Class / Patent application number | Description | Number of patent applications / Date published |
370348000 | Channel reservation scheme | 27 |
20080247377 | INDEPENDENT MEDIUM ACCESS CONTROL FOR DISCOVERING WIRELESS NETWORKS - In one aspect, a wireless transceiver transmits and receives wireless signals, and medium access controller independently initiates transitions from a scanning state to a power conserving state and from the power conserving state to the scanning state. In the scanning state, the medium access controller directs the wireless transceiver to receive frames on at least one wireless channel and the medium access controller scans the received frames for identifiers of one or more respective target access points. In the power conserving state, the medium access controller places at least one of the wireless transceiver and the medium access controller in a low-power mode of operation. | 10-09-2008 |
20080259900 | MOBILE WIRELESS COMMUNCATION SYSTEM, BASE STATION, MOBILE TERMINAL AND RANDOM ACCESS CONTROL METHOD USED THEREFOR - A base station which, when a communication start request signal is transmitted by a mobile terminal using an access slot and a signature selected at random in the start of random access communication, transmits either a request acknowledgement signal or a request negative acknowledgement signal indicative of permission or rejection on the communication start request to the mobile terminal, the base station including: | 10-23-2008 |
20080291889 | Wireless communication method and apparatus - A wireless communication method and apparatus for the same performs access control in the following manner, where an acquisition of a right to transmit is performed by CSMA access control method, and a collision of transmitted data packets among different communication apparatuses is prevented for facilitating a stable transmission of data packets from each of the apparatuses in a predetermined interval. The transmission of a data packet having a predetermined data length under a cyclical access control sets an access control start time at a time that is after a lapse of predetermined amount of time from the previous acquisition of the right to transmit. As a result, the competition of the right to transmit is resolved due to a different access control start time set for the next transmission. | 11-27-2008 |
20080291890 | RADIO COMMUNICATION APPARATUS AND RADIO COMMUNICATION CONTROL METHOD OF RADIO COMMUNICATION SYSTEM - According to one embodiment, a radio communication apparatus includes a first reservation slot securing unit, a second reservation slot securing unit and a radio communication unit. The first reservation slot securing unit secures a first reservation slot for performing radio communication through a first transmission output in a radio communicable slot to be shared in time division in a group by adjustment in periodically formed beacon slots. The second reservation slot securing unit secures a second reservation slot for performing radio communication through a second transmission output smaller than the first transmission output in the radio-communicable period, when the first reservation slot securing unit fails in securing the first reservation slot. And the radio communication unit performs radio communication through the first transmission output or the second transmission output by using at least either the first reservation slot or the second reservation slot. | 11-27-2008 |
20090003306 | Dynamic time-slot allocation and QoS priority access in a mobile ad hoc network - Method and system for allocating a transmission time slot to a node in a dynamic transmission network wherein nodes may have different Media Access Priority Levels. In a present schedule, each node is allocated a transmission allocation having in each transmission-access cycle a number of transmission time slots that is a function of a respective Media Access Priority Level of the node and wherein there is a registration slot allocation of at least one slot in an aggregation of cycles of communications slots. At least two nodes actively renew their respective transmission allocations in a next schedule by transmitting in at least one of its transmission allocation slots in a present schedule. Any node of the plurality of nodes may apply to the at least two nodes for allocation of at least one transmission slot in the next schedule, by transmitting a request for transmission reservation during a registration slot to the at least two nodes who are actively renewing their transmission allocation; and at least one registration slot is allocated in the next schedule. | 01-01-2009 |
20090022136 | USER PRIORITY BASED PREEMPTION TECHNIQUES IN A TIME DIVISION MULTIPLE ACCESS MULTI-HOP AD HOC NETWORK - When a source node (SN) seeks to transmit a first communication stream (FCS) to a destination node (DN), a method is provided for allowing the SN to preempt a lower priority communication stream (LPCS). User priorities are supported during slot scheduling based on stream-identifiers (IDs) and stream priority values exchanged by each of the nodes. A scout request message (SRM), which includes a stream ID and a user priority value of the SN, is transmitted to a next-hop node along a route towards the DN. A node along the route determines if free time slots are available along the route to meet QoS requirements of the FCS, and if not, the node determines whether there is a LPCS in the neighborhood, and if so, the node frees the particular time slots currently being used by the LPCS, and allocates the particular time slots for the FCS. | 01-22-2009 |
20090028127 | METHODS AND APPARATUS FOR PROVIDING COMPUTATIONAL LOAD ALLOCATION IN A NETWORK ENVIRONMENT - Methods and apparatus for providing computational load allocation in a network environment. In an aspect, a method is provided that includes obtaining an announcement associated with at least one of foreground and background services, allocating available resources to process selected foreground services, and calculating remaining resources based on the announcement. The method also includes determining whether the remaining resources are enough to process at least one background service, and allocating the remaining resources to process the at least one background service if it is determined that the remaining resources are enough. An apparatus is also provided that includes a receiver configured to obtain an announcement associated with at least one of foreground and background services. The apparatus also includes allocation logic to allocate available resources, calculate remaining resources, determine whether the remaining resources are enough to process background services, and allocate the remaining resources to process background services. | 01-29-2009 |
20090059890 | Spatial reuse in directional antenna systems - In directional antennas, spatial reuse involves enabling two communications to occur on the same link at the same time. The communications may be in the same or opposite directions. If no link of sufficient bandwidth is available that does not already have an active communication, a link with an active communication of sufficient bandwidth is located. Then an antenna training sequence may be implemented. A check determines whether the antenna training sequence was successful. If there was interference during the antenna training sequence, then the spatial reuse is not permitted. Otherwise, spatial reuse may be permitted. | 03-05-2009 |
20090059891 | WIRELESS COMMUNICATION SYSTEM, WIRELESS COMMUNICATION DEVICE AND WIRELESS COMMUNICATION METHOD, AND COMPUTER PROGRAM - Access control based on CSMA is favorably carried out with the RTS/CTS method used together. | 03-05-2009 |
20090067406 | METHOD FOR BRANCHING DATA IN MOBILE COMMUNICATION TERMINAL - A method for branching data in a mobile communication terminal to perform data communication between a mobile station and a network which have media access control sublayers. In a data sending mode, each of the media access control sublayers of the mobile station and network attaches logical channel types based on traffic characteristic information and a radio bearer status to a media access control header contained in data to be sent. Then, each of the media access control sublayers branches the data to be sent, to transport channels corresponding to the attached logical channel types. In a data receiving mode, each of the media access control sublayers determines logical channels corresponding to logical channel types of a media access control header contained in received data. Then, each of the media access control sublayers branches the received data to the determined logical channels. Each of the media access control sublayers performs mapping and multiplexing/demultiplexing between logical channels and transport channels according to traffic characteristics to branch data. Therefore, it is possible to efficiently provide various multimedia and packet services. | 03-12-2009 |
20090080404 | Active profile selection - In a network enabling a communication between different devices, a network element may receive an indication of an active profile for at least one device. The indication of the active profile may then be used as a criterion for an operation in the network element. Moreover, a device may use a selected active profile as a criterion for determining presence information content, the presence information content indicating the availability of a user of the device for a communication. The presence information may then be transmitted to the network. | 03-26-2009 |
20090252145 | Method and Apparatus for Scheduling in a Wireless Network - Techniques for scheduling flows and links for transmission are described. Each link is an oriented source-destination pair and carries one or more flows. Each flow may be associated with throughput, delay, feedback (e.g., acknowledgments (ACKs)) and/or other requirements. A serving interval is determined for each flow based on the requirements for the flow. A serving interval is determined for each link based on the serving intervals for all of the flows sent on the link. Each link is scheduled for transmission at least once in each serving interval, if system resources are available, to ensure that the requirements for all flows sent on the link are met. The links are also scheduled in a manner to facilitate closed loop rate control. The links are further scheduled such that ACKs for one or more layers in a protocol stack are sent at sufficiently fast rates. | 10-08-2009 |
20100054230 | MULTICHANNEL TDMA MECHANISM - An apparatus and method for communications are disclosed. The apparatus may include a transceiver, and a processing system configured to dynamically allocate a plurality of channels to one or more nodes prior to a data transmission from the transceiver to the one or more nodes. | 03-04-2010 |
20100150130 | Wireless Communication Method and Apparatus - In a wireless communication method in which a wireless communication apparatus having radio units | 06-17-2010 |
20100232415 | CONTROL DEVICE, TERMINAL DEVICE, AND COMMUNICATION SYSTEM AND COMMUNICATION METHOD, USING THE SAME - A terminal device ( | 09-16-2010 |
20100272093 | APPARATUS AND METHOD FOR SUPPORTING WIRELESS ACTUATORS AND OTHER DEVICES IN PROCESS CONTROL SYSTEMS - A system includes a wireless leaf node configured to modify operation of an industrial process. The system also includes a plurality of wireless access points configured to transmit data to the wireless leaf node in specified time slots and to receive an acknowledgement from the wireless leaf node in response to successful receipt of the data by the wireless leaf node. Various communication schemes are disclosed for supporting communications between the wireless leaf node and the access points. Each access point could also include a local slot manager configured to assign the specified time slots for that access point to communicate with the wireless leaf node. The wireless leaf node could represent a wireless actuator. | 10-28-2010 |
20110222527 | BASE STATIONS AND METHODS FOR RECEIVING TRANSMISSIONS ON AN ENHANCED RANDOM ACCESS CHANNEL - Example base stations and methods for receiving transmissions on an enhanced random access channel (RACH) are disclosed herein. An example method for receiving transmissions on an enhanced RACH from a device such that an initial access burst is received in a single time slot from the device involves receiving the initial access burst from the device on the enhanced RACH. The initial access burst is sent by the device using a timing advance determined at the device. The initial access burst includes at least one of an identifier or user data. The enhanced RACH is a contention-based uplink-only channel requiring use of timing advances for transmissions thereon. | 09-15-2011 |
20120099582 | SPATIAL REUSE IN DIRECTIONAL ANTENNA SYSTEMS - In directional antennas, spatial reuse involves enabling two communications to occur on the same link at the same time. The communications may be in the same or opposite directions. If no link of sufficient bandwidth is available that does not already have an active communication, a link with an active communication of sufficient bandwidth is located. Then an antenna training sequence may be implemented. A check determines whether the antenna training sequence was successful. If there was interference during the antenna training sequence, then the spatial reuse is not permitted. Otherwise, spatial reuse may be permitted. | 04-26-2012 |
20120113975 | NETWORK EMPLOYING SPACE RECYCLING, AND A METHOD FOR MANAGING THE NETWORK - A method of operating a network coordinator for a spatial reuse scheme includes receiving a reservation request for a time period for a data communication of a target transmitter/receiver pair that uses a directional antenna, searching for a time period reserved in advance for another transmitter/receiver pair, from a Channel Time Allocation Period (CTAP) that is a contention-free access period for the data communication, and reserving a time period for the target transmitter/receiver pair in the CTAP, so that the time period reserved for the target transmitter/receiver pair overlaps the time period reserved in advance for the other transmitter/receiver pair. | 05-10-2012 |
20130058323 | INFORMATION ELEMENT AND METHOD FOR ADVERTISING CHANNEL RESERVATIONS - According to the known IEEE 802.11s Draft Standard for WLAN Mesh Networking, version D5.0, the size of an information element is restricted to a length of 255 octets. Due to the definition of an MCCAOP advertisements element as a general information element this restriction is a major drawback leading to a maximum of 62 MCCA reservations to be advertised by an MCCAOP advertisements element. Although this number of reservations might be sufficient in the majority of situations, it is easily imaginable that there are situations which could require an advertisement exceeding this limit of 62 MCCA reservations. According to the disclosure, an MCCAOP advertisement—which is a set of MCCAOP reservations that needs to be advertised—is split over multiple MCCAOP advertisements elements. This may advantageously allow advertising more than 62 MCCAOP reservations to neighboring mesh nodes in a wireless mesh network which is configured to use MCCA. | 03-07-2013 |
20130308624 | AD HOC CONFIGURABLE TDMA DATALINK - A method and system for providing configuration parameters to TDMA nodes are disclosed. The configuration parameters are repeatedly transmitted to the TDMA nodes in a predetermined fashion, allowing existing nodes to receive the up-to-date configuration parameters from messages being broadcast in the TDMA network. Any new node joining the TDMA network may also receive the up-to-date configuration parameters, allowing the new node to apply such parameters accordingly and join the network as applicable. | 11-21-2013 |
20140146810 | MULTI-CHANNEL ACCESS CONTROL METHOD AND APPARATUS FOR AIS BASED ON DULTIPLE TRANSMITTERS - The present invention relates to a method and apparatus in which an Automatic Identification System (AIS) accesses a radio channel. The present invention includes selecting a slot on which a packet is to be transmitted on at least one radio channel, temporarily sending a first carrier, notifying other AISs that the selected slot has been selected by the AIS, on the selected slot in transmission mode, and after temporarily sending the first carrier, detecting a second carrier transmitted by another device on the selected slot in reception mode. In accordance with the present invention, the AIS temporarily sends a first carrier, notifying other AISs that a selected slot has been selected by the AIS, on the selected slot prior to the detection of a second carrier, and another AIS accessing the same slot detects the first carrier temporarily transmitted. Accordingly, a collision between channels can be avoided. | 05-29-2014 |
20140355594 | VIRTUAL DATA FRAMING FOR DATA PACKET TRANSMISSION OVER CHANNELS OF A COMMUNICATIONS NETWORK - An approach for transmission of data packets, based on virtual frame timing, over a communications channel is provided. A remote terminal receives a first stream of data packets at periodic time intervals. The terminal receives an allocation of time slots within a sequence of TDMA transmission frames, for transmission of the data packets over the channel. The timing structure of the allocated time slots is based on a virtual frame size relative to the interval timing of the first data packet stream, and independent of the frame size/timing of the TDMA transmission frames. The remote terminal may receive a second stream of data packets at periodic time intervals that differ from the time intervals of the first stream. In a multi-stream scenario, the virtual frame size for the time slot allocation is based on the greatest common denominator of the interval timings of the first and second data streams. | 12-04-2014 |
20140369339 | ALLOCATION SLOT ARRANGEMENT FOR WIRELESS BODY AREA NETWORKS WITH SENSOR INITIATED GRANT EXTENSIONS - Allocation slot arrangement is provided for wireless body area networks (BANs). In particular, in some embodiments the allocation slots are arranged based on a set of rules and received input parameters. Allocation slot arrangement may comprise maximizing a weighted sum function computed by applying the rules and input parameters to all nodes over all possible arrangements. | 12-18-2014 |
20150071279 | METHOD AND APPARATUS FOR ASSIGNING SLOT - A method and apparatus for assigning a slot, including: constructing a HELLO packet, the packet including slot request information of a local node and/or slot request information of a neighbor node of the local node; and transmitting the packet, so that a node receiving the packet authenticates a reservation slot requested by a sender; wherein the slot request information of the local node includes an address of the local node and of a receiving node of a data packet to be transmitted and an index of the reservation slot requested by the local node; and the slot request information of the neighbor node includes an address of the neighbor node, an address of a receiving node of a data packet to be transmitted, an index of a reservation slot requested by the neighbor node, and confirmation information of the reservation slot requested by the neighbor node. | 03-12-2015 |
20160066216 | NETWORK EMPLOYING SPACE RECYCLING, AND A METHOD FOR MANAGING THE NETWORK - A method of allocating time for a communication device includes receiving a request for allocation of a second time period related to a second communication link, after allocating a first time period related to a first communication link, and reserving the portion of the second period overlapping the first period, wherein the first link is generated between first and second communication devices, and the second link is generated between third and fourth communication devices. A further aspect of the method includes identifying the first period reserved in advance, and receiving the request for allocating the second period, and allocating the second period to spatially overlap the first time period. A further aspect of the method includes identifying an existing reservation for the first period of the first link, receiving a new reservation for the second period, and allocating the second period to spatially overlap the first period. | 03-03-2016 |
20160183258 | COMMUNICATION PROCESSING DEVICE, AND WIRELESS COMMUNICATION METHOD | 06-23-2016 |