Abstract: A network (100) includes a hub device (110) and at least one unattached peripheral device (120). The unattached peripheral device (120) transmits an attach request to the hub device (110) with a selected address, receives a new address from the hub device to identify the unattached peripheral device (120), and communicates with the hub device (110) using the new address.

Abstract: A method of operating a network (120) is provided in a communications system for communications among a plurality of routers in the network. The network receives verifiable information identifying at least one compromised router (D). The method includes a step to excise the compromised router (D) from the network. The method also includes steps to verify that messages transmitted between routers (A, B, C, D, E and F) are from non-compromised routers (A, B, C, E and F), and to reinstate the compromised router (D) when it becomes non-compromised.

Abstract: A real-time signal processing engine robustly detects, localizes, tracks and classifies ground targets based on radar signals from a multistatic radar system. The system differentiates between different targets based on an optimized cost function, which can include the total returned normalized pulse energy. The local transmitters/receivers can communicate with each other via the transmitted radar signals.

Abstract: A system for recognizing speech receives an input speech vector and identifies a Gaussian distribution. The system determines an address from the input speech vector (610) and uses the address to retrieve a distance value for the Gaussian distribution from a table (620). The system then determines the probability of the Gaussian distribution using the distance value (630) and recognizes the input speech vector based on the determined probability (640).

Abstract: The invention provides, in various embodiments, a transducer for generating hyper-directional sound beams, and a system and method employing a hyper-directional sound transducer for producing pressure gradients and forces across stationary and moving objects.

Abstract: Systems and methods for locating the shooter of supersonic projectiles are described. Muzzle blast signals are neither sought nor required. The system uses at least two sensors, with each sensor having a 3-axis accelerometer. The sensors are spaced apart at least 1 meter and have each a diameter of about one centimeter. The three accelerometer signals of each sensor represent pressure gradients and are processed to find the shockwave arrival angle unit vector, the shockwave arrival time instant and peak pressure. Noise signals seldom cause false detections with this sensing method because the sensors have maximum sensitivity at the high frequency characteristics of shockwaves, while their sensitivity to the low frequency characteristics of ambient noise is relatively low.

Abstract: A system facilitates the searching and retrieval of multimedia data items. The system receives data items from different types of media sources and identifies regions in the data items. The regions include document regions, section regions, and passage regions. Each of the section regions corresponds to one of the document regions and each of the passage regions corresponds to one of the section regions and one of the document regions. The system stores document identifiers that relate to the document regions in separate document records in a document table, section identifiers that relate to the section regions in separate section records in a section table, and passage identifiers that relate to the passage regions in separate passage records in a passage table.

Abstract: An execution unit (260) within a network processor (110) performs multiple protocol-processing functions. The execution unit (260) includes a set of specialized registers (310-350) and a memory system (265). The specialized registers (310-350) store data during performance of the protocol-processing functions. The specialized registers (310-350) include one or more input registers, at least one control register, and one or more output registers. The memory system (265) includes multiple memories that operate together to facilitate performance of the protocol-processing functions by the execution unit (260).

Abstract: An improved system for sensing ground motion is provided. The system generally comprises a shell and a case within the shell and connected by a suspension. The mass of the case is greater than the mass of the shell. An electrode within the shell detects relative motion between the shell and the case.

Abstract: A system (105) determines a power level for transmitting to a neighboring node in a wireless network. The system (105) receives a message indicating a three-dimensional position and orientation of the neighboring node and a type of directional antenna of the neighboring node that transmitted the message. The system (105) determines the power level for transmitting to the neighboring node based on the three-dimensional position and orientation of the neighboring node and the type of the directional antenna.

Abstract: A network tap [120/220] monitors traffic transmissions in a network [100/200]. The tap records transmission time information [501] between data transmitted in the network. From the transmission time information, the tap calculates differences in transmission times [500], and assumes the differences in transmission times are distributed as fractional gaussian noise. Housdorff dimensions are calculated for the fractional gaussian noise distributions. The Housdorff dimensions are used to generate traffic analysis information for the network, even when the data transmitted on the network is encrypted.

Abstract: The invention relates to a programmable radio having an internal packet network for communicating between the functional modules of the radio. Modules may have a network controller, a network connector, memory for storing the instructions and processors to execute the instructions to implement the functional aspects of the radio, such as signal reception and conversion, internal data routing and output signal transmission. The network may be configured as a bus, a daisy chain or a central hub, and may be implemented using twisted pair, cable, fiber, or a wireless link. The network itself may use standard network protocols applicable to Ethernets, asynchronous transfer mode networks, token ring networks, resilient packet ring networks, or other similar “internet” networks.

Abstract: A data-display system employs a display in which the representations of data objects are caused to move on the display in order to convey information about the represented data objects. In one example, icons in a link-analysis display that represent data objects satisfying a selection criterion are made to execute distinctive motion. In another example, three-dimensional models of moving bodies in whose features components of respective data objects are encoded are projected onto a screen plane, and the resultant values are used to generate the display.

Abstract: The disclosure describes techniques that enable a server to receive content submitted for delivery to a user and stream the submitted content to a receiver associated with the user. Such content may streamed along with generic, shared content. To handle streaming of received content, the server may modify a play list associated with a user to include the submitted content. The timing of content streaming may be affected by play scheduling information specified by a submitter such as a specific streaming time or a number of times to stream the content.

Abstract: A system estimates flow parameters associated with a fluid flow encountering a bluff body. The system includes multiple sensors distributed on a surface of a bluff body. The system further includes input circuitry and a sensor processing unit. The input circuitry receives a signal from each of the multiple sensors. The sensor processing unit determines noise levels associated with each of the multiple sensors due to the fluid flow encountering the bluff body. The sensor processing unit further assigns weights to each of the multiple sensors based on the determined noise levels and estimates the fluid flow direction based on the assigned weights.

Abstract: Systems and methods for performing neighbor discovery in a network (100) including a number of nodes are provided. A first node (110) in the network (100) generates a spread signal for alerting other nodes in the network (100) of the presence of the first node (110). The first node (110) broadcasts the signal and a second node (120) receives the signal and calculates an energy associated with the received signal. The second node (120) also determines whether the energy is greater than a threshold and identifies the first node (110) as a neighbor node when the energy is greater than the threshold.

Abstract: A method and system are provided for acquiring information about communication among nodes [110, 210] in a network [100, 200] by intercepting chunks of data in the network by a tap [120, 220] located among the nodes [110, 210]. A file [740] of data, including characteristics [400] of the intercepted chunks may be produced. The data may be converted into at least one time series and processed to produce prosody information. The prosody information may be used by prosody analysis.

Abstract: An ultra-wide band (UWB) radio frequency (RF) receiving device (205) includes a first receiver (305) that receives UWB RF signals, a second receiver (315) that receives an external cue, and a processing unit (330). The second receiver (315) receives an external cue that includes one of a television blanking signal, a zero-crossing of a FM radio transmission, a paging system signal, a zero-crossing of an analog voice transmission, a zero-crossing of an analog video transmission, a cellular telephony control channel signal, a cellular telephony traffic channel signal, a digital sub-band for an AM or FM radio station signal, a digital or analog signal in a short-wave-radio transmission, a digital television signal, a digital or analog signal in a land mobile radio transmission, a radio-navigation signal, a radar signal, a satellite signal, an acoustic event or signal, a magnetic event or signal, or an optical event or signal.

Abstract: A system and method for reducing acoustic, wind or other background noise that may interfere with sensing of a seismic signal is provided. More specifically, a shield is provided to enclose a geophone and thereby protect it from harmful noise. The shield may comprise a rigid shell, a structural damping material, an acoustically absorptive material, and a compliant seal for coupling the shield to the ground or reference surface.

Abstract: Shockwave-only solutions that estimate shooter position and shot trajectory are extremely sensitive to the quality and precision of the shock time-of-arrival (TOA) measurements as well as the accuracy to which relative sensor positions in space are known. Over the life of a long-deployed system, the sensor positions can shift and the performance of some sensors may degrade for various reasons. Such changes can degrade the performance of deployed shooter estimation systems. Disclosed are systems and methods that can be used to calibrate sensor positions based on shock and muzzle measurements processed from a series of shots fired from a known location and in a known direction, as well as an approach for dynamically adapting shock-only shooter estimation algorithms to compensate for sensor degradation and/or loss.