Abstract: In some embodiments, a method for supporting multiple devices on a high speed physical link may be described. An embedded device may assert a link request pin to request to transmit data on a multi-point communications link that may serve a plurality of embedded devices. A controlling device may receive the link request signal. When the controlling device finishes sending data on the link, it may address the plurality of embedded devices in a round robin format and may determine which device asserted the link request pin. The embedded device that asserted the link request pin may send an acknowledgement signal to the controlling device when it is addressed.

Abstract: The present invention provides a system and method that operates in the link layer and detects connection status in a LAN. The system includes a request frame whose source address is an address of a node transmitting the request frame, a reply frame whose destination address is the source address of the request frame, and a first node and a second node within the LAN for processing the request/reply frame. The method includes the first node transmitting a request frame into the LAN, the second node transmitting a reply frame to the first node if receiving the request frame, and the first node checking whether a destination address of the reply frame comprises an address of the first node when receiving the reply frame. If so, the connection between the first and second nodes is in a normal state.

Abstract: A system and method for communicating between nodes in a communications network. The network includes nodes that broadcast and receive data packets over a radio channel. The system includes a distributed trunking method that distributes the communications between the nodes over multiple channels. Voice and other data may be broadcast over data channels, while information regarding the availability of the data channels is broadcast over a control channel. Access to the control channel is controlled using a protocol that may include carrier sense multiple access with collision avoidance (CSMA/CA), time division multiple access (TDMA) or a hybrid of CSMA/TDMA.

Abstract: A data bus configuration has a data bus which can be operated in a multiplex mode and to which at least one control station and a reception station are connected. The data bus configuration further has a control bus via which the control station can allocate a logical channel to the reception station.

Abstract: A communication control device comprising a plurality of network processors for performing high-speed communication among these network processors. The communication device connects a plurality of processor interfaces to each other using an internal communication path. Each processor interface is connected to one or a plurality of the network processors. The processor interface comprises a selector for each connected network processor. In one preferred embodiment of this invention, transmission rights are granted to a selector which received a token cell. The selector outputs communication cells received from a network processor onto the internal communication path only when the selector possesses the transmission rights. Having outputted all of the communication cells, the selector outputs the token cell onto the internal communication path. When the token cell is outputted, the selector loses the transmission rights.

Abstract: In one embodiment, an apparatus comprises serializer/deserializer (SERDES) circuits. Each SERDES circuit is configured to transmit data on a respective lane to which the SERDES circuit is are coupled during use. The apparatus further comprises a transmit pipe coupled to the SERDES circuits. The transmit pipe comprises stages, and each stage is configured to process a maximum bandwidth unit (a maximum width of a port that is configurable on the lanes and smaller than a largest packet transmitted on the ports). In another embodiment, the apparatus comprises a transmit command queue; a transmit scheduler coupled to the transmit command queue; and a storage device coupled to the transmit scheduler that stores a scheduling calendar. The transmit scheduler is configured to schedule maximum bandwidth units for transmission on ports configured over the lanes on which packets are transmitted. The maximum bandwidth unit is smaller than a packet and is a maximum width of a port that is configurable on the lanes.

Abstract: A data network and a method for providing prioritized data movement between endpoints connected by multiple logical channels. Such a data network may include a first node comprising a first plurality of first-in, first-out (FIFO) queues arranged for high priority to low priority data movement operations; and a second node operatively connected to the first node by multiple control and data channels, and comprising a second plurality of FIFO queues arranged in correspondence with the first plurality of FIFO queues for high priority to low priority data movement operations via the multiple control and data channels; wherein an I/O transaction is accomplished by one or more control channels and data channels created between the first node and the second node for moving commands and data for the I/O transaction during the data movement operations, in the order from high priority to low priority.

Abstract: A communication system including first, second, and third nodes interconnected via interconnect links, a primary path composed of an interconnect link between the first node and the third node, and a secondary path composed of an interconnect link between the first and second nodes and an interconnect link between the second and third nodes, wherein when the first node and the third node function as a transmitting node and a receiving node respectively, having a path multiplexing function to communicate with each other using bandwidths of a plurality of paths simultaneously, the first node transmits, to the second node, a path multiplexing request message for requesting communication with the third node, and when receiving the path multiplexing request message, the second node functions as a relay node and determines whether the primary path and the secondary path can be logically multiplexed by providing, to the first node, the bandwidth of the interconnect link between the second and third nodes, and if pat

Abstract: Methods and apparatuses are presented for conducting communications over a shared communication medium involving (a) sending a request from a first node, the shared communication medium organized to include (i) a request signal space including a plurality of request segments each having a different location within the request signal space and (ii) a scheduled transmission signal space including a plurality of scheduled transmission segments each having a different location within the scheduled transmission signal space, the request sent in a request segment, (b) obtaining an assignment associating the request with a scheduled transmission segment, (c) from the first node, sending a data transmission in the scheduled transmission segment associated with the request, and (d) wherein a collection of request segments in the plurality of request segments is separated by a guard zone from an adjacent collection of scheduled transmission segments in the plurality of scheduled transmission segments.

Abstract: Aspects of the invention provide a method and system for a communication bus for resetting one or more devices connected to the bus. The transceiver bus (620) may include a single serial data line (616), a single serial clock line (614) and a single reset line (612). A status of a slave device coupled to the transceiver bus (620) may be determined by a master device. Based on the status of the slave device, the master device may execute a forced reset or a normal reset. In a case where a device may be unresponsive, the master device may execute a forced reset. Additionally, in a case where a device is responsive but requires resetting, the master device may execute a normal reset and selectively reset a slave device requiring reset.

Abstract: Data transmission between transmitting/receiving nodes in a bus system may be controlled based on an error check of received data. When an error in the received data is detected, the transmitting node may cease data transmission, and other nodes, which may not have detected the error, may be notified of the detected error.

Abstract: A method of communicating between a first and a second processor includes the first processor sending a datum over a common control bus, and the second processor receiving the datum from the common control bus.

Abstract: A base station (103) assigns a set of mobile stations (101) to a group wherein the group will share a set of radio resources (710). A shared control channel information element (501) is sent to the group of mobile stations (101) and provides a bitmap having fields for group ordering (511), resource allocations (530), failure handling resources (540), and an ordering pattern (513). If a mobile station fails to decode the shared control channel information element (501) it will access the failure handling resources in order to receive data. The failure handling channel may be persistent in some embodiments, or may be released after the mobile station is once again able to decode the shared control channel information element (501) and thereby share in the shared resource pool allocated to its mobile station group.

Abstract: Apparatus for simultaneously transferring synchronous and asynchronous signals among broadband access devices includes a data bus, a clock bus, and a plurality of control lines which are used to indicate the type of data being carried on the bus. According to the methods of the invention, data is transferred on the bus in a repeating frame having a plurality of slots, each slot being defined as one bus clock cycle. Each slot may contain a synchronous or asynchronous data signal and one or more of the control lines are asserted during the slot time of the data to indicate the type of data. Two embodiments are provided. One utilizes a 25 MHz clock bus and a repeating frame of three hundred thirty-six slots. The other utilizes a 75 MHz clock bus and a repeating frame of one thousand eight slots.

Abstract: Channel access techniques are provided for use in a high throughput wireless network that utilizes multiple wireless channels within a single service set.

Abstract: A method of, and an apparatus for, providing broadband services to multiple remote units located at a client premise via a single communication line are provided. Authorization data is communicated from distribution equipment to the remote units and the authorization data authorizes one of the remote units to transmit data to the distribution equipment. The authorization data is included in a DSL frame and is sequentially changed thereby sequentially to authorize each remote unit one at a time to transmit data. The distribution equipment provides the authorization data in a control word of a frame header of a VDSL frame.

Abstract: A connecting unit for use in a system comprising a ‘stack’ of network communication units having a cascade connection has three ports having lines for forwarding and receiving data packets and for forwarding and receiving control messages. The connecting unit increments a first signal value defining an identification number received by way of a control message at a first port, provides the received signal value by way of a control message to the third port and provides the incremented signal value by way of a control message to the second port. The connecting unit also receives a second signal value defining an active unit count by way of a control message at the first port and provides the second signal value, incremented or not in dependence on a control message received at the third port, in a control message at the second port.

Abstract: The subject of the invention is a process for associating an apparatus to a first communication network, the transmissions in the first network being performed on a first channel. The process comprises: detection by said apparatus of the first transmission channel; determination of collision on said channel between signals originating from the first network and from a second network; in case of collision, transmission of a change of channel request to the first network. The invention applies in particular within the framework of local networks such as HIPERLAN 2.

Abstract: A novel topology sensing methodology is provided for point-to-point link setup among a set of network nodes, which are mobile. The technique provided is TDMA contention-based, where each network node sends pilot signals to announce its existence. Pilot signals transmitted by network nodes are used by surrounding nodes to extract various pieces of information such as node identity, node location and potential link quality. Information collected from pilot signals of neighboring nodes is used in conjunction with other topological criteria to identify the best set of nodes with which a given node should establish links. The topology sensing methodology avoids duplexer problems and attempts to achieve minimum collision by allowing the nodes to continually monitor available pilots and transmit on the least-interference channels.

Abstract: A method (100) and corresponding equipment, the method for enabling a Node B/base station (14) to distinguish different states—HARQ active states and a DTX (non-transmitting) state—of a UE (12) in respect to use of the feedback HSDPA (high-speed downlink packet access) channel HS-DPCCH over which the UE (12) sends acknowledgement messages (ACK/NACK) to the Node B (14) in response to receiving packets via the HSDPA (downlink) data channel HS-DPCH, the method including steps (41 42) in which the UE (12) additionally sends preamble symbols if an acknowledgement message (ACK/NACK) is to be sent in a next time interval but not in the current time interval, and at least one postamble symbol prior to the UE (12) entering the non-transmitting state (DTX).

Abstract: In a system, method, and apparatus according to an embodiment of the invention, traffic on a basic access channel and a reserved access channel is managed to maximize use of the basic access channel while minimizing delays.

Abstract: A plurality of electronic control devices for carrying out communications by using at least one of a plurality of different types of communication protocols are connected by a multiplex transmission serial communication line which supports communications by a plurality of different frame formats, and one of frame formats is allocated to one type of the communication protocols.

Abstract: A multiplexing equipment included in an ATM network to transmit control line signals for interfacing data communication terminals. The transmission of the control line signals is realized by reserving a field in a payload in a cell format for the control line signal transmission between the data communication terminals, mapping RS/CD, CS, ER/DR, CI of the control line signals at intervals based on a terminal speed, multiplexing the mapped control line signals at the transmission side, and separating the multiplexed control line signals at reception side.

Abstract: A method and apparatus for implementing virtual wire signaling is described. It includes an apparatus including a first component, a bus coupled to the first component, the bus to transmit packets of data, and a second component coupled to the bus, messages passed between the first component and the second component through packets transmitted on the bus.

Abstract: A system and method are disclosed for providing a method of communicating between a media access control (MAC) layer and a physical (PHY) layer. The method includes sending a 100 MHz time-division multiplexed signal on a receive data line and sending a time-division multiplexed receive control signal on a receive control line. A 100 MHz time-division multiplexed signal is sent on a transmit data line and a time-division multiplexed transmit control signal is sent on a transmit control line.

Abstract: A protocol for discovering a new neighbor node and detecting the loss of an existing neighbor node in a network is described. A node receives a neighbor discovery message from a neighbor node. The node receiving the neighbor discovery message periodically transmits a predetermined number of neighbor discovery messages in response to the received neighbor discovery message. Each neighbor discovery message includes an identity of the neighbor node. After transmitting the predetermined number of neighbor discovery messages, the node transmits neighbor discovery messages that omit the identity of the neighbor node until another neighbor discovery message is received from the neighbor node that indicates a change in a communications state associated with the neighbor node.

Abstract: A method and system for transferring a plurality of messages in an Ethernet industrial control environment. The messages are tagged with identifiers of varying levels of priority. The system has a serial network bus. Clock synchronization messages generated by a master device are tagged with a higher priority identifier, while other message types are tagged with a lesser priority identifier. Data having the highest priority identifier is placed onto the bus before placing data with a lesser priority identifier onto the bus.

Abstract: A data interconnect and routing mechanism reduces data communication latency, supports dynamic route determination based upon processor activity level/traffic, and implements an architecture that supports scalable improvements in communication frequencies. In one implementation, a data processing system includes at least first through third processing units, data storage coupled to the plurality of processing units, and an interconnect fabric. The interconnect fabric includes at least a first data bus coupling the first processing unit to the second processing unit and a second data bus coupling the third processing unit to the second processing unit so that the first and third processing units can transmit data traffic to the second processing unit. The data processing system further includes a control channel coupling the first and third processing units.

Abstract: The invention relates to a system and method for use in wireless packet data mode communications for facilitating communications between one or more remote devices and a base target device. The invention provides a high priority access channel (406) that can be utilized by specifically enabled packet data capable remote units (102), to perform random access channel request from a base station (106) when there is overloading on the standard communication channel (404).

Abstract: Congestion within a communication is controlled by rate limiting packet transmissions over selected communication links within the network and modulating the rate limiting according to buffer occupancies at control nodes within the network. Preferably, though not necessarily, the rate limiting of the packet transmissions is performed at an aggregate level for all traffic streams utilizing the selected communication links. The rate limiting may also be performed dynamically in response to measured network performance metrics; such as the throughput of the selected communication links input to the control points and/or the buffer occupancy level at the control points. The network performance metrics may be measured according to at least one of: a moving average of the measured quantity, a standard average of the measured quantity, or another filtered average of the measured quantity.

Abstract: A method for performing communication between a base station and a mobile station through a designated channel is disclosed.

Abstract: The present invention discloses a data transfer method wherein data is broken up into N datablocks (where the number N is a natural number) for transfer from a first node to a second node on a bus system each of whose nodes is assigned a node identifier, wherein the data transfer method comprises, prior to transfer of the datablock, a step in which a control node (1) issues to the second node a datablock reception instruction containing therein a node identifier of the first node and (2) issues to the first node a datablock transmission instruction containing therein a node identifier of the second node, thereafter, a step in which the datablock transfer from the first node to the second node is executed, after the datablock transfer is completed, a step in which the first node notifies the control node of a result of execution of the datablock transfer processing, and a step in which the second node notifies the control node of a result of execution of reception processing on the datablock.

Abstract: The invention relates to a multitask processing system including a data bus and a command bus. Each one of a plurality of operators is provided to perform a processing determined by an instruction and is likely to issue a command request in order to receive an instruction from the command bus and to issue a transfer request on response to an acknowledgment of the command request, in order to receive or provide data being processed, through the data bus. A memory controller arbitrates the transfer requests and manages the data transfers on the data bus between the operators and a memory. A sequencer arbitrates the command requests, determines instructions to provide the operators with, and manages the instruction transfer through the command bus.

Abstract: A communication band setting method and a communication device that can change a communication band in the ascending and descending directions. The communication device includes a transmission/reception unit that transmits and receives a signal using a plurality of sub carriers, an information storage unit that stores information as to whether each of the plurality of sub carriers is used for transmission or reception, a control unit that changes the information stored in the information storage unit in compliance with a control instruction. A transmission/reception process of the transmission/reception unit is controlled in accordance with the information stored in the information storage unit, so that a transmission band and a reception band are suitably adjusted.

Abstract: A method of communicating between a first and a second processor includes the first processor sending a datum over a common control bus, and the second processor receiving the datum from the common control bus.

Abstract: A technique for transmission of wireless signals across CDMA radio links. Bandwidth is allocated dynamically within a session to specific CDMA subscriber unit based upon data rate determinations. Specifically, a dynamic bandwidth allocation algorithm operates from limits calculated based upon available ports per subscriber, expected user bandwidth, and parallel user bandwidth versus throughput. Provisions for priority service, unbalanced forward and reverse spectrum utilization, voice prioritization, and band switching are also made.

Abstract: A computer system has a communication link that includes a control signal and data lines. A first control packet having a-plurality of bytes is transferred over the data lines from a first to a second node on the communication link. The control line is asserted to indicate transfer of a control packet. After transfer of the first control packet, a first portion of a multi-byte data packet associated with the first control packet is transferred with the control line deasserted. During transfer of the data packet the control line is asserted and transfer of the data packet is suspended. A second control packet is then transferred over the data lines. Subsequent to transferring the second control packet, the remainder of the data packet is transferred with the control line deasserted.

Abstract: Aspects of the invention provide a method and system for a communication bus for resetting one or more devices connected to the bus. The transceiver bus (620) may include a single serial data line (616), a single serial clock line (614) and a single reset line (612). A status of a slave device coupled to the transceiver bus (620) may be determined by a master device. Based on the status of the slave device, the master device may execute a forced reset or a normal reset. In a case where a device may be unresponsive, the master device may execute a forced reset. Additionally, in a case where a device is responsive but requires resetting, the master device may execute a normal reset and selectively reset a slave device requiring reset.

Abstract: End-to-end packet losses of one or more traffic streams transmitted across a congested network may be reduced by modulating the bandwidths of the corresponding traffic streams applied to node(s) of the network from one or more control points along the network topology. This reduction in packet loss results in a reduction in fluctuations or variability of the controlled traffic streams, an increase in bandwidth utilization and a reduction in times to transmit files. The control points can be either upstream or downstream of one or more congestion points along the network. The modulation of the bandwidths are governed by a nonlinear differential equation that involves feedback of the throughput and buffer occupancy level. The control terms involve a relaxation time, coupling constant, control constant and nonlinear feedback constants.

Abstract: Systems and methods for efficient multiplexing of multiple access requests from disparate sources within a single OFDM burst. Each of multiple subscriber units employ non-overlapping groups of OFDM frequency domain symbols within a single burst for upstream transmission of their access requests. In one embodiment, the OFDM frequency domain symbols are differentially encoded to eliminate the need for transmission of upstream training information. In an alternative embodiment, the group of frequency domain symbols within the burst employed by any particular subscriber unit are contiguous to one another. Channel training for a give subscriber unit need only be performed over the subband occupied by its group of frequency domain symbols. This greatly reduces the number of training symbols required for reception.

Abstract: A Resource Reservation System includes a Token Generation Unit (TGU) which generates and circulates among nodes of a communications system a Slotted Token (SLT) message having sub-fields to carry identification number for each input port in a node and the resource available for each input port. On receiving the message the Resource Control Unit (RCU) in each node can write port identification number, available resource in appropriate sub-fields of the SLT message, and reserve resources in other nodes by adjusting information in the sub-field associated with the other nodes.

Abstract: An efficient medium dedication schedule is generated. The schedule gives wireless medium an ability to concurrently serve real-time and non real-time application and still be able to maintain the Quality of Service as requested by the real-time application. Furthermore, QoS registration request is delivered in a time bound manner and a time slot is chosen for transmission during controlled contention phase that give lesser collision and higher throughput.

Abstract: A resource reservation for a file transfer at an ingress node, core nodes, and an egress node on a file transfer route in a packet switching network is realized by sequentially carrying out a control processing for determining a reserved rate function rrsv(t) indicating an output bandwidth at each node as a function of time t according to an input rate function rin(t) indicating an input bandwidth at each node as a function of time t and a vacant rate function r&phgr;(t) indicating a vacant bandwidth at each node as a function of time t, and judging whether it is possible to accept the reservation request at each node or not according to whether a difference between the input rate function and the output rate function exceeds a buffer capacity available at each node or not.

Abstract: A method of communication in a communications network permitting efficient asynchronous file transfer from a server to a multiplicity of clients. The method is adaptable to future multicasting, telecommunications and file transfer protocols and provides the benefit of decreased communications network traffic relative to prior art methods with a corresponding savings of server, transmission link, router and router network resources. The method provides for sequential transmission of a dataset in discrete blocks over a single data connection spanning the router network. The method includes subsequent joining of destinations to a transmission already in progress. Each subsequently joined destination begins reception of blocks with the next sequentially transmitted block and continues to receive blocks until all blocks in the dataset have been received.

Abstract: A telecommunications system (18) is provided that includes a first controller (20) and a second controller (22) coupled using a packet-switched network (32). The controllers provide a low cost means of coupling isochronous telecommunication devices. The first controller (20) receives one or more isochronous input channels from a common control shelf (24), such as a private branch exchange (PBX), over a circuit-switched network (27). The first controller (20) encapsulates an isochronous frames from the common control shelf (27) into a data frame that is transferrable over the packet-switched network (32). The second controller (22) is configured to receive the data frame and extract the isochronous frame, which is then transmitted to a peripheral shelf (26), such as a line trunk unit (LTU), using an isochronous circuit-switched network (38). The controllers contain identical functionality, permitting bi-directional transmission of data between the common control and peripheral shelves.

Abstract: A method and apparatus establishes a connection for a communication session between two remote devices, then negotiates an additional connection. One of the connections is used to communicate data, not commands, allowing that connection to be more efficient because each remote device does not have to scan it for commands in the information it receives.

Abstract: A PDMA (Path Division Multiple Access) channel allocation method is provided that allows setting of a channel to a user requesting connection using a reception signal vector, a weight vector, or a direction of arrival. A channel in the i-th time slot not used by another user is allocated to the user requesting connection. The reception signal vector thereof is measured and stored in a memory. The reception signal vector of the channel of a user that has already been connected to that time slot is compared with the reception signal vector of the new user. If interference occurs, the new user is allocated to a channel of another time slot.

Abstract: A router includes a communications bus, a second bus, and at least two processors. The second bus transfers ready status data from ports connected to the communications bus. The processors are connected to the communications and second busses. One of the processors controls the communications bus at each time. Each processor transfers control of the communications bus to another processor in response to receiving a request for control from the other processor.

Abstract: A method and system for automatically allocating bandwidth on a network bus in an audio/visual network. The present invention implements an intelligent process to automatically make adequate bus bandwidth available when a request for a connection (e.g., a communication channel used to transfer data) between a source device and a sink device is received. First, the present invention determines whether a communication channel is already allocated to the source device, and if so, the connection between the source device and the sink device is made using an overlay of the existing communication channel. Otherwise, the present invention compares the required bus bandwidth capacity for the source device with the available bus bandwidth capacity. Using voluntary and forced load shedding techniques, the present invention deallocates bus bandwidth capacity allocated to one or more of the devices on the audio/visual network if the available bus bandwidth capacity is less than the required bus bandwidth capacity.

Abstract: An apparatus and method for optimizing multiple access satellite and terrestrial mobile communications network performance using random access or multiple access protocols such as frequency division multiple access (FDMA), random access, code division multiple access (CDMA), or optimally, time division multiple access (TDMA) protocols. Performance is optimized through the use of persistence algorithms in congestion control methods for random access channels in such a network, whereby mobile terminal participation is eliminated from the congestion control procedure. In one aspect, a fixed network dynamically directs the operation of a mobile terminal-based persistence algorithm using only locally derived information which is directly transformed into an accurate estimate of random access channel throughput.