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WO2014110726A1 - 移动终端接入网络的方法及移动终端 - Google Patents

移动终端接入网络的方法及移动终端 Download PDF

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Publication number
WO2014110726A1
WO2014110726A1 PCT/CN2013/070522 CN2013070522W WO2014110726A1 WO 2014110726 A1 WO2014110726 A1 WO 2014110726A1 CN 2013070522 W CN2013070522 W CN 2013070522W WO 2014110726 A1 WO2014110726 A1 WO 2014110726A1
Authority
WO
WIPO (PCT)
Prior art keywords
mobile terminal
access
resource
network
channel resource
Prior art date
Application number
PCT/CN2013/070522
Other languages
English (en)
French (fr)
Inventor
杨晓东
王学龙
Original Assignee
华为技术有限公司
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 华为技术有限公司 filed Critical 华为技术有限公司
Priority to EP19187088.0A priority Critical patent/EP3624471B1/en
Priority to CN201380001327.4A priority patent/CN104303526B/zh
Priority to PCT/CN2013/070522 priority patent/WO2014110726A1/zh
Priority to EP13872200.4A priority patent/EP2947901B1/en
Publication of WO2014110726A1 publication Critical patent/WO2014110726A1/zh
Priority to US14/801,612 priority patent/US9814022B2/en
Priority to US15/796,502 priority patent/US10200973B2/en

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Classifications

    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W72/00Local resource management
    • H04W72/30Resource management for broadcast services
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W4/00Services specially adapted for wireless communication networks; Facilities therefor
    • H04W4/06Selective distribution of broadcast services, e.g. multimedia broadcast multicast service [MBMS]; Services to user groups; One-way selective calling services
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W40/00Communication routing or communication path finding
    • H04W40/24Connectivity information management, e.g. connectivity discovery or connectivity update
    • H04W40/246Connectivity information discovery
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W48/00Access restriction; Network selection; Access point selection
    • H04W48/08Access restriction or access information delivery, e.g. discovery data delivery
    • H04W48/10Access restriction or access information delivery, e.g. discovery data delivery using broadcasted information
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W48/00Access restriction; Network selection; Access point selection
    • H04W48/08Access restriction or access information delivery, e.g. discovery data delivery
    • H04W48/12Access restriction or access information delivery, e.g. discovery data delivery using downlink control channel
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W74/00Wireless channel access
    • H04W74/002Transmission of channel access control information
    • H04W74/006Transmission of channel access control information in the downlink, i.e. towards the terminal
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W76/00Connection management
    • H04W76/10Connection setup
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W48/00Access restriction; Network selection; Access point selection
    • H04W48/16Discovering, processing access restriction or access information
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W74/00Wireless channel access
    • H04W74/08Non-scheduled access, e.g. ALOHA
    • H04W74/0866Non-scheduled access, e.g. ALOHA using a dedicated channel for access
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W76/00Connection management
    • H04W76/10Connection setup
    • H04W76/14Direct-mode setup
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W88/00Devices specially adapted for wireless communication networks, e.g. terminals, base stations or access point devices
    • H04W88/02Terminal devices
    • H04W88/04Terminal devices adapted for relaying to or from another terminal or user

Definitions

  • the present invention relates to the field of communications technologies, and in particular, to a method for a mobile terminal to access a network and a mobile terminal.
  • a base station includes a macro base station and a micro base station, and different mobile terminals are different in distance from the base station, and the received interference is different, which results in different mobile terminal channel qualities being different.
  • some mobile terminals may not be covered by the base station in some cases, such as the mobile terminal falling into the area covering the vulnerability, or the base station is broken due to some special reasons, such as an earthquake. Such uncovered mobile terminals require other mobile terminals to help access the network.
  • a mobile terminal that defines no coverage or weak coverage is a mobile terminal that can connect to the base station to access the network and can help access the mobile terminal to access the network as a base station mobile terminal.
  • the existing discoveries between mobile terminals are mainly the autonomous discovery between mobile terminals. Each mobile terminal transmits a beacon channel on a specific resource, and checks the beacon channel with each other to achieve mutual discovery.
  • the mobile terminal Since the resources of the beacon channel are limited, the mobile terminal needs to check whether the beacon channel has resources before transmitting the beacon channel.
  • the mobile terminal transmits a beacon channel if there is a resource.
  • the disadvantage of such a distributed mobile terminal autonomously using the beacon channel is that it is possible that some mobile terminals use the beacon channel but do not establish a connection with other mobile terminals, so that the beacon channel is wasted.
  • Embodiments of the present invention provide a method for a mobile terminal to access a network and a mobile terminal, which can be more effective. Use beacon channel resources.
  • a first aspect of the present invention provides a method for a mobile terminal to access a network, including: reading a help request for network access to a mobile terminal;
  • Transmitting a beacon channel on a beacon channel resource allocated by a base station of the network transmitting a broadcast signal on a broadcast channel resource corresponding to the beacon channel resource, where the broadcast signal includes an access resource; and receiving the The access request of the mobile terminal on the access resource assists the mobile terminal to access the network.
  • a beacon channel is sent on a beacon channel resource allocated by a base station of the network, and a broadcast signal is sent on a broadcast channel resource corresponding to the beacon channel resource, where the broadcast signal is sent.
  • the steps including accessing resources further include:
  • a beacon channel is sent on a beacon channel resource allocated by a base station of the network, and a broadcast signal is sent on a broadcast channel resource corresponding to the beacon channel resource, where the broadcast signal is sent.
  • the steps including accessing resources further include:
  • the mobile terminal receives an access request on the access resource, and assists the mobile terminal to access the network.
  • the step further includes: receiving an access request of the mobile terminal on the access resource, and assisting the mobile terminal to complete access to the network.
  • the step of receiving the beacon channel resource, the broadcast channel resource, and the access resource allocated by the base station of the network is further include:
  • a beacon channel is sent on a beacon channel resource allocated by a base station of the network, and a broadcast signal is sent on a broadcast channel resource corresponding to the beacon channel resource, where the broadcast signal is sent.
  • the steps including accessing resources further include:
  • a base station residing in the network acquiring a beacon channel resource set and an access resource set by using a broadcast of the base station, where the beacon channel resource set includes the idle beacon channel resource, and the access resource set Including the access resources;
  • the step of receiving the access request of the mobile terminal on the access resource, and the step of assisting the mobile terminal to access the network further includes: Receiving an access request of the mobile terminal on the access resource; and accessing the base station and requesting to become a base station mobile terminal, thereby assisting the mobile terminal to complete access to the network.
  • a second aspect of the present invention provides a mobile terminal, including:
  • Reading the ear 5 ⁇ a help request for reading network access of another mobile terminal
  • a broadcast module configured to send a beacon channel on a beacon channel resource allocated by a base station of the network, and send a broadcast signal on a broadcast channel resource corresponding to the beacon channel resource, where the broadcast signal includes an access resource;
  • a receiving module configured to receive an access request of the another mobile terminal on the access resource, and assist the another mobile terminal to access the network.
  • the broadcast module includes:
  • a network connection submodule configured to establish a radio resource control protocol RRC connection with the base station of the network, send a request to be a base station mobile terminal to the network, and receive a base station allocation of the network a beacon channel resource, the broadcast channel resource, and the access resource;
  • a broadcast submodule configured to send the beacon channel on a beacon channel resource allocated by a base station of the network, and send the broadcast signal on the broadcast channel resource, where the broadcast signal includes the access resource.
  • the mobile terminal further includes a base station module, where the mobile terminal is used as a base station mobile terminal, and the broadcast module includes:
  • a network connection submodule configured to send an allocation request to the network, and receive a beacon channel resource, the broadcast channel resource, and the access resource allocated by a base station of the network;
  • a broadcast submodule configured to send the beacon channel on the beacon channel resource, and send the broadcast signal on the broadcast channel resource, where the broadcast signal includes the access resource.
  • the network connection submodule receives a letter allocated by a base station of the network that is allocated by the network by using a radio resource control protocol signaling a channel resource, the broadcast channel resource, and the access resource.
  • the broadcast module includes:
  • a network connection submodule configured to: a base station residing in the network, obtain a beacon channel resource set and an access resource set by using a broadcast of the base station, where the beacon channel resource set includes the idle beacon channel resource
  • the access resource set includes the access resource
  • a broadcast submodule configured to send the beacon channel on a beacon channel resource that is idle in the beacon channel resource set, and send the broadcast signal on the broadcast channel resource corresponding to the beacon channel resource, where The broadcast signal includes the access resource.
  • the network connection sub-module is further configured to: after the receiving module receives the access request, access the base station and request the The mobile terminal becomes a base station mobile terminal, thereby assisting the other mobile terminal to access the network.
  • a third aspect of the invention provides a computer storage medium, the computer storage medium storing a program, the program comprising, when executed, in the first to ninth possible implementations of the first aspect or the first aspect of the invention Any of the steps described.
  • a fourth aspect of the present invention provides a mobile terminal, including an input device, an output device, and a memory.
  • the processor performs the following steps: reading a help request for network access to the mobile terminal; transmitting a beacon channel on the beacon channel resource allocated by the base station of the network, and the beacon And transmitting, by the broadcast channel, a broadcast signal, where the broadcast signal includes an access resource; and receiving an access request of the mobile terminal on the access resource, and assisting the mobile terminal to access the network.
  • the processor performs a beacon channel on a beacon channel resource allocated by a base station of the network, and sends a broadcast on a broadcast channel resource corresponding to the beacon channel resource.
  • a signal, the step of the broadcast signal including the access resource further includes: establishing a radio resource control protocol RRC connection with the base station of the network, and transmitting a request to the base station mobile terminal to the network;
  • the processor performs a beacon channel on a beacon channel resource allocated by a base station of the network, and sends a broadcast on a broadcast channel resource corresponding to the beacon channel resource.
  • the signal, the step of the broadcast signal including the access resource further includes:
  • the processor performs an access request of the mobile terminal on the access resource
  • the auxiliary The step of the mobile terminal accessing the network further includes: receiving an access request of the mobile terminal on the access resource, and assisting the mobile terminal to complete access to the network.
  • the beacon channel resource allocated by the base station of the network that is received by the processor and received by the processor further includes:
  • the processor performs a beacon channel on a beacon channel resource allocated by a base station of the network, and sends a broadcast on a broadcast channel resource corresponding to the beacon channel resource.
  • the signal, the step of the broadcast signal including the access resource further includes:
  • a base station residing in the network acquiring a beacon channel resource set and an access resource set by using a broadcast of the base station, where the beacon channel resource set includes the idle beacon channel resource, and the access resource set Including the access resources;
  • the processor performs an access request of the mobile terminal on the access resource, and assists the mobile terminal to access
  • the step of the network further includes: receiving an access request of the mobile terminal on the access resource; and accessing the base station and requesting to become a base station mobile terminal, thereby assisting the mobile terminal to complete access to the network.
  • the method for the mobile terminal to access the network and the mobile terminal transmit the beacon channel on the beacon channel resource allocated by the base station of the network, and send a broadcast signal on the broadcast channel resource corresponding to the beacon channel resource to indicate the access resource, so that another A mobile terminal connects to the mobile terminal on the access resource, thereby accessing the network, avoiding waste of the beacon channel, and more rationally using the beacon channel and accessing resources.
  • FIG. 1 is a schematic diagram of an application environment provided by an embodiment of the present invention.
  • 2 to FIG. 4 are schematic diagrams showing the flow of a mobile terminal accessing a network according to an embodiment of the present invention.
  • FIG. 5 to FIG. 8 are schematic diagrams of a mobile terminal according to an embodiment of the present invention.
  • FIG. 1 is a schematic diagram of an application environment of a method for a mobile terminal to access a network according to an embodiment of the present invention.
  • a method for a mobile terminal to access a network is used in a mobile communication system, for example, a long term evolution (LTE), a third generation mobile communication cooperative organization (the third generation partnership project) , referred to as 3GPP).
  • LTE long term evolution
  • 3GPP third generation mobile communication cooperative organization
  • a method in which a mobile terminal accesses a network may also be used in a wireless system.
  • the network in Fig. 1 is a mobile communication system network, including a base station 30, which includes a macro base station (only one of which is exemplified in Fig.
  • the mobile terminal 10 can access the network within the coverage of the base station 30, and the mobile terminal 20 is not within the coverage of the base station 30, and is difficult to access the network. Therefore, the mobile terminal 10 is required to assist the access network.
  • the mobile terminal 20 defining no coverage or weak coverage is a base station mobile terminal that is connected to the mobile terminal and can connect to the base station 30 to access the network and can help access the mobile terminal 20 to access the network.
  • the base station of the present invention allocates not only the beacon channel, but any code that can be used to discover the terminal can be allocated by the base station in the present invention. That is, the embodiment of the present invention indicates the code for discovering the terminal only by the beacon channel, and is not used to limit the use of other codes having the function of discovering the terminal in the embodiment of the present invention.
  • the mobile terminal of the base station may also become the access mobile terminal due to the movement of the base station mobile terminal and the location of the access mobile terminal, and the access mobile terminal may also become the base station mobile terminal.
  • FIG. 2 and FIG. 1 a mobile terminal accessing a network according to a first embodiment of the present invention is provided. Methods, including:
  • the mobile terminal 20 is a mobile terminal 20 that is inaccessible to the network, and thus sends a help request for network access on the agreed resource, and the agreed resource may be, for example, the first time slot of the frequency. .
  • the mobile terminal 10 reads the help request for the network access of the mobile terminal 20 on the agreed resource by scanning.
  • the mobile terminal 10 transmits a beacon channel on a beacon channel resource allocated by a base station of the network, for example, a resource having 0 to 7 total 8 subframes, and the second subframe is idle, and the base station may
  • the mobile terminal 10 can transmit the beacon channel in the second subframe, and transmit the broadcast signal on the broadcast channel resource corresponding to the second subframe, for example, the third subframe.
  • the broadcast signal includes an access resource, for example, a fifth subframe.
  • S203 Receive an access request of the mobile terminal 20 on the access resource, and assist the mobile terminal 20 to access the network.
  • a method for a video playback mobile terminal to access a network includes:
  • the access mobile terminal 20 sends a request for requesting the base station mobile terminal 10 to facilitate access to the network.
  • the mobile terminal 10 reads a help request to access the mobile terminal 20.
  • the mobile terminal 10 establishes a radio resource control protocol RRC connection with the base station 30 of the network, and sends a request to become the base station mobile terminal to the base station 30.
  • RRC radio resource control protocol
  • the mobile terminal 10 if the mobile terminal 10 is willing to become the base station mobile terminal after reading the help request for accessing the mobile terminal 20, it transmits a request to become the base station mobile terminal to the base station 30.
  • the mobile terminal 10 may also have become a base station mobile terminal, and only it distributes the allocation request to the base station 30.
  • the base station 30 allocates beacon channel resources, broadcast channel resources, and access resources to the mobile terminal.
  • the base station 30 allocates beacon channel resources, broadcast channel resources, and access resources to the mobile terminal 10 by using radio resource control protocol signaling.
  • the beacon channel resources, the broadcast channel resources, and the access resources allocated by the base station 30 include time slot resources, frequency resources, and code channel resources.
  • the mobile terminal 10 becomes a base station mobile terminal.
  • the mobile terminal 10 sends a beacon channel on the beacon channel resource allocated by the base station 30, and transmits a broadcast signal on the broadcast channel resource, where the broadcast signal includes an access resource.
  • Steps S303 to S305 are specific implementation steps of step S202 in FIG.
  • the access mobile terminal 20 searches for a beacon channel, synchronizes with the mobile terminal 10, thereby reading a broadcast signal, and reading the access resource from the broadcast signal.
  • the access mobile terminal 20 initiates an access procedure on the read access resource, that is, sends an access request to the mobile terminal 10.
  • the base station mobile terminal 10 can assist the access mobile terminal 20 to complete the access network, i.e., the base station 30.
  • the method for the mobile terminal to access the network sends a beacon channel on the beacon channel resource allocated by the base station 30, and sends a broadcast signal on the broadcast channel resource corresponding to the beacon channel resource to indicate the access resource, so that the mobile terminal 20 is connected.
  • the mobile terminal 10 is connected to the incoming resource, thereby accessing the network, avoiding waste of the beacon channel, and more rationally using the beacon channel and accessing resources.
  • a method for a video playback mobile terminal to access a network includes:
  • the access mobile terminal 20 sends a request to the base station mobile terminal 10 to facilitate access to the network.
  • the mobile terminal 10 reads a help request to access the mobile terminal 20.
  • the mobile terminal 10 resides at the base station 30, and obtains a beacon channel by using the broadcast of the base station 30. Source set and access resource set.
  • the mobile terminal 10 sends a beacon channel on the beacon channel resource that is idle in the beacon channel resource set, and sends a broadcast signal on the broadcast channel resource, where the broadcast signal includes an access resource.
  • the mobile terminal 10 checks whether there is an idle beacon channel resource in the beacon channel resource set broadcasted by the base station 30, and if so, transmits a beacon channel on the beacon channel resource that is idle in the beacon channel resource set, in the corresponding broadcast.
  • a broadcast signal is transmitted on the channel resource, and the broadcast signal includes an access resource.
  • Step S403 to step S404 are specific implementation manners of step S202 in FIG.
  • the access mobile terminal 20 searches for a beacon channel, synchronizes with the mobile terminal 10, thereby reading a broadcast signal, and reading the access resource from the broadcast signal.
  • the access mobile terminal 20 initiates an access procedure on the read access resource, that is, sends an access request to the mobile terminal 10.
  • the mobile terminal 10 accesses the base station 30 and requests to become a base station mobile terminal, thereby assisting the access mobile terminal to complete the access network.
  • the method for accessing the network by the mobile terminal described above checks the idle beacon channel resource in the beacon channel resource set broadcasted by the base station 30, and transmits the beacon channel on the beacon channel resource in the beacon channel resource set, on the beacon channel.
  • a broadcast signal is transmitted on the broadcast channel resource corresponding to the resource to indicate the access resource, so that the mobile terminal 20 connects to the mobile terminal 10 on the access resource, thereby accessing the network, avoiding waste of the beacon channel, and more rationally using the beacon channel.
  • access resources In addition, after receiving the access request for accessing the mobile terminal 20, the mobile terminal 10 requests the base station 30 to become the base station mobile terminal, thereby avoiding waste of resources.
  • a mobile terminal 50 includes a reading module 500, a broadcasting module 510, and a receiving module 520.
  • the reading module 500 is configured to read a help request for network access of another mobile terminal.
  • the other mobile terminal is not covered by the network or is weakly covered, thus requesting the mobile terminal 50 to assist in accessing the network.
  • the broadcast module 510 is configured to send a beacon channel on a beacon channel resource allocated by the base station of the network, and send a broadcast signal on the broadcast channel resource corresponding to the beacon channel resource, where the broadcast signal is sent
  • the number includes access resources.
  • the receiving module 520 is configured to receive an access request of the another mobile terminal on the access resource, and assist the another mobile terminal to access the network.
  • the broadcast module 510 includes a network connection sub-module 511 and a broadcast sub-module 512.
  • the network connection sub-module 511 is configured to send a request to be a mobile terminal of the base station to the network, and receive a beacon channel resource allocated by the base station of the network allocated by the network, the broadcast Channel resources and the access resources.
  • the broadcast sub-module 512 is configured to transmit the beacon channel on the beacon channel resource, and send the broadcast signal on the broadcast channel resource, where the broadcast signal includes the access resource.
  • the network connection submodule 511 receives a beacon channel resource, a broadcast channel resource, and the connection of a base station of the network allocated by the network by using a radio resource control protocol signaling. Into the resource.
  • the network connection sub-module 511 is configured to camp on a base station of the network, and obtain a beacon channel resource set and an access resource set by using a broadcast of the base station, where the beacon channel resource set The idle beacon channel resource is included, and the access resource set includes the access resource.
  • the broadcast sub-module 512 is configured to send the beacon channel on a beacon channel resource that is idle in the beacon channel resource set, and send the broadcast signal on the broadcast channel resource corresponding to the beacon channel resource, The broadcast signal includes the access resource.
  • the network connection sub-module 511 is further configured to: after the receiving module receives the access request, access the base station and request the mobile terminal to become a base station mobile terminal, thereby The other mobile terminal is assisted in accessing the network.
  • the mobile terminal 50 of this embodiment may be, for example, a computer, a mobile phone, a tablet computer or the like.
  • the mobile terminal 50 transmits a beacon channel on the beacon channel resource allocated by the base station of the network, and sends a broadcast signal on the broadcast channel resource corresponding to the beacon channel resource to indicate the access resource, so that another mobile terminal is connected.
  • the mobile terminal 50 is connected to the incoming resource, thereby accessing the network, avoiding waste of the beacon channel, and more rationally using the beacon channel and accessing resources.
  • a mobile terminal 70 according to an embodiment of the present invention is different from the mobile terminal 50 of FIG. 5 in that it includes a base module 700 in addition to the reading module 500, the broadcast module 510, and the receiving module 520. .
  • the reading module 500, the broadcast module 510, and the receiving module 520 are substantially the same as the corresponding modules in FIG. 5, and details are not described herein again.
  • the base station module 700 is configured to make the mobile terminal 70 a base station mobile terminal.
  • the broadcast module 510 also includes the network connection sub-module 511 and the broadcast sub-module 512 in FIG.
  • the network connection sub-module 511 is configured to send an allocation request to the network, and receive a beacon channel resource, the broadcast channel resource, and the access resource allocated by a base station of the network allocated by the network.
  • the broadcast sub-module 512 is configured to send the beacon channel on the beacon channel resource, and send the broadcast signal on the broadcast channel resource, where the broadcast signal includes the access resource.
  • the network connection submodule 511 receives a beacon channel resource, a broadcast channel resource, and the connection of a base station of the network allocated by the network by using a radio resource control protocol signaling. Into the resource.
  • the mobile terminal 70 of this embodiment may be, for example, a computer, a mobile phone, a tablet computer or the like.
  • the mobile terminal 70 transmits a beacon channel on the beacon channel resource allocated by the base station of the network, and sends a broadcast signal on the broadcast channel resource corresponding to the beacon channel resource to indicate the access resource, so that another mobile terminal is connected.
  • the mobile terminal 70 is connected to the incoming resource, thereby accessing the network, avoiding waste of the beacon channel, and more rationally using the beacon channel and accessing resources.
  • the embodiment of the present invention further provides a computer storage medium, wherein the computer storage medium may store a program, and the program includes some or all of the steps of the data processing method described in the foregoing method embodiments.
  • an embodiment of the present invention further provides a mobile terminal 80, including a processor 810, and storage.
  • the device 800, the input device 820, and the output device 830 (the number of the processors 810 in the mobile terminal 80 may be one or more, and one processor in FIG. 8 is taken as an example).
  • the input device 820, the output device 830, the memory 800, and the processor 810 may be connected by a bus or other means, wherein the bus connection is taken as an example in FIG.
  • the processor 810 performs the following steps:
  • Transmitting a beacon channel on a beacon channel resource allocated by a base station of the network transmitting a broadcast signal on a broadcast channel resource corresponding to the beacon channel resource, where the broadcast signal includes an access resource; and receiving the The access request of the mobile terminal on the access resource assists the mobile terminal to access the network.
  • the processor 810 performs a beacon channel on a beacon channel resource allocated by a base station of the network, and transmits a broadcast on a broadcast channel resource corresponding to the beacon channel resource.
  • a signal the step of the broadcast signal including the access resource further comprising: transmitting a request to be a mobile terminal of the base station to the network; receiving a beacon channel resource allocated by the base station of the network allocated by the network, and the broadcast channel resource And the access resource; and transmitting the beacon channel on the beacon channel resource, and transmitting the broadcast signal on the broadcast channel resource, where the broadcast signal includes the access resource.
  • the processor 810 performs a beacon channel on a beacon channel resource allocated by a base station of the network, and transmits a broadcast on a broadcast channel resource corresponding to the beacon channel resource.
  • a signal, the step of the broadcast signal including the access resource further comprising: becoming a base station mobile terminal; transmitting an allocation request to the network; receiving a beacon channel resource allocated by the base station of the network allocated by the network, the broadcast channel And the access resource; and transmitting the beacon channel on the beacon channel resource, and transmitting the broadcast signal on the broadcast channel resource, where the broadcast signal includes the access resource.
  • the step of the processor 810 receiving the access request of the mobile terminal on the access resource, the step of assisting the mobile terminal to access the network further includes: receiving the The access request of the mobile terminal on the access resource is used to assist the mobile terminal to complete access to the network.
  • the processor 810 performs the receiving of the network allocation.
  • the step of the beacon channel resource, the broadcast channel resource, and the access resource allocated by the base station of the network further includes: receiving a beacon allocated by the base station of the network allocated by the network by using a radio resource control protocol signaling Channel resources, the broadcast channel resources, and the access resources.
  • the processor 810 performs a beacon channel on a beacon channel resource allocated by a base station of the network, and transmits a broadcast on a broadcast channel resource corresponding to the beacon channel resource.
  • the signal, the step of the broadcast signal including the access resource further includes:
  • a base station residing in the network acquiring a beacon channel resource set and an access resource set by using a broadcast of the base station, where the beacon channel resource set includes the idle beacon channel resource, and the access resource set Include the access resource; and transmit the beacon channel on a beacon channel resource that is idle in the beacon channel resource set, and send the broadcast on the broadcast channel resource corresponding to the beacon channel resource a signal, the broadcast signal including the access resource.
  • the step of receiving, by the processor 810, the access request of the mobile terminal on the access resource, the step of assisting the mobile terminal to access the network further includes: receiving the Determining an access request of the mobile terminal on the access resource; and accessing the base station and requesting to become a base station mobile terminal, thereby assisting the mobile terminal to complete access to the network.
  • the method for the mobile terminal to access the network in the embodiment of the present invention and the mobile terminal transmit the beacon channel on the beacon channel resource allocated by the base station of the network, and send the broadcast on the broadcast channel resource corresponding to the beacon channel resource.
  • the signal is used to indicate the access resource, so that another mobile terminal connects to the mobile terminal on the access resource, thereby accessing the network, avoiding waste of the beacon channel, and more rationally using the beacon channel and connecting Into the resource.
  • the program can be stored in a computer readable storage medium, for example, the storage medium can include : Read only memory, random access memory, disk or optical disk, and so on.

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  • Engineering & Computer Science (AREA)
  • Computer Networks & Wireless Communication (AREA)
  • Signal Processing (AREA)
  • Computer Security & Cryptography (AREA)
  • Multimedia (AREA)
  • Mobile Radio Communication Systems (AREA)

Abstract

本发明公开了一种移动终端接入网络的方法及移动终端。在本发明的一些可行的实施方式中,移动终端读取到移动终端的网络接入的帮忙请求;在所述网络的基站分配的信标信道资源上发送信标信道,在与所述信标信道资源对应的广播信道资源上发送广播信号,所述广播信号包括接入资源;及接收到所述移动终端在所述接入资源上的接入请求,辅助所述移动终端接入网络。上述的移动终端接入网络的方法及移动终端在所述网络的基站分配的信标信道资源上发送信标信道,在信标信道资源对应的广播信道资源上发送广播信号来指示接入资源,使得另一移动终端在接入资源上连接移动终端,从而接入网络,避免了信标信道的浪费,更合理的使用信标信道及接入资源。

Description

移动终端接入网络的方法及移动终端 技术领域 本发明涉及通信技术领域, 具体涉及移动终端接入网络的方法及移动终 端。
背景技术 在目前的蜂窝系统中,基站包括宏基站及微基站, 并且不同的移动终端距 离基站的远近不同, 受到的干扰不同, 这就造成了不同的移动终端信道质量是 不一样的。 而且有的移动终端在一些情况下可能还没有被基站覆盖, 比如移动 终端落入覆盖漏洞的区域, 或者基站由于一些特殊的原因坏掉了, 比如地震。 这样没有覆盖的移动终端就需要其它的移动终端帮助来接入网络。定义没有覆 盖或弱覆盖的移动终端为访问移动终端,可以连接基站接入网络并且可以帮助 访问移动终端接入网络的移动终端为基站移动终端。
由于访问移动终端需要借助基站移动终端接入网络,因此访问移动终端需 要发现基站移动终端, 并且还需要和基站移动终端建立连接, 这样才能实现访 问移动终端最终接入到网络的目的。目前已有的移动终端之间的发现主要为移 动终端之间自主的发现。每个移动终端在特定资源上发送信标信道,相互之间 检查信标信道来实现相互的发现。
由于信标信道的资源是有限的,移动终端在发送信标信道之前需要检查信 标信道是否有资源。如果有资源则移动终端发送信标信道。这样分布式的移动 终端自主使用信标信道的缺点是有可能有的移动终端使用了信标信道却没有 与其它移动终端建立连接, 这样信标信道就浪费了。
发明内容 本发明实施例提供一种移动终端接入网络的方法及移动终端,可更有效的 利用信标信道资源。
本发明第一方面提供一种移动终端接入网络的方法, 包括: 读取到移动终 端的网络接入的帮忙请求;
在所述网络的基站分配的信标信道资源上发送信标信道,在与所述信标信 道资源对应的广播信道资源上发送广播信号, 所述广播信号包括接入资源; 及 接收到所述移动终端在所述接入资源上的接入请求,辅助所述移动终端接 入网络。
在第一种可能的实现方式中,在所述网络的基站分配的信标信道资源上发 送信标信道,在与所述信标信道资源对应的广播信道资源上发送广播信号, 所 述广播信号包括接入资源的步骤进一步包括:
和所述网络的基站建立无线资源控制协议 RRC连接, 发送成为基站移动 终端的请求至所述网络;
接收所述网络的基站分配的信标信道资源、所述广播信道资源及所述接入 资源; 及
在所述信标信道资源上发送所述信标信道,在所述广播信道资源上发送所 述广播信号, 所述广播信号包括所述接入资源。
在第二种可能的实现方式中,在所述网络的基站分配的信标信道资源上发 送信标信道,在与所述信标信道资源对应的广播信道资源上发送广播信号, 所 述广播信号包括接入资源的步骤进一步包括:
成为基站移动终端;
发送分配请求至所述网络;
接收所述网络的基站分配的信标信道资源、所述广播信道资源及所述接入 资源; 及
在所述信标信道资源上发送所述信标信道,在所述广播信道资源上发送所 述广播信号, 所述广播信号包括所述接入资源。
结合第一种或第二种可能的实现方式,在第三种可能的实现方式中,接收 到所述移动终端在所述接入资源上的接入请求,辅助所述移动终端接入网络的 步骤进一步包括:接收到所述移动终端在所述接入资源上的接入请求,辅助所 述移动终端完成接入所述网络。 结合第一种或第二种可能的实现方式,在第四种可能的实现方式中,接收 所述网络的基站分配的信标信道资源、所述广播信道资源及所述接入资源的步 骤进一步包括:
接收所述网络的基站以无线资源控制协议信令分配的信标信道资源、所述 广播信道资源及所述接入资源。
在第五种可能的实现方式中,在所述网络的基站分配的信标信道资源上发 送信标信道,在与所述信标信道资源对应的广播信道资源上发送广播信号, 所 述广播信号包括接入资源的步骤进一步包括:
驻留在所述网络的基站 ,通过所述基站的广播获取信标信道资源集及接入 资源集, 所述信标信道资源集包括所述空闲的信标信道资源, 所述接入资源集 包括所述接入资源; 及
在所述信标信道资源集中的空闲的信标信道资源上发送所述信标信道,在 与所述信标信道资源对应的所述广播信道资源上发送所述广播信号 ,所述广播 信号包括所述接入资源。
结合第五种可能的实现方式,在第六种可能的实现方式中,接收到所述移 动终端在所述接入资源上的接入请求,辅助所述移动终端接入网络的步骤进一 步包括: 接收到所述移动终端在所述接入资源上的接入请求; 及接入所述基站 并请求成为基站移动终端, 从而辅助所述移动终端完成接入所述网络。 本发明第二方面提供一种移动终端, 包括:
读耳 5^莫块, 用于读取另一移动终端的网络接入的帮忙请求;
广播模块, 用于在所述网络的基站分配的信标信道资源上发送信标信道, 在与所述信标信道资源对应的广播信道资源上发送广播信号,所述广播信号包 括接入资源; 及
接收模块, 用于接收所述另一移动终端在所述接入资源上的接入请求,辅 助所述另一移动终端接入网络。
在第一种可能的实现方式中, 所述广播模块包括:
网络连接子模块, 用于和所述网络的基站建立无线资源控制协议 RRC 连 接,发送成为基站移动终端的请求至所述网络, 并接收所述网络的基站分配的 信标信道资源、 所述广播信道资源及所述接入资源; 及
广播子模块,用于在所述网络的基站分配的信标信道资源上发送所述信标 信道,在所述广播信道资源上发送所述广播信号, 所述广播信号包括所述接入 资源。
在第二种可能的实现方式中, 所述移动终端还包括基站模块, 用于使所述 移动终端成为基站移动终端, 所述广播模块包括:
网络连接子模块, 用于发送分配请求至所述网络, 并接收所述网络的基站 分配的信标信道资源、 所述广播信道资源及所述接入资源; 及
广播子模块, 用于在所述信标信道资源上发送所述信标信道,在所述广播 信道资源上发送所述广播信号, 所述广播信号包括所述接入资源。
结合第一种或第二种可能的实现方式,在第三种可能的实现方式中, 所述 网络连接子模块接收所述网络以无线资源控制协议信令分配的所述网络的基 站分配的信标信道资源、 所述广播信道资源及所述接入资源。
在第四种可能的实现方式中, 所述广播模块包括:
网络连接子模块, 用于驻留在所述网络的基站,通过所述基站的广播获取 信标信道资源集及接入资源集 ,所述信标信道资源集包括所述空闲的信标信道 资源, 所述接入资源集包括所述接入资源; 及
广播子模块,用于在所述信标信道资源集中空闲的信标信道资源上发送所 述信标信道,在与所述信标信道资源对应的所述广播信道资源上发送所述广播 信号, 所述广播信号包括所述接入资源。
结合第四种可能的实现方式,在第五种可能的实现方式中, 所述网络连接 子模块还用于在所述接收模块接收到所述接入请求后,接入所述基站并请求所 述移动终端成为基站移动终端, 从而辅助所述另一移动终端接入所述网络。 本发明第三方面提供一种计算机存储介质,所述计算机存储介质可存储有 程序,该程序执行时包括如本发明第一方面或第一方面的第一至第九种可能的 实现方式中的任一种所述的步骤。 本发明第四方面提供一种移动终端, 包括输入装置、 输出装置、 存储器及 处理器; 其中, 所述处理器执行如下步骤: 读取到移动终端的网络接入的帮忙 请求; 在所述网络的基站分配的信标信道资源上发送信标信道,在与所述信标 信道资源对应的广播信道资源上发送广播信号 , 所述广播信号包括接入资源; 及接收到所述移动终端在所述接入资源上的接入请求 ,辅助所述移动终端接入 网络。
在第一种可能的实现方式中,所述处理器执行的在所述网络的基站分配的 信标信道资源上发送信标信道,在与所述信标信道资源对应的广播信道资源上 发送广播信号, 所述广播信号包括接入资源的步骤进一步包括: 和所述网络的 基站建立无线资源控制协议 RRC 连接, 发送成为基站移动终端的请求至所述 网络;
接收所述网络的基站分配的信标信道资源、所述广播信道资源及所述接入 资源; 及
在所述信标信道资源上发送所述信标信道,在所述广播信道资源上发送所 述广播信号, 所述广播信号包括所述接入资源。
在第二种可能的实现方式中,所述处理器执行的在所述网络的基站分配的 信标信道资源上发送信标信道,在与所述信标信道资源对应的广播信道资源上 发送广播信号, 所述广播信号包括接入资源的步骤进一步包括:
成为基站移动终端;
发送分配请求至所述网络;
接收所述网络的基站分配的信标信道资源、所述广播信道资源及所述接入 资源; 及
在所述信标信道资源上发送所述信标信道,在所述广播信道资源上发送所 述广播信号, 所述广播信号包括所述接入资源。
结合第一种或第二种可能的实现方式,在第三种可能的实现方式中, 所述 处理器执行的接收到所述移动终端在所述接入资源上的接入请求,辅助所述移 动终端接入网络的步骤进一步包括:接收到所述移动终端在所述接入资源上的 接入请求, 辅助所述移动终端完成接入所述网络。
结合第一种或第二种可能的实现方式,在第四种可能的实现方式中, 所述 处理器执行的接收所述网络分配的所述网络的基站分配的信标信道资源、所述 广播信道资源及所述接入资源的步骤进一步包括:
接收所述网络的基站以无线资源控制协议信令分配的信标信道资源、所述 广播信道资源及所述接入资源。
在第五种可能的实现方式中,所述处理器执行的在所述网络的基站分配的 信标信道资源上发送信标信道,在与所述信标信道资源对应的广播信道资源上 发送广播信号, 所述广播信号包括接入资源的步骤进一步包括:
驻留在所述网络的基站 ,通过所述基站的广播获取信标信道资源集及接入 资源集, 所述信标信道资源集包括所述空闲的信标信道资源, 所述接入资源集 包括所述接入资源; 及
在信标信道资源集中空闲的信标信道资源上发送所述信标信道,在与所述 信标信道资源对应的所述广播信道资源上发送所述广播信号,所述广播信号包 括所述接入资源。
结合第五种可能的实现方式,在第六种可能的实现方式中, 所述处理器执 行的接收到所述移动终端在所述接入资源上的接入请求,辅助所述移动终端接 入网络的步骤进一步包括: 接收到所述移动终端在所述接入资源上的接入请 求; 及接入所述基站并请求成为基站移动终端,从而辅助所述移动终端完成接 入所述网络。
上述的移动终端接入网络的方法及移动终端在网络的基站分配的信标信 道资源上发送信标信道,在信标信道资源对应的广播信道资源上发送广播信号 来指示接入资源,使得另一移动终端在接入资源上连接移动终端,从而接入网 络, 避免了信标信道的浪费, 更合理的使用信标信道及接入资源。
附图说明 为了更清楚地说明本发明实施例或现有技术中的技术方案,下面将对实施 例或现有技术描述中所需要使用的附图作简单地介绍,显而易见地, 下面描述 中的附图仅仅是本发明的一些实施例,对于本领域普通技术人员来讲,在不付 出创造性劳动的前提下, 还可以根据这些附图获得其他的附图;
图 1是本发明实施例提供的应用环境示意图。 图 2至图 4分别是本发明实施例提供的移动终端接入网络的流程示意图 图 5至图 8分别是本发明实施例提供的移动终端的示意图。
具体实施方式 下面将结合本发明实施例中的附图,对本发明实施例中的技术方案进行清 楚、 完整地描述, 显然, 所描述的实施例仅仅是本发明一部分实施例, 而不是 全部的实施例。基于本发明中的实施例, 本领域普通技术人员在没有做出创造 性劳动前提下所获得的所有其他实施例, 都属于本发明保护的范围。
参阅图 1 , 为本发明一实施例提供的移动终端接入网络的方法的应用环境 示意图。在本发明的一实施方式中,移动终端接入网络的方法用于移动通信系 统中, 例如, 长期演进网络( long term evolution,简称 LTE ), 第三代移动通信 合作组织 ( the third generation partnership project, 简称 3GPP )。 在本发明的一 些实施方式中,移动终端接入网络的方法也可以用于无线系统中。 图 1中的网 络为移动通信系统网络, 包括基站 30, 基站 30包括宏基站(图 1中仅以一个 为示例)及微基站(图 1 中仅以一个为示例;)。 其中, 移动终端 10在基站 30 的覆盖范围内, 可以接入网络, 移动终端 20不在基站 30的覆盖范围内, 难以 接入网络, 因而需要移动终端 10辅助接入网络。 定义没有覆盖或弱覆盖的移 动终端 20为访问移动终端,可以连接基站 30接入网络并且可以帮助访问移动 终端 20接入网络的移动终端 10为基站移动终端。
需要说明的是,具体实现中信标信道的作用在于使一个终端能被其他终端 发现。 因此, 具体实现中, 本发明基站分配的并不仅限于信标信道, 凡是可用 于发现终端的代码均可用在本发明中由基站进行分配。也即, 本发明实施例仅 是以信标信道来指示了用于发现终端的代码,其并不用于限制其他具有发现终 端功能的代码在本发明实施例中的使用。
可以理解的是, 因基站移动终端与访问移动终端位置的移动,基站移动终 端也可能变为访问移动终端, 访问移动终端也可能变为基站移动终端。 参阅图 2并结合图 1 , 本发明第一实施例提供的一种移动终端接入网络的 方法, 包括:
5201 , 读取到移动终端 20的网络接入的帮忙请求。
在本实施例中, 移动终端 20为访问移动终端 20, 其无法接入网络, 因而 在约定的资源上发送网络接入的帮忙请求,所述约定的资源例如可以是频率的 第一个时隙。移动终端 10通过扫描,在约定的资源上读取到移动终端 20的网 络接入的帮忙请求。
5202,在所述网络的基站分配的信标信道资源上发送信标信道,在与所述 信标信道资源对应的广播信道资源上发送广播信号,所述广播信号包括接入资 源。
在本发明的一些实施方式中, 移动终端 10在所述网络的基站分配的信标 信道资源上发送信标信道, 例如有 0至 7共 8个子帧的资源, 第 2子帧空闲, 基站可将第 2帧分配给移动终端 10, 则移动终端 10可以在第 2子帧上发送信 标信道, 在与第 2子帧对应的广播信道资源上, 例如第 3子帧上, 发送广播信 号, 广播信号包括接入资源, 例如为第 5子帧。
5203 , 接收到所述移动终端 20在所述接入资源上的接入请求, 辅助所述 移动终端 20接入网络。
上述的移动终端接入网络的方法在所述网络的基站分配的信标信道资源 上发送信标信道,在信标信道资源对应的广播信道资源上发送广播信号来指示 接入资源, 使得移动终端 20在接入资源上连接移动终端 10, 从而接入网络, 避免了信标信道的浪费, 更合理的使用信标信道及接入资源。 参阅图 3并结合图 1 , 本发明第二实施例提供的一种视频播放移动终端接 入网络的方法, 包括:
5301 , 访问移动终端 20发送请求基站移动终端 10帮忙接入网络的请求。
5302, 移动终端 10读取到访问移动终端 20的帮忙请求。
5303 , 移动终端 10和所述网络的基站 30建立无线资源控制协议 RRC连 接, 并发送成为基站移动终端的请求至基站 30。
在本发明的实施例中,若移动终端 10读取到访问移动终端 20的帮忙请求 后, 愿意成为基站移动终端, 则发送成为基站移动终端的请求至基站 30。 在本发明的一些实施例中, 移动终端 10也可以已经成为基站移动终端, 则其只分送分配请求至基站 30。
5304, 基站 30分配信标信道资源、 广播信道资源及接入资源至移动终端
10。
在本发明的实施例中, 基站 30以无线资源控制协议信令分配信标信道资 源、 广播信道资源及接入资源至移动终端 10。
在本发明的一些实施方式中, 基站 30分配的信标信道资源、 广播信道资 源及接入资源包括时隙资源、 频率资源及码道资源等。
此时, 移动终端 10成为基站移动终端。
5305 ,移动终端 10在基站 30分配的信标信道资源上发送信标信道,在广 播信道资源上发送广播信号, 广播信号包括接入资源。
其中, 步骤 S303至 S305为图 2中步骤 S202的具体实现步骤。
5306, 访问移动终端 20搜索信标信道, 与移动终端 10进行同步, 从而读 取广播信号, 并从广播信号中读取接入资源。
5307, 访问移动终端 20在读取到的接入资源上发起接入过程, 即发送接 入请求至移动终端 10。
基站移动终端 10接收到访问移动终端 20的接入请求后,即可帮助访问移 动终端 20完成接入网络, 即基站 30。
上述的移动终端接入网络的方法在基站 30分配的信标信道资源上发送信 标信道, 在信标信道资源对应的广播信道资源上发送广播信号来指示接入资 源, 使得移动终端 20在接入资源上连接移动终端 10, 从而接入网络, 避免了 信标信道的浪费, 更合理的使用信标信道及接入资源。 参阅图 4并结合图 1 , 本发明第三实施例提供的一种视频播放移动终端接 入网络的方法, 包括:
5401,访问移动终端 20发送请求基站移动终端 10帮忙接入网络的请求。
5402, 移动终端 10读取到访问移动终端 20的帮忙请求。
5403 , 移动终端 10驻留在基站 30, 通过基站 30的广播获取信标信道资 源集及接入资源集。
5404, 移动终端 10在所述信标信道资源集中空闲的信标信道资源上发送 信标信道, 在广播信道资源上发送广播信号, 广播信号包括接入资源。
移动终端 10检查基站 30广播的信标信道资源集中是否有空闲的信标信道 资源,如果有, 则在所述信标信道资源集中空闲的信标信道资源上发送信标信 道, 在对应的广播信道资源上发送广播信号, 广播信号包括接入资源。
其中, 步骤 S403至步骤 S404为图 2中步骤 S202的具体实现方式。
5405 , 访问移动终端 20搜索信标信道, 与移动终端 10进行同步, 从而读 取广播信号, 并从广播信号中读取接入资源。
5406, 访问移动终端 20在读取到的接入资源上发起接入过程, 即发送接 入请求至移动终端 10。
5407, 移动终端 10接入基站 30, 并请求成为基站移动终端, 从而辅助访 问移动终端完成接入网络。
上述的移动终端接入网络的方法在基站 30广播的信标信道资源集中检查 空闲的信标信道资源 ,在信标信道资源集中空闲的信标信道资源上上发送信标 信道, 在信标信道资源对应的广播信道资源上发送广播信号来指示接入资源, 使得移动终端 20在接入资源上连接移动终端 10, 从而接入网络, 避免了信标 信道的浪费, 更合理的使用信标信道及接入资源。 此外, 移动终端 10在接收 到访问移动终端 20的接入请求后, 才接入基站 30请求成为基站移动终端,避 免了资源的浪费。 为便于更好的实施本发明实施例的上述方案,下面还提供用于配合实施上 述方案的相关装置。
参阅图 5 , 本发明实施例提供的一种移动终端 50, 包括读取模块 500、 广 播模块 510及接收模块 520。 读取模块 500用于读取另一移动终端的网络接入 的帮忙请求。 另一移动终端未被网络覆盖或弱覆盖, 因而请求移动终端 50帮 忙接入网络。
广播模块 510, 用于在所述网络的基站分配的信标信道资源上发送信标信 道,在与所述信标信道资源对应的广播信道资源上发送广播信号, 所述广播信 号包括接入资源。 接收模块 520, 用于接收所述另一移动终端在所述接入资源 上的接入请求, 辅助所述另一移动终端接入网络。
参阅图 6, 广播模块 510包括网络连接子模块 511及广播子模块 512。 在本发明的一些实施方式中,网络连接子模块 511用于发送成为基站移动 终端的请求至所述网络,并接收所述网络分配的所述网络的基站分配的信标信 道资源、所述广播信道资源及所述接入资源。 广播子模块 512用于在所述信标 信道资源上发送所述信标信道,在所述广播信道资源上发送所述广播信号, 所 述广播信号包括所述接入资源。
在本发明的一些实施方式中,所述网络连接子模块 511接收所述网络以无 线资源控制协议信令分配的所述网络的基站分配的信标信道资源、所述广播信 道资源及所述接入资源。
在本发明的一些实施方式中,网络连接子模块 511用于驻留在所述网络的 基站,通过所述基站的广播获取信标信道资源集及接入资源集, 所述信标信道 资源集包括所述空闲的信标信道资源, 所述接入资源集包括所述接入资源。 广 播子模块 512 用于在所述信标信道资源集中空闲的信标信道资源上发送所述 信标信道,在与所述信标信道资源对应的所述广播信道资源上发送所述广播信 号, 所述广播信号包括所述接入资源。
在本发明的一些实施方式中,所述网络连接子模块 511还用于在所述接收 模块接收到所述接入请求后 ,接入所述基站并请求所述移动终端成为基站移动 终端, 从而辅助所述另一移动终端接入所述网络。
可以理解的是, 本实施例的移动终端 50, 例如, 可以是计算机、 手机及 平板电脑等。
可以理解的是, 本实施例的移动终端 50的各功能模块的功能可根据上述 方法第一至第三实施例中的方法具体实现,其具体实现过程可参照上述方法第 一至第三实施例中的相关描述, 此处不再赘述。
上述的移动终端 50在所述网络的基站分配的信标信道资源上发送信标信 道,在信标信道资源对应的广播信道资源上发送广播信号来指示接入资源,使 得另一移动终端在接入资源上连接移动终端 50, 从而接入网络, 避免了信标 信道的浪费, 更合理的使用信标信道及接入资源。 参阅图 7, 本发明实施例提供的一种移动终端 70, 与图 5 中的移动终端 50的不同之处在于除包括读取模块 500、 广播模块 510、 接收模块 520外, 还 包括基站模块 700。 其中读取模块 500、 广播模块 510、 接收模块 520与图 5 中的对应模块大致相同, 此处不再赘述。 基站模块 700 用于使所述移动终端 70成为基站移动终端。
所述广播模块 510也包括图 6中的网络连接子模块 511及广播子模块 512。 网络连接子模块 511用于发送分配请求至所述网络,并接收所述网络分配的所 述网络的基站分配的信标信道资源、所述广播信道资源及所述接入资源。 广播 子模块 512用于在所述信标信道资源上发送所述信标信道,在所述广播信道资 源上发送所述广播信号, 所述广播信号包括所述接入资源。
在本发明的一些实施方式中,所述网络连接子模块 511接收所述网络以无 线资源控制协议信令分配的所述网络的基站分配的信标信道资源、所述广播信 道资源及所述接入资源。
可以理解的是, 本实施例的移动终端 70, 例如, 可以是计算机、 手机及 平板电脑等。
可以理解的是, 本实施例的移动终端 70的各功能模块的功能可根据上述 方法第一至第三实施例中的方法具体实现,其具体实现过程可参照上述方法第 一至第三实施例中的相关描述, 此处不再赘述。
上述的移动终端 70在所述网络的基站分配的信标信道资源上发送信标信 道,在信标信道资源对应的广播信道资源上发送广播信号来指示接入资源,使 得另一移动终端在接入资源上连接移动终端 70, 从而接入网络, 避免了信标 信道的浪费, 更合理的使用信标信道及接入资源。 本发明实施例还提供一种计算机存储介质, 其中, 所述计算机存储介质可 存储有程序,该程序执行时包括上述方法实施例中记载的数据处理方法的部分 或全部步骤。
参阅图 8, 本发明实施例还提供一种移动终端 80, 包括处理器 810、 存储 器 800、输入装置 820及输出装置 830 (移动终端 80中的处理器 810的数量可 以为一个或多个, 图 8中以一个处理器为例)。 在本发明的一些实施例中, 输 入装置 820、 输出装置 830、 存储器 800和处理器 810可通过总线或其它方式 连接, 其中, 图 8中以通过总线连接为例。
其中, 处理器 810执行如下步骤:
读取到移动终端的网络接入的帮忙请求;
在所述网络的基站分配的信标信道资源上发送信标信道,在与所述信标信 道资源对应的广播信道资源上发送广播信号, 所述广播信号包括接入资源; 及 接收到所述移动终端在所述接入资源上的接入请求,辅助所述移动终端接 入网络。
在本发明的一些实施方式中,所述处理器 810执行的在所述网络的基站分 配的信标信道资源上发送信标信道,在与所述信标信道资源对应的广播信道资 源上发送广播信号, 所述广播信号包括接入资源的步骤进一步包括: 发送成为 基站移动终端的请求至所述网络;接收所述网络分配的所述网络的基站分配的 信标信道资源、所述广播信道资源及所述接入资源; 及在所述信标信道资源上 发送所述信标信道,在所述广播信道资源上发送所述广播信号, 所述广播信号 包括所述接入资源。
在本发明的一些实施方式中,所述处理器 810执行的在所述网络的基站分 配的信标信道资源上发送信标信道,在与所述信标信道资源对应的广播信道资 源上发送广播信号, 所述广播信号包括接入资源的步骤进一步包括: 成为基站 移动终端; 发送分配请求至所述网络;接收所述网络分配的所述网络的基站分 配的信标信道资源、所述广播信道资源及所述接入资源; 及在所述信标信道资 源上发送所述信标信道,在所述广播信道资源上发送所述广播信号, 所述广播 信号包括所述接入资源。
在本发明的一些实施方式中,所述处理器 810执行的接收到所述移动终端 在所述接入资源上的接入请求, 辅助所述移动终端接入网络的步骤进一步包 括: 接收到所述移动终端在所述接入资源上的接入请求,辅助所述移动终端完 成接入所述网络。
在本发明的一些实施方式中,所述处理器 810执行的接收所述网络分配的 所述网络的基站分配的信标信道资源、所述广播信道资源及所述接入资源的步 骤进一步包括:接收所述网络以无线资源控制协议信令分配的所述网络的基站 分配的信标信道资源、 所述广播信道资源及所述接入资源。
在本发明的一些实施方式中,所述处理器 810执行的在所述网络的基站分 配的信标信道资源上发送信标信道,在与所述信标信道资源对应的广播信道资 源上发送广播信号, 所述广播信号包括接入资源的步骤进一步包括:
驻留在所述网络的基站 ,通过所述基站的广播获取信标信道资源集及接入 资源集, 所述信标信道资源集包括所述空闲的信标信道资源, 所述接入资源集 包括所述接入资源;及在所述信标信道资源集中空闲的信标信道资源上发送所 述信标信道,在与所述信标信道资源对应的所述广播信道资源上发送所述广播 信号, 所述广播信号包括所述接入资源。
在本发明的一些实施方式中,所述处理器 810执行的接收到所述移动终端 在所述接入资源上的接入请求, 辅助所述移动终端接入网络的步骤进一步包 括:接收到所述移动终端在所述接入资源上的接入请求; 及接入所述基站并请 求成为基站移动终端, 从而辅助所述移动终端完成接入所述网络。
可以理解的是, 本实施例的移动终端 80的各功能模块的功能可根据上述 方法第一至第三实施例中的方法具体实现,其具体实现过程可参照上述方法第 一至第三实施例中的相关描述, 此处不再赘述。
需要说明的是, 对于前述的各方法实施例, 为了简单描述, 故将其都表述 为一系列的动作组合,但是本领域技术人员应该知悉,本发明并不受所描述的 动作顺序的限制,因为依据本发明,某些步骤可以釆用其他顺序或者同时进行。 其次, 本领域技术人员也应该知悉,说明书中所描述的实施例均属于优选实施 例, 所涉及的动作和模块并一定是本发明所必须的。
在上述实施例中,对各个实施例的描述都各有侧重, 某个实施例中没有详 述的部分, 可以参见其他实施例的相关描述。
综上,本发明实施例中的移动终端接入网络的方法及移动终端在所述网络 的基站分配的信标信道资源上发送信标信道,在信标信道资源对应的广播信道 资源上发送广播信号来指示接入资源,使得另一移动终端在接入资源上连接移 动终端, 从而接入网络, 避免了信标信道的浪费, 更合理的使用信标信道及接 入资源。
本领域普通技术人员可以理解上述实施例的各种方法中的全部或部分步 骤是可以通过程序来指令相关的硬件来完成,该程序可以存储于一计算机可读 存储介质中, 存储介质例如可以包括: 只读存储器、 随机存储器、 磁盘或光盘 等。
以上对本发明实施例所提供的移动终端接入网络的方法及移动终端进行 以上实施例的说明只是用于帮助理解本发明的方法及其核心思想; 同时,对于 本领域的一般技术人员,依据本发明的思想,在具体实施方式及应用范围上均 有改变之处, 综上, 本说明书内容不应理解为对本发明的限制。

Claims

权 利 要 求
1. 一种移动终端接入网络的方法, 其特征在于, 包括:
读取到移动终端的网络接入的帮忙请求;
在所述网络的基站分配的信标信道资源上发送信标信道,在与所述信标信 道资源对应的广播信道资源上发送广播信号, 所述广播信号包括接入资源; 及 接收到所述移动终端在所述接入资源上的接入请求,辅助所述移动终端接 入网络。
2. 如权利要求 1 所述的移动终端接入网络的方法, 其特征在于, 在所述 网络的基站分配的信标信道资源上发送信标信道,在与所述信标信道资源对应 的广播信道资源上发送广播信号 ,所述广播信号包括接入资源的步骤进一步包 括:
和所述网络的基站建立无线资源控制协议 RRC连接, 发送成为基站移动 终端的请求至所述网络;
接收所述网络的基站分配的信标信道资源、所述广播信道资源及所述接入 资源; 及
在所述信标信道资源上发送所述信标信道,在所述广播信道资源上发送所 述广播信号, 所述广播信号包括所述接入资源。
3. 如权利要求 1 所述的移动终端接入网络的方法, 其特征在于, 在所述 网络的基站分配的信标信道资源上发送信标信道,在与所述信标信道资源对应 的广播信道资源上发送广播信号 ,所述广播信号包括接入资源的步骤进一步包 括:
成为基站移动终端;
发送分配请求至所述网络;
接收所述网络的基站分配的信标信道资源、所述广播信道资源及所述接入 资源; 及
在所述信标信道资源上发送所述信标信道,在所述广播信道资源上发送所 述广播信号, 所述广播信号包括所述接入资源。
4. 如权利要求 2或 3所述的移动终端接入网络的方法, 其特征在于, 接 收到所述移动终端在所述接入资源上的接入请求,辅助所述移动终端接入网络 的步骤进一步包括:
接收到所述移动终端在所述接入资源上的接入请求,辅助所述移动终端完 成接入所述网络。
5. 如权利要求 2或 3所述的移动终端接入网络的方法, 其特征在于, 接 收所述网络的基站分配的信标信道资源、所述广播信道资源及所述接入资源的 步骤进一步包括:
接收所述网络的基站以无线资源控制协议信令分配的信标信道资源、所述 广播信道资源及所述接入资源。
6. 如权利要求 1 所述的移动终端接入网络的方法, 其特征在于, 在所述 网络的基站分配的信标信道资源上发送信标信道,在与所述信标信道资源对应 的广播信道资源上发送广播信号 ,所述广播信号包括接入资源的步骤进一步包 括:
驻留在所述网络的基站 ,通过所述基站的广播获取信标信道资源集及接入 资源集, 所述信标信道资源集包括所述空闲的信标信道资源, 所述接入资源集 包括所述接入资源; 及
在所述信标信道资源集中的空闲的信标信道资源上发送所述信标信道,在 与所述信标信道资源对应的所述广播信道资源上发送所述广播信号 ,所述广播 信号包括所述接入资源。
7. 如权利要求 6所述的移动终端接入网络的方法, 其特征在于, 接收到 所述移动终端在所述接入资源上的接入请求,辅助所述移动终端接入网络的步 骤进一步包括:
接收到所述移动终端在所述接入资源上的接入请求; 及
接入所述基站并请求成为基站移动终端,从而辅助所述移动终端完成接入 所述网络。
8. 一种移动终端, 其特征在于, 包括:
读取模块, 用于读取另一移动终端的网络接入的帮忙请求;
广播模块, 用于在所述网络的基站分配的信标信道资源上发送信标信道, 在与所述信标信道资源对应的广播信道资源上发送广播信号,所述广播信号包 括接入资源; 及
接收模块, 用于接收所述另一移动终端在所述接入资源上的接入请求,辅 助所述另一移动终端接入网络。
9. 如权利要求 8所述的移动终端, 其特征在于, 所述广播模块包括: 网络连接子模块, 用于和所述网络的基站建立无线资源控制协议 RRC 连 接,发送成为基站移动终端的请求至所述网络, 并接收所述网络的基站分配的 信标信道资源、 所述广播信道资源及所述接入资源; 及
广播子模块,用于在所述网络的基站分配的信标信道资源上发送所述信标 信道,在所述广播信道资源上发送所述广播信号, 所述广播信号包括所述接入 资源。
10. 如权利要求 8所述的移动终端, 其特征在于, 还包括基站模块, 用于 使所述移动终端成为基站移动终端, 所述广播模块包括:
网络连接子模块, 用于发送分配请求至所述网络, 并接收所述网络的基站 分配的信标信道资源、 所述广播信道资源及所述接入资源; 及
广播子模块, 用于在所述信标信道资源上发送所述信标信道,在所述广播 信道资源上发送所述广播信号, 所述广播信号包括所述接入资源。
11. 如权利要求 9或 10所述的移动终端, 其特征在于, 所述网络连接子 模块接收所述网络以无线资源控制协议信令分配的所述网络的基站分配的信 标信道资源、 所述广播信道资源及所述接入资源。
12. 如权利要 8所述的移动终端, 其特征在于, 所述广播模块包括: 网络连接子模块, 用于驻留在所述网络的基站, 通过所述基站的广播获取 信标信道资源集及接入资源集 ,所述信标信道资源集包括所述空闲的信标信道 资源, 所述接入资源集包括所述接入资源; 及
广播子模块,用于在所述信标信道资源集中空闲的信标信道资源上发送所 述信标信道,在与所述信标信道资源对应的所述广播信道资源上发送所述广播 信号, 所述广播信号包括所述接入资源。
13. 如权利要求 12所述的移动终端, 其特征在于, 所述网络连接子模块 还用于在所述接收模块接收到所述接入请求后,接入所述基站并请求所述移动 终端成为基站移动终端, 从而辅助所述另一移动终端接入所述网络。
14. 一种计算机存储介质, 其特征在于,
所述计算机存储介质可存储有程序, 该程序执行时包括如权利要求 1至 Ί 任一项所述的步骤。
15. 一种移动终端, 其特征在于, 包括输入装置、 输出装置、 存储器及处 理器;
其中, 所述处理器执行如下步骤:
读取到移动终端的网络接入的帮忙请求;
在所述网络的基站分配的信标信道资源上发送信标信道,在与所述信标信 道资源对应的广播信道资源上发送广播信号, 所述广播信号包括接入资源; 及 接收到所述移动终端在所述接入资源上的接入请求,辅助所述移动终端接 入网络。
16. 如权利要求 15 所述的移动终端, 其特征在于, 所述处理器执行的在 所述网络的基站分配的信标信道资源上发送信标信道,在与所述信标信道资源 对应的广播信道资源上发送广播信号 ,所述广播信号包括接入资源的步骤进一 步包括: 和所述网络的基站建立无线资源控制协议 RRC连接, 发送成为基站移动 终端的请求至所述网络;
接收所述网络的基站分配的信标信道资源、所述广播信道资源及所述接入 资源; 及
在所述信标信道资源上发送所述信标信道,在所述广播信道资源上发送所 述广播信号, 所述广播信号包括所述接入资源。
17. 如权利要求 15 所述的移动终端, 其特征在于, 所述处理器执行的在 所述网络的基站分配的信标信道资源上发送信标信道,在与所述信标信道资源 对应的广播信道资源上发送广播信号 ,所述广播信号包括接入资源的步骤进一 步包括:
成为基站移动终端;
发送分配请求至所述网络;
接收所述网络的基站分配的信标信道资源、所述广播信道资源及所述接入 资源; 及
在所述信标信道资源上发送所述信标信道,在所述广播信道资源上发送所 述广播信号, 所述广播信号包括所述接入资源。
18. 如权利要求 16或 17所述的移动终端, 其特征在于, 所述处理器执行 的接收到所述移动终端在所述接入资源上的接入请求,辅助所述移动终端接入 网络的步骤进一步包括:
接收到所述移动终端在所述接入资源上的接入请求,辅助所述移动终端完 成接入所述网络。
19. 如权利要求 16或 17所述的移动终端, 其特征在于, 所述处理器执行 的接收所述网络分配的所述网络的基站分配的信标信道资源、所述广播信道资 源及所述接入资源的步骤进一步包括:
接收所述网络的基站以无线资源控制协议信令分配的信标信道资源、所述 广播信道资源及所述接入资源。
20. 如权利要求 15 所述的移动终端, 其特征在于, 所述处理器执行的在 所述网络的基站分配的信标信道资源上发送信标信道,在与所述信标信道资源 对应的广播信道资源上发送广播信号 ,所述广播信号包括接入资源的步骤进一 步包括:
驻留在所述网络的基站 ,通过所述基站的广播获取信标信道资源集及接入 资源集, 所述信标信道资源集包括所述空闲的信标信道资源, 所述接入资源集 包括所述接入资源; 及
在信标信道资源集中空闲的信标信道资源上发送所述信标信道,在与所述 信标信道资源对应的所述广播信道资源上发送所述广播信号,所述广播信号包 括所述接入资源。
21. 如权利要求 20所述的移动终端, 其特征在于, 所述处理器执行的接 收到所述移动终端在所述接入资源上的接入请求,辅助所述移动终端接入网络 的步骤进一步包括:
接收到所述移动终端在所述接入资源上的接入请求; 及
接入所述基站并请求成为基站移动终端,从而辅助所述移动终端完成接入 所述网络。
PCT/CN2013/070522 2013-01-16 2013-01-16 移动终端接入网络的方法及移动终端 WO2014110726A1 (zh)

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