TW201031144A - Wireless network framework, wireless LAN access point, and communication method thereof - Google Patents

Abstract

A wireless network framework, a wireless LAN access point, and a communication method thereof are provided. The wireless network framework comprises a server and a plurality of wireless LAN access points having a same network identification. At least one of the wireless LAN access points is connected to the Internet and the rest wireless LAN access points search for the wireless LAN access point that is already connected to the Internet according to the network identification. Each of the wireless LAN access points stores the physical code of the wireless LAN points that it connects with. When an electrical equipment is connected to the Internet via the wireless LAN access points, the wireless LAN access point that is directly connected to the Internet stores a physical code of the electrical equipment and the server stores a route between the electrical equipment and the Internet. The server sends an information service to the electrical equipment via the route and generates a benefit of the information service.

Description

201031144 VI. Description of the Invention: [Technical Field of the Invention] The present invention relates to a wireless network architecture, a wireless network base station, and a communication method thereof. In more detail, the wireless network architecture, wireless network base a, ', alpha, and its communication method of the present invention provide multiple loss of communication services based on a connection path between an electronic device and the Internet. [Prior Art] With the advancement of technology, people's requirements for communication are getting higher and higher. In addition to the requirements for communication quality, the convenience of communication has also received more and more attention. Wireless communication has the advantages of no need for physical communication network wiring and high mobility. Therefore, in recent years, mobile products with wireless communication functions, such as mobile phones and notebook computers, have become more and more popular among consumers and become consumer electronic products. The mainstream in the market. Referring to Figure 1 below, it is a conventional wireless network architecture 1, S comprising, a server network 13, a wireless network base station 15 and an electronic device 17. The wireless "network base station 15 is connected to the Saki network 13 and provides an electronic device. - The connection service enables the electronic device 17 to be connected to the tank network through the wireless terminal station 15 at this time. The Internet 13 provides information services to electronic devices. Since the wireless network base station 15 and the electronic device η have limited signal transmission range, the range of activities of the electronic device 17 is limited. At the same time, the wire passes through another wireless network base. In order to expand the wireless network architecture1, it is necessary to (4) complex_manually set 'and thus increase the inconvenience of use. On the other hand, the wireless network architecture!, the _11 and the wireless network base station 15 are only known Directly connected devices do not know the other devices connected indirectly to 201031144, so the traditional wireless network architecture 1 can provide limited information services. In summary, how to extend the wireless network by adding wireless network base stations The road architecture expands the signal transmission range of the overall wireless network architecture to increase the convenience of electronic devices to access the Internet, and how to provide more diverse based on the connection relationship within the wireless network architecture. Service is a problem that needs to be solved by those in the field. SUMMARY OF THE INVENTION One object of the present invention is to provide a wireless network architecture including a first wireless network base station (Wireless LAN Access Point) a second wireless network base station and a server. The first wireless network base station is connected to an internet network and has a first entity identification code and a first network identification code. The second wireless network base station has a second entity identification code and a second network identification code identical to the first network identifier. The second wireless network base station automatically according to the second network identifier Searching for the first wireless network base station. After the second wireless network base station searches for the first wireless network base station, the first wireless network base station stores the second entity identification code, and The second wireless network base station stores the first entity identification code, and the second wireless network base station is connected to the first wireless network base station. Thereby, an electronic device transmits the second wireless network Base station and the first The wireless network base station is connected to the Internet. The first wireless network base station stores a physical identification code of the electronic device when the electronic device is connected to the Internet. The server is connected to the server. The Internet is used to store a connection path between the Internet and the electronic device, generate an information service, and transmit the information service to the electronic device through the connection path. 5 201031144 Another object of the present invention The invention provides a communication method for a wireless network architecture, the wireless network architecture comprising a first wireless network base station, a second wireless network base station and a server. The first wireless network base station And the server is respectively connected to an internet network. The first wireless network base station has a first entity identification code and a first network identification code; the second wireless network base station has a second entity Identification code and a second network identification code. The first network identification code is the same as the second network identification code. The method includes the following steps: (a) causing the second wireless network base station to automatically search for the first wireless network base station according to the second network identifier; (b) after the step (a), Having the second wireless network base station store the first entity identification code; (c) after the step (a), causing the first wireless network base station to store the second entity identification code; (d) After the step (a), establishing a connection between the second wireless network base station and the first wireless network base station, the first electronic device passing through the second wireless network base station and the first wireless network base Connecting the Internet to the Internet; (e) causing the first wireless network base station and the second wireless network base station to store an entity of the electronic device when the electronic device is connected to the Internet An identification code; (f) causing the server to store a connection path between the Internet and the electronic device; (g) causing the server to generate an information service; and (h) causing the server to pass the connection The path transmits the information service to the electronic device. It is still another object of the present invention to provide a wireless network base station suitable for use in a wireless network architecture. The wireless network architecture includes the wireless network base station and another wireless network base station, wherein the wireless network base station has the same network identification code as the other wireless network base station. The wireless network base station includes a communication module, a processing module and a storage module. The communication module is connected to an internetwork and is configured to receive a connection request from the other wireless network base station, the connection request entraining the network 201031144 identification code. The processing module is configured to receive the connection request, and the first electronic device is connected to the Internet through the other wireless network base station and the communication module. The storage module is configured to store a physical identification code of the other wireless network base station immediately after the processing module accepts the connection request, and store the electronic device when the electronic device is connected to the Internet. One of the devices is an entity identification code. In addition, the other wireless network base station stores the entity identification code of the wireless network base station after the processing module accepts the connection request, and stores the electronic device when the electronic device is connected to the Internet. The entity identification code of the electronic device. It is still another object of the present invention to provide a communication method for a wireless network base station. A wireless network architecture includes the wireless network base station and another wireless network base station, wherein the wireless network base station has the same network identification code as the other wireless network base station. The wireless network base station is connected to an internet network. The communication method comprises the steps of: (a) receiving a connection request from the other wireless network base station, the connection request entraining the network identification code; and (b) accepting the connection of the other wireless network base station a line request, the first electronic device is connected to the internet through the other wireless network base station and the non-φ network base station; (c) immediately after receiving the connection request, storing the other wireless a physical identification code of the network base station; and (d) storing the physical identification code of the electronic device when the electronic device is connected to the Internet. The another wireless network base station stores the physical identification code of the wireless network base station after the wireless network base station accepts the connection request, and when the electronic device is connected to the Internet And storing the entity identification code of the electronic device. In the wireless network architecture of the present invention, all wireless network base stations need to have the same network identification code, and the wireless network base station not connected to the Internet can automatically search through the network 7 201031144 identification code. Connect to the Internet's wireless network base station and connect with it. Each of the wireless network base stations has its own physical identification. Each wireless network base station stores the physical identification code of the wireless network base station connected to itself. All wireless network base stations provide an electronic device to connect to the Internet. When the electronic device is connected to the Internet through at least one wireless network base station in the wireless network architecture, the wireless network base directly connected to the Internet on the connection path stores the physical identification code of the electronic device. . On the other hand, the server also stores the connection path of the electronic device 'providing an information service according to the connection path between the electronic device and the Internet' to generate one of the benefits of the information service. The above described objects, technical features, and advantages of the present invention will become more apparent from the following description. [Embodiment] The present invention provides a wireless network architecture and a wireless network base station and communication method for the wireless network architecture. The present invention enables an electronic device to connect to the Internet through at least one wireless network base station. . Compared with the prior art, the wireless network base station directly connected to the Internet in the wireless network architecture provided by the present invention has sufficient wireless network base stations and electronic devices included in its downlink path. Understanding. In addition, a feeder in the wireless network architecture utilizes a connection path between the electronic device and the Internet to transmit an information service to the electronic device and generate an interest based on the connection path. Through the wireless network architecture of the present invention, the benefits of Internet information services can be reasonably distributed. The following examples are intended to illustrate the contents of the present invention, and are not intended to limit the scope of the present invention. In the following embodiments and drawings, elements not related to the present invention have been omitted 8 201031144, and are not shown, and The dimensional relationship between the components in the formula is only for easy understanding and is not intended to limit the actual ratio. 2A is a schematic diagram of a wireless network architecture 2 of a first embodiment of the present invention. The wireless network architecture 2 includes a server 21, an internet network 3, a first wireless network base station 23, a second wireless network base station 25, and a first electronic device 27. The first electronic device 27 is a personal computer, a pen-type computer, a mobile phone or other electronic product having a wireless internet protocol function. The first wireless network base station 23 φ has a first network identifier and a first entity identifier; the second wireless network base station 25 has a second network identifier and a second entity identifier; An electronic device 27 has a physical identifier "by the first network identifier and the second network identifier, and the other devices know that the first wireless network base station 23 and the second wireless network base station 25 are respectively associated with the wireless network. For example, the first network identifier may be an extended service set identifier (ESSID) of the first wireless network base station 23, and the second network identifier may be a second wireless network base. One of the stations 25 extends the service identification code. In the wireless network architecture 2, the first network identifier is the same as the second network identifier. In other words, the first wireless network base station 23 and the second wireless network base station 25 use the same protocol (protocol). ) 'Therefore, the two have the ability to connect to each other. The first entity identification code, the second entity identification code, and the entity identification code of the first electronic device 27 are respectively the first wireless network base station 23, the second wireless network base station 25, and the electronic device 27 in the Internet 13. Identification code. For example, the first entity identification code may be a network entity address (MAC address) of the first wireless network base station 23, and the second entity identification code may be a network entity bit of the second wireless network base station 25. Address, and electronic 9 201031144 The entity identification code of device 27 can be the network entity address of electronic device 27. In the wireless network architecture 2, the first wireless network base station 23 is connected to the Internet 13. The second wireless network base station 25 then performs an automatic search based on the second network identification code. Since the first wireless network base station 23 is located in the signal range of the second wireless network base station 25, and the first network identifier is the same as the second network identifier, the second wireless network base station 25 can search. Go to the first wireless network base station 23. After the second wireless network base station 25 automatically searches for the first wireless network base station 23, the second wireless network base station 25 stores the first entity identification code, and the first wireless network base station 23 stores the second entity identification code. And the second wireless network base station 25 is connected to the first wireless network base station 23. Since the second wireless network base station 25 is connected to the first wireless network base station 23 at this time, it can be seen that the second wireless network base station 25 can be connected to the Internet through the first wireless network base station 23. 13. If the first electronic device 27 is located in the signal range of the second wireless network base station 25, the first electronic device 27 searches for the second wireless network base station 25, and then passes through the second wireless network base station 25 and The first wireless network base station 23 is connected to the Internet 13. When the first electronic device 27 is connected to the Internet 13, the first wireless network base station 23 stores the physical identification code of the first electronic device 27. In the wireless network architecture 2, the server 21 is connected to the Internet 13. The server 21 stores a first connection path between the first electronic device 27 and the Internet 13. For example, the server 21 can store the first connection path including a downlink path (including paths 204, 206, 208) or / And an uplink path (including paths 210, 212, 214). In other implementations, the server 21 may store the first connection path in other manners, for example, storing the first connection path including the first wireless network base station 23 and the second wireless network 201031144 road base station 25. Thereafter, the server 21 transmits a first information service to the first electronic device 27 through its own path to the Internet 202 and the downstream path (paths 204, 206, 208) in the first path. For example, the first information service can be an advertisement information, a software service, and the like. After transmitting the first information service to the first electronic device 27, the server 21 can generate the benefit of the first information service, indicating that the first information service is provided to the first electronic device 27 through the wireless network architecture 2. Since the server 21_ stores the first connection path, the server 21 can further calculate the distribution benefit of one of the first wireless network base stations 23 in the first 连 connection path according to the benefit, and calculate the first connection path. One of the second wireless network base stations 25 distributes the benefits. For example, the server 21 can calculate the distribution benefit of the first wireless network base station 23 and the distribution benefit of the second wireless network base station 25 by the following calculation formula:

Pn=P丁χη%, where Ρτ represents the benefit generated by the server 21 after transmitting the first information service to the first electronic device 27, η represents the wireless network base station number, and η% represents the η wireless network ❹ road base The distribution ratio of Taiwan and Ρη represent the distribution benefits of the η wireless network base station. For example, the first information service is an advertisement information, and the benefit of the advertisement information is 10 yuan. Since the server 21 transmits the advertisement information to the electronic device 27 through the first wireless network base station 23 and the second wireless network base station 25 (that is, through the first connection path), the server 21 sets the first wireless. The allocation ratio of the network base station 23 is 30% and the distribution ratio of the second wireless network base station 25 is 70%. Therefore, the server 21 can calculate the distribution benefit 11 201031144 of the first wireless network base station 23 by 3 yuan according to the above formula, and calculate the distribution benefit of the second wireless network base station 25 to be 7 yuan. Furthermore, the word processor 2 can adjust the manner in which the distribution of benefits is calculated and the distribution ratio of each base station. The foregoing figures are for illustrative purposes only and are not intended to limit the scope of the invention. Referring to Figure 2B, a schematic diagram of one embodiment of the first wireless network base station 23 is depicted. The first wireless network base station 23 includes a communication module 231, a processing module 233, and a storage module 235. The detailed operation when the first wireless network base station 23 is connected to the second wireless network base station 25 will be further explained below. The first wireless network base station 23 is operated by the communication module 231 for various communication related ® operations. Specifically, the first wireless network base station 23 is connected to the Internet I by the communication module 231, and can receive the connection request of other wireless network base stations through the communication module 231. When the second wireless network base station 25 sends a connection request including the second network identifier, the first wireless network base station 23 receives the connection request by the communication module 231 according to a wireless network protocol. . In this embodiment, the wireless network communication protocol is a Wireless Distribution System (WDS) standard. In other implementations, the communication module 231 can adopt other wireless network communication protocols. After the processing module 233 accepts the connection request, the first wireless network base station 23 receives the first information service from the server 21 via the communication module 231 via the Internet interface 13, and transmits the first information service through the first wireless network base station 25. The first information service is transmitted to the electronic device 27. In addition, the first wireless network base station 23 stores the entity identification code of the second wireless network base station 25 and the entity identification code of the first electronic device 27 by the storage module 235. It should be noted that the 'the first wireless network base station 23 and the second wireless network base station Μ the wireless network base station have the same function of the wireless network base station in the present embodiment, the first and the first The location of the first wireless network base station 23 and the 12th 201031144 second wireless network base station 25 in the wireless network architecture 2 is distinguished. In other words, the same effect can be exerted when the position of the second wireless network base station 25 and the first wireless network base station 23 are reversed. In addition, the first wireless network base station 23 and the second wireless network base station 25 can also be connected to other wireless network base stations (not shown) or other electronic devices (not shown). The server 21 can also record the connection path between other electronic devices and the Internet 13 and transmit other information services to other electronic devices, and generate other service information benefits after transmitting other information services, and then calculate each wireless. The network base station distributes the benefits of each of the wireless network base stations in these connection paths. It can be seen from the above that in the wireless network architecture 2, the first wireless network base station 23 directly connected to the Internet can learn the wireless network base station included in the downlink path by storing the entity identification code (ie, 2. A wireless network base station 25) and an electronic device (ie, the first electronic device 27). The server 21 is a connection path between the storage electronic device (i.e., the first electronic device 27) and the Internet 13 (i.e., the first connection path). Through the wireless network architecture 2, the server 21 can provide a variety of different information services to the electronic device. It also records which wireless network base stations transmit information services to the electronic devices, and then transmits the benefits of the information service. Reasonable distribution. A second embodiment of the present invention is a communication method for a wireless network architecture, the flow chart of which is depicted in Figure 3. The method of the second embodiment is for establishing a wireless network architecture 2 as in the first embodiment, and then communicating using the wireless network architecture 2. First, in step 301, the second wireless network base station 25 automatically searches for the first wireless network base station 23^ according to the second network identification code, and then makes steps in steps 3〇2 and 303 respectively. The second wireless network base station 25 stores the physical identification code of the first wireless network base 13 201031144, and causes the first wireless network base station 23 to store the second entity identification code of the second wireless network base station 25. In step 304, a connection is established between the first wireless network base station 23 and the second wireless network base station 25, and then the first electronic device 27 is provided through the first wireless network base station 23 and the second wireless. The network base station 25 is connected to the Internet 13. It is assumed that the first electronic device 27 has been connected to the second wireless network base station 25, that is, the first electronic device 27 has been connected to the Internet through the first wireless network base station 23 and the second wireless network base station 25. Road 13. Next, in step 305, when the first wireless network base station 23 and the second wireless network base station 25 are connected to the Internet 13 at the first electronic device 27, the entity identification code of the first electronic device 27 is stored. . In step 3〇6, the server 21 is caused to store the first connection path between the Internet and the first electronic device 27. Next, in the second embodiment, in step 307, the server is caused to generate the first information service, and in step 308, the server is caused to transmit the first information service to the first electronic device 27 through the first connection path. Then, in step 309, the server 21 is caused to generate one of the benefits of the first information service, and according to the benefit of the first information service, calculate the distribution benefit of one of the first wireless network base stations 23 in the first connection path and One of the second wireless network base stations 25 distributes the benefits. In addition to the foregoing steps, the second embodiment can perform all of the operations and functions of the first embodiment. Those skilled in the art can directly understand how the second embodiment performs such operations and functions based on the above-described first embodiment, and therefore will not be described again. The third embodiment of the present invention is an extension of the wireless network architecture 2 of the first embodiment, as shown in FIG. The wireless network architecture 4 of the third embodiment includes the server 21, the Internet 13, the first wireless network base station 23, the second wireless network base station 25, and the first electronic unit as described in the first embodiment 201031144. The device 27 further includes a third wireless network base station 41 and a second electronic device 43. The second wireless network base station 41 has a third network identification code identical to the second network identification code and a third entity identification code. As described in the first embodiment, the third network identification code can extend the service identification code for one of the third wireless network base stations 41. The second entity identification code is the identification code of the third wireless network base station 41 in the Internet 13. For example, the third entity identification code may be the network entity bit of the third wireless network base station 41. site. Similarly, the second electronic device 43 has a physical identification code, which is also an identification code of the second electronic device 43 in the Internet 13, and may be a network entity address of the first electronic device 43. The second electronic device 43 is a personal computer, a notebook computer, a mobile phone or other electronic product having a wireless internet protocol function. In the wireless network architecture 4, the operation between the server 21, the Internet 13, the first wireless network base station 23, the second wireless network base station 25, and the first electronic device 27 is the same as that of the first embodiment. It goes without saying that 'the following description is different from the first embodiment. The third wireless network base station 41 performs automatic search based on the third network identification code. Since the second wireless network base station 25 is located in the signal range of the third wireless network base station 41, and the second network identifier is the same as the third network identifier, the third wireless network base station 41 can search. Go to the second wireless network base station 25. After the third wireless network base station 41 automatically searches for the second wireless network base station 25, the third wireless network base station 41 stores the second entity identification code. The first wireless network base station 25 stores the third entity identification code. 'And the third wireless network base station 41 is connected to the second wireless network base station 25». Since the third wireless network base station 41 is now connected to the second wireless network base 15 201031144, the station 25 is known. The third wireless network base station 41 can be connected to the Internet 13 through the second wireless network base station 25 and the first wireless network base station 23. If the second electronic device 43 is located in the signal range of the third wireless network base 41, the second electronic device 43 searches for the third wireless network base station 41, and then passes through the third wireless network base station 41, The second wireless network base station 25 and the first wireless network base station 23 are connected to the Internet 13. When the second electronic device 43 is connected to the Internet 13, the first wireless network base station 23 stores the physical identification code of the second electronic device 43. The server 21 also stores a second connection path between the second electronic device 43 and the Internet 13. For example, the server 21 can store the second connection path including the downlink path (including the paths 204, 206, 402, 404) or / and the uplink path (including paths 406, 408, 212, 214). In other implementations, the server 21 may store the second connection path in other manners. For example, the storage second connection path includes the first wireless network base station 23, the second wireless network base station 25, and the third wireless unit. Network base station 41. Thereafter, the feeder 21 transmits a second information service to the first electronic device 43 through its own path to the Internet 202 and the downstream path (paths 202, 204, 402, 404) in the second path. After transmitting the second information service to the second electronic device 43, the word processor 21 may generate one of the benefits of the second information service, indicating that the second information service is provided to the second electronic device 43 through the wireless network architecture 4. interest. Since the feeding device 21 f blocks the second connection path, the server 21 can further calculate the first wireless network base station 23 and the second wireless network base in the second connection path according to the tool The station 25 and the third wireless network base station 41 - allocate benefits. The specific calculation method is similar to that of the first embodiment, so it is not a rumor. 201031144 In addition to the foregoing functions and operations, the third embodiment can also perform all of the operations and functions of the first embodiment. Those skilled in the art can directly understand how the third embodiment is based on the above-described first embodiment to perform such operations and functions, and thus will not be described. A fourth embodiment of the present invention is a communication method for a wireless network architecture, a portion of which is depicted in Figure 5. The method of the fourth embodiment is for establishing a wireless network architecture 4 as in the third embodiment, and then communicating using the wireless network architecture 4. φ The fourth embodiment first performs steps 301 to 309 depicted in FIG. Next, in step 501, the third wireless network base station 41 is automatically searched for the second wireless network base station 25 according to the third network identification code. Then, in step 502 and step 503, 'Do not let the second wireless network base station 41 store the second entity identification code of the second wireless network base station 25, and cause the second wireless network base station 25 to store the third entity. The third entity identification code of the wireless network base station 41. In the embodiment, in step 5〇4, a connection is established between the third wireless network base station 41 and the second wireless network base station 25, so that the second electronic device 43 can be provided through the third wireless network base station. 41. The second wireless network base station 25 and the first wireless network base station 23 are connected to the Internet 13. It is assumed that the second electronic device 43 is connected to the third wireless network base station 41, that is, the second electronic device 43 has passed through the first wireless network base station 23, the second wireless network base station 25, and the third wireless network. The road base station 41 is connected to the Internet 13. Next, in step 505, the first wireless network base station 23, the second wireless network base station μ, and the third wireless network base station 41 are connected to the Internet when the second electronic device 43 is connected to the Internet 13 The entity identification code of the second electronic device 25. In step 5-6, the server 21 is caused to store the second connection path between the Internet port 3 and the second electronic device 43. 17 201031144 In this embodiment, step 507 is executed to enable the server 21 to generate a second information service, and then step 508 is executed to enable the server 21 to transmit the second information service to the first electronic device 43 through the second connection path. Then, in step 509, the server 21 is configured to generate the benefit of the second advertisement information after transmitting the first information service to the second electronic device 43, and calculate the second connection path according to the benefit of the second advertisement information. One of the first wireless network base stations 23 distributes the benefits, one of the second wireless network base stations 25 distributes the benefits, and the third wireless network base station 41 is assigned. In addition to the foregoing steps, the embodiment can also perform all of the operations and functions of the third embodiment. Those skilled in the art can directly understand how the fourth embodiment is based on the above-described third embodiment to perform such operations and functions, and therefore will not be described again. The wireless network base station directly connected to the Internet in the wireless network architecture of the present invention can learn the wireless network base stations and electronic devices included in the downlink path by storing the entity identification code. In addition, the server stores the connection path between the electronic device and the Internet, whereby the information service can be transmitted to the electronic device and the benefit of transmitting the information service is generated. The server then distributes the benefits to the wireless network base station on the connection path. Accordingly, the present invention can automatically search for and establish a connection between wireless network base stations when a wireless network base station is added to expand the wireless network architecture, without cumbersome manual setting. In addition, the wireless network base station directly connected to the Internet can still know the wireless network base stations and electronic devices included in the downlink path, and can obtain the wireless network participating in the transmission of information services fairly and reasonably. The base station should be assigned the benefits. Compared with the conventional wireless network architecture, a single wireless network base station is used to connect the electronic device to the Internet, and the present invention obviously expands the signal transmission range of the wireless network architecture and provides diversified and convenient services. . The above-described embodiments are only intended to illustrate the embodiments of the present invention, and to explain the technical features of the present invention 201031144, and are not intended to limit the scope of protection of the present invention. Any changes or equivalents that can be easily made by those skilled in the art are within the scope of the invention. The scope of the invention should be determined by the scope of the claims. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic diagram depicting a wireless network architecture of a prior art; FIG. 2A is a schematic diagram depicting a wireless network architecture of the first embodiment; FIG. 2B is a diagram depicting a first embodiment A schematic diagram of a wireless network base station; FIG. 3 is a flow chart depicting a communication method of the second embodiment; FIG. 4 is a schematic diagram showing a wireless network architecture of the third embodiment; and FIG. Flowchart of the communication method of the embodiment. [Main component symbol description] 1 : Traditional wireless network architecture 11 : Server 13 : Internet 15 : Wireless network base station 17 : Electronic device 2 : Wireless network architecture 21 : Server 23 : First wireless network Base station 25: second wireless network base station 27: first electronic device 202: path 204: path 206: path 208: path 210: path 212: path 214: path 216: path 231: communication module 233: storage mode Group 235: Processing Module 4: Wireless Network Architecture 19 201031144 41: Third Wireless Network Base Station 43: Second Electronic Device 402: Path 404: Path 408: Path 406: Path

Claims (1)

201031144 VII. Patent application scope: 1. A wireless network architecture, comprising: a first wireless network access point (Wireless LAN Access Point) connected to an internet network, having a first entity identification code and a first network a second wireless network base station having a second entity identification code and a second network identification code identical to the first network identifier for using the second network identifier Automatically searching for the first wireless network base station, and after searching for the first wireless network base station, 'storing the first entity identification code and connecting to the first wireless network base station, An electronic device is connected to the Internet through the second wireless network base station and the first wireless network base station; and a feeder is connected to the Internet for storing the Internet and a first connection path between the first electronic device, the first information service, and the first information service to the first electronic device through the first connection path; The first wireless network base station automatically stores the second wireless network base station after the second wireless network base station automatically searches for the first wireless network base station, and the first wireless network base station When the first electronic device is connected to the Internet, one of the first electronic devices is stored for identification. The wireless network architecture of claim 1, wherein the first network identification code is one of the first wireless network base station extension service identifier (1) Service Set Identification; ESSH)) and the second network The road identification stone system extends the service identification code for one of the second wireless network base stations. The wireless network architecture of claim 1, wherein the first entity identification code is a network address (MAC address) of the first wireless network base station, the second The entity identification code is a network entity address of the second wireless network base station, and the entity identification code of the first electronic device is a network entity address of the first electronic device. 4. The wireless network architecture of claim 1, wherein the server is further configured to transmit the first information service to the first electronic device to generate one of the benefits of the first information service. 5. The wireless network architecture of claim 4, wherein the server is further configured to calculate, according to the benefit, an allocation benefit of the first wireless network base station in the first connection path, and the first One of the second wireless network base stations in a connection path distributes the benefits. 6. The wireless network architecture of claim 1, wherein the first information service is an advertisement information. 7. The wireless network architecture of claim 1, further comprising: a third wireless network base station having a third entity identification code and a third network identification identical to the second network identification code And the code is used to automatically search for the second wireless network base station according to the third network identifier, and after searching the second wireless network base station, storing the second entity identification code and connecting to the The second wireless network base station, the second electronic device is connected to the Internet through the third wireless network base station, the second wireless network base station, and the first wireless network base station. After the second wireless network base station automatically searches for the second wireless network base station, the second wireless network base station stores the third entity identification code, and the first wireless network base station is in the first The second electronic device 201031144 stores a physical identification code of the second electronic device when the network is connected to the Internet; wherein the server is further configured to store the Internet and a second device between the second electronic device Wire the path and generate a second information service And transmitting the second information service to the second electronic device through the second connection path. 8. The wireless network architecture of claim 7, wherein the first network identifier is an extension service identifier of the first wireless network base station, and the second network identifier is the first One of the two wireless network base stations extends the service identifier, and the third network identifier is an extension service identifier of the third wireless network base station. 9. The wireless network architecture of claim 7, wherein the first entity identification code is a network entity address of the first wireless network base station, and the second entity identification code is the second a network entity address of the wireless network base station, the third entity identification code is a network entity address of the third wireless network base station, and the entity identification code of the second electronic device is the A network entity address of one of the second electronic devices. 10. The wireless network architecture of claim 7, wherein the server is further configured to transmit the second information service to the second electronic device to generate one of the benefits of the second information service. 11. The wireless network architecture of claim 10, wherein the server is further configured to calculate, according to the benefit, one of the first wireless network base stations in the second connection path to allocate benefits and the second One of the third wireless network base stations in the connection path distributes the benefits. 12. The wireless network architecture of claim 11, wherein the server is further configured to calculate an allocation benefit of the second wireless network base station in the second connection path according to the benefit of 23 201031144. 13. A communication method for a wireless network architecture, the wireless network architecture comprising a first wireless network base station, a second wireless network base station, and a server, the first wireless network base The server and the server are respectively connected to an internet network, the first wireless network base station has a first entity identification code and a first network identification, and the second wireless network base station has a second a second identifier and a second network identifier, the first network identifier is the same as the second network identifier, the method comprising the following steps: (a) causing the second wireless network base station to perform the first a second network identifier, automatically searching for the first wireless network base station; causing the second wireless network base station to store the first, so that the first wireless network base station stores the second, 2. The wireless network base station and the first no (b) entity identification code after the step (a); (c) the entity identification code after the step (a); (d) after the step (a) Establishing a connection between the network base stations through which the first electronic device passes the second wireless network Connecting the base station and the first wireless network base station to the internet; (e) connecting the first wireless network base station and the second wireless network base station to the first electronic device to the In the Internet, storing a physical identification code of the first electronic device; (f) causing the server to store a first connection path between the Internet and the first electronic device; (g) making the servo The device generates a first information service; and 24 201031144 (8) causes the server to pass the first connection to the first electronic device. The communication method according to claim 13, wherein the first body identification code is the first wireless network base:::, the second wireless network base station The second physical Zhao; = the network entity address of the first wireless network base station, the physical identification code of the electronic device is the network entity address of the first electronic device. The communication method of claim 3, wherein the first network code is an extension service identifier of the first wireless network base station, and the second network identification code is the second wireless network One of the base stations extends the service identifier. W. The communication method according to claim 13, further comprising the following steps: after the step (h), causing the server to generate the benefit of the first information service. 17. 17. The communication according to the item a The method further includes the following steps: calculating, according to the benefit, an allocation benefit of the first wireless network reference base station in the first connection path; and calculating, according to the benefit, the first connection path The second wireless network base station - the distribution of benefits. 18. The communication method of claim 13, wherein the first information service is an advertisement information. The communication method of claim 13, wherein the wireless network architecture further comprises a second wireless network base station, the third wireless network base station having a third entity identification code and a first The third network identifier having the same network identifier, the method further comprising the following steps: 25 201031144 (i) causing the third wireless network base station to automatically search for the second wireless according to the third network identifier a network base station; ϋ) after the step (1), causing the third wireless network base station to store the second entity identification code; (k) after the step (1), causing the second wireless network base station to store the a third entity identification code; (1) after the step (1), establishing a connection between the third wireless network base station and the second wireless network base station, and the second electronic device transmits the third wireless network The base station, the second wireless network base station, and the first wireless network base station are connected to the internet; (m) the first wireless network base station and the second wireless network base station And the third wireless network base station is connected to the second electronic device to the Storing a physical identification code of the second electronic device; (n) causing the server to store a second connection path between the Internet and the second electronic device; (〇) making the servo Generating a second information service; and (Ρ) causing the server to transmit the second information service to the second electronic device through the second connection path. The communication method of claim 19, wherein the first entity identification code is a network entity address of the first wireless network base station, and the second entity identification code is the second wireless network a network entity address of the network base station, the third entity identification code is a network entity address of the third wireless network base station, and the entity identification code of the second electronic device is the second One of the electronic device addresses of the electronic device. The communication method of claim 19, wherein the third network identification code is one of the third wireless network base stations extending the service identification code. 22. The communication method of claim 19, further comprising the step of: causing the server to generate the benefit of the second advertisement information after transmitting the second advertisement information to the second electronic device. 23. The communication method of claim 22, further comprising the steps of: calculating, according to the benefit, calculating an allocation benefit of one of the first wireless network base stations in the second connection path; and calculating the benefit according to the benefit One of the third wireless network base stations in the second connection path distributes the benefits. 24. The communication method of claim 23, further comprising the step of: calculating, based on the benefit, an allocation benefit of one of the second wireless network base stations in the second connection path. 25. A wireless network base station for a wireless network architecture, the wireless network architecture comprising the wireless network base station and another wireless network base station, the wireless network base station and the other wireless The network base station has the same network identifier, and the wireless network base station includes: a communication module connected to an internet network and configured to receive one of the other wireless network base stations Requesting, the connection request entraining the network identification code; a processing module for accepting the connection request, the first electronic device connecting to the internet through the other wireless network base station and the communication module And a storage module for storing the entity identification code of the other wireless network base station immediately after the processing module accepts the connection request, and connecting the device to the Internet at the electronic device 27 201031144 Storing a physical identification code of the electronic device; wherein the other wireless network base station stores the entity identification code of the wireless network base station after the processing module accepts the connection request, and The electronic device The physical identification code of the electronic device is stored when the connection is made to the internet. 26. The wireless network base station of claim 25, wherein the network identification code is an extended service identifier. 27. The wireless network base station of claim 25, wherein the entity identification code of the wireless network base station is a network entity address of the wireless network base station, the another wireless network base The entity identification code of the station is a network entity address of the other wireless network base station, and the entity identification code of the electronic device is a network entity address of the electronic device. 28. The wireless network base station of claim 25, wherein the wireless network architecture further comprises a server, the communication module is further configured to receive an information service from the server through the internet, and The another wireless network base station transmits the information service to the electronic device, so that the server generates an interest of the information service, calculates an allocation benefit of the wireless network base station according to the benefit, and calculates the benefit according to the benefit One of the other wireless network base stations distributes benefits. 29. The wireless network base station of claim 28, wherein the information service is an advertisement information. 30. The wireless network base station of claim 25, wherein the communication module receives the connection request of the another wireless network base station in accordance with a wireless communication protocol. 31. The wireless network base station of claim 30, wherein the wireless communication protocol is a Wireless Distribution System (WDS) standard. 28 201031144 32. A communication method for a wireless network base station, a wireless network architecture comprising the wireless network base station and another wireless network base station, the wireless network base station and the other The wireless network base station has the same network identification code, and the wireless network base station is connected to an internet network. The communication method includes the following steps: (a) receiving a connection from the other wireless network base station a line request, the connection request entraining the network identification code; (b) accepting a connection request from the other wireless network base station, the first electronic device passing through the other wireless network base station and the wireless network base Connecting to the Internet; (c) immediately storing the physical identification code of the other wireless network base station after accepting the connection request; and (d) connecting the electronic device to the Internet And storing, by the other wireless network base station, the physical identification code of the wireless network base station, after the wireless network base station accepts the connection request, and On the electronic device When the line to the Internet, storing the entity identification code of the electronic device. 33. The communication method of claim 32, wherein the entity identification code of the wireless network base station is a network entity address of the wireless network base station, and the another wireless network base station The entity identification code is a network entity address of the other wireless network base station, and the entity identification code of the electronic device is a network entity address of the electronic device. 34. The communication method of claim 32, wherein the network identification code is an extension 29 201031144 service identifier. The communication method of claim 32, wherein the wireless network architecture further comprises a server, the communication method further comprising the steps of: receiving an information service from the server through the internet; and transmitting the information through the network Transmitting, by the wireless network base station, the information service to the electronic device, causing the server to generate an interest of the information service, calculating an allocation benefit of the wireless network base station according to the benefit, and calculating the other according to the benefit One of the wireless network base stations distributes benefits. 36. The communication method of claim 35, wherein the information service is an advertisement. 37. The communication method of claim 32, wherein the step (a) receives the connection request of the another wireless network base station in accordance with a wireless communication protocol. 38. The communication method of claim 37, wherein the wireless communication protocol is a wireless distribution system standard. ❿ 30