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    • 3. 发明申请
    • Enforcing fairness in ad hoc mesh networks
    • 在特网网络中强制公平
    • US20070127419A1
    • 2007-06-07
    • US11292156
    • 2005-12-01
    • Adam Sapek
    • Adam Sapek
    • H04Q7/24
    • H04W28/22H04W48/08H04W48/16H04W72/121H04W84/18
    • A self-adaptive algorithm to enforce fairness executes on nodes in an ad hoc wireless network. Each node is configured to measure or estimate the utilization of the RF channel in its neighborhood and then share this information with its neighboring nodes. In this way, the nodes learn about the traffic flows within their neighborhood and may determine the competing flows. Based on the information about the competing flows, each node then determines the fair share of RF channel usage. The fair share may be computed by dividing the total time that all competing flows use the RF channel by the number of competing flows. Traffic flows using more than the computed fair share of channel access are slowed down to allow more access to the RF channel for flows that are not getting their fair share.
    • 在自组织无线网络中的节点上执行用于实施公平性的自适应算法。 每个节点被配置为测量或估计其邻域中的RF信道的利用率,然后与其相邻节点共享该信息。 以这种方式,节点可以了解其邻域内的流量,并确定竞争流。 基于有关竞争流的信息,每个节点然后确定RF信道使用的公平份额。 公平份额可以通过将所有竞争流量使用RF频道的总时间除以竞争流量的数量来计算。 使用超过计算的通道访问公平份额的流量流量减慢,以允许更多地访问RF信道以获得未获得公平份额的流量。
    • 4. 发明申请
    • CONTROLLED SERIALIZATION AND/OR DESERIALIZATION
    • 受控的串行化和/或安全化
    • US20130185810A1
    • 2013-07-18
    • US13350379
    • 2012-01-13
    • Sean Andrew SuchterEric Wai Ho LauYuri RomanenkoAdam Sapek
    • Sean Andrew SuchterEric Wai Ho LauYuri RomanenkoAdam Sapek
    • G06F21/24
    • G06F21/6209
    • Among other things, one or more techniques and/or systems are provided for controlling the serialization of data into a serialized structure and/or the deserialization of data from the serialized structure. That is, a first client may request serialization of data comprising one or more entities. Entities that the first client has permission to serialize may be serialized for inclusion within a serialized structure, which may be encrypted. A set of deserialization permissions specifying which entities may be accessed by which clients may be defined for the serialized structure. In this way, one or more entities within the serialized structure may be deserialized for a second client based upon evaluating the second client against the set of deserialization permissions to determine which entities the second client has permission to access. The serialized structure may otherwise remain encrypted to provide sustained protection of serialized data comprised therein.
    • 除其他之外,提供一个或多个技术和/或系统用于控制数据串行化为序列化结构和/或从序列化结构对数据进行反序列化。 也就是说,第一客户端可以请求串行化包括一个或多个实体的数据。 第一个客户端具有序列化权限的实体可以被序列化以包含在可以被加密的序列化结构中。 一组反序列化权限,指定哪些实体可以由哪个客户端被访问以为序列化的结构定义。 以这种方式,对于第二客户端,可以针对第二客户端反序列化串行化结构中的一个或多个实体,以便基于一组反序列化许可来评估第二客户端,以确定第二客户端有权访问哪些实体。 否则,序列化结构可能保持加密,以提供其中包含的序列化数据的持续保护。
    • 5. 发明授权
    • Communication interface selection on multi-homed devices
    • 多宿主设备上的通讯接口选择
    • US08407721B2
    • 2013-03-26
    • US12333331
    • 2008-12-12
    • Adam R. DybaAdam Sapek
    • Adam R. DybaAdam Sapek
    • G06F9/44
    • G06F9/44H04L69/14Y02D50/30
    • Configurable selection of communication interfaces on a multi-homed computing device. Application programs executing on the computing device define preferences, policies, and/or restrictions for use of the various communication interfaces. Responsive to a request from one of the application programs to communicate with a destination computing device, a list of the communication interfaces is created based on the preferences defined by the application program. The application program iteratively attempts to establish a connection to the destination computing device using each of the communication interfaces on the list.
    • 在多宿主计算设备上可配置的通信接口选择。 在计算设备上执行的应用程序定义了对各种通信接口的使用的偏好,策略和/或限制。 响应于来自应用程序之一的与目的地计算设备通信的请求,基于由应用程序定义的偏好创建通信接口的列表。 应用程序迭代地尝试使用列表中的每个通信接口建立到目的地计算设备的连接。
    • 6. 发明授权
    • Enforcing fairness in ad hoc mesh networks
    • 在特网网络中强制公平
    • US08149694B2
    • 2012-04-03
    • US11292156
    • 2005-12-01
    • Adam Sapek
    • Adam Sapek
    • G01R31/08
    • H04W28/22H04W48/08H04W48/16H04W72/121H04W84/18
    • A self-adaptive algorithm to enforce fairness executes on nodes in an ad hoc wireless network. Each node is configured to measure or estimate the utilization of the RF channel in its neighborhood and then share this information with its neighboring nodes. In this way, the nodes learn about the traffic flows within their neighborhood and may determine the competing flows. Based on the information about the competing flows, each node then determines the fair share of RF channel usage. The fair share may be computed by dividing the total time that all competing flows use the RF channel by the number of competing flows. Traffic flows using more than the computed fair share of channel access are slowed down to allow more access to the RF channel for flows that are not getting their fair share.
    • 在自组织无线网络中的节点上执行用于实施公平性的自适应算法。 每个节点被配置为测量或估计其邻域中的RF信道的利用率,然后与其相邻节点共享该信息。 以这种方式,节点可以了解其邻域内的流量,并确定竞争流。 基于有关竞争流的信息,每个节点然后确定RF信道使用的公平份额。 公平份额可以通过将所有竞争流量使用RF频道的总时间除以竞争流量的数量来计算。 使用超过计算的通道访问公平份额的流量流量减慢,以允许更多地访问RF信道以获得未获得公平份额的流量。
    • 8. 发明授权
    • Orthogonal frequency division multiple access with carrier sense
    • 具有载波侦听的正交频分多址
    • US08374130B2
    • 2013-02-12
    • US12020212
    • 2008-01-25
    • Amer A. HassanAdam SapekHui ShenThomas W. KuehnelDeyun WuChristian Huitema
    • Amer A. HassanAdam SapekHui ShenThomas W. KuehnelDeyun WuChristian Huitema
    • H04Q7/00H04J1/00H04B7/208
    • H04L5/0007H04L5/0037H04L5/0064H04L5/0094H04L27/0006H04W72/04H04W74/0808
    • A communication system in which an access point and one or more devices communicating through the access point adaptively apply Orthogonal Frequency Division Multiple Access (OFDMA). The access point may assign orthogonal subcarriers to devices as in conventional OFDMA, but the access point senses activity on the subcarriers and selects subcarriers without activity for assignment. In an alternative approach, a device that is configured for OFDMA communication may receive a channel assignment from a device that does not support OFDMA. The OFDMA-capable device may use only a portion of the subcarriers in the assigned channel, which may be communicated to the non-OFDMA device. During the non-OFDMA device may then ignore unused subcarriers in error detection and correction to avoid incorrectly classifying communications as erroneous. Information about OFDMA capabilities, subcarrier assignments and subcarriers in use may be communicated as information elements in network control communications, such as beacons and probe messages.
    • 一种通信系统,其中接入点和通过接入点通信的一个或多个设备自适应地应用正交频分多址(OFDMA)。 接入点可以像传统OFDMA那样将正交子载波分配给设备,但是接入点感测对子载波的活动,并且选择没有用于分配的活动的子载波。 在替代方法中,配置用于OFDMA通信的设备可以从不支持OFDMA的设备接收信道分配。 具有OFDMA能力的设备可以仅使用所分配的信道中的子载波的一部分,其可以被传送到非OFDMA设备。 在非OFDMA设备期间,可以忽略错误检测和校正中的未使用的子载波,以避免将通信错误地分类为错误的。 关于OFDMA能力,子载波分配和正在使用的子载波的信息可以作为诸如信标和探测消息的网络控制通信中的信息元素传送。