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公开(公告)号:US20230314107A1
公开(公告)日:2023-10-05
申请号:US17707257
申请日:2022-03-29
Inventor: Andrew N. Acker , Eric M. Louchard
CPC classification number: F41H11/13 , G06V20/60 , G06V20/17 , G06T7/70 , G06V2201/07 , G06T2207/10036
Abstract: Predicting whether objects in an image form a scattered minefield (SMF) is accomplished by a system and method utilizing at least one non-transitory computer readable storage medium having instructions stored thereon. When the instructions are executed by a processor, the instructions implement operations to determine whether the objects define a SMF based on an estimation of a distribution process from which the MLOs are positioned on the surface in the image obtained from the image sensor.
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公开(公告)号:US11754142B2
公开(公告)日:2023-09-12
申请号:US17330748
申请日:2021-05-26
Inventor: Jonathan E. Hoffman
Abstract: An isolator, the isolator comprising an isolator comprising a lower isolator post and an upper isolator post; an isolator compression disk configured to be secured to the upper isolator post; and at least three gaskets configured to be retained, in use, between an upper face of the isolator and a lower face of the isolator compression disk, wherein the lower isolator post, in use, is configured to be affixed to a first apparatus, wherein the upper isolator post is configured to be inserted through an aperture of a second apparatus, wherein the isolator compression disk is configured to retain the second apparatus against the isolator, and wherein the at least three gaskets are configured to prevent any direct contact between the isolator and the second apparatus.
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公开(公告)号:US11733497B2
公开(公告)日:2023-08-22
申请号:US17538467
申请日:2021-11-30
Inventor: Kevin W. Peters , Gerard J. Pelletier , David E. Thompson
IPC: G02B13/14 , H01L27/146 , G02B13/02
CPC classification number: G02B13/14 , G02B13/02 , H01L27/14627 , H01L27/14649
Abstract: An athermalized Short-Wave InfraRed (SWIR) telephoto lens for a tracking camera having, in order, from a remote object to an image plane an aperture stop, a first optical element having a first element first surface radius of 23.21 mm, a first element second surface radius of 46.25 mm, a second optical element having a second element first surface radius of 22.72 mm, a second element second surface radius of 45.58 mm, a third optical element having a third element first surface radius of −56.85 mm, a third element second surface radius of 16.65 mm, where the lens is corrected over a spectral waveband of 1.5 μm to 1.6 μm from −10 C to +65 C, has a length from the first element to the camera of 88 mm, has a telephoto ratio of 0.367, has an F# of 24, and has a focal length of 240 mm.
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公开(公告)号:US11733349B2
公开(公告)日:2023-08-22
申请号:US16953568
申请日:2020-11-20
Inventor: Scott A Kuzdeba , Brandon P. Hombs , Peter J. Kajenski , Daniel Massar
Abstract: A method of selecting and optimizing a countermeasure for application against a novel, ambiguous, or unresponsive radar threat includes selecting a candidate countermeasure and an initial parameter set and varying at least one of the parameters while the effectiveness of the candidate countermeasure against the radar threat is assessed, for example by a human observer. Embodiments include repeating the process with additional candidate countermeasures. For an unresponsive radar threat, a previously effective countermeasure can be selected as the candidate countermeasure. For an ambiguous radar threat, at least one countermeasure previously verified as effective against a partially matching known threat can be selected as the candidate countermeasure. Correlated parameters can be simultaneously varied. An optimization surface and trajectory formed by a plurality of correlated parameters can be identified by machine intelligence, used to guide the parameter variations, and/or stored for use against the same or similar threats in the future.
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公开(公告)号:US20230262147A1
公开(公告)日:2023-08-17
申请号:US17672244
申请日:2022-02-15
Inventor: George A. Cuiffo
Abstract: A custom transport jumper utilizing local CORBA protocols to intercept message data before the data is marshalled into a CDR package. The custom transport jumper may then utilize the CORBA standard to allow communication between systems on different operating systems, in different programming languages, and/or on different computing hardware while allowing messages to be sent in a more efficient, more portable, and more easily policed manner.
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Patent Agency Ranking
346.发明公开公开(公告)号:US20230243628A1
公开(公告)日:2023-08-03
申请号:US17972939
申请日:2022-10-25
Inventor: Curtis B. Rath
Abstract: The system and method of mixing pitch and roll commands from a flight control computer to produce fin deflections applied to as few as two fins to simultaneously produce both a rolling moment and a pitching moment. The system may be mechanical or digital where actuators can be linear or rotary, digital or analog. Deflections of the fins are generated which produce pitch and roll moments where addition of pitch and roll commands determines deflection commands to be sent to a first fin and subtraction of pitch and roll commands determines deflection commands to be sent to a second fin.
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公开(公告)号:US20230204970A1
公开(公告)日:2023-06-29
申请号:US17565124
申请日:2021-12-29
Inventor: Jacob D. Garan , Michael J. DeWeert
CPC classification number: G02B27/48 , G02B27/283 , G01B11/162
Abstract: A laser transmission assembly for shearography and related systems utilizing transmissive geometric phase plate pairs in place of Risley prism pairs or movable mirrors therein. Transmissive geometric phase plates provide for a system that is more compact than systems utilizing mirrors or Risley prism pairs while maintaining or improving the adjustability of the system and further offering beamshaping to provide desired illumination patterns.
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公开(公告)号:US20230198915A1
公开(公告)日:2023-06-22
申请号:US18169418
申请日:2023-02-15
Inventor: Matthew J. Sherman , Mark D. Chauvette , Matthew Rasa , Nicholas C. Sherman
IPC: H04L47/72 , H04L41/5003 , H04L7/00 , H04L47/56 , H04W48/16 , H04W72/0446
CPC classification number: H04L47/72 , H04L7/0008 , H04L41/5003 , H04L47/56 , H04W48/16 , H04W72/0446
Abstract: An asynchronous medium access control layer scheduler increases efficiency for directional mesh networks by removing extra overhead in the time slots. The efficiency is increased by dividing time slots into sub-slots to allow for a receiving node to be offset by at least one sub-slot from the transmitting node. This enables the scheduler to more efficiently schedule operations for the nodes so that nodes can be performing other functions rather than waiting to receive a transmission or waiting after transmitting a transmission. The sub-slots may be sized to approximate the transmission propagation time or time of flight delay.
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公开(公告)号:US20230197149A1
公开(公告)日:2023-06-22
申请号:US17552844
申请日:2021-12-16
Inventor: Jason F. Ross
CPC classification number: G11C11/5692 , G11C17/16 , G11C17/18
Abstract: A multi-bit, asynchronous e-fuse macro, the macro comprising: the following inputs: an input output enable, a power on reset, a write address, an input write enable, a ground clamp enable, and a write clock; a plurality of e-fuse bits; a supply voltage configured to allow programming at least one of the e-fuse bits; at least one fuse output; and self-timing and control circuitry configured to perform signaling, wherein each of the inputs is in electrical communication with said e-fuse macro.
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公开(公告)号:US20230184494A1
公开(公告)日:2023-06-15
申请号:US18166808
申请日:2023-02-09
Inventor: Charles P. Wason, Jr.
CPC classification number: F28D15/0275 , F28D15/04 , G01S7/521
Abstract: A transducer system comprising a housing, an electromechanical transducer within the housing, a wicking material adjacent to a portion of the electromechanical transducer, and a multi-phase coolant solution within the housing. The multi-phase coolant solution transitions from a first phase to a second phase in response to a temperature of the electromechanical transducer exceeding a threshold temperature. In some example cases, the multi-phase coolant solution has a boiling point of less than about 60° C., which effectively defines the threshold temperature. The multi-phase coolant solution may be chosen such that it remains a liquid during a first phase (cooling via conduction), and then evaporates during a second phase (cooling via conduction and convection) as the electromechanical transducer heats up.
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