Abstract: A windage tray for an engine including a first body having a first coupling feature by which the first body is adapted to be coupled to an engine block. The first body having a second coupling feature by which the first body is adapted to be coupled to a bearing cap. The first body having a third coupling feature by which the first body is adapted to be coupled to a balance shaft module.

Abstract: An embodiment of a protection system for an object includes first and second sensors and a processor coupled to the sensors. The sensors are mountable to a side of the object a predetermined distance apart, and each sensor is operable to detect a respective angle between the sensor and a location from which a projectile is fired toward the side. The processor is operable to determine from the detected angles whether the firing location is aligned with the object. If the firing location is aligned with the object, then the processor is operable to calculate from the detected angles and the predetermined distance a time window during which the processor estimates that the projectile will strike the object, and is operable to cause a protection unit to defend against the projectile for the duration of the time window. Such a protection system may be less expensive to acquire, install, or operate than prior protection systems, and may expand defenses more efficiently than prior protection systems.

Abstract: A method and system to rapidly, passively, range and track maneuvering airborne emitters (enemy targets and threats) for tactical fighters using batch based recursive estimators for track initialization and track maintenance that includes providing information processing that has angle and signal amplitude data, threat database, and feedback from pilot cue analysis. The system includes pilot cue analysis which computes airborne emitter (target and threat) heading and corresponding accuracy to determine if sufficient accuracy is available to present the pilot with proper pilot cue options. The first stage is a range bank also called a compound parallel hypothesis evaluator and the second stage is an interactive multi-model. Both stages provide for the output of the algorithm to be a range measurement and an associated confidence factor. The algorithm inputs azimuth angle elevation angle and range and is capable of inputting data from three different data pre-processors (i.e., sensor data fusion).