Patent application number | Description | Published |
20130107999 | Synchronization of Nodes in a Network | 05-02-2013 |
20130121151 | Traffic load management - A node may assist in the management of upstream network traffic in part by managing a contention window used by the node. The node may maintain a list of size(s) of contention window(s) of parent node(s) of the node. The node may set its own contention window to be longer (i.e., a longer period of time) than that of upstream neighbor nodes. With a longer contention window than that of its parent node(s), the node will refrain from using an RF channel needed by a parent node. Accordingly, upstream nodes are better able to transmit any backlog of data before receiving additional data from downstream nodes. This may better distribute data over the network, and may better manage data flow. | 05-16-2013 |
20130121178 | ROUTING COMMUNICATIONS BASED ON LINK QUALITY - A node may determine a link quality between the node and multiple neighbor nodes. For each of the multiple neighbor nodes, the node compares the determined link quality between the node and each respective neighbor node to a predetermined threshold quality. If the link quality meets the predetermined threshold quality, the node may qualify the link and add the link to a list of qualified links that meet the threshold link quality. The node may then route communications to neighbor nodes with which the node has a qualified link. | 05-16-2013 |
20130121263 | MULTI-CHANNEL, MULTI-MODULATION, MULTI-RATE COMMUNICATION WITH A RADIO TRANSCEIVER - Techniques for communicating via a control channel, determining a particular data channel based on the communicating, and transferring data via the particular data channel are described. One or more messages are communicated via the control channel between first and second nodes. The one or more messages may indicate a particular data channel from multiple data channels that may be utilized to transfer data between the first and second nodes. The one or more messages may also indicate a modulation technique and/or data rate that may be implemented on the particular data channel. The one or more messages may be utilized to determine the particular data channel that will be utilized to transfer the data. The first and second nodes may switch to the particular data channel based on the determination and transfer the data via the particular data channel. | 05-16-2013 |
20130121337 | ROUTING COMMUNICATIONS BASED ON NODE AVAILABILITY - A node receives information that is to be transmitted to a destination. Upon receipt of the information, the node may query a busy device list to determine an availability of one or more neighbor nodes. The node may then identify a neighbor node that, according to the busy device list, is available to receive transmissions and is capable of propagating the information to the destination. The node may then transmit the information to the identified neighbor node. | 05-16-2013 |
20130195022 | DATA BROADCASTING WITH A PREPARE-TO-BROADCAST MESSAGE - Techniques for broadcasting data in a multi-channel network having a control channel and multiple data channels are described. A node wishing to broadcast data may determine a particular data channel from among the multiple data channels, a modulation technique, and a data rate to be utilized to broadcast the data. The broadcasting node may transmit a message over the control channel indicating that the data will be broadcast on the particular data channel using the modulation technique and at the determined data rate. The broadcasting node and a node wishing to receive the data may switch to the particular data channel. The broadcast node may broadcast the data over the particular data channel, while the receiving node may receive the data. After broadcasting the data or a predetermined time period has expired, the broadcasting node and receiving node may switch to the control channel. | 08-01-2013 |
20130235721 | Traffic Load and Transmission Retry Management - In a wireless network environment, techniques for traffic load management and transmission retry management assist a node to regulate network bandwidth consumed by one or more applications operating on the node, and assist the node to retransmit failed packets. Each of several software applications operating on the node may be prioritized. The prioritized applications will each receive a contention window appropriate to the priority of the application, which enforces an amount of bandwidth available to the application. In the event that a packet sent by the node fails to be acknowledged by a recipient, a retry algorithm may be utilized. The retry algorithm may use input including link quality and traffic density to adjust or maintain the contention window and/or retry count. | 09-12-2013 |
20130272293 | HYBRID ACCESS PROTOCOL FOR NETWORK NODES - A hybrid access protocol (HAP) controls access of nodes of a network to a communication medium, such as a radio frequency communication channel. In one example, a one-hop neighbor of a root node receives priority information from the root node, which includes a list of communication time slots, and an indication of one or more of the communication time slots during which the one-hop neighbor has communication priority relative to other one-hop neighbors of the root node. If the one-hop neighbor has information to transmit to the root node, it waits a predetermined period of time before transmitting the information to the root node. While waiting, the one-hop neighbor listens for transmissions by other nodes. In response to expiration of the predetermined period of time without overhearing transmissions by other nodes, the one-hop neighbor transmits its data to the root node. | 10-17-2013 |
20130294230 | EFFICIENT DEVICE HANDOVER/MIGRATION IN MESH NETWORKS - A new device is deployed to an area in which a network is provided. The new device may join the network using a single handshake via a neighboring device that is a member of the network and register with a network management system managing the network. If the network is overloaded or has limited bandwidth remaining, the network may refuse to admit the new device, or if the new device is isolated, may force some devices that are members of the network to leave or migrate from the network to allow the isolated device to join the network. | 11-07-2013 |
20140321384 | DATA BROADCASTING WITH A PREPARE-TO-BROADCAST MESSAGE - Techniques for broadcasting data in a multi-channel network having a control channel and multiple data channels are described. A node wishing to broadcast data may determine a particular data channel from among the multiple data channels, a modulation technique, and a data rate to be utilized to broadcast the data. The broadcasting node may transmit a message over the control channel indicating that the data will be broadcast on the particular data channel using the modulation technique and at the determined data rate. The broadcasting node and a node wishing to receive the data may switch to the particular data channel. The broadcast node may broadcast the data over the particular data channel, while the receiving node may receive the data. After broadcasting the data or a predetermined time period has expired, the broadcasting node and receiving node may switch to the control channel. | 10-30-2014 |