WO2013145045A1 - 無線デバイス、アドレス決定方法、通信システム及び無線端末 - Google Patents
無線デバイス、アドレス決定方法、通信システム及び無線端末 Download PDFInfo
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- WO2013145045A1 WO2013145045A1 PCT/JP2012/007055 JP2012007055W WO2013145045A1 WO 2013145045 A1 WO2013145045 A1 WO 2013145045A1 JP 2012007055 W JP2012007055 W JP 2012007055W WO 2013145045 A1 WO2013145045 A1 WO 2013145045A1
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- address information
- base station
- wireless
- address
- wireless terminal
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W8/00—Network data management
- H04W8/26—Network addressing or numbering for mobility support
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L61/00—Network arrangements, protocols or services for addressing or naming
- H04L61/50—Address allocation
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L61/00—Network arrangements, protocols or services for addressing or naming
- H04L61/50—Address allocation
- H04L61/5007—Internet protocol [IP] addresses
- H04L61/5014—Internet protocol [IP] addresses using dynamic host configuration protocol [DHCP] or bootstrap protocol [BOOTP]
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L67/00—Network arrangements or protocols for supporting network services or applications
- H04L67/34—Network arrangements or protocols for supporting network services or applications involving the movement of software or configuration parameters
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W88/00—Devices specially adapted for wireless communication networks, e.g. terminals, base stations or access point devices
- H04W88/02—Terminal devices
Definitions
- the present invention relates to a wireless device, an address determination method, a communication system, and a wireless terminal, and more particularly to an address determination control technique for a wireless terminal.
- Wi-Fi Wi-Fi
- Wi-Fi Wi-Fi
- AP software access point
- Wi-Fi Alliance Wi-Fi Alliance
- Wi-FiP2P and Wi-FiFDirect Wi-FiP2P Device
- the AP in the Wi-Fi technology accepts and executes an AP search, connection (attribute) request, and disconnection request from the Wi-Fi terminal. If the AP has a DHCP server function, it also executes an IP issue request.
- attribution refers to an association procedure defined in the specification.
- Disconnection refers to returning a series of procedures of attribution and IP address assignment to the start.
- IP address issue handled by Wi-Fi technology a valid local address is usually assigned only within a local network.
- Wi-FiP2P Client The terminal function of Wi-FiP2P Device is called Wi-FiP2P Client, and the base station function is called Wi-FiP2P Group Owner.
- DHCP Dynamic Host Configuration Protocol
- DHCP is a client-server type address delivery technique and requires a DHCP server function.
- Many broadband routers include an AP and a DHCP server.
- the Wi-FiP2P standard stipulates that Wi-FiP2P Group Owner is equipped with a server function for IP delivery such as DHCP.
- An object of the present invention is to provide a wireless device, an address determination method, a communication system, and a wireless terminal capable of suppressing duplication of address information assignment to a wireless terminal.
- a wireless device is a wireless device having a wireless base station function and a wireless terminal function, and transmits an address issue request to another wireless base station by the wireless terminal function.
- the address information acquisition means for acquiring and storing the address information assigned to itself and the address information other than the address information stored in the address information acquisition means are preferentially paid to the radio terminal by the radio base station function.
- An address information payout means is provided.
- An address determination method includes a step of transmitting an address issue request to another radio base station, a step of receiving address information assigned to the radio base station from the other radio base station, and a radio terminal When paying out an address, a step of paying out the address information other than the received address information with priority is provided.
- a communication system includes a wireless device having a wireless base station function and a wireless terminal function, and a wireless terminal capable of communicating with the wireless device, wherein the wireless terminal includes the wireless device Means for outputting a request for changing address information when performing multi-access to a radio base station other than the device, wherein the radio device changes address information from a radio terminal connected by the radio base station function; Triggered by receiving the request, an address payout request is transmitted to another radio base station, address information assigned to it is acquired and stored, and address information acquisition means for storing the address information, the address information
- the wireless base station function gives priority to address information other than the address information stored in the acquisition means to pay to the wireless terminal.
- the wireless terminal according to the present invention performs multi-access to a second wireless base station different from the first wireless base station while in communication with the first wireless base station,
- the address information change request issued by the first radio base station is output to the first radio base station.
- the present invention it is possible to provide a wireless device, an address determination method, a communication system, and a wireless terminal that can suppress duplication of address information assignment to wireless terminals.
- FIG. 1 is a block diagram showing a configuration of a communication system according to a first exemplary embodiment.
- FIG. 3 is a sequence diagram showing a flow of processing in the communication system according to the first exemplary embodiment.
- FIG. 3 is a sequence diagram showing a flow of processing in the communication system according to the first exemplary embodiment.
- FIG. 3 is a block diagram showing a configuration of a communication system according to a second exemplary embodiment.
- FIG. 10 is a sequence diagram showing a flow of processing in the communication system according to the second exemplary embodiment.
- FIG. 10 is a sequence diagram showing a flow of processing in the communication system according to the second exemplary embodiment. It is a block diagram which shows the structure of the communication system concerning Embodiment 3.
- FIG. 9 is a sequence diagram showing a flow of processing in the communication system according to the third exemplary embodiment.
- FIG. 9 is a sequence diagram showing a flow of processing in the communication system according to the third exemplary embodiment.
- FIG. 6 is a block diagram showing a configuration of a communication system according to a fourth exemplary embodiment.
- FIG. 10 is a sequence diagram showing a flow of processing in the communication system according to the fourth exemplary embodiment.
- FIG. 10 is a sequence diagram showing a flow of processing in the communication system according to the fourth exemplary embodiment.
- Embodiment 1 Embodiments of the present invention will be described below with reference to the drawings.
- a main configuration is shown by a solid line particularly in the embodiment of the present invention.
- FIG. 1 shows a configuration of a communication system according to the first embodiment of the invention.
- the wireless device 1 includes a wireless base station function 4, a wireless terminal function 5, an unused address management 9, and a terminal base station function activation management 13.
- the wireless base station function 4 is processing means that functions as a wireless base station on the communication system. Therefore, the wireless device 1 can perform wireless communication with one or a plurality of wireless terminals 2 by using the wireless base station function 4.
- the radio base station function 4 includes a radio terminal attribution management 6, a communication buffer management 7, and a DHCP server 8.
- the wireless terminal function 5 is processing means that functions as a wireless terminal on the communication system. Therefore, the wireless device 1 can communicate with one or a plurality of wireless base stations 3 by using the wireless terminal function 5.
- the wireless terminal function 5 has a wireless base station connection 11 and an attribution release 12.
- Wireless terminal belonging management 6 manages the belonging state of the subordinate wireless terminal 2.
- the communication buffer management 7 manages the free state of the communication buffer with the subordinate wireless terminal 2.
- the DHCP server 8 pays out an IP address to the subordinate wireless terminal 2.
- the unused address management 9 includes an IP address pool 10.
- the unused address management 9 executes processing for managing IP addresses that are determined to be unused in the communication system.
- the IP address pool 10 stores information on IP addresses that are used or likely to be used.
- the unused address management 9 holds a database indicating the captured state of the grasped IP address pool 10.
- the IP address pool 10 may be described as the database 10 or the supplementary database 10.
- the wireless base station connection 11 makes a base station search, an attribution request, and an IP payout request to the other wireless base station 3.
- Attribution cancellation 12 cancels the connection made to another wireless base station 3 each time in order to grasp the IP address pool 10.
- the terminal base station function activation management 13 starts and stops the wireless base station function and the wireless terminal function as independent operations.
- FIGS. 1, 2A, and 2B are sequence diagrams showing the flow of processing in the communication system.
- the wireless terminal function 5 is activated by the terminal base station function activation management 13 (step S101), and other wireless base stations 3 in the vicinity are searched for base stations, belonging requests, IP Make a withdrawal request. Since this IP address delivery is performed in order to grasp the IP address pool of the surrounding network, it is immediately disconnected. This is repeated in the same manner for other radio base stations (step S102). As a result, the unused address management 9 creates and holds the database 10 indicating the captured state of the IP address pool (step S103).
- the terminal base station function activation management 13 stops the wireless terminal function 5 and activates the wireless base station function 4 (step S104).
- the radio base station function 4 accepts an attribution request from another radio terminal 2 and pays out an unused IP address (step S105).
- the wireless device 1 recognizes an IP address that is issued by another wireless base station 3. Since the IP address is released after it is paid out, it is temporarily in an unused state. However, it is determined that there is a high possibility that the wireless base station 3 that has issued the IP address will later use it again. The Therefore, in the embodiment of the present invention, the IP address recognized in this way is recognized as address information with high possibility of use, and is updated by storing it in the acquisition database 10 of the IP address pool.
- the unused address management 9 acquires address information that is highly likely to be used from the updated acquisition database 10, and an IP address pool that has already been issued to the wireless terminal 2 under the control of the wireless base station function 4 It is confirmed whether it is stored as an IP address with high possibility of use in the database 10 (step S109).
- step S110 If the IP address paid out by the radio base station function 4 to the subordinate radio terminal 2 matches the IP address stored in the acquisition database 10 as being highly usable, An unused IP address is notified to the radio base station function 4 (step S110), the communication buffers with all the subordinate radio terminals belonging to it are confirmed, and it is waited until it becomes empty (step S111).
- step S112 After the communication buffer is emptied, the attribution of all wireless terminals and the IP address delivery are canceled (step S112), and the setting is changed to perform DHCP delivery using the unused IP address received in step S110 thereafter. Thereafter, all the wireless terminals whose membership has been released reconnects to the wireless base station function 4 (step S113).
- the wireless terminal function 5 is activated, and an IP address that is highly usable can be obtained by receiving an IP address from another wireless base station 3. Since the information is acquired and the wireless base station function 4 gives priority to an IP address other than this IP address, the wireless base station function 4 gives out the IP address. It is possible to suppress overlapping IP addresses. In particular, when the radio base station relays a packet between two IP networks, the problem that the IP address batting and cannot be normally routed is solved. At this time, there are no secondary problems such as the fact that payload information cannot be rewritten when address batting is solved by NAT or NAPT, and that communication cannot be performed normally in a multistage address translation configuration.
- FIG. 3 shows a configuration of a communication system according to the second exemplary embodiment of the present invention.
- the wireless device 21 has a wireless base station function 24, a wireless terminal function 25, an unused address management 29, and a terminal base station function activation management 33.
- the radio base station function 24 includes a radio terminal attribution management 26, a communication buffer management 27, and a DHCP server 28.
- the wireless terminal function 25 has a wireless base station connection 31 and an attribution release 32.
- the unused address management 29 includes an IP address pool 30.
- the wireless device 21 is connected to one or more wireless terminals 22 and one or more wireless base stations 23 using a specific wireless technology, and has an IP address pool change request 34 in the wireless terminal 22.
- the wireless terminal belonging management 26 manages the belonging state of the subordinate wireless terminal 22.
- the communication buffer management 27 manages the free state of the communication buffer with the subordinate wireless terminal 22.
- the DHCP server 28 pays out an IP address to the subordinate wireless terminal 22.
- the unused address management 29 holds a database indicating the grasped state of the grasped IP address pool 30.
- the IP address pool 30 may be referred to as a database 30 or a supplementary database 30.
- the wireless base station connection 31 makes a base station search, an attribution request, and an IP payout request to the other wireless base station 23.
- the attribution cancellation 32 cancels the connection made to the other radio base station 23 each time in order to grasp the IP address pool 30.
- the terminal base station function activation management 33 starts and stops the wireless base station function and the wireless terminal function as independent operations.
- the IP address pool change request 34 requests to change the IP address pool.
- FIGS. 3, 4A, and 4B are sequence diagrams showing a flow of processing in the communication system according to the second exemplary embodiment of the present invention.
- the wireless terminal function 25 is activated by the terminal base station function activation management 33 (step S201), and the other wireless base stations 23 in the vicinity are searched for base stations, belonging requests, IP Make a withdrawal request. Since this IP address delivery is performed in order to grasp the IP address pool of the surrounding network, it is immediately disconnected. This is repeated in the same manner for other radio base stations (step S202). As a result, the unused address management 29 creates and holds the database 30 indicating the captured state of the IP address pool (step S203).
- the terminal base station function activation management 33 stops the wireless terminal function 25 and activates the wireless base station function 24 (step S204).
- the radio base station function 24 accepts an attribution request from another radio terminal 22 and pays out an unused IP address (step S205).
- the IP address pool change request 34 of another wireless terminal 22 issues a change request to the wireless base station function 24 of the wireless device 21 (step S206).
- the terminal base station function activation management 33 activates the wireless terminal function 25 separately from the active wireless base station function 24 (step S207), and receives the search, attribution, and IP address assignment of the surrounding wireless base stations 23. Thereafter, the attribution is canceled and the same is repeated for the other radio base stations (step S208).
- the unused address management 29 updates the IP address pool capture database 30 to check whether the already issued IP address pool is being used elsewhere (step S209). If it is not used, there is no problem, so the operation procedure ends here. On the other hand, if it is already used, a new unused IP address is notified to the radio base station function 24 (step S210), and the communication buffers with all the subordinate radio terminals to which it belongs are confirmed. (Step S211).
- step S212 After the communication buffer is emptied, the attribution of all wireless terminals and the IP address delivery are canceled (step S212), and the setting is changed to perform DHCP delivery using the unused IP address received in step S210. Further, the terminal base station function activation management 33 stops the wireless terminal function 25 (step S213). Thereafter, all the wireless terminals whose membership has been released reconnects to the wireless base station function 24 (step S214).
- FIG. 5 shows a configuration of a communication system according to the third embodiment of the invention. This configuration is based on the configuration of the communication system according to the first embodiment of the invention.
- the Wi-FiP2P Device 41 has a Wi-FiP2P Group Owner 44, a Wi-FiP2P Client 45, an unused address management 49, and a terminal base station function activation management 53.
- the Wi-FiP2P Group Owner 44 includes a wireless terminal attribution management 46, a communication buffer management 47, and a DHCP server 48.
- the Wi-FiP2P Client 45 has a radio base station connection 51 and an attribution release 52.
- the unused address management 49 includes an IP address pool 50.
- the Wi-FiP2P Device 41 is connected to one or more Wi-Fi terminals 42 and one or more access points (hereinafter referred to as APs) 43 using a specific wireless technology.
- APs access points
- the wireless terminal belonging management 46 manages the belonging state of the subordinate Wi-Fi terminal 42.
- the communication buffer management 47 manages the free state of the communication buffer with the subordinate Wi-Fi terminal 42.
- the DHCP server 48 issues an IP address to the subordinate Wi-Fi terminal 42.
- the unused address management 49 holds a database indicating the grasped state of the grasped IP address pool 50.
- the IP address pool 50 may be described as the database 50 or the supplementary database 50.
- the wireless base station connection 51 makes a base station search, attribution request, and IP payout request to the other AP 43.
- Attribution cancellation 52 cancels the connection made to another AP 43 each time in order to grasp the IP address pool 50.
- the terminal base station function activation management 53 starts and stops Wi-FiP2P2Group 64 and WiFiP2P Client 65 as independent operations.
- FIGS. 5, 6A, and 6B are sequence diagrams showing a flow of processing in the communication system according to Embodiment 3 of the invention.
- the Wi-FiP2P Device 41 As a radio base station.
- the Wi-FiP2P Device 41 When the Wi-FiP2P Device 41 is activated, the Wi-FiP2P Client 45 is first activated by the terminal base station function activation management 53 (step S301), and a base station search, attribution request, and IP issue request are issued to other APs 43 in the vicinity. I do. Since this IP address delivery is performed in order to grasp the IP address pool of the surrounding network, it is immediately disconnected. This is repeated in the same manner for other APs (step S302). As a result, the unused address management 49 creates and holds the database 50 indicating the IP address pool capture state (step S303).
- the terminal base station function activation management 53 stops the Wi-FiP2P Client 45 and starts Wi-FiP2P Group Owner 44 (step S304).
- Owner 44 receives the attribution request from the other Wi-Fi terminal 42, and pays out an unused IP address (step S305).
- step S306 it is assumed that the policy is changed so that the Wi-FiP2P device 41 is wirelessly connected to another network at the same time.
- the terminal base station function activation management 53 activates the Wi-FiP2P Client 45 separately from the active Wi-FiP2P Group Owner 44 (step S307), and after receiving the search, attribution, and IP address assignment of the peripheral AP43, And the same thing is repeated for other APs (step S308).
- the unused address management 49 updates the IP address pool capture database 50 to check whether the already issued IP address pool is being used elsewhere (step S309). If it is not used, there is no problem, so the operation procedure ends here. On the other hand, if it is already used, a new unused IP address is notified to the Wi-FiP2P Group Owner 44 (step S310), and the communication buffers with all of the subordinate Wi-Fi terminals under the control are confirmed. The process waits until it becomes empty (step S311).
- step S312 After the communication buffer is emptied, all Wi-Fi terminal attribution and IP address delivery are canceled (step S312), and the setting is changed to perform DHCP delivery using the unused IP address received in step S310. . After that, all Wi-Fi terminals that have been unaffiliated reconnect to Wi-FiP2P Group Owner 44 (step S313).
- the Wi-FiP2P Client 45 is activated and an IP address is issued from another AP 43 to obtain highly usable IP address information. Since the IP address other than the IP address is given priority to the Wi-Fi terminal 42 by the Wi-FiP2P Group Owner 44, the IP address assigned by another AP 43 and the IP address assigned by itself are assigned. It becomes possible to suppress duplication. In particular, when the radio base station relays a packet between two IP networks, the problem that the IP address batting and cannot be normally routed is solved. At this time, there are no secondary problems such as the fact that payload information cannot be rewritten when address batting is solved by NAT or NAPT, and that communication cannot be performed normally in a multistage address translation configuration.
- FIG. 7 shows a configuration of a communication system according to the fourth embodiment of the invention. This configuration is based on the configuration of the communication system according to the second embodiment of the invention.
- the Wi-FiP2P Device 61 has a Wi-FiP2P Group Owner 64, a Wi-FiP2P Client 65, an unused address management 69, and a terminal base station function activation management 73. Furthermore, the Wi-FiP2P Group Owner 64 has a wireless terminal attribution management 66, a communication buffer management 67, and a DHCP server 68. In addition, the Wi-FiP2P Client 65 has a radio base station connection 71 and an attribution release 72.
- the unused address management 69 includes an IP address pool 70.
- the Wi-FiP2P Device 61 is connected to one or more Wi-FiP2P Clients 62 and one or more APs 63 using a specific wireless technology, and has an IP address pool change request 74 in the Wi-FiP2P Client 62.
- Wi-FiP2P Device 61 and Wi-FiP2P Client 62 as wireless devices compatible with Wi-FiP2P, and AP 63 may be either compatible with Wi-FiP2P or not.
- the wireless terminal belonging management 66 manages the belonging state of the subordinate Wi-Fi terminal 62.
- the communication buffer management 67 manages the free state of the communication buffer with the subordinate Wi-Fi terminal 62.
- the DHCP server 68 issues an IP address to the subordinate Wi-Fi terminal 62.
- the unused address management 69 has a database indicating the grasped state of the captured IP address pool 70.
- the IP address pool 70 may be referred to as a database 70 or a supplementary database 70.
- the wireless base station connection 71 makes a base station search, attribution request, and IP issue request to the other AP 63.
- Attribution cancellation 72 cancels the connection made to another AP 63 each time in order to grasp the IP address pool 70.
- the terminal base station function activation management 73 starts and stops Wi-FiP2P2Group 64 and WiFiP2P Client 65 as independent operations.
- the IP address pool change request 74 requests to change the IP address pool.
- FIGS. 7, 8A, and 8B are sequence diagrams showing a flow of processing in the communication system according to Embodiment 4 of the invention.
- the Wi-FiP2P Device 61 As a radio base station.
- the Wi-FiP2P Device 61 When the Wi-FiP2P Device 61 is activated, the Wi-FiP2P Client 65 is first activated by the terminal base station function activation management 73 (step S401), and the base station search, attribution request, and IP issue request are issued to other APs 63 in the vicinity. I do. Since this IP address delivery is performed in order to grasp the IP address pool of the surrounding network, it is immediately disconnected. This is repeated in the same manner for other APs (step S402). As a result, the unused address management 69 creates and holds the database 70 indicating the IP address pool capture state (step S403).
- the terminal base station function activation management 73 stops the Wi-FiP2P Client 65 and activates the Wi-FiP2P Group Owner 64 (step S404).
- the Wi-FiP2P Group Owner 64 receives an attribution request from another Wi-FiP2P Client 62 and pays out an unused IP address (step S405).
- another Wi-FiP2P Client 62 belongs to a request to start multi-access using a plurality of IP addresses at the same time or to change the IP address in use. Even in the case of multi-access, there is a concern that the IP address being used and the IP address paid out by another AP at the connection destination may overlap, and thus a procedure for changing the address is necessary. Therefore, the IP address pool change request 74 of another Wi-FiP2P Client 62 issues a change request to the Wi-FiP2P Group Owner 64 (step S406).
- the terminal base station function activation management 73 activates Wi-FiP2P Client 65 separately from the active Wi-FiP2P Group Owner 64 (step S407), and after receiving the search, attribution, and IP address assignment of the surrounding AP 63, And the same thing is repeated for other APs (step S408).
- the unused address management 69 updates the IP address pool capture database 70 to check whether the already allocated IP address pool is being used elsewhere (step S409). If it is not used, there is no problem, so the operation procedure ends here. On the other hand, if already used, a new unused IP address is notified to the Wi-FiP2P Group Owner 64 (step S410), and the communication buffer with all the subordinate Wi-FiP2P Clients belonging to it is confirmed. The process waits until empty (step S411).
- step S412 After the communication buffer is emptied, all Wi-FiP2P Client attribution and IP address assignment are canceled (step S412), and the setting is changed to perform DHCP delivery using the unused IP address received in step S410. .
- the terminal base station function activation management 73 stops the Wi-FiP2P Client 65 (step S413). Thereafter, all Wi-FiP2P Clients that have been unaffiliated reconnect to Wi-FiP2P Group Owner 64 (step S414).
- a wireless device having a wireless base station function and a wireless terminal function, wherein the wireless terminal function transmits an address payout request to another wireless base station and is assigned to this Address information acquisition means for acquiring and storing the address information, and address information payout to the wireless terminal by the wireless base station function giving priority to address information other than the address information stored in the address information acquisition means Wireless device with means.
- the said address information acquisition means is a wireless device of Additional remark 1 which starts the acquisition process of address information by using as a trigger wireless connection with another wireless base station using the said wireless terminal function.
- the address information acquisition means transmits an address payout request to another radio base station, acquires address information assigned to it, and belongs to the radio base station.
- the wireless device according to any one of appendices 1 to 4, wherein the attribution is canceled.
- Additional remark 9 The address determination method of Additional remark 7 which transmits the said address payout request
- a communication system including a wireless device having a wireless base station function and a wireless terminal function, and a wireless terminal capable of communicating with the wireless device, wherein the wireless terminal is a wireless base station other than the wireless device Means for outputting a request for changing address information when performing multiple access to the wireless device, wherein the wireless device has received a request for changing address information from a wireless terminal connected by the wireless base station function.
- an address payout request is transmitted to another radio base station, and address information assigned to itself is acquired in response to this, and stored in the address information acquisition means and stored in the address information acquisition means
- Address information issuing means for giving priority to address information other than address information to the wireless terminal by the wireless base station function Wireless devices with.
- the first radio base When performing multi-access to a second radio base station different from the first radio base station while in communication with the first radio base station, the first radio base A wireless terminal that outputs a change request for address information issued by a station to the first wireless base station.
- IP address pool change request 41 61 Wi-FiP2P Device 42, 62 Wi-Fi terminal 43, 63 Access point 44, 64 Group Owner 45, 65 Wi-FiP2P Client 46, 66 Wireless terminal attribution management 47, 67 Communication buffer management 48, 68 DHCP server 49, 69 Unused address management 50, 70 IP address pool 51, 71 Wireless base station connection 52, 72 Attribution cancellation 53, 73 Terminal base station function Startup management 74 IP address pool change request
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Abstract
Description
本発明は、無線端末に対するアドレス情報の割り当てが重複することを抑制可能な無線デバイス、アドレス決定方法、通信システム及び無線端末を提供することを目的とする。
以下、図面を参照して本発明の実施の形態について説明する。以下の図中では、特に本発明の実施の形態において主要な構成を実線で示している。
図3に本発明の実施の形態2にかかる通信システムの構成を示す。無線デバイス21は、無線基地局機能24、無線端末機能25、未使用アドレス管理29、端末基地局機能起動管理33を有する。さらに、無線基地局機能24は、無線端末帰属管理26、通信バッファ管理27、DHCPサーバ28を有する。無線端末機能25は、無線基地局接続31、帰属解除32を有する。未使用アドレス管理29はIPアドレスプール30を備えている。無線デバイス21は、特定の無線技術を使って1台以上の無線端末22および1台以上の無線基地局23と接続されており、無線端末22中にIPアドレスプール変更依頼34を持つ。
図5に発明の実施の形態3にかかる通信システムの構成を示す。この構成は、発明の実施の形態1にかかる通信システムの構成をベースとしている。Wi-FiP2P Device41は、Wi-FiP2P Group Owner44、Wi-FiP2P Client45、未使用アドレス管理49、端末基地局機能起動管理53を有する。Wi-FiP2P Group Owner44は、無線端末帰属管理46、通信バッファ管理47、DHCPサーバ48を有する。Wi-FiP2P Client45は、無線基地局接続51、帰属解除52を有する。未使用アドレス管理49はIPアドレスプール50を備えている。Wi-FiP2P Device41は、特定の無線技術を使って1台以上のWi-Fi端末42および1台以上のアクセスポイント(以下AP)43と接続されている。ここで、Wi-FiP2Pに対応した無線デバイスとしてWi-FiP2P Device41があり、Wi-Fi端末42およびAP43はWi-FiP2Pに対応、非対応のいずれでも良いものとする。
図7に発明の実施の形態4にかかる通信システムの構成を示す。この構成は、発明の実施の形態2にかかる通信システムの構成をベースとしている。Wi-FiP2P Device61は、Wi-FiP2P Group Owner64、Wi-FiP2P Client65、未使用アドレス管理69、端末基地局機能起動管理73を有する。さらに、Wi-FiP2P Group Owner64は、無線端末帰属管理66、通信バッファ管理67、DHCPサーバ68を有する。また、Wi-FiP2P Client65は、無線基地局接続71、帰属解除72を有する。未使用アドレス管理69は、IPアドレスプール70を備えている。Wi-FiP2P Device61は、特定の無線技術を使って1台以上のWi-FiP2P Client62および1台以上のAP63と接続されており、Wi-FiP2P Client62中にIPアドレスプール変更依頼74を持つ。ここで、Wi-FiP2Pに対応した無線デバイスとしてWi-FiP2P Device61、Wi-FiP2P Client62があり、AP63はWi-FiP2Pに対応、非対応のいずれでも良いものとする。
2、22 無線端末
3、23 無線基地局
4、24 無線基地局機能
5、25 無線端末機能
6、26 無線端末帰属管理
7、27 通信バッファ管理
8、28 DHCPサーバ
9、29 未使用アドレス管理
10、30 IPアドレスプール
11、31 無線基地局接続
12、32 帰属解除
13、33 端末基地局機能起動管理
34 IPアドレスプール変更依頼
41、61 Wi-FiP2P Device
42、62 Wi-Fi端末
43、63 アクセスポイント
44、64 Group Owner
45、65 Wi-FiP2P Client
46、66 無線端末帰属管理
47、67 通信バッファ管理
48、68 DHCPサーバ
49、69 未使用アドレス管理
50、70 IPアドレスプール
51、71 無線基地局接続
52、72 帰属解除
53、73 端末基地局機能起動管理
74 IPアドレスプール変更依頼
Claims (10)
- 無線端末機能によって他の無線基地局に対してアドレス払い出し要求を送信し、これに対して自身に割り当てられたアドレス情報を取得し、格納するアドレス情報取得手段と、
前記アドレス情報取得手段に格納されたアドレス情報以外のアドレス情報を優先して無線基地局機能によって無線端末に対して払い出すアドレス情報払出手段を備えた無線デバイス。 - 前記アドレス情報取得手段は、前記無線端末機能を用いて他の無線基地局と無線接続することをトリガとして、アドレス情報の取得処理を開始する請求項1記載の無線デバイス。
- 前記アドレス情報取得手段は、前記無線基地局機能によって接続された無線端末からアドレス情報の変更要求を受信したことをトリガとして、アドレス情報の取得処理を開始する請求項1記載の無線デバイス。
- 前記アドレス情報取得手段は、当該無線デバイスの起動をトリガして、アドレス情報の取得処理を開始する請求項1~3いずれかに記載の無線デバイス。
- 前記アドレス情報取得手段は、他の無線基地局に対してアドレス払い出し要求を送信し、これに対して自身に割り当てられたアドレス情報を取得して当該無線基地局に帰属した後にその帰属を解除する請求項1~4いずれかに記載の無線デバイス。
- 前記アドレス情報払出手段は、前記無線基地局機能によって通信状態にある無線端末に対してアドレス情報を払い出す場合には、当該無線端末との間の通信による通信バッファが空になった後に、当該無線端末との間の通信を切断し、当該アドレス情報の払い出しを実行する請求項1~5いずれかに記載の無線デバイス。
- 他の無線基地局に対してアドレス払い出し要求を送信するステップと、
前記他の無線基地局から自身に割り当てられたアドレス情報を受信するステップと、
無線端末に対してアドレスを払い出す場合に、前記受信したアドレス情報以外のアドレス情報を優先して当該無線端末に対して払い出すステップを備えた無線端末に対するアドレス決定方法。 - 他の無線基地局と無線接続することをトリガとして、前記アドレス払い出し要求を送信する請求項7記載のアドレス決定方法。
- 無線端末は、
無線デバイス以外の無線基地局に対してマルチアクセスを実行する場合にアドレス情報の変更要求を出力する手段を有し、
前記無線デバイスは、
無線基地局機能によって接続された無線端末からアドレス情報の変更要求を受信したことをトリガとして、他の無線基地局に対してアドレス払い出し要求を送信し、これに対して自身に割り当てられたアドレス情報を取得し、格納するアドレス情報取得手段と、
前記アドレス情報取得手段に格納されたアドレス情報以外のアドレス情報を優先して前記無線基地局機能によって無線端末に対して払い出すアドレス情報払出手段を備えた通信システム。 - 第1の無線基地局と通信状態にある間に当該第1の無線基地局とは異なる第2の無線基地局に対してマルチアクセスを実行する場合に、当該第1の無線基地局によって払い出されたアドレス情報の変更要求を当該第1の無線基地局に対して出力する無線端末。
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US14/386,854 US20150055575A1 (en) | 2012-03-30 | 2012-11-02 | Radio device, address determination method, communication system and radio terminal |
EP12872474.7A EP2833658A4 (en) | 2012-03-30 | 2012-11-02 | WIRELESS DEVICE, ADDRESS DETERMINATION METHOD, COMMUNICATION SYSTEM, AND WIRELESS TERMINAL |
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JPWO2013145045A1 (ja) | 2015-08-03 |
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US20150055575A1 (en) | 2015-02-26 |
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