Abstract: An interface circuit for a bridge sensor has a switch that connects to a resistive bridge circuit. The resistive bridge circuit includes a first input terminal, a second input terminal, and a pair of resistive branches that connect between the first and second input terminals. Both of the resistive branches include an output terminal. The switch is connected to the first input terminal and is in series with both resistive branches for connecting and disconnecting a voltage source from the resistive branch output terminals.

Abstract: A method of visualizing track and balance performance includes receiving data indicating track and balance of a rotary blade and receiving a constraint. A first performance level based on the data is determined. A second performance level based on the data and the constraint is determined. The first and second performance levels are displayed on a display unit for visualizing differences between the first and second performance levels.

Abstract: An actuator assembly includes an actuator body, a ram, and a cross pin. The actuator body has an internal axial cavity bounded by an actuator body wall and defines a pivot axis. A longitudinal slot extends along a portion of the length of the actuator body wall and is in communication with the internal axial cavity. The ram is slidably received within the axial cavity of the actuator body. The cross pin is mounted to the ram and extends laterally from the ram and into the longitudinal slot for converting linear motion of the ram into rotational motion about the pivot axis for displacing a control surface of an air vehicle.

Abstract: A mount for holding a display device includes a main support, a plurality of arms, and a locking assembly. The main support includes a front surface and a rear surface. The plurality of arms extends from a periphery of the main support. The main support and the plurality of arms are configured to retain the display device. The locking assembly is connected to the rear surface of the main support, and is configured to secure the display device. The locking assembly includes a locking arm and a locking mechanism. The locking arm is translatable relative to the main support, and is configured to support the display device in a secured position. The locking mechanism is connected to the locking arm. The locking mechanism includes a lever connected to the locking arm for releasing the locking mechanism.

Abstract: A method of adjusting a rotary blade includes receiving performance data for a rotary blade, receiving an adjustment constraint for the rotary blade, defining an adjustment space for alternative adjustment solutions for the rotary blade including a plurality of alternative adjustment solutions, and calculating expected performance for one of the plurality of alternative adjustment solutions. Based on the expected performance of the one of the plurality of alternative adjustment solutions, the method determines whether to calculate expected performance for another of the plurality of alternative adjustment solutions.

Abstract: A system for filtering data according to an exemplary aspect of the present disclosure includes, among other things, a data module configured to access vehicle data in a database according to a query input, a display module configured to display the vehicle data in an environment, and a query module configured to generate the query input according to an interactive list of filter statements. Each filter statement in the interactive list of filter statements is selectable from a group of filter types. The group of filter types is configured to dynamically update in response to at least one selection from the group of filter types. A method of filtering data is also disclosed.

Abstract: An actuator includes a drum defining a longitudinal axis and having axially opposed first and second end portions that are rotatable relative to one another about the longitudinal axis. A shape memory element is wrapped around the drum and extends from the first end portion of the drum to the second end portion of the drum to actuate relative rotation of the first and second end portions of the drum about the longitudinal axis by activation of the shape memory element.

Abstract: A multi-stage drive includes a linear actuator configured for linear movement along an actuation axis, and a control surface. The control surface is operatively connected to the linear actuator for rotation about a deployment axis in a deployment stage, and for rotation in a control stage about a control axis that is different from the deployment axis, so that movement of the linear actuator along the actuation axis drives rotation of the control surface in both the deployment stage and in the control stage.

Abstract: In one example, a device includes at least one processor and one or more storage devices encoded with instructions that, when executed by the at least one processor, cause the at least one processor to execute a software program comprising three or more segments. Each of the three or more segments includes one or more modules. Each respective module is a member of only one of the three or more segments and implements an interface that enables direct communication between the respective module and modules that are members of any other of the three or more segments. All modules that are members of a respective segment implement a common interface associated with the respective segment.

Abstract: A system and method to implement a scheduling algorithm in a communication network using time division multiple access (TDMA) are described. The system includes a plurality of devices, each device transmitting a packet of data in the communication network, and a memory device to store the scheduling algorithm. The system also includes a processor to execute the scheduling algorithm to form a deterministic packet scheduling scheme, the deterministic packet scheduling scheme being based on a base unit representing a minimum among maximum packet intervals corresponding to the plurality of devices in the communication network.

Abstract: A method for obtaining a baseline for detecting rotating stall using localized information already included within the frequency spectrum. Namely, ratiometric measures, i.e., quadratic coefficients obtained from weighted quadratic regression of sub-synchronous spectrum and/or information obtained through peak detections, are used to detect rotating stall. These ratiometric measures are configured to isolate changes caused by rotating stall from those caused by other operational conditions. As a result, new baseline information can be established to more reliably characterize a system, such as a system with associated turbines or compressors. Empirical or statistical approaches can be combined to automate the process of obtaining a new baseline and to detect rotating stall.

Abstract: The subject invention is directed to a new and useful line replaceable unit (LRU) including an LRU case defining an interior compartment for housing critical function circuit card assemblies and including a back plane wall and opposed interface wall. At least one critical function circuit card assembly (CCA) is housed within the LRU case. The critical function CCA includes an input output connector mounted in proximity to the interface wall, as well as a backplane connector. The LRU includes a backplane CCA operatively connected to each backplane connector of the at least one critical function CCA. The backplane CCA is configured and adapted to provide operative communication among multiple critical function CCA's. The critical function CCA's can be mounted to the LRU case proximate the interface wall and the backplane wall to be mechanically and electrically isolated from one another except for connections provided by the backplane CCA.

Abstract: A method includes receiving, by an inventory management system (IMS) program executing on a computing device, a remaining useful life (RUL) formulation for a part of a machine that estimates an amount of time for which the part will continue to perform its intended function and a potential unscheduled maintenance event. The method also includes receiving, by the IMS program, replacement part order lead time data and anticipated replacement part inventory level data from a part inventory database. The method also includes determining, by the IMS program and based on the RUL formulation, the replacement part order lead time data, and the anticipated part replacement inventory level data, that an order for a replacement part should be initiated.

Abstract: A power system includes a first energy harvester, a second energy harvester, a power conditioning unit, and a load. The first energy harvester is configured to produce a first voltage. The second energy harvester is configured to produce a second voltage. The first voltage is greater than the second voltage. The power conditioning unit is configured to condition power produced by the second energy harvester. The power conditioning unit is powered by the first voltage. The load is configured to receive the conditioned power from the power conditioning unit.

Abstract: A sensor network includes a plurality of sensors and a base station for sending a series of data acquisition requests to the sensors. Each data acquisition request has an index. Each sensor has a synchronization calculation module and an internal clock. The sensors are adapted and configured to receive the series of data acquisition requests and record a timestamp of receipt for each data acquisition request. The sensors also store a predefined time interval related to the plurality of data acquisition requests so that the sensor can calculate a time to start collecting data based upon the series of data acquisition requests, the timestamps, the indices, and the predefined time interval. In an alternative embodiment, the base station only sends a general request for data acquisition and a synchronization sensor module receives the general request and, in turn, sends the series of data acquisition requests to the sensors.

Abstract: A method for evaluating a collective alignment of rotor blades for an aircraft while the aircraft is on the ground is disclosed. The method includes determining an air density altitude, and determining a torque value for each engine of the aircraft, while the aircraft rotor blades are operated at a normal speed and the rotor blades are set to a full down position for ground operations via a collective controller. The method further includes evaluating the collective condition by comparing the torque value to a predetermined flat pitch torque alignment limit for the air density altitude, and providing an indication of the collective condition.

Abstract: The present disclosure relates to a method to determine, from a measured result and an assumed adjustment set, the probability that a permutation to the assumed adjustment set was implemented or other error, such as a sensor error, is occurring. The determination of probability of a permutation of the adjustment set may be based on the error between the predicted response and the measured actual response for the assumed adjustment set and permutations of the assumed adjustment set. A number of statistical comparisons may be performed between the assumed adjustment set and the permutation sets to determine which are closer to the measured actual response. A probability value may be assigned to each adjustment set as to the likelihood of their having been implemented.

Abstract: Disclosed are systems and methods for retaining and deploying a plurality of canards and canard covers on a projectile. The projectile includes a projectile housing defining an interior chamber and a longitudinal axis, canards rotatably mounted to the housing, canard covers, a bobbin movably disposed in the interior chamber of the housing along the longitudinal axis, and rocker arms. The canards mounted for movement from a stowed position to a deployed position. The canard covers have a hook element and are adapted to cover respective slots formed in the housing. The bobbin has first and second ends and a retaining surface proximate the second end. Rocker arms have a first and second arm end, with a canard retaining slot defined therebetween. The first arm end includes a latch element for engaging with the canard cover element, and the second arm end is positioned proximate the retaining surface.

Abstract: A system to locate and map a data collection device includes at least one image. The image may be included with a subsystem or a component monitored by the system. A data collection device, such as a smart sensor, is configured to detect a stimulus and to capture the at least one image. The smart sensor is further configured to output an image signal indicating the at least one image. A main control module is in electrical communication with the at least one smart sensor. The main control module is configured to determine the image based on the image signal, and compare the at least one image to a stored image. The main control module is further configured to authenticate the at least one image in response to the at least one image matching the stored image.

Abstract: A reflector target includes a reflector defining a tapered reflector surface. The reflector includes an apex opening and an opposed base opening, wherein the base opening has a larger perimeter than the apex opening. The tapered reflector surface extends between the openings forming a tapered passage there-between. The tapered reflector surface is configured to resist the accumulation of surface bubbles on the reflector surface by movement of bubbles along the reflector surface out through the apex opening.