Intellon Corporation Patent applications |
Patent application number | Title | Published |
20100074243 | MANAGING COEXISTENCE AMONG SIGNALING PROTOCOLS ON A SHARED MEDIUM - A method is described for communicating among multiple devices over a shared communication medium. The method includes, in a schedule among multiple subsets of the devices that includes at least one respective time slot for each subset, transmitting from at least one of the devices in a given subset a presence signal associated with the given subset within a time slot for the given subset. A presence signal associated with a given subset is configured to indicate the presence of at least one device in the given subset. The method also includes communicating among devices in a given subset based on presence signals detected from one or more devices in at least one different subset. | 03-25-2010 |
20090290650 | TRANSMISSION LINE DIRECTIONAL COUPLING - Coupling signals to a transmission line over a plurality of taps includes coupling a first signal onto a transmission line at a first tap, coupling a second signal onto a transmission line at a second tap, and controlling a phase for at least a portion of the first signal relative to a phase for a corresponding portion of the second signal. | 11-26-2009 |
20090261779 | TRANSMISSION LINE DIRECTIONAL AWARENESS - Coupling a charging station to a power line segment that is terminated at a first end by a charging terminal includes: sensing a communication signal propagating on the power line and being coupled from multiple taps connected to the power line segment, and determining if the communication signal is propagating on the power line segment in the direction from the first end to a second end of the power line segment or in the direction from the second end to the first end. | 10-22-2009 |
20090116461 | Distributed Scheduling - In a network, some data are transmitted between stations during time slots in contention free periods. Selecting the time slots includes collecting timing information at some stations in the network. The timing information indicates the times of existing time slots used by stations whose transmissions can be reliably received by the station collecting the timing information. The timing information is distributed to other stations in the network. A new time slot for transmission between a first and a second station is selected based at least on timing information indicating the times of existing time slots used by stations whose transmissions can be reliably received by at least one of the first and second station. | 05-07-2009 |
20090074007 | MANAGING COMMUNICATIONS OVER A SHARED MEDIUM - Systems and methods for allocating network bandwidth between a plurality of networks. Requests for bandwidth allocation from other networks can be received. A coexistence frame requesting an allocation of bandwidth for a local network can be generated based upon the bandwidth allocation requests received from other networks. The coexistence frame can be transmitted, and utilization of the requested allocation can be delayed by a reservation period. | 03-19-2009 |
20090040930 | DATA PLANE AGGREGATION BASED ON ROUTE AND SERVICE TYPE - Methods and systems are operable to aggregate data. A plurality of data units can be received. The data units can be combined based upon a class associated with the data and a next hop associated with the data. A link can be provided for the combined data units based on service quality requirements for the traffic class associated with the class. | 02-12-2009 |
20090034552 | IN-HOME COEXISTENCE NETWORK - Systems and methods for dynamic allocation of network bandwidth. In some examples, a guaranteed interval period, including a guaranteed interval start time and guaranteed interval end time, can be identified based upon policy. Network stations can then identify first interval start times and first interval end times different than the guaranteed start times and guaranteed end time provided by policy. An access network can thereby provide a first interval start time and a first interval end time to stations within the access network. An in-home network can determine an in-home interval period based upon the first interval start time and first interval end time. | 02-05-2009 |
20090011782 | CLOCK SYNCHRONIZATION OVER A SHARED MEDIUM - Communicating among stations in a network includes providing repeated beacon transmissions from at least some of the stations including a first station. The first station is assigned to a first level. Any stations that can reliably receive transmissions from the first station are assigned to a second level. Any stations not assigned to any of the preceding levels that can reliably receive transmissions from the preceding level are assigned to each of one or more higher levels. Timing information at each station in a given level is synchronized according to transmissions received from at least one station in the preceding level. | 01-08-2009 |
20090010276 | Contention Groups for Hidden Nodes - Communicating among stations in a network includes, from each of multiple stations in the network, transmitting information indicating which other stations from which that station is able to reliably receive transmissions. A schedule for communicating among the stations is determined based on the information from the stations and transmitting the schedule over the network. The schedule includes a plurality of time slots during which respective sets of stations are assigned to communicate using a contention-based protocol. | 01-08-2009 |
20080310414 | RETRANSMISSION OF BROADCAST AND MULTICAST TRAFFIC OVER A SHARED MEDIUM - Methods, systems, and apparatuses are described for communicating among stations in a network. Broadcast or multicast traffic in the network can be selectively retransmitted according to one or more retransmissions rules established for the network. Retransmission rules can be established based on an analysis of network topology data and designed to minimize redundant transmissions in the network. MAC encapsulation mechanisms can be used to identify duplicate transmissions. | 12-18-2008 |
20080301446 | AUTHORIZING CUSTOMER PREMISE EQUIPMENT INTO A NETWORK - Systems and methods for authorizing customer premise equipment into a network. A publicly available network membership key can be provided to enable initial connection to the network. Unique network membership keys associated with various customer premise equipment can be provided to enable service level access to the network and/or authorization into a sub-cell associated with the network. | 12-04-2008 |
20080301052 | AUTHORIZING CUSTOMER PREMISE EQUIPMENT ON A SUB-NETWORK - Systems and methods for authorizing a customer premise equipment (CPE) device to join a network through a network termination unit (NTU). The CPE device can send an encrypted connection request, and an authorization server can decrypt the connection request and provide a network membership key (NMK) associated with the CPE device to the NTU. The authorization server can encrypt the NMK associated with the CPE device using a device access key (DAK) associated with the NTU. | 12-04-2008 |
20080298594 | AUTHORIZING STATIONS INTO A CENTRALLY MANAGED NETWORK - Systems and methods for connecting new stations to a secure network. New stations can send connection requests to a headend device. The headend device can retrieve a device access key associated with the new station and can provide a network membership key to the new station based upon authentication of the new station using the device access key. | 12-04-2008 |
20080298590 | NETWORK ENCRYPTION KEY ROTATION - Systems and methods for authenticating key rotation communications. Key rotation communications can include a key counter known to both a headend device and a station. Comparison between a local key counter and the key counter included in the key rotation communication can be used to authenticate the key rotation communication. | 12-04-2008 |
20080298589 | ESTABLISHING A UNIQUE END-TO-END MANAGEMENT KEY - Systems and methods for communicating and authenticating end-to-end management keys to stations to facilitate communications between stations in the network. A nonce based upon a pseudo-random number generated by the station(s) can be included with the end-to-end management key (EMK). The station(s) can compare the nonce to the generated pseudo-random number to authenticate the EMK. | 12-04-2008 |
20080298252 | METHOD OF ROUTING TRAFFIC IN A NETWORK - Methods, systems, and apparatuses are described for communicating among stations in a network. A station in the network can determine costs between that station and a headend through a number of other stations and selecting a low cost path from among the possible paths. Cost data from the determination can be transmitted from the station to other stations in the network for use in selecting low cost paths at those stations. | 12-04-2008 |