The invention relates to the wired communication field, specifically to the field of wired access communication technology, and particularly to a multiple access broadband wired access system with discontinuous mobility and a method thereof.
Communication access technologies may be divided into two types, wired access and wireless access. After long-term development, the advantages of wired access communication technology include: high communication quality; stable and reliable; immune to environmental conditions; private and secure; easier implementation than wireless mobile communication; healthy and no need to use high power radio frequency technology; extremely rich broadband wired access line resources everywhere, such as twisted-pair wires, coaxial cables or HFCs, category-5 cables, hybrid fiber/twisted-pair wires, pure fiber, and even power lines and so on; and overwhelming dominance of line bandwidth resources over wireless access, for example, the uplink/downlink packet data rate may be 1 Mbps/8 Mbps if ADSL technology is employed by twisted access, 6 Mbps˜13 Mbps/13 Mbps˜56 Mbps if VDSL technology is employed, and 10 Mbps for power line access technology (a recent study indicates the rate may be up to 200 Mbps within a range of 700 meters). Moreover, the access rates for Ethernet and fiber may be up to 100 Mbps, or even above 1 Gbps.
However, the conventional wired access technology mainly aims at providing fixed, still, separate, dedicated, and redundant access services to wire fixed user equipments, along with being used to wire fixed core networks. The number of the wired fixed user equipment are corresponding to an access port, access position and the core network, apart from the wired user equipment, do not belong to an user or user equipment, and can not be motive and carried with the wire terminal, and cannot be moved and carried with the wired terminals. All of this leads to a low traffic density for the wired access, the impossibility of sharing access bandwidth resources among multiple users, and a shortage in the economy of scale, thus causing comparatively high cost and no connection between the cost and traffic. As a result, the low economic benefit causes slow updating and development, along with an imbalance in the conventional wired access technology. For example, techniques such as traditional fixed telephone POTS, whose users account for 80%˜90% of the wire fixed access, have not varied during the past few decades, analog, along with fixed and still access technologies, are still being used. Although emerging broadband packet access technologies, such as Ethernet, xDSL, IP access, and so on, have many advantages, as the wired user equipment accessed, they are required to allocate an IP address thereto, which also corresponds to the packet access network equipment connected thereto and an access position. As the wired user equipment switches to a new access port and position, the packet access network is required to reallocate and set the IP address thereto; it is impossible to communicate using the same unique number as a wired fixed communication network, and to bi-directionally communicate with an existing PSTN and PLMN network. Therefore, the above-mentioned problems remain still unsolved. Problems with wired fixed access severely restrict the development of a full wired communication network, and the development speed and economic benefit of wired communication is apparently lagging behind those of wireless mobile access communication.
One object of the invention is to provide a multiple access broadband wired access system with discontinuous mobility to overcome the above disadvantages of conventional wired access systems, thus enabling the wired access system to have discontinuous mobility and a multiple access feature.
Another object of the invention is to provide a multiple access broadband wired access method with discontinuous mobility to overcome the above disadvantages of the conventional wired access method, such as fixing, stillness, dedication, and so on, and to enable wired access to have a certain mobility and a multi-user sharing feature, thus improving the economic benefit of wired access communication.
The invention is a novel multiple access broadband wired access system with discontinuous mobility. To attain the above objectives, the multiple access broadband wired access system of the invention includes an end user access device, an access line, and an end office access device. The multiple access broadband wired access system of the invention complies with an access network definition defined by ITU-T G.902 and an access network general protocol, a layer reference model, and a functional architecture model recommended by ITU-T G.803. The end user access device is connected to a remote end office access device via the access line and this end office access device may be connected to multiple end user access devices distributed at a distance. These multiple end user access devices may be connected in a star shape, daisy chain, hybrid shape, and so on, and are then connected to the end office access device. The end user access device may be simultaneously accessed by multiple wired user equipments or/and wireless/wired multimode user equipments having fixed and unique numbers via connection lines or short-distance wireless technologies, such as Bluetooth, Wi-Fi, and so on. The end office access device directly accesses a corresponding core network via a circuit switched domain traffic and signaling interface, and a packet switched domain traffic and signaling interface, gaining access to other types of communication networks, such as PSTN/ISDN, PLMN, packet data network, the Internet, and so on, via a gateway, according to the requirements for practical network construction, and the requirements of the accessing user equipment for services and applications. Access lines connecting the end user access devices to the end office access device are wired line resources capable of providing broadband wired transmission, such as twisted copper wires, coaxial cables or HFCs, hybrid fiber/twisted copper wires such as FTTR, FTTN, FTTB, FTTC and so on, pure fiber such as FTTO or FTTH, Ethernet category 5 lines, even power lines and so on. The embodiments of the invention do not influence the original communication services and applications on the access line. If the access line is a twisted copper wire, and is connected to a traditional normal fixed POTS terminal that has been activated, the end user equipment may also be accessed to the POTS terminal, and the end office access device transfers the POTS service to a PSTN network.
To attain the above objectives, the multiple access broadband access system with discontinuous mobility of the invention comprises the following functions: multiplexing/de-multiplexing; cross-connection and broadband multiple access wired transmission; managing and controlling wired resources, such as taking access control and handover control over the user equipment; providing the user equipment and the core network with wired bearer services and wired access bearer services; broadcasting information for the multiple access broadband wired access system; encrypting/decrypting traffic and signaling; and supporting wired discontinuous mobility management. With the support and cooperation of the corresponding wired core network and user equipment, a wired user equipment or/and a wireless/wired multimode user equipment accessing the multiple access broadband wired access system of the invention, and having fixed and unique numbers, may switch access addresses and positions in the multiple access broadband wired access system of the invention, and employ the same wired access technology as the invention to switch to a coverage area of the multiple access broadband wired access system of the invention in other wired discontinuous mobile communication networks for a plurality of wired communication services and applications, without changing the fixed and unique number of the user equipment of the invention. Multiple user equipments accessing different ports of the same end user access device may share wired access resources, such as channels, bandwidths, and traffic data rates of the same access line, and communicate simultaneously without interference. Embodiments of the invention do not influence the original communication services and applications on the access line; if the access line is a twisted copper wire and is connected to a traditional normal fixed POTS terminal that has been activated, the POTS service may be separated from the end user access device and the end office access device via separators therein, transferred to a PSTN network via the end office access device, and simultaneously separated to the POTS terminal via the end user access device without influencing the normal operation of the POTS terminal. Moreover, the end user access devices 201a˜201n may further provide operating power to and recharge the accessing user equipment if power supply conditions permit. The above-mentioned core network is a wired mobile core network with discontinuous mobility, and can be accessed by the wired access system of the invention. The wired user equipment is a wired user equipment or/and a wireless/wired multimode user equipment having discontinuous mobility and a fixed and unique number. The wireless/wired multimode user equipment is a wireless/wired multimode user equipment combining one or more wireless technologies, comprising 2G technologies such as GSM/GPRS or IS-95A/B, and 3G technologies such as WCDMA, cdma2000 and TD-SCDMA, along with WLAN Wi-Fi and WiMax complying with 802.11x standards, with a wired discontinuous mobile technology.
Compared with the conventional wired access technology, the access system and the method thereof of the invention support wired discontinuous mobility of the wired user equipment or/and the wireless/wired multimode user equipment, the capability for multiple user equipments to share the wired access resources of the end user access devices and the access lines, such as channels, bandwidths, traffic data rate and so on, and the ability to simultaneously communicate without interference. The invention overcomes the disadvantages of conventional wired access, such as fixing, stillness, separation, dedication, redundancy, and so on, and improves the competitive advantage and economic benefit of wired access communication.
A detailed description of the access system and the method thereof according to the invention will be given below with reference to the accompanying drawings.
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Functions of the access system of the invention shown in
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The end user access devices 201a˜201n may be simultaneously accessed by multiple wired user equipments or/and wireless/wired multimode user equipments having their own fixed and unique numbers via multiple connection lines or short-distance wireless technology, and these user equipments will share the wired access resources and communicate simultaneously without interference. If the access line 202a is a twisted copper wire and is connected to a traditional normal fixed POTS terminal that has been activated, the end user access device 201a may also be simultaneously accessed by the POTS terminal without influencing the normal operation of the POTS service. The POTS service may be separated from the end user access device 201a and the end office access device 203 via separators therein, transferred to a PSTN network via the end office access device 203, and separated to the POTS terminal via the end user access device 201a.
The end office access device 203 may directly access a corresponding core network, and then other types of communication networks, such as PSTN/ISDN, PLMN, packet data network (PDN), the Internet and so on, via a gateway, according to the requirements of the user equipments accessing the end user access devices 201a˜201n for services and applications.
When the wired user equipment m accesses the wired access system 300 of the invention, the end user access device 301a uploads user information data, such as a user equipment number and so on, to the end office access device 303 via an uplink control channel of the access line 302a, and transmits relevant information to a corresponding core network for security management, comprising authentication and so on, via the end office access device 303. The end office access device 303 informs the wired user equipment m of the authentication result via a downlink control channel, and the multiple access broadband wired access system 300 will initially configure the wired access resources for the legal and entitled wired user equipment m. The end office access device 303 records the use status of the wired access resources for management, and the access system 300 reports access information, such as the end user access device 301a accessed by the user equipment, the access port, port position and so on, to a corresponding core network for revising and updating the information record of the wired user equipment m, and thereby managing discontinuous mobility thereof. The wired user equipment m is in an idle state at this point.
When the accessing wired user equipment m is in an idle state, the access system 300 will monitor and interoperate therewith via an uplink and a downlink control channel. As the wired user equipment m starts calling or is called, under control of the core network, the end office access device 303 controls the end user access device 301a to allocate the wired access resources of the access line 302a, such as uplink and downlink traffic channels, channel bandwidths, transmission rates, and so on, to the wired user equipment m according to the requirements of the wired user equipment m for services and applications, to establish wired access communication links and connections. It establishes communication links and connections for the wired user equipment m and the core network according to the requirements of the wired user equipment m for services and applications via a circuit/packet switched domain traffic and signaling interface; the user equipment is in an active connection state of traffic communication at this point. Since a multiple access technology is employed, other wired user equipments accessing the end user access device 301a may share the wired access resources, simultaneously establish connections, and communicate without interference. As the communication is terminated, the access system 300 of the invention will de-allocate the wired access resources, such as the uplink and the downlink traffic channels and the bandwidths assigned to the wired user equipment m, for use by other user equipments requiring communication, and the wired user equipment m will return to the idle state at this point. As the accessing wired user equipment m is disconnected from the end user access device 301a, the end user access device 301a reports to the end office access device 303 using the uplink control channel via the access line 302a, and the access system 300 will cancel all the wired access resources configured for the user equipment, delete the access information record of the user, and report offline information to the corresponding core network by the access system, for revising and updating the stored information record of the user equipment once again. The wired user equipment m is in an offline state at this point.
As the wired user equipment n is disconnected from the 400 of the invention, the end user access device 401a reports offline information thereof to the end office access device 403, using an uplink control channel via the access line 402a, and the access system 400 will cancel all wired access resources configured for the wired user equipment n and delete the relevant access information record of the wired user equipment n, uploading the offline information thereof to a relevant core network for revising and updating the original information record of the wired user equipment n. As the wired user equipment n moves to another place in which the access system 500 of the invention is located, and accesses another end user access device 501a, the end user access device 501a uploads user information, such as user equipment numbers and so on, to the end office access device 503 via an uplink control channel of the access line 502a, and transmits the relevant information to a corresponding core network via the end office access device 503, for security management comprising authentication and so on. The access system 500 will initially configure the wired access resources for the legal wired user equipment n. The end office access device 503 records and stores the use status of the wired access resources for managing the wired access resources, and the access system 500 reports access information, such as any end uer access device 501a accessed by the wired user equipment n, the access port, port position, and so on, to the corresponding core network to revise and update the stored information for the wired user equipment n, for managing discontinuous mobility thereof. At this point, the wired user equipment n is in an idle state, the access system 500 will monitor and interoperate with the accessing wired user equipment n via uplink and downlink control channels. As the wired user equipment n starts calling or is called, under control of the core network, the end office access device 503 controls the end user access device 501a to allocate the wired access resources of the access line 502a, such as uplink and downlink traffic channels, channel bandwidths, and transmission rates, to the wired user equipment n according to the requirements of the wired user equipment n for services and applications, to establish wired access communication links and connections. It establishes communication links and connections for the wired user equipment n and the core network according to the requirements of the wired user equipment n for the services and the applications via a circuit/packet switched domain traffic and signaling interface. The user equipment is in an active connection state of traffic communication at this point. As the communication is terminated, the access system 500 of the invention will de-allocate the allocated wired access resources, such as the uplink and the downlink traffic channels and the bandwidths, for use by other wired user equipments or/and wireless/wired multimode user equipments requiring communication. If the wired user equipment n belonging to a home network in another area roams to the access system 500 in a home area, the operational process of the access system 500 is the same as above.
Embodiments of the invention are not limited to access by a wired user equipment; the advantages of this invention may also be embodied by applying a wireless/wired multimode user equipment to the multiple access broadband wired access system of the invention.
It is believed that the embodiments and their advantages will be understood from the foregoing description, and it will be apparent that various changes may be made thereto without departing from the spirit and scope of the invention or sacrificing all of its material advantages, the examples hereinbefore described merely being preferred or exemplary embodiments.
Number | Date | Country | Kind |
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200410050890.3 | Jul 2004 | CN | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/CN05/01143 | 7/28/2005 | WO | 1/29/2007 |