777 results about "Asynchronous communication" patented technology

Methods, systems, and computer program products are provided multilingual for asynchronous communications. Embodiments include recording a speech message in a digital media file; transmitting, from a sender multilingual communications application to a recipient multilingual communications application, the speech message in the digital media file; receiving, in the recipient multilingual communications application, the recorded speech message in the digital media file; converting, by the recipient multilingual communications application, the recorded speech message to text; identifying, by the recipient multilingual communications application, that the text of the recorded speech message is in a source language that is not a predetermined target language; translating, by the recipient multilingual communications application, the text in the source language to translated text in the target language; converting, by the recipient multilingual communications application, the translated text to synthesized speech in the target language; recording, by the recipient multilingual communications application, the synthesized speech in the target language in a digital media file; and playing the media file thereby rendering the synthesized speech.

An apparatus and method of transmitting scheduling information from a UE to a Node B to request Node B controlled scheduling in an asynchronous CDMA communication system supporting an E-DCH packet data service is provided. The UE generates a MAC-e PDU including only scheduling information representing a buffer status and a power status in relation to uplink data transmission, and transmits the MAC-e PDU on an E-DCH along with TF information indicating the transmission of the MAC-e PDU including the scheduling information. The Node B receives the scheduling information on the E-DCH and schedules uplink data transmission according to the scheduling information.

A method and system that protects selected system and other files, by preventing changes to those files. In an asynchronous alternative, the change is prevented by copying back the original file when a protected file is changed, as known via an asynchronous notification. In an alternative synchronous embodiment, the change to the file is prevented from occurring. In the asynchronous notification alternative, a directory change notification notifies a file protection service whenever a file that has possibly changed is closed, providing the file identity as part of the notification. The file protection service determines from the file identify whether the file has been deemed protected. If protected, the file protection service prevents any actual change by verifying whether the protected file changed, such as by analyzing the file's contents against known valid contents. If not valid, the file protection service restores a saved copy that is itself verified.

A replication system that includes an asynchronous replication mode and a synchronous replication mode replicates data associated with a plurality of transactions. The replication system includes one or more target nodes connected via communication media in a topology. Each target node includes a database and a plurality of appliers allocated thereto. Each transaction has one or more transaction steps or operations. A first set of transaction steps or operations are allocated to the plurality of appliers on an object-by-object basis when the replication system operates in asynchronous replication mode. A second set of transaction steps or operations are allocated to the plurality of appliers on a transaction-by-transaction basis when the replication system operates in synchronous replication mode. The replication system further includes one or more originating nodes, and the requests for the first and second sets of transaction steps or operations to execute on an originating node can be initiated during the same time period.

A ConnectIcon View is employed to establish collaborative communications between a plurality of participants in a group. Specifically, it is a dynamic visual representation of the participants of a group being invited to communicate together with their presence information, lists of documents and URLs (Uniform Resource Locators) to be examined, and a set of mechanisms (email, chat, voice, and the like) to initiate communication, each of which can be billed to the originator or otherwise as desired. The available presence information allows a user to employ the best mode of communicating for the instant purpose, namely, either asynchronous communication or synchronous communication.

A method and apparatus for efficiently transmitting channel quality information in an OFDM communication system using dynamic channel allocation and adaptive modulation, and determining parameters required for time-division channel quality information transmission in an asynchronous CDMA communication system are provided. In the OFDM communication system in which a plurality of subcarriers are allocated to a plurality of UEs, the subcarriers are divided into a plurality of subcarrier groups each having at least one subcarrier. Each of the UEs determines and transmits the channel quality information of each of the subcarrier groups according to predetermined transmission parameters at transmission time points that do not overlap with those of other UEs. A Node B dynamically allocates the subcarriers to the UEs and their corresponding modulation schemes according to the channel quality information.

An asynchronous circuit having a pipelined completion mechanism to achieve improved throughput.

This invention relates to the domain of Networks on Chips (NoC) and relates to a method of transferring data in a network on chip, particularly using an asynchronous “send / accept” type protocol. The invention also relates to a network on chip used to implement this method.

A system and method for graphing data for a web application. A developer associates a graph component with a web page. In response to a web browser accessing the web page, the web server executes the graph component. The graph component generates information useable to display a graph in the web browser and generates scripting code which enables the user to interact with the graph in various ways. In response to the user interacting with the graph, the scripting code asynchronously communicates with the graph component on the web server to receive information for updating the graph displayed in the web browser.

A system and method for simultaneously updating a plurality of user interface elements displayed in a web page at a periodic time interval. In response to a web browser accessing the web page, the web server generates information for displaying the plurality of user interface elements in the web page and generates scripting code associated with the user interface elements. When the web browser displays the web page, the scripting code starts a timer that periodically elapses at fixed time intervals. Each time the timer elapses, the scripting code asynchronously communicates with the web server to receive update information for updating the user interface elements. Exemplary re-useable software components for implementing the simultaneous update of a plurality of user interface elements in a web page are described.

Techniques to efficiently process paging channels in an asynchronous wireless communication system. In one aspect, if the base stations are not synchronized with each other and a remote terminal's designated page time is different from base station to base station, the remote terminal can wake up based on the earliest base station in a reacquisition search list that includes candidate base stations to which the remote terminal may be handed off. In another aspect, the criteria to select base stations for evaluation as reacquisition targets may be based on the received power of the base stations as well as their timing, both of which may be made relative to that of a preferred base station. In yet another aspect, the remote terminal may wake up multiple times in a particular paging cycle (i.e., a frame cycle or a DRX cycle) if there are one or more candidates base station to which the remote terminal may be handed off.

A method for performing simultaneous synchronous or asynchronous communications. A first communication channel is established between a first entity and at least one second entity and a second communication channel is established between the first entity and at least one third entity over the network. Then, data associated with the first and second communication channels are recorded. Next, first, second, and third entities are dynamically monitored to identify if first, second, or third entities is in an active or inactive state, and based upon such monitoring, recorded data are either synchronously rendering to entities in an active state or asynchronously rendered to entities in an inactive state upon the entities in the inactive state transitioning from an inactive state to an active state.

An elevated mesh network supported and operably coupled to street lamps can be used to remotely monitor and control field devices. The packet transceiver modules of the mesh network can also be coupled to sensors that monitor operation of a street lamp as well as environmental conditions. The elevated mesh network supported by street lamps can use RF links to couple with one or more remote field devices that also have packet transceiver modules. The elevated mesh network can also include a communications gateway that couples the elevated mesh network to an asynchronous communications system. The communications gateway is a store and forward system that can periodically connect to the asynchronous communications system in order to upload compressed data derived from the remote field devices. The asynchronous communications system can connect the elevated mesh network to a back-end computer system that may monitor, diagnose, and control the remote field devices.

A server architecture for a digital rights management system that distributes and protects rights in content. The server architecture includes a retail site which sells content items to consumers, a fulfillment site which provides to consumers the content items sold by the retail site. The fulfillment site includes an asynchronous fulfillment pipeline which logs information about processed transactions using a store-and-forward messaging service. The fulfillment site may be implemented as several server devices, each having a cache which stores frequently downloaded content items, in which case the asynchronous fulfillment pipeline may also be used to invalidate the cache if a change is made at one server that affects the cached content items.

A system and method for exchanging short voice messages between devices connected to a network is provided. This system includes server components that are capable of being connected to a network and support the transmission, receipt, storage, and playback of short voice messages and location information. This system can also include software clients installed on mobile devices, desktop computers, and / or other remote computers that are connected to a network. These clients may also support voice modification of transmitted audio. This method enables asynchronous communication such that users may transmit voice messages and / or locations to recipients and the recipients may be alerted that messages have arrived, even if their clients are not active. The system of the invention provides privacy to the users of the system by allowing for multi-level privacy and trust settings, and by concealing a sending client's IP address from the receiving client.

A distributed synchronization system for use in each node of a distributed asynchronous telecommunications network system that continually monitors and controls the flow of data through an implementing node to prevent dataflow errors due to phase and frequency differences in source and destination nodal clocks, and to control inter-nodal network latency so as to support the transmission of synchronous data. A synchronization data FIFO buffers predetermined fields or portions of fields of a unique frame packet received from a source node before retransmission to a destination node on the network. The frame packet includes a frame synchronization field indicating the beginning of a new frame packet; a payload field containing valid data; and a dead zone field providing bandwidth during which the present invention performs synchronization functions. A frame synchronization subsystem, implemented in a designated master node, guarantees that a frame is released at the beginning of an independently-determined frame regardless of network latency. A word resynchronization subsystem manages the flow of data through the data FIFO of each non-master node, receiving and storing data at the source node's clock rate and transmitting the data according to its own clock, thereby guaranteeing the efficient receipt and transmission of data between asynchronously-communicating nodes.

A crossbar switch (50) is implemented in a reconfigurable circuit, such as a FPGA, instantiated with a number of modules (40), the crossbar switch (50) providing communication links between the modules (40). The modules (40) and crossbar switch (50) can be easily updated in a partial reconfiguration process changing only portions of modules (40) and the crossbar switch (50) while other portions remain active. The crossbar switch (50) uses individual wiring to independently connect module outputs and inputs so that asynchronous communications can be used. The crossbar switch (50) can be implemented in different embodiments including a Clos crossbar switch, and a crossbar switch connecting each module output only to a corresponding module input, allowing for a reduction in the amount of FPGA resources required to create the crossbar switches.

The present invention provides a system, method and apparatus for asynchronous communication in wireless sensor networks. Each sensor includes a transmitter normally operating in a sleep mode, a low power receiver having a memory, a sensing module, and a processor normally operating in a sleep mode communicably coupled to the transmitter, the low power receiver and the sensing module. Data is received via the low power receiver and stored in the memory. Whenever a wakeup time occurs, the transmitter and the processor are put in an operational mode, sensory data is obtained from the sensing module, the sensory data is processed, the received data is obtained from the low power receiver memory, the processed sensory data and the received data are transmitted via the transmitter, and the transmitter and the processor are put in the sleep mode.

Scaling Asynchronous reclamation of free space in de-duplicate multi-controller storage systems is disclosed. In one example, a set of de-duplicated data segments / blocks organized in a hierarchical data structure is received, the set of de-duplicated data segments / blocks are allocated across a plurality of controllers of the file system, where each de-duplicated data segment is restricted to be co-allocated to the same controller as the reference(s) referencing the de-duplicated data segment / block in the hierarchical data structure. In various embodiments, the file system is traversed, each controller of the file system updates its own local live vector and reclaim storage space that are not marked as alive.

A notification service and correspondingly configured wireless device for providing asynchronous communications over a communication network for an application of the wireless device in communication with a selected service. The selected service has a source schema definition including an output notification definition associated with a correlation ID. The notification service comprises a reverse schema definition of the source schema definition such that the reverse schema definition includes an input notification operation definition corresponding to the output notification definition. The input definition is associated with the correlation ID and a parameter list of the output definition. The output definition is for defining an output message of the selected source that corresponds to an input message of the notification service defined by the input definition. The notification service has a first communication port adapted for receiving the output message of the selected service as the input message to the notification service, wherein the messages are adapted to include the correlation ID for identifying the network address of the wireless device. The information contents of the output message of the selected source are transmitted as an asynchronous communication to the application of the wireless device identified by the correlation ID.

Embodiments are provided for guard band utilization for synchronous and asynchronous communications in wireless networks. A user equipment (UE) or a network component transmits symbols on data bands assigned for primary communications. The data bands are separated by a guard band having smaller bandwidth than the data bands. The UE or network component further modulates symbols for secondary communications with a spectrally contained wave form, which has a smaller bandwidth than the guard band. The spectrally contained wave form is achieved with orthogonal frequency-division multiplexing (OFDM) modulation or with joint OFDM and Offset Quadrature Amplitude Modulation (OQAM) modulation. The modulated symbols for the secondary communications are transmitted within the guard band.

Many different users may access, revise and update the same shared object simultaneously through several different transports. Clients may communicate asynchronously by accessing the shared object through a physical server. Clients may also communicate synchronously by accessing the shared object through a peer-to-peer network. A manifest file associated with the shared object identifies the locations where other versions and instances of the shared object are stored. The shared object and the associated manifest file allow a client to transition seamlessly between local access, synchronous and asynchronous communication such that the user is not aware that the mode of communication has changed. A user may change location and any available data sharing transports are automatically identified. Thus, the user may access a shared object and collaborate with other authorized users through different mechanisms.

A method and system for managing events associated with either the client or the server using a controller framework includes initiating a request at a client. The request triggers an event that is processed using a client controller on the client. The client controller registers the event on the client, forwards the event to a server controller on a server, polls the server controller on the server periodically for information related to the event and retrieves notifications in response to the request or upon a poll. The client controller communicates with the server controller using asynchronous communication. The response retrieved by the client controller is loaded onto the browser of the client dynamically and rendered at the client as and when notifications are received from the server.

Communication by location method that geoplaces asynchronous message threads to a specific first geographic location geo-fence within which they are visible, and a second sub geo-fence for replies. This geopinning process may be done by remote users. The message threads have a first viewing distance parameter, a second reply parameter, and other parameters. Users with mobile devices such as GPS equipped smart phones may set their devices to discover message threads that are within a specified radius of the actual device itself, or a device virtual map location, allowing very distant threads to be viewed. However only users with a real geographic proximity to the thread within the specified reply distance may reply to the thread. The method will generally be implemented by software residing on mobile devices and host servers, and may additionally use data from map servers to place the treads in a map context.

A communication system is provided which allows synchronous devices in different synchronous communication networks to have synchronous communications with one another via an asynchronous communication network. In the communication system of the present invention, a master communication device generates a master clock based on a reference clock which is provided by a clock supplier. The master communication device sends a synchronization information frame, which contains information about the generated master clock, to plural slave communication devices via the asynchronous communication network. The slave communication devices each reproduce the master clock from the received synchronization information frame.

A method for The method for transmitting a message between a mobile communication system and at least a core network, the mobile communication system having a mobile station and a radio network, the method comprising the steps of: a) at the radio network, discriminating an operating type of a core network(s) coupled thereto; b) at the radio network, generating and transmitting a system information message having core network operating type information and information related to the core network; c) if two or more core networks are coupled to the asynchronous mobile communication system, at the mobile station, selecting one core network to be communicated with, based on the system information message; d) operating a call control entity and a mobility management entity according to an operating type of the selected core network; and e) communicating messages between the mobile station and the radio network, the message having a different data format according to the operating type of the selected core network.

A task list server supports secure asynchronous communications between both a workstation and one or more machines. The task list server stores requests and responses initiated by either side and establishes secure communication channels used to forward the data between parties. The communication between workstation and machine may be delayed by hours or even days, depending on the work schedule and network access of both the workstation operator and machine. The machine may process requests in order from highest priority to lowest priority and from oldest to newest. Public key encryption may be used to establish secure channels between the task list server and the workstation or the one or more machines using a combination of certificate authorities including both manufacturers and owner / operators.