WO2010017752A1 - 通话无缝切换方法和移动终端 - Google Patents

通话无缝切换方法和移动终端 Download PDF

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Publication number
WO2010017752A1
WO2010017752A1 PCT/CN2009/073141 CN2009073141W WO2010017752A1 WO 2010017752 A1 WO2010017752 A1 WO 2010017752A1 CN 2009073141 W CN2009073141 W CN 2009073141W WO 2010017752 A1 WO2010017752 A1 WO 2010017752A1
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WO
WIPO (PCT)
Prior art keywords
wireless network
network
mobile terminal
call
voip call
Prior art date
Application number
PCT/CN2009/073141
Other languages
English (en)
French (fr)
Inventor
刘海军
Original Assignee
中兴通讯股份有限公司
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 中兴通讯股份有限公司 filed Critical 中兴通讯股份有限公司
Priority to JP2011522371A priority Critical patent/JP5624985B2/ja
Priority to US13/057,718 priority patent/US8625541B2/en
Priority to EP09806355.5A priority patent/EP2320696B1/en
Publication of WO2010017752A1 publication Critical patent/WO2010017752A1/zh

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Classifications

    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W36/00Hand-off or reselection arrangements
    • H04W36/0005Control or signalling for completing the hand-off
    • H04W36/0011Control or signalling for completing the hand-off for data sessions of end-to-end connection
    • H04W36/0019Control or signalling for completing the hand-off for data sessions of end-to-end connection adapted for mobile IP [MIP]
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W36/00Hand-off or reselection arrangements
    • H04W36/16Performing reselection for specific purposes
    • H04W36/18Performing reselection for specific purposes for allowing seamless reselection, e.g. soft reselection

Definitions

  • VOIP Voice Over IP
  • Internet Protocol Internet Protocol
  • the basic principle of VOIP is: compress and encode speech by voice compression algorithm, then package the compressed voice data according to relevant protocols (such as IP protocol), and transmit the data packets to the destination through the IP network.
  • the data packets are strung together, and after being decoded and decompressed, the original voice signal is restored, thereby achieving the purpose of transmitting voice by the IP network.
  • the IP telephone system converts the analog signal of the ordinary telephone into an IP data packet that the computer can connect to the Internet, and also converts the received IP data packet into an analog electrical signal of the sound.
  • the application of voice communication between computer networks and fixed-line networks has matured using VOIP software on personal computers (PCs).
  • PCs personal computers
  • the device capability of the mobile terminal and the increase of the network bandwidth make it possible to realize real-time voice data intercommunication between the computer network terminal and the mobile communication network terminal and the mobile communication network terminal.
  • IP telephony applications can be implemented on IP-based data communication networks such as enterprise LANs, WANs, and the Internet. Calling international and domestic long-distance calls over IP phones is inexpensive, reducing call costs and ensuring good voice quality.
  • a mobile phone can support multiple wireless technologies to access the telephone service network.
  • the mobile phone can support VOIP call functions.
  • the mobile phone supports general grouping.
  • Wireless Packet Network General Packet Radio Service
  • RFID Enhanced Data Rate for GSM Evolution
  • RFID IEEE 802.11b-based Wireless Office i or Network
  • WIFI Wireless Fidelity
  • WIFI Worldwide Interoperability for Microwave Access
  • IP link of the core network is accessed through these networks to provide VOIP services.
  • an object of embodiments of the present invention is to provide a seamless handover method for implementing VOIP call interruption on a mobile terminal supporting multiple wireless networks.
  • a call seamless handover method is provided.
  • the call seamless handover method is applied to a VOIP call, including: the first mobile terminal establishes a first VOIP call with the second terminal through the initial wireless network; when the first mobile terminal detects that a handover event occurs, The first mobile terminal acquires a target wireless network; the first mobile terminal sends a second session request to the second terminal through the target wireless network, and keeps the first VOIP call continuing; the first mobile terminal receives the second terminal to the second session request After confirming the information, a second VOIP call is established with the second terminal through the target wireless network, and the first VOIP call is ended after the second VOIP call is established.
  • the method further includes: the first mobile terminal sends the test information to the wireless network, and determines and records the state information of the wireless network supported by the first mobile terminal according to the feedback information, and updates the network list; the first mobile terminal according to the network
  • the status information of the wireless network in the list is obtained by the target wireless network.
  • the wireless network establishes a priority level according to the preset parameter, and the target wireless network acquired by the first mobile terminal is the wireless network with the highest priority level in the network list.
  • the preset parameters include: network quality of the wireless network, a tariff of the wireless network, a quality of service of the wireless network, and a call requirement of the user.
  • the method further includes: preset a time threshold, the first mobile terminal sends test information to the wireless network every interval time threshold, obtains feedback information of each wireless network, and updates the network list of the first mobile terminal according to the feedback information.
  • the handover event comprises: the current wireless network quality is lower than a preset threshold, the user's handover request, and the coverage of leaving the wireless network.
  • the wireless network comprises:
  • a mobile terminal includes: a detecting unit, configured to detect whether a switching event occurs; and a selecting unit, configured to select a target wireless network;
  • a VOIP call unit configured to send/receive a VOIP session request, establish a first VOIP call with the second terminal through the initial wireless network and the IP core network, and select a target wireless network by the selecting unit after the detecting unit detects the occurrence of the handover event And the IP core network establishes a second VOIP call with the second terminal; and the switching unit is configured to end the first VOIP call after the second VOIP call is established, and switch the initial wireless network to the target wireless network.
  • the mobile terminal further includes: a management unit, configured to send test information to the wireless network, and determine and record status information of the wireless network supported by the first mobile terminal according to the feedback information, and update the network list; and the storage unit is configured to store
  • the network list includes a wireless network and status information supported by the mobile terminal, and the selection unit selects the target wireless network from the network list of the storage unit.
  • the wireless network in the network list establishes a priority level according to a preset parameter, and the target wireless network is a wireless network with the highest priority level in the network list.
  • the handover event comprises: the current wireless network quality is lower than a preset threshold, the user's handover request, and the coverage of leaving the wireless network.
  • the wireless network comprises: a WIFI network, a WIMAX network, an LTE network, an EDGE network.
  • a wireless network with better quality is selected as the target wireless network when the current wireless network quality is degraded, thereby causing the user's call quality to decrease, or when leaving the current wireless network, or when another handover event occurs.
  • initiating a second session request on the target wireless network establishing a second VOIP call, and then switching from the initial wireless network to the target wireless network after the second VOIP call is established, so that the user's call is not interrupted, and the Seamlessly switch freely, and be able to make calls using a better wireless network to improve the quality of the user's call.
  • FIG. 1 is a flow chart of a seamless call switching method according to a preferred embodiment 1 of the present invention
  • FIG. 2 is a flow chart of a seamless call switching method according to a preferred embodiment 2 of the present invention
  • 3 is a schematic diagram of a SIP signaling flow according to an embodiment of the present invention
  • FIG. 4 is a schematic structural diagram of a mobile terminal according to a preferred embodiment 3 of the present invention
  • FIG. 5 is a mobile terminal according to a preferred embodiment 4 of the present invention
  • a second VOIP is established by acquiring a target wireless network and initiating a second session request through the target wireless network when the mobile terminal detects a handover event.
  • the call is switched from the initial wireless network to the target wireless network after the second VOIP call is established, so that the user's call is not interrupted, and seamless seamless switching can be realized.
  • FIG. 1 is a flowchart of a seamless call handover method according to a preferred embodiment 1 of the present invention.
  • the method includes steps 101 to 107:
  • the network establishes a first VOIP call with the second terminal, and proceeds to step 102.
  • the method for seamlessly switching a call according to the embodiment of the present invention is performed on a mobile terminal, and the mobile terminal may be a mobile phone.
  • the mobile terminal may be a mobile phone.
  • mobile phones and mobile phones, mobile phones and fixed telephones, mobile phones and computers can establish VOIP calls over wireless networks and IP core networks.
  • the second terminal may be a fixed telephone, a mobile phone or a computer.
  • the embodiment of the present invention preferably supports a mobile phone supporting a VOIP call.
  • Step 103 Detect whether a handover event occurs, and if yes, proceed to step 104, otherwise, return to step 102.
  • a handover event may include, but is not limited to, a current wireless network quality lower than a preset threshold, a user's handover request, and a coverage of leaving the wireless network.
  • the preset threshold may be limited according to actual needs, such as the user cannot make a call, and the quality of the call is excessively decreased.
  • Step 104 Determine whether the target wireless network is available. If yes, go to step 105. Otherwise, repeat this step. It is easy to understand that the network quality or other parameters of the target wireless network are better than the current wireless network, and can achieve better call quality.
  • Step 105 Send a second session request to the second terminal by using the target wireless network.
  • the first mobile terminal ie, the mobile phone
  • Step 107 Establish a second VOIP call with the second terminal by using the target wireless network, and switch from the initial wireless network to the target wireless network.
  • the first mobile terminal After receiving the confirmation information of the second terminal, the first mobile terminal indicates that the VOIP call can be established, and the first mobile terminal establishes a second VOIP call with the second terminal through the target wireless network and the IP core network, and after the second VOIP call is established, End the first VOIP call and switch from the initial wireless network to the target wireless network.
  • the wireless network described in the embodiments of the present invention includes but is not limited to a WIFI network, a WIMAX network, an LTE network, and an EDGE network.
  • the technical solution provided by the embodiment of the present invention selects a better quality wireless network as the target wireless network when the current wireless network quality is degraded, causing the user's call quality to decrease, or when leaving the current wireless network, or when another handover event occurs. And initiating a second session request on the target wireless network, establishing a second VOIP call, and then switching from the initial wireless network to the target wireless network after the second VOIP call is established, so that the user's call is not interrupted, and the Seamlessly switch freely, and be able to make calls using a better wireless network to improve the quality of the user's call.
  • 2 is a flowchart of a seamless call handover method according to a preferred embodiment 2 of the present invention.
  • the method includes steps 201 to 208: Step 201: The first mobile terminal establishes a first VOIP with the second terminal by using the initial wireless network. After the call, go to step 202.
  • the call seamless handover method in the embodiment of the present invention is performed on a mobile terminal, and the mobile terminal may be a mobile phone.
  • the mobile terminal may be a mobile phone.
  • mobile phones and mobile phones, mobile phones and fixed telephones, mobile phones and computers can establish VOIP calls over wireless networks and IP core networks. In order to save space, the principle of the VOIP call establishment process is not described in detail here.
  • the second terminal may be a fixed telephone, a mobile phone or a computer.
  • the embodiment of the present invention preferably supports a mobile phone supporting a VOIP call.
  • Step 202 Determine whether the call ends, and if yes, end the process; otherwise, enter the step 203.
  • Step 203 Measure a wireless network.
  • the first mobile terminal sends test information to each wireless network, and determines the wireless network supported by the first mobile terminal and the status information of each wireless network according to the feedback information of each wireless network. When a new available wireless network is found, the new The wireless network registers with the core network and establishes a network list on the first mobile terminal, and the first mobile terminal acquires the target wireless network from the network list.
  • step 203 is not necessarily limited to after step 202, and is performed before step 204. This step can be performed at any time, for example, when the mobile phone is not in a call, the present invention is not affected.
  • Each wireless network in the network list establishes a priority level according to a preset parameter, and the target wireless network acquired by the first mobile terminal is a wireless network with the highest priority level in the network list.
  • Preset parameters include, but are not limited to, the network quality of the wireless network, the tariff of the wireless network, the quality of service of the wireless network, and the call requirements of the user.
  • the mobile phone tests the wireless network, and preferably presets a time threshold.
  • the first mobile terminal sends test information to the wireless network every time interval interval, obtains feedback information of each wireless network, and updates the first mobile according to the feedback information.
  • a list of networks for the terminal is not allowed to make any restrictive explanation because of the step number of this step.
  • the time threshold may be set according to the implemented network conditions and the user requirements, and may be ls, 10s, 100s, etc., which is not limited in the embodiment of the present invention, so as to update the network list of the mobile terminal according to actual conditions.
  • the mobile terminal finds that a new wireless network is available, it registers with the core network through the newly discovered wireless network, and maintains the network list on the mobile terminal, that is, records the newly discovered wireless network parameters to the network list.
  • Step 204 Detect whether a handover event occurs, and if yes, proceed to step 205, otherwise, return to step 202.
  • the handover event of the embodiment of the present invention includes, but is not limited to, a current wireless network quality lower than a preset threshold, a user's handover request, and a coverage of leaving the wireless network.
  • the preset threshold may be limited according to actual needs, such as the user cannot make a call, and the quality of the call is excessively decreased.
  • Step 205 Determine whether there is a target wireless network available in the network list. If yes, go to step 206. Otherwise, repeat the jib step.
  • the first mobile terminal selects the wireless network with the highest priority level as the target wireless network, and the priority level can be arranged according to different requirements, such as setting different parameters, for example, It can be arranged according to the tariff of the wireless network, arranged according to the current network quality, arranged according to the coverage of the network, and comprehensively arranged according to these parameters.
  • Step 206 Send a second session request to the second terminal by using the target wireless network.
  • the first mobile terminal (ie, the mobile phone) sends a second session request to the second terminal through the target wireless network and the IP core network, requesting to establish a second VOIP call, waiting for feedback from the second terminal, and using the handover in the second session request Messages such as IP address.
  • Step 207 After receiving the confirmation information of the second session request by the second terminal, proceed to step 208. Sending a session request to the second terminal by the mobile terminal until receiving the confirmation information of the second terminal and establishing the second VOIP call, the first VOIP call remains uninterrupted, and the first mobile terminal continues to pass the first VOIP call and the second terminal Make a call.
  • Step 208 Establish a second VOIP call with the second terminal by using the target wireless network, and switch from the initial wireless network to the target wireless network.
  • the first mobile terminal After receiving the confirmation information of the second terminal, the first mobile terminal indicates that the VOIP call can be established, and the first mobile terminal establishes a second VOIP call with the second terminal through the target wireless network and the IP core network, and after the second VOIP call is established, Ending the first VOIP call, switching from the initial wireless network to the target wireless network, and the call between users continues on the new network.
  • the wireless network described in the embodiments of the present invention includes but is not limited to a WIFI network, a WIMAX network, an LTE network, and an EDGE network.
  • the technical solution provided by the embodiment of the present invention selects a wireless network with the highest priority level as the target wireless network when the current wireless network quality is degraded and the quality of the user's call is degraded, or when the current wireless network is left, or other switching events occur. And initiating a second session request on the target wireless network, establishing a second VOIP call, and then switching from the initial wireless network to the target wireless network after the second VOIP call is established, so that the user's call is not interrupted, Seamless seamless switching, and the mobile terminal continuously tests each wireless network. Update the network list in time to find the current optimal wireless network and switch to the higher priority wireless network in time.
  • FIG. 3 is a schematic diagram of a SIP signaling process according to an embodiment of the present invention.
  • Step 301 The terminal a and the terminal b establish a VOIP session through SIP signaling. After the session is successfully established, the media packet is transmitted and the call is made.
  • Step 302 When the terminal a has an event that needs to be switched, for example, when the current network signal is weak and another wireless network signal is good, the terminal a sends a SIP REFER message. The transmitted REFER message carries information used during handover, such as an IP address.
  • Step 303 The terminal b responds to the SIP 202 message and accepts the request.
  • Step 305 The terminal a responds to the SIP 200 OK message to the terminal b.
  • Step 306 The two parties establish a new session again. After the establishment is successful, the original session is ended, and the media is transmitted in the new session, and the two parties continue to talk.
  • the technical solutions in the embodiments of the present invention are applicable to a 3GPP IMS i or a 3GPP2 MMD domain. From the above description, it can be seen that the seamless call handover method provided by the embodiment of the present invention can implement seamless free handover, and can perform calls by using a better wireless network, thereby improving the quality of the call of the user.
  • FIG. 4 is a schematic structural diagram of a mobile terminal according to a preferred embodiment 3 of the present invention. As shown in FIG. 4, the mobile terminal includes: a detecting unit 401, configured to detect whether a handover event occurs.
  • the VOIP call unit 402 is configured to send/receive a VOIP session request, establish a first VOIP call with the second terminal by using the initial wireless network and the IP core network, and pass the target wireless network and the IP core after the detecting unit detects the occurrence of the handover event.
  • the network establishes a second VOIP call with the second terminal.
  • the switching unit 403 is configured to end the first VOIP call after the second VOIP call is established, and switch the initial wireless network to the target wireless network.
  • the selecting unit 404 is configured to select a target wireless network.
  • a mobile terminal further includes: a unit commonly used on a mobile terminal such as a central processing unit, a display unit, an antenna unit, and a button unit, etc., in order to save space, the mobile terminal is not used here.
  • a unit commonly used on a mobile terminal such as a central processing unit, a display unit, an antenna unit, and a button unit, etc.
  • the general components and the working principle and working process of each part are described in detail.
  • the working process and working principle of the above mobile terminal are described in detail below.
  • the mobile terminal first sends a session request to the second terminal through the VOIP call unit, and establishes a first VOIP call after the second terminal confirms.
  • the detecting unit of the mobile terminal detects whether a handover event occurs. .
  • the selecting unit selects a target wireless network, and sends a second session request to the second terminal by using the target wireless network to request to establish a second VOIP call.
  • the mobile terminal receives the confirmation information of the second terminal, The mobile terminal establishes a second VOIP call with the second terminal.
  • the switching unit switches the initial wireless network to the target wireless network, and the call between the users continues on the new network, thereby implementing seamless switching of the VOIP call.
  • a handover event may include, but is not limited to, a current wireless network quality lower than a preset threshold, a user's handover request, and a coverage of leaving the wireless network.
  • the preset threshold may be limited according to actual needs, such as the user cannot make a call, and the quality of the call is excessively decreased.
  • the above wireless network includes but is not limited to a WIFI network, a WIMAX network, an LTE network, and an EDGE network.
  • the technical solution provided by the embodiment of the present invention selects a better quality wireless network as the target wireless network when the current wireless network quality is degraded, causing the user's call quality to decrease, or when leaving the current wireless network, or when another handover event occurs. And initiate a second session request on the target wireless network, establish a second VOIP call, and then start from the second VOIP call.
  • FIG. 5 is a schematic structural diagram of a mobile terminal according to a preferred embodiment 4 of the present invention. As shown in FIG. 5, the mobile terminal includes: a detecting unit 401, configured to detect whether a handover event occurs.
  • the VOIP call unit 402 is configured to send/receive a VOIP session request, establish a first VOIP call with the second terminal by using the initial wireless network and the IP core network, and pass the target wireless network and the IP core after the detecting unit detects the occurrence of the handover event.
  • the network establishes a second VOIP call with the second terminal.
  • the switching unit 403 is configured to end the first VOIP call after the second VOIP call is established, and switch the initial wireless network to the target wireless network.
  • the selecting unit 404 is configured to select a target wireless network from the network list.
  • the management unit 501 is configured to send test information to the wireless network, and determine, according to the feedback information, the wireless network supported by the mobile terminal and status information of each wireless network, and when the new available wireless network is found, register with the core network through the new wireless network.
  • the storage unit 502 is configured to store a network list, where the network list includes a wireless network supported by the mobile terminal and status information of each wireless network.
  • the selection unit selects a target wireless network from a network list of the storage unit.
  • a mobile terminal according to the embodiment of the present invention further includes: a unit commonly used on a mobile terminal such as a central processing unit, a display unit, an antenna unit, and a button unit, etc., in order to save space, the mobile terminal is not used here.
  • the technical solution of the embodiment is different from the technical solution of the third embodiment of the mobile terminal, in that the mobile terminal sends the test information to the wireless network through the management unit, and determines the wireless network supported by the mobile terminal and the state information of each wireless network according to the feedback information. When a new available wireless network is discovered, it is registered with the core network through the new wireless network. And storing a network list in the storage unit, where the network list includes a wireless network supported by the mobile terminal and status information of each wireless network. Thereby, the wireless network supported by the mobile terminal and the state of each wireless network can be updated in real time, and a better target wireless network is provided for the handover of the mobile terminal.
  • Each wireless network in the foregoing network list establishes a priority level according to a preset parameter, and the target wireless network acquired by the first mobile terminal is the wireless network with the highest priority level in the network list.
  • the foregoing preset parameters include, but are not limited to, the network quality of the wireless network, the tariff of the wireless network, the quality of service of the wireless network, and the call requirements of the user.
  • the mobile phone tests the wireless network, preferably presets a time threshold.
  • the first mobile terminal sends test information to the wireless network every time interval interval, obtains feedback information of each wireless network, and updates the network of the first mobile terminal according to the feedback information. List.
  • the time threshold can be based on the implemented network ⁇ !
  • the dog condition and the user requirement are set, which may be ls, 10s, 100s, etc., which is not limited in the embodiment of the present invention, so as to update the network list of the mobile terminal according to actual conditions. It is easy to understand that when there are multiple available target wireless networks in the network list, the first mobile terminal selects the wireless network with the highest priority level as the target wireless network, and the above priority levels can be arranged according to different requirements and different parameters. For example, it can be arranged according to the tariff of the wireless network, arranged according to the current network quality, arranged according to the coverage of the network, and comprehensively arranged according to these parameters.
  • the handover event of the embodiment of the present invention includes, but is not limited to, a current wireless network quality lower than a preset threshold, a user's handover request, and a coverage of leaving the wireless network.
  • the preset threshold may be limited according to actual needs, such as the user cannot make a call, and the call quality is excessively decreased.
  • the above wireless network includes but is not limited to a WIFI network, a WIMAX network, an LTE network, and an EDGE network.
  • the technical solution in the embodiment of the present invention selects a wireless network with the highest priority level as the target wireless network when the current wireless network quality is degraded and the quality of the user's call is degraded, or when the current wireless network is left, or other switching events occur.
  • the technical solutions described in the embodiments of the present invention are applicable to a 3GPP IMS i or a 3GPP2 MMD domain.
  • the implementation of the present invention does not modify the system architecture and the current processing flow, is easy to implement, facilitates promotion in the technical field, and has strong industrial applicability.
  • modules or steps of the present invention can be implemented by a general-purpose computing device, which can be concentrated on a single computing device or distributed over a network composed of multiple computing devices. Alternatively, they may be implemented by program code executable by the computing device, such that they may be stored in the storage device by the computing device, or they may be separately fabricated into individual integrated circuit modules, or they may be Multiple modules or steps are made into a single integrated circuit module.
  • the invention is not limited to any specific combination of hardware and software.
  • the above is only the preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes can be made to the present invention. Any modifications, equivalent substitutions, improvements, etc. made within the scope of the present invention are intended to be included within the scope of the present invention.

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  • Engineering & Computer Science (AREA)
  • Computer Networks & Wireless Communication (AREA)
  • Signal Processing (AREA)
  • Mobile Radio Communication Systems (AREA)
  • Telephone Function (AREA)
  • Telephonic Communication Services (AREA)

Description

通话无缝切换方法和移动终端
技术领域 本发明主要涉及通信领域, 尤其涉及 VOIP通话中的无缝切换方法和移 动终端。 背景技术 网络协议语音( Voice Over IP,筒称为 VOIP )是建立在网络协议( Internet Protocol, 筒称为 IP )技术上的分组化、 数字化传输技术。 VOIP的基本原理 是: 通过语音压缩算法对语音进行压缩编码处理, 然后把压缩后的语音数据 按相关协议 (如, IP协议) 进行打包, 经过 IP网络把数据包传输到目的地, 再 这些语音数据包串起来, 经过解码解压处理后, 恢复成原来的语音信号, 从而达到由 IP网络传送语音的目的。
IP 电话系统把普通电话的模拟信号转换成计算机可联入因特网传送的 IP数据包, 同时也将收到的 IP数据包转换成声音的模拟电信号。 利用个人 计算机 ( Personal Computer, 筒称为 PC ) 上的 VOIP软件, 计算机网络与固 话网络进行语音通信的应用已发展成熟。 随着移动通讯的蓬勃发展, 移动终端的设备能力和网络带宽的提高, 使 得实现计算机网络终端和移动通信网络终端以及移动通信网络终端之间的实 时语音数据互通成为可能。 利用 VOIP技术, 可以在企业局域网、 广域网、 国际互联网等基于 IP的数据通信网络上开展 IP电话应用。 通过 IP电话拨打 国际、 国内长途的通话费用低廉, 可降低通话成本, 同时也能够保证良好的 语音质量。 随着网络通讯和无线技术的发展, 一部手机上可以做到同时支持 多种无线技术接入电话业务网络, 在这些无线技术的支持下, 手机可以支持 VOIP通话功能,例如,手机支持通用分组无线业务网络( General Packet Radio Service,筒称为 GPRS )、增强型数据速率 GSM演进网络( Enhanced Data Rate for GSM Evolution, 筒称为 EDGE )、 基于 IEEE 802.11b标准的无线局 i或网 ( Wireless Fidelity , 筒称为 WIFI )、 波存取全球互通网络 (Worldwide Interoperability for Microwave Access , 筒称为 WIMAX) , 并通过这些网络接 入核心网的 IP链路,提供 VOIP业务。 由于不同无线网络的覆盖建设、 资费、 月 务质量 ( QOS )各有不同, 用户在使用一种无线网络进行通话时, 如果通 话过程中离开了当前无线网络的覆盖 , 或者想切换到另一种无线网络, 会导 致通话中断。 因此需要一种无缝切换方法, 使得用户在各种无线网络切换过 程中, 保证原先发起的呼叫通话不会被中断, 能够进行自由切换。 发明内容 有鉴于此,本发明实施例的目的是提出一种在支持多种无线网络的移动 终端上实现 VOIP的通话不中断的无缝切换方法。 为了实现上述目的 , 才艮据本发明的一个方面, 提供了一种通话无缝切换 方法。 才艮据本发明的通话无缝切换方法, 应用于 VOIP通话中, 包括: 第一移动终端通过初始无线网络与第二终端建立第一 VOIP通话; 在第一移动终端检测到发生切换事件时,第一移动终端获取一目标无线 网络; 第一移动终端通过目标无线网络向第二终端发送第二会话请求,并保持 第一 VOIP通话继续; 第一移动终端接收到第二终端对第二会话请求的确认信息后 ,通过目标 无线网络与第二终端建立第二 VOIP通话, 并在建立第二 VOIP通话后结束 第一 VOIP通话。 优选地, 上述方法还包括: 第一移动终端向无线网络发送测试信息 ,并才艮据反馈信息确定并记录第 一移动终端支持的无线网络的状态信息, 更新网络列表; 第一移动终端根据网络列表中无线网络的状态信息获取目标无线网络。 优选地, 无线网络才艮据预设参数建立优先级等级, 第一移动终端获取的 目标无线网络为网络列表中优先级等级最高的无线网络。 优选地, 预设参数包括: 无线网络的网络质量、 无线网络的资费、 无线 网络的服务质量、 用户的通话需求。 优选地, 上述方法还包括: 预设一时间阈值, 第一移动终端每间隔时间 阈值向无线网络发送测试信息, 获取各无线网络的反馈信息, 并根据反馈信 息更新第一移动终端的网络列表。 优选地, 切换事件包括: 当前无线网络质量低于预设阈值、 用户的切换 请求、 离开无线网络的覆盖范围。 优选地, 无线网络包括:
WIFI网络、 WIMAX网络、 LTE网络、 EDGE网络。 为了实现上述目的, 才艮据本发明的另一个方面, 提供了一种移动终端。 居本发明的移动终端, 包括: 检测单元, 用于检测是否发生切换事件; 选择单元, 用于选择目标无线网络;
VOIP通话单元 , 用于发送\接收 VOIP会话请求 , 通过初始无线网络和 IP核心网与第二终端建立第一 VOIP通话, 并在检测单元检测到发生切换事 件后 , 通过选择单元选择的目标无线网络和 IP 核心网与第二终端建立第二 VOIP通话; 切换单元, 用于在第二 VOIP通话建立后, 结束第一 VOIP通话, 将初 始无线网络切换至目标无线网络。 优选地, 上述移动终端还包括: 管理单元, 用于向无线网络发送测试信息, 并根据反馈信息确定并记录 第一移动终端支持的无线网络的状态信息, 更新网络列表; 存储单元, 用于存储网络列表, 网络列表包括移动终端支持的无线网络 及状态信息 , 选择单元从存储单元的网络列表中选择目标无线网络。 优选地 , 网络列表中的无线网络才艮据预设参数建立优先级等级 , 目标无 线网络为网络列表中优先级等级最高的无线网络。 优选地, 切换事件包括: 当前无线网络质量低于预设阈值、 用户的切换 请求、 离开无线网络的覆盖范围。 优选地, 无线网络包括: WIFI网络、 WIMAX网络、 LTE网络、 EDGE 网络。 根据本发明提供的技术方案 ,通过在当前无线网络质量下降从而导致用 户通话质量下降时、 或者离开当前无线网络时、 或者发生其他切换事件时, 选择一个质量更好的无线网络作为目标无线网络, 并在目标无线网络上发起 第二个会话请求, 建立第二个 VOIP通话, 在第二个 VOIP通话建立后再从 初始无线网络切换到目标无线网络, 从而使得用户的通话不会中断 , 能够实 现无缝的自由切换, 并且能够利用更好的无线网络进行通话, 提高用户的通 话质量。 附图说明 此处所说明的附图用来提供对本发明的进一步理解 ,构成本申请的一部 分, 本发明的示意性实施例及其说明用于解释本发明, 并不构成对本发明的 不当限定。 在附图中: 图 1为才艮据本发明优选实施例一的通话无缝切换方法的流程图; 图 2为才艮据本发明优选实施例二的通话无缝切换方法的流程图; 图 3为根据本发明实施例的 SIP信令流程示意图; 图 4为才艮据本发明优选实施例三的移动终端的组成结构示意图; 图 5为才艮据本发明优选实施例四的移动终端的组成结构示意图。 具体实施方式 功能相无述 根据本发明实施例提供的技术方案 , 通过在移动终端检测到切换事件 时 , 获取一目标无线网络并通过该目标无线网络发起第二个会话请求 , 建立 第二个 VOIP通话, 在第二个 VOIP通话建立后再从初始无线网络切换到目 标无线网络, 从而使得用户的通话不会中断, 能够实现无缝的自由切换。 下文中将参考附图并结合实施例来详细说明本发明。 需要说明的是, 在 不冲突的情况下, 本申请中的实施例及实施例中的特征可以相互组合。 方法实施例 图 1为才艮据本发明优选实施例一的通话无缝切换方法的流程图, 如图 1 所示, 上述方法包括步骤 101至步骤 107: 步骤 101、 第一移动终端通过初始无线网络与第二终端建立第一 VOIP 通话,进入步骤 102。 本发明实施例所述通话无缝切换方法是在移动终端上执行的,上述移动 终端可以是手机。 在现有技术中, 手机与手机、 手机与固定电话、 手机与计 算机都能通过无线网络和 IP核心网络建立 VOIP通话。为了节约篇幅, VOIP 通话建立过程的原理在此不 ^故详细描述。 通过以上的描述可知, 第二终端可 以是固定电话、 手机或计算机, 本发明实施例优选的是支持 VOIP通话的手 机。 步骤 102、 判断通话是否结束, 如果是, 则结束流程, 否则, 进入步骤
103。 步骤 103、 检测是否发生切换事件, 如果是, 则进入步骤 104, 否则, 返回步骤 102。 本领域的普通技术人员可以理解,本发明实施例所述的切换事件包括但 不限于当前无线网络质量低于预设阈值、 用户的切换请求、 离开无线网络的 覆盖范围。 其中, 预设阈值可以根据实际需要进行限定, 如用户无法进行通 话, 通话质量下降幅度过大等。 步骤 104、 判断是否有可用目标无线网络, 如果有, 则进入步骤 105 , 否则, 重复此步骤。 容易理解, 目标无线网络的网络质量或其他参数比当前无线网络好, 能 达到更好的通话质量。 步骤 105、 通过目标无线网络向第二终端发送第二会话请求。 第一移动终端 (即 , 手机 ) 通过目标无线网络和 IP核心网向第二终端 发送第二会话请求, 请求建立第二 VOIP通话, 等待第二终端的反馈, 第二 会话请求中携带切换时使用的消息, 如 IP地址等。 步骤 106、接收到第二终端对第二会话请求的确认信息后进入步骤 107。 在移动终端向第二终端发送会话请求 ,直至接收第二终端的确认信息以 及建立第二 VOIP通话前, 第一 VOIP通话都保持不中断, 第一移动终端继 续通过第一 VOIP通话与第二终端进行通话。 步骤 107、 通过目标无线网络与第二终端建立第二 VOIP通话, 从初始 无线网络切换至目标无线网络。 第一移动终端接收到第二终端的确认信息后,表明可以建立 VOIP通话 , 第一移动终端通过目标无线网络以及 IP核心网络与第二终端建立第二 VOIP 通话, 并在第二 VOIP通话建立后, 结束第一 VOIP通话, 从初始无线网络 切换到目标无线网络。 本领域的普通技术人员可以理解,本发明实施例所述的无线网络包括但 不限于 WIFI网络、 WIMAX网络、 LTE网络、 EDGE网络。 本发明实施例提供的技术方案 ,在当前无线网络质量下降从而导致用户 通话质量下降时、 或者离开当前无线网络时、 或者发生其他切换事件时, 选 择一个质量更好的无线网络作为目标无线网络, 并在目标无线网络上发起第 二个会话请求, 建立第二个 VOIP通话, 在第二个 VOIP通话建立后再从初 始无线网络切换到目标无线网络, 从而使得用户的通话不会中断 , 能够实现 无缝的自由切换, 并且能够利用更好的无线网络进行通话, 提高用户的通话 质量。 图 2为才艮据本发明优选实施例二的通话无缝切换方法的流程图 ,上述方 法包括步骤 201至步骤 208: 步骤 201、 第一移动终端通过初始无线网络与第二终端建立第一 VOIP 通话, 进入步骤 202。 本发明实施例所述通话无缝切换方法是在移动终端上执行的,移动终端 可以是手机。 在现有技术中, 手机与手机、 手机与固定电话、 手机与计算机 都能通过无线网络和 IP核心网络建立 VOIP通话。 为了节约篇幅, VOIP通 话建立过程的原理在此不 ^故详细描述。 通过以上的描述可知, 第二终端可以 是固定电话、 手机或计算机, 本发明实施例优选的是支持 VOIP通话的手机。 步骤 202、 判断通话是否结束, 如果是, 则结束流程, 否则, 进入步骤 203。 步骤 203、 测量无线网络。 第一移动终端向各无线网络发送测试信息,并才艮据各无线网络的反馈信 息确定第一移动终端支持的无线网络及各无线网络的状态信息, 当发现新的 可用无线网络时, 通过新的无线网络向核心网注册, 并在第一移动终端上建 立网络列表, 第一移动终端从网络列表中获取目标无线网络。 本领域的普通技术人员可以理解, 步骤 203并不一定要限定在步骤 202 之后, 步骤 204之前进行, 本步骤可以在任何时候进行, 如在手机没有进行 通话时进行此步骤也不会影响本发明实施例技术方案的实现。 并不能因为本 步骤的步骤序号而做任何限制性的解释。 网络列表中的各无线网络根据预设参数建立优先级等级,第一移动终端 获取的目标无线网络为网络列表中优先级等级最高的无线网络。 预设参数包括但不限于: 无线网络的网络质量、 无线网络的资费、 无线 网络的服务质量、 用户的通话需求。 手机对各无线网络进行测试, 优选预设一时间阈值, 第一移动终端每间 隔上述时间阈值向无线网络发送测试信息, 获取各无线网络的反馈信息, 并 才艮据上述反馈信息更新第一移动终端的网络列表。 时间阈值可以根据实现的 网络状况以及用户需求进行设置, 可以是 ls、 10s、 100s……, 本发明实施例 不进行限定 , 以便根据实际情况更新移动终端的网络列表。 在本步骤中, 当移动终端发现有新的无线网络可以用时, 通过新发现的 无线网络向核心网注册, 并在移动终端上维护网络列表, 即, 记录新发现的 无线网络参数到网络列表。 步骤 204、 检测是否发生切换事件, 如果是, 则进入步骤 205 , 否则, 返回步骤 202。 本领域的普通技术人员可以理解,本发明实施例的切换事件包括但不限 于当前无线网络质量低于预设阈值、 用户的切换请求、 离开无线网络的覆盖 范围。 其中, 预设阈值可以根据实际需要进行限定, 如用户无法进行通话, 通话质量下降幅度过大等。 步骤 205、 判断网络列表中是否有可用目标无线网络, 如果有, 则进入 步骤 206, 否则, 重复 jib步骤。 容易理解, 当网络列表中存在多个可用目标无线网络时, 第一移动终端 选择优先级等级最高的无线网络作为目标无线网络, 优先等级可以才艮据不同 的需求设置不同的参数进行排列 , 例如,可以根据无线网络的资费进行排列 , 根据当前的网络质量进行排列 , 根据网络的覆盖范围进行排列 , 以及根据这 些参数进行综合排列。 步骤 206、 通过目标无线网络向第二终端发送第二会话请求。 第一移动终端 (即 , 手机 ) 通过目标无线网络和 IP核心网向第二终端 发送第二会话请求, 请求建立第二 VOIP通话, 等待第二终端的反馈, 第二 会话请求中携带切换时使用的消息, 如 IP地址等。 步骤 207、接收到第二终端对第二会话请求的确认信息后进入步骤 208。 在移动终端向第二终端发送会话请求 ,直至接收第二终端的确认信息以 及建立第二 VOIP通话前, 第一 VOIP通话都保持不中断, 第一移动终端继 续通过第一 VOIP通话与第二终端进行通话。 步骤 208、 通过目标无线网络与第二终端建立第二 VOIP通话, 从初始 无线网络切换至目标无线网络。 第一移动终端接收到第二终端的确认信息后,表明可以建立 VOIP通话 , 第一移动终端通过目标无线网络以及 IP核心网络与第二终端建立第二 VOIP 通话, 并在第二 VOIP通话建立后, 结束第一 VOIP通话, 从初始无线网络 切换到目标无线网络, 用户间的通话在新网络上继续。 本领域的普通技术人员可以理解,本发明实施例所述的无线网络包括但 不限于 WIFI网络、 WIMAX网络、 LTE网络、 EDGE网络。 本发明实施例提供的技术方案 ,在当前无线网络质量下降从而导致用户 通话质量下降时、 或者离开当前无线网络时、 或者发生其他切换事件时, 选 择一个优先级等级最高的无线网络作为目标无线网络, 并在目标无线网络上 发起第二个会话请求, 建立第二个 VOIP通话, 在第二个 VOIP通话建立后 再从初始无线网络切换到目标无线网络, 从而使得用户的通话不会中断 , 能 够实现无缝的自由切换 , 并且移动终端通过不断地对各无线网络进行测试 , 及时更新网络列表, 从而能够寻找到当前最优的无线网络, 及时切换到优先 级更高的无线网络。 图 3为根据本发明实施例的 SIP信令流程示意图。 如图 3所示, 包括如 下步骤 301至步骤 306: 步骤 301、 终端 a和终端 b通过 SIP信令建立 VOIP会话 , 会话建立成 功后, 传输媒体报文, 进行通话。 步骤 302、 当终端 a发生需要切换的事件时, 如, 当前网络信号变弱、 另一无线网络信号较好时 , 终端 a发送 SIP REFER消息。 发送的 REFER消 息中, 携带切换时使用的信息, 如 IP地址等。 步骤 303、 终端 b响应 SIP202消息, 接受请求。 步骤 304、 终端 b发送 SIP NOTIFY消息给终端 a。 步骤 305、 终端 a响应 SIP 200 OK消息给终端 b。 步骤 306、 双方再建立新的会话, 建立成功后, 结束原来的会话, 在新 会话中传输媒体 4艮文, 双方继续通话。 本发明各实施例所述技术方案,适用于 3GPP IMS i或、 3GPP2 MMD域。 从以上的描述中, 可以看出, 本发明实施例提供的通话无缝切换方法, 能够实现无缝的自由切换, 并且能够利用更好的无线网络进行通话, 提高用 户的通话质量。 才艮据本发明实施例, 还提供了一种计算机可读介质, 该计算机可读介质 上存储有计算机可执行的指令, 当该指令被计算机或处理器执行时, 使得计 算机或处理器执行如图 1、 图 2及图 3所示的各步骤的处理, 优选地, 可以 执行上述的各实施例中的一个或多个。 装置实施例 图 4为才艮据本发明优选实施例三的移动终端的组成结构示意图, 如图 4 所示, 上述移动终端包括: 检测单元 401、 用于检测是否发生切换事件。 VOIP通话单元 402、 用于发送 /接收 VOIP会话请求, 通过初始无线网 络和 IP核心网与第二终端建立第一 VOIP通话, 并在检测单元检测到发生切 换事件后, 通过目标无线网络和 IP核心网与第二终端建立第二 VOIP通话。 切换单元 403、 用于在第二 VOIP通话建立后, 结束第一 VOIP通话, 4夺初始无线网络切换至目标无线网络。 选择单元 404、 用于选择目标无线网络。 本领域的普通技术人员容易理解, 本发明实施例所述的移动终端还包 括: 中央处理单元、 显示单元、 天线单元、 按键单元等移动终端上通用的单 元, 为了节约篇幅, 在此不对移动终端的通用组成部分以及各部分的工作原 理和工作过程进行详细的描述。 下面对上述移动终端的工作过程及工作原理进行详细的描述。 移动终端首先通过 VOIP通话单元向第二终端发送会话请求, 在第二终 端确认后建立第一 VOIP通话, 在第一移动终端与第二终端通话过程中, 移 动终端的检测单元检测是否发生切换事件。 如果发生切换事件, 则选择单元 选择一目标无线网络, 并通过上述目标无线网络向第二终端发送第二会话请 求 , 请求建立第二 VOIP通话 , 当移动终端接收到第二终端的确认信息后 , 移动终端与第二终端建立第二 VOIP通话。 第二 VOIP通话建立后, 切换单 元将初始无线网络切换至目标无线网络, 用户间的通话在新网络上继续, 从 而实现 VOIP通话的无缝切换。 本领域的普通技术人员可以理解,本发明实施例所述的切换事件包括但 不限于当前无线网络质量低于预设阈值、 用户的切换请求、 离开无线网络的 覆盖范围。 其中, 预设阈值可以根据实际需要进行限定, 如用户无法进行通 话, 通话质量下降幅度过大等。 上述无线网络包括但不限于 WIFI网络、 WIMAX网络、 LTE网络、 EDGE 网络。 本发明实施例提供的技术方案 ,在当前无线网络质量下降从而导致用户 通话质量下降时、 或者离开当前无线网络时、 或者发生其他切换事件时, 选 择一个质量更好的无线网络作为目标无线网络, 并在目标无线网络上发起第 二个会话请求, 建立第二个 VOIP通话, 在第二个 VOIP通话建立后再从初 始无线网络切换到目标无线网络, 从而用户的通话不会中断, 能够实现无缝 的自由切换, 并且能够利用更好的无线网络进行通话,提高用户的通话质量。 图 5为才艮据本发明优选实施例四的移动终端的组成结构示意图, 如图 5 所示, 上述移动终端包括: 检测单元 401、 用于检测是否发生切换事件。
VOIP通话单元 402、 用于发送 /接收 VOIP会话请求, 通过初始无线网 络和 IP核心网与第二终端建立第一 VOIP通话, 并在检测单元检测到发生切 换事件后, 通过目标无线网络和 IP核心网与第二终端建立第二 VOIP通话。 切换单元 403、 用于在第二 VOIP通话建立后, 结束第一 VOIP通话, 4夺初始无线网络切换至目标无线网络。 选择单元 404、 用于从网络列表中选择目标无线网络。 管理单元 501、 用于向无线网络发送测试信息, 并根据反馈信息确定移 动终端支持的无线网络及各无线网络的状态信息 , 当发现新的可用无线网络 时, 通过新的无线网络向核心网注册。 存储单元 502、 用于存储网络列表, 上述网络列表包括移动终端支持的 无线网络以及各无线网络的状态信息。 上述选择单元从上述存储单元的网络列表中选择目标无线网络。 本领域的普通技术人员容易理解, 本发明实施例所述的移动终端还包 括: 中央处理单元、 显示单元、 天线单元、 按键单元等移动终端上通用的单 元, 为了节约篇幅, 在此不对移动终端的通用组成部分以及各部分的工作原 理和工作过程进行详细的描述。 本实施例技术方案与移动终端优选实施例三的技术方案不同之处在于, 移动终端通过管理单元向无线网络发送测试信息, 并根据反馈信息确定移动 终端支持的无线网络及各无线网络的状态信息 ,当发现新的可用无线网络时 , 通过新的无线网络向核心网注册。 并在存储单元存储网络列表, 上述网络列 表包括移动终端支持的无线网络以及各无线网络的状态信息。 从而能够实时 更新移动终端支持的无线网络以及各无线网络的状态 , 为移动终端的切换提 供更好的目标无线网络。 上述网络列表中的各无线网络才艮据预设参数建立优先级等级,第一移动 终端获取的目标无线网络为网络列表中优先级等级最高的无线网络。 上述预设参数包括但不限于: 无线网络的网络质量、 无线网络的资费、 无线网络的服务质量、 用户的通话需求。 手机对各无线网络进行测试, 优选预设一时间阈值, 第一移动终端每间 隔上述时间阈值向无线网络发送测试信息, 获取各无线网络的反馈信息, 并 根据反馈信息更新第一移动终端的网络列表。 时间阈值可以根据实现的网络 ^!犬况以及用户需求进行设置, 可以是 ls、 10s、 100s ... ... , 本发明实施例不进 行限定, 以便根据实际情况更新移动终端的网络列表。 容易理解, 当网络列表中存在多个可用目标无线网络时, 第一移动终端 选择优先级等级最高的无线网络作为目标无线网络, 上述优先等级可以才艮据 不同的需求设置不同的参数进行排列, 例如, 可以根据无线网络的资费进行 排列, 根据当前的网络质量进行排列, 根据网络的覆盖范围进行排列, 以及 根据这些参数进行综合排列。 本领域的普通技术人员可以理解,本发明实施例的切换事件包括但不限 于当前无线网络质量低于预设阈值、 用户的切换请求、 离开无线网络的覆盖 范围。 其中, 上述预设阈值可以根据实际需要进行限定, 如用户无法进行通 话, 通话质量下降幅度过大等。 上述无线网络包括但不限于 WIFI网络、 WIMAX网络、 LTE网络、 EDGE 网络。 本发明实施例所述技术方案,在当前无线网络质量下降从而导致用户通 话质量下降时、 或者离开当前无线网络时、 或者发生其他切换事件时, 选择 一个优先级等级最高的无线网络作为目标无线网络, 并在上述目标无线网络 上发起第二个会话请求, 建立第二个 VOIP通话, 在第二个 VOIP通话建立 后再从初始无线网络切换到目标无线网络, 从而使得用户的通话不会中断 , 能够实现无缝的自由切换,并且移动终端通过不断的对各无线网络进行测试, 及时更新网络列表, 从而能够寻到当前最优的无线网络, 及时切换到优先级 更高的无线网络。 本发明各实施例所述的技术方案, 适用于 3GPP IMS i或、 3GPP2 MMD 域。 另外 ,本发明的实现没有对系统架构和目前的处理流程修改,易于实现, 便于在技术领域中进行推广, 具有较强的工业适用性。 显然, 本领域的技术人员应该明白, 上述的本发明的各模块或各步骤可 以用通用的计算装置来实现, 它们可以集中在单个的计算装置上, 或者分布 在多个计算装置所组成的网络上, 可选地, 它们可以用计算装置可执行的程 序代码来实现, 从而, 可以将它们存储在存储装置中由计算装置来执行, 或 者将它们分别制作成各个集成电路模块, 或者将它们中的多个模块或步骤制 作成单个集成电路模块来实现。 这样, 本发明不限制于任何特定的硬件和软 件结合。 以上所述仅为本发明的优选实施例而已, 并不用于限制本发明, 对于本 领域的技术人员来说, 本发明可以有各种更改和变化。 凡在本发明的^^申和 原则之内, 所作的任何修改、 等同替换、 改进等, 均应包含在本发明的保护 范围之内。

Claims

权 利 要 求 书
1. 一种通话无缝切换方法, 应用于 VOIP通话中, 其特征在于, 包括: 第一移动终端通过初始无线网络与第二终端建立第一 VOIP 通 话;
在所述第一移动终端检测到发生切换事件时, 所述第一移动终端 获取一目标无线网络; 所述第一移动终端通过所述目标无线网络向所述第二终端发送 第二会话请求 , 并保持所述第一 VOIP通话继续;
所述第一移动终端接收到所述第二终端对所述第二会话请求的 确认信息后, 通过所述目标无线网络与所述第二终端建立第二 VOIP 通话, 并在建立所述第二 VOIP通话后结束所述第一 VOIP通话。
2. 根据权利要求 1所述的方法, 其特征在于, 还包括:
所述第一移动终端向无线网络发送测试信息 , 并根据反馈信息确 定并记录所述第一移动终端支持的无线网络的状态信息, 更新网络列 表;
所述第一移动终端才艮据所述网络列表中无线网络的状态信息获 取目标无线网络。
3. 才艮据权利要求 2所述的方法, 其特征在于:
所述无线网络才艮据预设参数建立优先级等级, 所述第一移动终端 获取的目标无线网络为网络列表中优先级等级最高的无线网络。
4. 根据权利要求 3所述的方法, 其特征在于, 所述预设参数包括:
无线网络的网络质量、 无线网络的资费、 无线网络的月 务质量、 用户的通话需求。
5. 根据权利要求 2所述的方法, 其特征在于, 还包括:
预设一时间阈值, 所述第一移动终端每间隔所述时间阈值向无线 网络发送测试信息, 获取各无线网络的反馈信息, 并才艮据所述反馈信 息更新所述第一移动终端的网络列表。
6. 根据权利要求 1所述的方法 , 其特征在于 , 所述切换事件包括: 当前无线网络质量低于预设阈值、 用户的切换请求、 离开无线网 络的覆盖范围。
7. 根据权利要求 1至 6任一权利要求所述的方法, 其特征在于, 所述无 线网络包括:
WIFI网络、 WIMAX网络、 LTE网络、 EDGE网络。
8. 一种移动终端, 其特征在于, 包括:
检测单元, 用于检测是否发生切换事件;
选择单元, 用于选择目标无线网络;
VOIP通话单元, 用于发送\接收 VOIP会话请求, 通过初始无线 网络和 IP核心网与第二终端建立第一 VOIP通话 , 并在所述检测单元 检测到发生切换事件后 , 通过所述选择单元选择的目标无线网络和 IP 核心网与第二终端建立第二 VOIP通话; 切换单元, 用于在所述第二 VOIP 通话建立后, 结束所述第一 VOIP通话 , 将初始无线网络切换至目标无线网络。
9. 根据权利要求 8所述的移动终端, 其特征在于, 还包括:
管理单元, 用于向无线网络发送测试信息, 并根据反馈信息确定 并记录所述第一移动终端支持的无线网络的状态信息,更新网络列表; 存储单元, 用于存储网络列表, 所述网络列表包括移动终端支持 的无线网络及状态信息, 所述选择单元从所述存储单元的网络列表中 选择目标无线网络。
10. 才艮据权利要求 9所述的移动终端, 其特征在于:
所述网络列表中的无线网络才艮据预设参数建立优先级等级, 所述 目标无线网络为网络列表中优先级等级最高的无线网络。
11. 根据权利要求 8所述的移动终端, 其特征在于, 所述切换事件包括: 当前无线网络质量低于预设阈值、 用户的切换请求、 离开无线网 络的覆盖范围。 根据权利要求 8至 11任一权利要求所述的移动终端, 其特征在于, 所 述无线网络包 4舌:
WIFI网络、 WIMAX网络、 LTE网络、 EDGE网络。
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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105101325A (zh) * 2015-05-28 2015-11-25 努比亚技术有限公司 语音切换方法、终端、服务器及系统

Families Citing this family (20)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US6850788B2 (en) 2002-03-25 2005-02-01 Masimo Corporation Physiological measurement communications adapter
CN101340722A (zh) 2008-08-12 2009-01-07 中兴通讯股份有限公司 一种通话无缝切换方法和移动终端
US20110208015A1 (en) 2009-07-20 2011-08-25 Masimo Corporation Wireless patient monitoring system
US9153112B1 (en) 2009-12-21 2015-10-06 Masimo Corporation Modular patient monitor
KR101176144B1 (ko) 2010-11-30 2012-08-22 삼성에스디에스 주식회사 다중 네트워크 환경에서의 피어-투-피어 접속 시스템 및 방법
US9907005B2 (en) 2011-06-15 2018-02-27 Telefonaktiebolaget Lm Ericsson (Publ) Handover event prioritization
US9943269B2 (en) 2011-10-13 2018-04-17 Masimo Corporation System for displaying medical monitoring data
EP2766834B1 (en) 2011-10-13 2022-04-20 Masimo Corporation Medical monitoring hub
US10149616B2 (en) 2012-02-09 2018-12-11 Masimo Corporation Wireless patient monitoring device
CN103428781B (zh) * 2012-05-17 2018-03-02 中兴通讯股份有限公司 一种ip语音通话切换的方法及系统、用户设备
CN102984403B (zh) * 2012-11-08 2014-08-06 深圳中兴网信科技有限公司 在指挥调度系统中实现多个单线路通话的装置和方法
CN104125355B (zh) * 2013-04-29 2019-04-19 深圳富泰宏精密工业有限公司 Ip电话通话控制方法及系统
CN103338488B (zh) 2013-06-21 2016-03-09 华为技术有限公司 网络切换方法、终端、控制器、网关及系统
US9288646B2 (en) * 2013-10-01 2016-03-15 Qualcomm Incorporated Multiple SIM multiple network diversity for enhancing call connectivity
CN104168286A (zh) * 2014-08-26 2014-11-26 小米科技有限责任公司 语音通话方法和装置
US9854482B2 (en) 2015-04-21 2017-12-26 International Business Machines Corporation Controlling a delivery of voice communications over a cellular data network or a wireless network based on user's profile
CN106612529A (zh) * 2015-10-21 2017-05-03 展讯通信(上海)有限公司 移动终端及其接入通信网络的方法
CN106102103A (zh) * 2016-05-27 2016-11-09 努比亚技术有限公司 通话模式切换装置及方法
CN110022602A (zh) * 2018-03-14 2019-07-16 联发科技股份有限公司 增加通信装置的呼叫建立成功的可能性的方法和通信装置
US11838823B2 (en) 2018-10-09 2023-12-05 Huawei Technologies Co., Ltd. Voice switchover method and system, and electronic device

Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN1784864A (zh) * 2003-05-09 2006-06-07 皇家飞利浦电子股份有限公司 用于在无线广域网与无线局域网之间无缝漫游的系统和方法
WO2006076694A2 (en) * 2005-01-14 2006-07-20 Hava Corporation Mobile telephone voip/cellular seamless roaming switching controller
CN1817007A (zh) * 2002-08-06 2006-08-09 摩托罗拉公司 用于在ip连接之间实现无缝切换的方法与设备
CN101340722A (zh) * 2008-08-12 2009-01-07 中兴通讯股份有限公司 一种通话无缝切换方法和移动终端

Family Cites Families (11)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
SE0104325D0 (sv) * 2001-12-20 2001-12-20 Ericsson Telefon Ab L M A method and apparatus for switching access between mobile networks
WO2005079099A1 (en) * 2004-02-13 2005-08-25 Telefonaktiebolaget Lm Ericsson (Publ) Fast hard handover scheme and mobile station and base station supporting such scheme
JP4600154B2 (ja) * 2005-05-26 2010-12-15 日本電気株式会社 携帯通信端末および通信経路選択方法と通信経路選択プログラム
US8542668B2 (en) * 2005-08-24 2013-09-24 Qualcomm Incorporated Wireless VoIP/VIP roaming to access point of different network type
JP4545109B2 (ja) * 2006-03-28 2010-09-15 京セラ株式会社 通信経路制御装置
KR101196078B1 (ko) * 2006-04-28 2012-11-01 리서치 인 모션 리미티드 Wlan과 wwan의 접속 이동 방법 및 장치
JP4974616B2 (ja) * 2006-08-31 2012-07-11 京セラ株式会社 通信方法ならびにそれを利用した端末装置
JP2008113227A (ja) * 2006-10-30 2008-05-15 Kyocera Corp 無線通信システム、端末、および無線通信方法
GB0701917D0 (en) * 2007-01-31 2007-03-14 British Telecomm Session dependent network handover
US8588174B2 (en) * 2007-07-17 2013-11-19 Blackberry Limited Dual-mode device and method for handover of session from VOIP interface to cellular interface
US8249016B1 (en) * 2007-08-09 2012-08-21 Cellco Partnership Method and device for providing inter-domain handoff configuration information to a dual mode access terminal

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN1817007A (zh) * 2002-08-06 2006-08-09 摩托罗拉公司 用于在ip连接之间实现无缝切换的方法与设备
CN1784864A (zh) * 2003-05-09 2006-06-07 皇家飞利浦电子股份有限公司 用于在无线广域网与无线局域网之间无缝漫游的系统和方法
WO2006076694A2 (en) * 2005-01-14 2006-07-20 Hava Corporation Mobile telephone voip/cellular seamless roaming switching controller
CN101340722A (zh) * 2008-08-12 2009-01-07 中兴通讯股份有限公司 一种通话无缝切换方法和移动终端

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105101325A (zh) * 2015-05-28 2015-11-25 努比亚技术有限公司 语音切换方法、终端、服务器及系统

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