 Ser05 : Berlin Service Provider Serll : Dll , D12 , D13 , D14 Serll : Paris B Seri2 : Serl2 : Cairo Table 1·· The correspondence table between the plurality of remote devices and the connection server group is shown in Table 1. The server list of the foregoing management server can store the connection server SerO1 operated by the service provider A~ Ser05, and the service feeder Serll~Serl2 operated by service provider B. The connection server SerOl~Ser03 is assigned to the remote device D01~D05 to log in. Where d〇1~D05 are the serial numbers of the remote devices, as described previously, each remote device has its unique serial number. Used to authenticate and identify the identity of the remote device by the management server or the connection server. The connection servers Ser〇i~ser〇3 receive a request from the near-end device to establish a connection with the remote devices D〇1~])05. Since the connection servers SerOl~Ser03 can perform the same function, the connection servers Ser〇1~Ser〇3 can be mutually redundant, and the connection servers SerOl~Ser03 can be respectively set in different positions. For example, the connection servers SerOl~Ser03 are located in Shanghai, Tokyo, and Los Angeles, respectively, and the remote devices D01 to D05 can be registered in a connection server that is closer to the geographic location. The same 'remote devices D04 to D05 accept remote devices D06 to D09 to log in. The connection server Serll~Serl2 operated by the service provider B accepts the login of the remote devices D11 to D14. Therefore, for the management server, as long as the remote device D〇1 goes online to query the connection feeder, the management server can simultaneously provide the location of the connection server Ser〇i~Ser05 to the remote 13 201233098 Allow the remote sigh to add 1 to find the normal operation of the connection server. Therefore, the plurality of connection server groups in the remote communication system can be mutually supported, and the plurality of connection devices can be mutually supported by the connection server group. The multiple backup architecture makes the remote messaging system very stable and does not affect operation due to a few mechanical failures. Please refer to Figure 9 'The operation between the aforementioned connected ship and the management ship as the circle 9 is not 'first' when one or more connected WEIs are online (step measurement) or one or more When the IP4PQrt of the coupling suit H is changed (step s (8), the connection server needs to pass through the network _ road without county silk, and the money 丨 登录 login information to the management feeding device (step S03). Management feeding device Verify that the contents of the game hiding information are legal in the server list (step s〇4). If the verification is successful, the representative feeder 4 is a legal ship of the ship list, based on The ship registration information update server list (step SG5) 'and the management ship n replies with the login success message (step S06) 'The connection server receives the reply message (step 7), and in order to ensure the management server month b The latest status of the connection server group is stored. After a predetermined time (step § 〇 9), the step SG3 will be repeatedly executed to re-send the key record information. If the server login information is failed in the step, On behalf of the connection server is not in the server list, not in line The connection server of the method also responds to the login failure message (step s8), and the connection server receives the reply message (step S07). Next, the circle 10 can see that the remote device is connected to the management server. The process of replying to the connection server. First, the remote device sends a message asking the server address (step sii) 'The management server verifies whether the message sent by the remote device is valid (step S12), if the verification succeeds Then, the management server replies to the address of the connection server to the remote device (step S13); if the verification fails, the management server replies with a rejection request message to the remote device (step S14). The remote device needs to be connected to the connection server replied by the management server. The remote device sends the login message of the remote device (step S15), and the server group receives the login message (201233098). Step S16), the connection server then replies with a response "· message to the remote device (step S17). Therefore, the connection server can know the IP address of the remote device to contact the remote device. Necessary equipment In order to ensure that the connection server can find the remote device, after every predetermined time (which can be preset every 10 minutes), the remote device needs to return to step SI 1 to re-send its own information message (steps). S18), the connection server can obtain the update status of the remote device from time to time. In addition, the remote device can re-interrogate the management server every time (for example, every 24 hours can be preset) (step S19). ), so that the management server provides the latest connection server address and information. Finally, the process of the near-end device requesting connection with the remote device can be seen in Figure 11, the user through the application device of the near-end device. (API) designating a remote device, the near-end device submits a request for searching for the designated remote device to the management server through the application interface program (API) (step S21), the management server responds to the remote device login. The address of the connection server is given to the near-end device (step S22). Then the near-end device can obtain the connection with the connection server to find the designated remote device. Then, the near-end device requests the connection server to connect to the remote device (step S23), and the connection server preferentially selects a hole punching process for the near-end device and the remote device (step S24), if If successful, the near-end device and the remote device may perform point-to-point transmission (step S25); if it fails, the data packet of the near-end device and the remote device is forwarded through the connection server (step S26). Through the foregoing technology, the remote device and the connection server do not need to directly expose their IP address or Domain name to reduce the risk of being invaded by the hacker. Similarly, the near-end device does not need to have a fixed IP address, and does not need to memorize a fixed IP address or a domain name. The management server can be used to query the connection server to which the specific remote device belongs. Therefore, the near-end device only needs to have the Application Programming Interface (API) supported by the management server to request the management server to query the connection address' and the user only needs to select one of the remote devices. The program that communicates with the management server and the connection server can be automatically processed by the application interface program to greatly simplify the user's operation complexity. In addition, the number, specifications, and categories of the remote device that allows the remote device to be connected to the ship are expanded and changed according to requirements. It is only necessary to log in to the management ship to update the ship's watch and set the watch. Manufacturers of Linkage (4) or remote equipment can rely on equipment load. The aforementioned remote device may be a security alarm system, such as a surveillance photographic equipment, an anti-theft device, a smoke fire alarm, etc., or may be an electrical device such as a refrigerator 4. Furthermore, the near-end design has the function of video and audio broadcasting Z, such as a mobile phone with video and audio playback function, a computer, a personal digital assistant (PDA), and the like. Although the present invention has been disclosed above in the preferred embodiment, it is not intended to limit the present invention. Anyone who is familiar with this skill and does not deviate from the spirit and scope of the case, and some of the changes and refinements made by the artist should be covered in this case. Therefore, the scope of protection of this case is subject to the definition of the patent application scope attached. . In summary, this case is more effective than the customary creation to enhance the above-mentioned effects, should be fully in line with the novelty and progressive statutory innovation patent requirements 'Heng application, please ask your office to approve the invention patent application, to encourage creation, to the sense Debian. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic view showing the state of a first embodiment (1). Fig. 2 is a schematic view showing the state of the first embodiment (2). Fig. 3 is a schematic view showing the state of the first embodiment (3). Fig. 4 is a state in which the first embodiment is not intended (4). Fig. 5 is a schematic view showing the state of the first embodiment (5). Fig. 6 is a schematic view showing the state of the first embodiment (6). Circle 7 is a schematic diagram of the state of the first embodiment (7). FIG. 8 is a schematic diagram of a plurality of connection server groups for a remote device to log in. Figure 9 is a flow chart of the connection between the connection server and the management server. Figure 流程图 shows the connection flowchart between the remote device and the connection server. 201233098 Figure 11 is a flow chart of the connection between the near-end device request and the remote device. [Main component symbol description] 1 ... Manage server group 11, 12, 13 · · Management server

20 ......Connected server group A 201, 202 . . · Wired server

21 ......Connection server group B 2U, 212, 213 ... connection server 22 ·..... connection server group C 221, 222, 223 . server

23 ......Connection server group D 231, 232 · ·. Connection server

24 ......Connection server group E 241, 242 ... connection server

31 ... remote device A

32 ... remote device B

33 ..... remote device C

34 ... remote device D 4 ... near-end device 91 ... server query information 92 ... server login information 93 ..... Remote device information 94 ... connection information query information 95 ... connection request information 960, 961 ... hole video message 4 97 ... point to point Transmission lines 98, 99 ... forwarding data packets S01 ~ S09 ... steps S11 ~ S19 ... steps S21 ~ S26 ... step 17

Claims (1)

201233098 VII. Patent application scope: 1. A method for connecting a remote message communication system, the method comprising the following steps: A. at least one remote device requests an administrative server to provide at least one support for the remote end through an internet service The address of the connection server of the device; B. the remote device logs the information of the remote device to the connection server according to the address provided by the management server; C. a near-end device through the Internet The route requests the management server to find the designated remote device, D. The management server responds to the near-end device with the address of the connection server to which the specified remote device is logged; E. the near-end The device submits a request to the connection server to connect to the designated remote device according to the address that is responded; F. the connection server establishes the near-end device according to the request of the near-end device and the specified remote device The connection of the end device. 2. The method for connecting a remote message communication system according to claim 1, wherein the plurality of management servers can form a management server group, and the plurality of management servers in the same management server group are mutually Backup, and the management servers store a list of servers that memorize one or more connection servers, and a list of devices that memorize one or more remote devices. 3. The method of connecting a remote message communication system according to claim 2, wherein the management server provides a different address for the remote device according to a different service provider supporting the remote device. The device logs in to a different connection server. 4. The method for connecting a remote message communication system according to claim 2, wherein the management server provides a different address for the remote device to log in according to the product type of the different remote device. Different connection servers. 5. The method for connecting a remote message communication system according to claim 2, wherein the management server provides a different address according to the geographical location of the remote device for the remote device to set 201233098 Log in to a different connection server. 6. The connection method of the remote message communication system described in claim 1 wherein the plurality of connection servers can form a connection server group, and the plurality of connection server groups in the same connection The connection servers are mutually redundant. 7. The method for connecting a remote message communication system according to claim 2, wherein the management server updates the server list and the device list content to add or change the connection server, far 8. The method of connecting a remote message communication system according to claim 1, wherein the near-end device has an Application Programming Interface for the user to propose to find any remote device. Request. 9. The method of connecting a remote message communication system according to claim 1, wherein the connection between the near-end device and the designated remote device is performed by the connection server. (Hole punching) causes the near-end device to perform point-to-point transmission with the designated remote device. 10. The remote message communication method according to claim 1, wherein the connection between the near-end device and the designated remote device is forwarded to each other through the connection server. The data packet of the end device and the designated remote device. 11. The method of connecting a remote message communication system according to claim 2, wherein the connection between the near device and the designated remote device is first connected to the near end by the connection server Performing a hole punching technique between the device and the designated remote device, if the connection server does not complete the hole punching procedure for the two, the data of the near device and the designated remote device are mutually forwarded through the connection server. Packet. 12. The method for connecting a remote message communication system according to claim 1, wherein the remote device re-registers with the connection server assigned by the management server to log in to the remote device after each period of time News. 13. The method of connecting a remote message communication system according to claim 1, wherein the remote device can again request the management server to provide at least one connection server supporting the remote device. The address is located, and the remote device logs in to its information again to the provided connection server. 14. The method of connecting a remote message communication system according to any one of claims 1-3, wherein the remote device is a security alert device. The method of connecting a remote message communication system according to any one of claims 1 to 13, wherein the remote device is an electrical device. The method of connecting a remote message communication system according to any one of claims 1 to 13, wherein the near-end device has a video playback function.远端. A remote message communication system, comprising: at least one management server, the management server stores a server list and a device list; at least one connection server, the connection server connects to the management server The line is logged in the server list; at least one remote device that requests a connection server address from the management server and is logged in the device list, the remote device according to the connection address of the management server response Logging in to the remote device information to one of the connection servers; wherein the management server accepts a request from the near end device to find the designated remote device and k connects to the connected server to which the designated remote device is logged in The near-end device establishes a connection with the designated remote device through the connection feeder provided by the management server. 18. The remote message communication system of claim π, wherein the plurality of management servers can form a management server group, and the plurality of management servers in the same management server group are mutually redundant, and The management servers store a list of servers that memorize one or more connection servers, and a list of devices that memorize one or more remote devices. 19. The remote message communication system according to claim π, wherein the plurality of connection servers can form a connection server group, and the plurality of connection servers in the same connection server group mutually Backup. 20. The remote message communication system described in claim 19, wherein the plurality of connection servers 20 201233098 are divided into a plurality of connection servers operated by different service providers β '21. The remote message communication system described in claim 19, wherein the plurality of connected ships are divided into support different products _ remote device scalar _ server. 22. The remote message communication system of claim 19, wherein the plurality of connected ships are sx placed in a plurality of connected servers in different geographical locations. 23. The remote messaging system of claim π, wherein the near-end device has an Application PrGgr_ing Interface for the user to request to locate the designated remote device. 24. The remote message communication system of claim 2, wherein the connection between the near-end device and the designated remote device is performed by the connection server (7) 〇le punching ) causing the near-end device to perform point-to-point transmission with the designated remote device. 25. The remote message communication system of claim 17, wherein the connection between the near-end device and the scale-designated remote device forwards the near-end device to the device through the connection feeder The data packet of the specified remote device. The remote message communication system according to any one of claims 17 to 25, wherein the remote device is a security alarm device. 27. The remote message communication system of any one of clauses 17 to 25, wherein the remote device is an electrical device. The remote message communication system according to any one of claims 17 to 25, wherein the near-end device is a device having a video playback function. twenty one