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    • 3. 发明授权
    • Beacon assisted hybrid asynchronous wireless communications protocol
    • 信标辅助混合异步无线通信协议
    • US06671525B2
    • 2003-12-30
    • US10022964
    • 2001-12-13
    • Vernon Anthony AllenStephen KorfhageRobert J. O'DeaRalph D'Souza
    • Vernon Anthony AllenStephen KorfhageRobert J. O'DeaRalph D'Souza
    • H04B138
    • H04W52/0225H04W48/08H04W48/16Y02D70/142Y02D70/22
    • A beacon assisted asynchronous method of wireless communication according to the present invention enables initiating and target devices (12, 14) to remain in sleep mode most of the time and to periodically wake up to asynchronously, and directly, communicate with one another. Specifically, each of the initiating and target devices (12, 14) transmits a beacon while operating in a default transmit/receive mode (40, 40a, 42, 42a) and subsequently listens for a response. Alternatively, the initiating device (12) may enter a data packet message mode to receive a beacon from the target device (14) and to subsequently transmit a data packet message to the target device (14) after receiving the first beacon. The initiating device (12) minimizes the length of time in which it must wait to receive the target device beacon by timing a corresponding target beacon receive period based on stored data such as information based on previous communication with the target device (14).
    • 根据本发明的信标辅助的无线通信异步方法使得能够启动和目标设备(12,14)在大多数时间内保持睡眠模式,并且周期性地唤醒到异步并且直接地彼此通信。 具体地,每个发起和目标设备(12,14)在默认发送/接收模式(40,40,42,42a)中操作时发送信标,并随后监听响应。 或者,发起设备(12)可以输入数据分组消息模式以从目标设​​备(14)接收信标,并且在接收到第一信标之后随后将数据分组消息发送到目标设备(14)。 发起设备(12)通过基于诸如基于与目标设备(14)的先前通信的信息的存储的数据对定位相应的目标信标接收周期来最小化其必须等待接收目标设备信标的时间长度。
    • 5. 发明授权
    • System and method for asynchronous communications employing direct and indirect access protocols
    • 采用直接和间接访问协议的异步通信系统和方法
    • US07133398B2
    • 2006-11-07
    • US10108116
    • 2002-03-27
    • Vernon Anthony AllenStephen Raphael KorfhageMonique Bourgeois BrownEdgar Herbert Callaway, Jr.
    • Vernon Anthony AllenStephen Raphael KorfhageMonique Bourgeois BrownEdgar Herbert Callaway, Jr.
    • H04J3/06H04J3/08H04L7/00
    • H04W56/00H04W76/10H04W88/06Y02D70/22
    • A communication access protocol improves the accessibility of devices operating on an asynchronous network (100), while supporting reduced power consumption. The network (100) includes a mediation device (130) for facilitating communications among network devices. Generally, each network device periodically transmits beacon signals to advertise its presence, and listens for communication signals targeted at the network device (532, 534). A device initiating communication with another operates in one of at least two operating modes in order to establish communications (536, 537, 538). In one mode, the initiating device communicates with the mediation device in order to derive timing information for the other device (537). In another mode, the initiating device listens to receive beacon signals directly from the target device in order to synchronize communications with the device (538). The selection of one of the two operating modes depends on a control parameter established for the initiating device, which in one embodiment is dependent on the urgency of communication, a maximum number of retries for using the mediation device, or the like.
    • 通信接入协议提高了在异步网络(100)上运行的设备的可访问性,同时支持降低功耗。 网络(100)包括用于促进网络设备之间的通信的中介设备(130)。 通常,每个网络设备周期性地发送信标信号以通告其存在,并且侦听针对网络设备(532,534)的通信信号。 启动与另一个的通信的设备以至少两种操作模式中的一种操作,以建立通信(536,537,538)。 在一种模式中,发起设备与中介设备通信,以便导出另一设备的定时信息(537)。 在另一种模式中,发起设备监听从目标设备直接接收信标信号,以便同步与设备的通信(538)。 两种操作模式之一的选择取决于为启动设备建立的控制参数,在一个实施例中,该控制参数取决于通信的紧急性,使用中介设备的最大重试次数等。
    • 6. 发明授权
    • Method of automatically selecting talk-around mode or repeater mode depending on repeater availability
    • 根据中继器的可用性自动选择通话模式或中继器模式的方法
    • US06226524B1
    • 2001-05-01
    • US09221441
    • 1998-12-28
    • Vernon Anthony AllenAli Almutairi
    • Vernon Anthony AllenAli Almutairi
    • H04B700
    • H04W88/04H04B7/2606
    • A subscriber unit automatically selects repeater access mode, if a repeater is available, or talk-around mode, if a repeater is not available (500). The subscriber unit initiates a call by transmitting a call setup request on the outbound channel used by the repeater (510), and by monitoring the outbound channel to detect a response from the repeater (520). If a response is received within a timeout period, the subscriber unit continues the call by transmitting on the inbound channel (530, 540). Otherwise, the subscriber unit continues the call using talk-around mode, by transmitting on the outbound channel (530, 550). In this process, the repeater monitors the outbound channel to determine when a call setup request is transmitted by the subscriber unit (610), and responds accordingly on the outbound channel (620, 630), thereby indicating its availability. The repeater then monitors the inbound channel and retransmits, or repeats, signals received via the inbound channel, on the outbound channel (640, 650, 660).
    • 如果中继器不可用,则订户单元自动选择中继器接入模式(如果中继器可用)或通话模式(500)。 用户单元通过在中继器(510)使用的出站信道上发送呼叫建立请求来发起呼叫,并且通过监视出站信道来检测来自中继器(520)的响应。 如果在超时时段内接收到响应,则用户单元通过在入站信道(530,540)上发送来继续呼叫。 否则,用户单元通过在出站信道(530,550)上的发送来进行通话模式的呼叫。 在该过程中,中继器监视出站信道以确定呼叫建立请求何时由用户单元(610)发送,并且相应地在出站信道(620,630)上进行响应,从而指示其可用性。 然后,中继器监视入站信道,并在出站信道(640,650,660)上重新发送或重复经由入站信道接收的信号。