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    • 4. 发明申请
    • WLAN And WWAN Connection Migration Methods And Apparatus
    • WLAN和WWAN连接迁移方法和设备
    • US20070265003A1
    • 2007-11-15
    • US11741028
    • 2007-04-27
    • Vytautas KezysTerence Todd
    • Vytautas KezysTerence Todd
    • H04Q7/20
    • H04L12/66H04W36/14H04W36/30H04W76/22H04W84/12H04W92/18
    • Intra-enterprise wireless handset (WH) calls between WHs operating in a wireless local area network (WLAN) are established directly between the WHs via a call connection that is maintained within the LAN without being routed through the cellular network (CN). This eliminates the cost of placing and maintaining calls through the CN for intra-enterprise calls, and also enables use of capabilities that are available in the enterprise telecomm equipment. Upon detection of a trigger condition, if and when it is more likely that a complete vertical handover (VHO) may be needed, the call connection between the WHs in the LAN is replaced by one that is routed through the CN. Thereafter, a VHO may occur (if at all) upon detection of a radio handover condition.
    • 无线局域网(WLAN)之间的企业间无线手机(WH)呼叫直接通过在LAN内维护的呼叫连接在WH之间建立,而不通过蜂窝网络(CN)进行路由。 这消除了通过CN拨打和维护用于企业内呼叫的呼叫的成本,并且还能够使用企业电话设备中可用的功能。 在检测到触发条件时,如果可能需要完整的垂直切换(VHO)更可能,LAN中的WH之间的呼叫连接将被通过CN路由的呼叫连接所取代。 此后,当检测到无线电切换条件时,可能发生VHO(如果有的话)。
    • 5. 发明申请
    • Conferencing PSTN Gateway Methods And Apparatus To Facilitate Heterogeneous Wireless Network Handovers For Mobile Communication Devices
    • 会议PSTN网关方法和装置,以促进移动通信设备的异构无线网络切换
    • US20070070948A1
    • 2007-03-29
    • US11534371
    • 2006-09-22
    • Vytautas KezysTerence ToddMohammed SmadiDongmei Zhao
    • Vytautas KezysTerence ToddMohammed SmadiDongmei Zhao
    • H04Q7/00H04L12/56
    • H04L12/6418H04L29/06027H04L65/1083H04L65/4038H04M7/1235H04W36/14H04W36/18H04W76/10H04W76/22H04W76/23H04W84/12H04W88/06H04W88/16H04W92/02
    • In one illustrative example, a mobile communication device operating in a wireless local area network (WLAN) of a communication network maintains an inter-enterprise voice call via its WLAN interface (e.g. 802.11/VoIP/SIP) with another communication device in the communication network. Communications of the voice call are maintained solely within the communication network and not routed through a conferencing gateway. During the voice call, a handover of the voice call from the WLAN to a wireless wide area network (WWAN) (e.g. GSM/GPRS) may or may not be required. In response to identifying a handover indication during the voice call, the mobile device causes a request message (e.g. a SIP INVITE message) to be sent over the WWAN to the conferencing gateway for establishing a first connection leg through the WWAN via its WWAN interface with a conference room of the conferencing gateway. The mobile device also causes a re-routing message (e.g. a SIP REFER message) to be sent over the WLAN to the communication device so that a second connection leg between the communication device and the conference room of the conferencing gateway may be established. The first and the second connection legs are connected together in the conference room of the conferencing gateway for the voice call. Advantageously, inter-enterprise voice calls in the communication network need not unnecessarily and unduly burden the conferencing gateway, unless and until a handover of the voice call between the WLAN and the WWAN is required. Variations and other PSTN conferencing gateway techniques are also described.
    • 在一个说明性示例中,在通信网络的无线局域网(WLAN)中操作的移动通信设备通过其WLAN接口(例如,802.11 / VoIP / SIP)与通信网络中的另一通信设备维护企业间语音呼叫 。 语音呼叫的通信仅保持在通信网络内,而不通过会议网关路由。 在语音呼叫期间,可以或不需要将语音呼叫从WLAN切换到无线广域网(WWAN)(例如GSM / GPRS)。 响应于在语音呼叫期间识别切换指示,移动设备使得请求消息(例如,SIP INVITE消息)通过WWAN发送到会议网关,用于经由其WWAN经由其WWAN接口建立第一连接腿, 会议网关的会议室。 移动设备还引起将重新路由消息(例如,SIP REFER消息)通过WLAN发送到通信设备,使得可以建立通信设备和会议网关的会议室之间的第二连接分支。 第一和第二连接腿在会议网关的会议室中连接在一起,用于语音呼叫。 有利的是,除非需要WLAN和WWAN之间的语音呼叫切换,否则在通信网络中的企业间语音呼叫不需要不必要地过度地加重会议网关。 还描述了变型和其他PSTN会议网关技术。
    • 6. 发明申请
    • Wireless access point methods and apparatus for reduced power consumption and cost
    • 无线接入点方法和设备,降低功耗和成本
    • US20050249137A1
    • 2005-11-10
    • US11088433
    • 2005-03-24
    • Terence ToddDongmei ZhaoVytautas Kezys
    • Terence ToddDongmei ZhaoVytautas Kezys
    • G08C17/00H04L12/12H04L12/28H04W52/02H04W74/00H04W74/02H04W84/12H04Q7/24
    • H04W52/0216H04W74/00H04W74/02H04W84/12Y02D70/1222Y02D70/142Y02D70/144Y02D70/22
    • In one illustrative technique, a contention-free period indication is communicated by a wireless access point (AP) (e.g. a battery-powered AP) to a plurality of mobile communication devices within a beacon of a superframe. The contention-free period indication identifies a duration of a contention-free period within which the mobile devices must refrain from communicating through the AP. During each contention period subframe of each superframe, information is communicated to and/or from the mobile devices through a wireless transceiver of the AP. During each power conservation subframe of each superframe, the wireless transceiver is placed into a power conservation mode which is at least part of the contention-free period. Alternatively, or in combination with the wireless transceiver being placed in the power conservation mode, information for the mobile devices may be communicated to and/or from another AP within each relay subframe of each superframe which is at least part of the contention-free period. Advantageously, power consumption may be reduced in the AP and/or a single radio interface may be utilized in the AP for communications. The durations of the power conservation subframe and the other subframes may be variably adjusted to tradeoff power savings with a real-time capacity requirement of the AP.
    • 在一个说明性技术中,无竞争时段指示由无线接入点(AP)(例如电池供电的AP)传送到超帧的信标内的多个移动通信设备。 无竞争周期指示标识移动设备必须避免通过AP进行通信的无竞争时段的持续时间。 在每个超帧的每个争用时段子帧期间,信息通过AP的无线收发器传送到移动设备和/或从移动设备传送。 在每个超帧的每个省电子帧期间,将无线收发器置于至少部分无竞争时段的功率节省模式中。 或者,或者与将无线收发机组合放置在功率节省模式中的情况下,移动设备的信息可以被传送到每个超帧的每个中继子帧内的另一个AP和/或来自另一个AP,这是至少部分无竞争周期 。 有利地,AP中的功率消耗可能会降低,和/或可以在AP中利用单个无线电接口进行通信。 功率节省子帧和其他子帧的持续时间可以根据AP的实时容量要求进行可变调整,从而降低功耗。