Approaches for automated batch recall assessment are described. The approach includes identifying product batches having a plurality of faulty products manufactured by the organization. For each of the identified product batches, a plurality of quality concerns raised for faulty products manufactured as part of the product batch are quantified. Accordingly, for each product batch, the quantified values of each of the plurality of quality concerns is compared with a corresponding pre-determined threshold count value to enable determination of a quality risk level associated with the product batch. Based on the quality risk level, a batch recall assessment is performed to determine whether to recall product batches having the plurality of faulty products. Thus, the described approaches provide an automated technique for early detection of problematic batches, facilitating quick decision-making on potential batch recalls and improving overall quality management in manufacturing processes.
Techniques for modelling a questionnaire are disclosed. Textual content received in a query is converted into a set of query vectors. Relevance metric is then computed for each elementary vector, in a set of elementary vectors based on semantic similarity between each query vector in the set of query vectors and each elementary vector in the set of elementary vectors. A set of relevant elementary vectors is accordingly identified. Modelling of a questionnaire, having hierarchically-linked questions, is then triggered with set of relevant elementary vectors. The modelled questionnaire includes an opening question and a plurality of subsequent questions, each being determined based on a response associated with an immediately preceding question thereto. The subsequent questions are determined until a response to a question, from amongst the subsequent questions, provides a required insight associated with an aspect. A questionnaire delivery signal is then generated to cause rendering of the modelled questionnaire.
A system and method for detecting artificial entrainment includes processing first audio signals to extract a plurality of first speech-related features and a plurality of first lexical-related features from the first audio signals supplied from a first user, and processing second audio signals to extract a plurality of second speech-related features and a plurality of second lexical-related features from the second audio signals supplied from a remote source. The first and second speech-related features are processed to determine when the first user and the remote source begin to exhibit vocal entrainment. The first and second lexical-related features are processed to determine when the first user and the remote source begin to exhibit lexical entrainment. A determination is made, using a plurality of algorithms, metrics, and features implemented in the processing system, as to when the vocal entrainment and or the lexical entrainment exhibits artificial speech entrainment.
The present disclosure relates to a method for rationalizing alarms and tags in a control system. The method comprises steps of identifying one or more alarms associated with tags in the control system that require rationalization, creating an alarm template from existing alarm settings or selecting a predefined alarm template that includes standardized properties and values. The method further comprises applying the created or selected alarm template to the identified one or more alarms and selecting a source tag with rationalized alarm settings and copying the source tag properties, including at least one of alarm properties, boundary properties, and operational mode-specific settings. The method further comprises applying the copied source tag properties to one or more target tags and validating the applied target tags being consistent with the requirements of the control system.
G08B 29/18 - Prévention ou correction d'erreurs de fonctionnement
G08B 29/22 - Dispositions pour faciliter l'étalonnage manuel, p. ex. dispositions d'entrée ou de sortie pour les testsMaintien de valeurs intermittentes permettant la mesure
5.
SUBSTRATE INTERFACE STRUCTURES FOR CHEMICAL VAPOR DEPOSITION PROCESSES
An apparatus for a chemical vapor deposition (CVD) process includes a substrate interface structure. The substrate interface structure includes a high temperature material that is thermally stable at 400 degrees Celsius (° C.), such as a carbon fiber or a ceramic. The substrate interface structure defines an inner volume configured to house a substrate. The substrate interface structure is configured to position within a retort chamber and maintain flow of a process gas around an outer radial surface of the porous wall.
C23C 16/458 - Revêtement chimique par décomposition de composés gazeux, ne laissant pas de produits de réaction du matériau de la surface dans le revêtement, c.-à-d. procédés de dépôt chimique en phase vapeur [CVD] caractérisé par le procédé de revêtement caractérisé par le procédé utilisé pour supporter les substrats dans la chambre de réaction
C23C 16/455 - Revêtement chimique par décomposition de composés gazeux, ne laissant pas de produits de réaction du matériau de la surface dans le revêtement, c.-à-d. procédés de dépôt chimique en phase vapeur [CVD] caractérisé par le procédé de revêtement caractérisé par le procédé utilisé pour introduire des gaz dans la chambre de réaction ou pour modifier les écoulements de gaz dans la chambre de réaction
6.
SYSTEMS AND METHODS TO CREATE PROCESS MODELS FOR ASSETS IN A FACILITY
Various embodiments described herein relate to systems and methods for creating process models for assets in a facility. In this regard, historical data associated with operations of a first asset in the facility is processed. Using the processed historical data, key performance indicators for the first asset is determined. The key performance indicators are fitted using one or more data fitting techniques. Then, performance curves for at least one asset different from the first asset is generated based on the fitting of the key performance indicators. A process model is then created using the performance curves for the at least one asset.
Embodiments of the present disclosure relate to categorizing PID controllers. Performance diagnostic data for a PID controller may be generated by applying KPI data for the PID controller to one or more performance diagnosis rules. Performance issue classification for the PID controller may be generated based on the performance diagnostic data. Performance rating classification for the PID controller may be generated based on performance rating data for the PID controller. An improvement action for the PID controller may be generated based on the performance issue classification and the performance rating classification for the PID controller. Performance of one or more prediction-based actions may be initiated based on the improvement action.
Embodiments of the present disclosure provide techniques for enhanced motion stabilization in digital platforms. Motion data associated with a user device may be received. Stabilization adjustment data may be generated using a motion stabilization model and based on the motion data. User interface elements associated with a user interface of the user device may be adjusted based on the stabilization adjustment data.
G06F 3/04845 - Techniques d’interaction fondées sur les interfaces utilisateur graphiques [GUI] pour la commande de fonctions ou d’opérations spécifiques, p. ex. sélection ou transformation d’un objet, d’une image ou d’un élément de texte affiché, détermination d’une valeur de paramètre ou sélection d’une plage de valeurs pour la transformation d’images, p. ex. glissement, rotation, agrandissement ou changement de couleur
G06F 3/01 - Dispositions d'entrée ou dispositions d'entrée et de sortie combinées pour l'interaction entre l'utilisateur et le calculateur
9.
METHOD FOR PRODUCING FLUORINATED ORGANIC COMPOUNDS
Provided is a process for making 2-chloro-1,1,1,2-tetrafluoropropane. The process has the step of hydrofluorinating 2-chloro-3,3,3-trifluoropropene in the presence of a catalyst selected from the group consisting of SbCl3, SbCl5, SbF5, TiCl4, SnCl4, Cr2O3, and fluorinated Cr2O3.
A method of onboarding a Building Management System (BMS) is disclosed. The method includes receiving, by one or more cloud tools, a user input for enabling recording of historical data associated with a set of data points from a plurality of data points pertaining to the BMS. Further, the method includes publishing, by the one or more cloud tools to an IoT service, a system command generated based on the set of data points, in response to receiving the user input for enabling recording of historical data associated with the set of data points. Further, the method includes transmitting, by the IoT service, the system command to a client environment in which the BMS is implemented for enabling the recording of the historical data associated with the set of data points at the BMS.
Techniques for integrating a training content platform with a training management platform (TMP) are disclosed. A system includes a file broker and a secret managing unit. The file broker acts as an intermediary between the training content platform and the TMP. The training content platform manages a Sharable Content Object Reference Model-compliant training content. The file broker receives a request, from a tenant of the TMP, to upload the training content to the training content platform. The file broker authenticates the request and in response to a successful authentication, obtains the training content from the tenant. The training content is scanned for malware and in response to an absence of the malware in the training content, an access key from the secret managing unit is fetched. The training content is then sent to the training content platform for uploading the training content thereof using the access key.
A burner and methods of using the burner. The burner produces a flame from combustion air and fuel gas. Flue gas, also produced, can be withdrawn and recycled to the burner. A cooling or condition gas, such as ambient air, may be mixed with the flue gas to reduce its temperature. The burner may also utilize a stage injection so that a portion of the produced flue gas is recycled internally.
F23C 9/08 - Appareils à combustion caractérisés par des dispositions pour renvoyer les produits de combustion ou les gaz de fumée dans la chambre de combustion destinés à réduire la température dans la chambre de combustion, p. ex. à protéger les parois de la chambre de combustion
F23C 1/08 - Appareils à combustion spécialement adaptés à la combustion de plusieurs sortes de combustibles simultanément ou alternativement, au moins un des combustibles étant fluide ou étant un combustible solide en suspension dans l’air du combustible liquide et du combustible gazeux
F23C 6/04 - Appareils à combustion caractérisés par la combinaison d'au moins deux chambres de combustion disposées en série
F23C 9/00 - Appareils à combustion caractérisés par des dispositions pour renvoyer les produits de combustion ou les gaz de fumée dans la chambre de combustion
F23L 3/00 - Aménagements des soupapes ou des registres situés devant le foyer
Approaches for generating purpose driven responses to queries are described. According to one example, a query may be processed to determine an application field based on a context of the query and accordingly a set of customized prompts may be generated and then combined before being parsed through a query resolution model along with the query to generate a tailored response. The present invention enables tailored responses by leveraging multiple prompts to provide context and customization before querying the query resolution model.
A method for managing flaring using a machine learning (ML) model is disclosed. The method comprising receiving, via at least one processor, flare data from one or more flare stacks in real time; determining, via the at least one processor, one or more peaks within the flare data, using the ML model; categorizing, via the at least one processor, the flare data into a routine flaring and a non-routine flaring; predicting, via the at least one processor, flare events within the flare data, based at least on a historical data and a set of parameters; determining, via the at least one processor, one or more parameter setpoints and advisory information associated with the predicted flare events; and deploying, via the at least one processor, the determined one or more parameter setpoints and the advisory information on each of the one or more flare stacks, to manage the flaring.
G05B 13/02 - Systèmes de commande adaptatifs, c.-à-d. systèmes se réglant eux-mêmes automatiquement pour obtenir un rendement optimal suivant un critère prédéterminé électriques
15.
SYSTEMS, APPARATUSES, METHODS, AND COMPUTER PROGRAM PRODUCTS FOR A PLURALITY OF STABILIZED VEHICLE INTERFACE COMPONENTS
Systems, apparatuses, methods, and computer program products are provided herein. For example, a method may include includes receiving, from a plurality of sensors of a vehicle, vehicle related motion data. In some embodiments, the method includes identifying vehicle display configuration data. In some embodiments, the method includes generating vehicle display stabilization data by applying the vehicle related motion data to a vehicle display stabilization model. In some embodiments, the method includes generating a plurality of stabilized vehicle interface components based on the vehicle display stabilization data, vehicle display data, and the vehicle display configuration data. In some embodiments, the method includes causing each of the plurality of stabilized vehicle interface components to be rendered to an interface of a corresponding display device.
G06F 9/451 - Dispositions d’exécution pour interfaces utilisateur
B60W 40/10 - Calcul ou estimation des paramètres de fonctionnement pour les systèmes d'aide à la conduite de véhicules routiers qui ne sont pas liés à la commande d'un sous-ensemble particulier liés au mouvement du véhicule
G06F 3/04845 - Techniques d’interaction fondées sur les interfaces utilisateur graphiques [GUI] pour la commande de fonctions ou d’opérations spécifiques, p. ex. sélection ou transformation d’un objet, d’une image ou d’un élément de texte affiché, détermination d’une valeur de paramètre ou sélection d’une plage de valeurs pour la transformation d’images, p. ex. glissement, rotation, agrandissement ou changement de couleur
16.
SYSTEMS, APPARATUSES, METHODS, AND COMPUTER PROGRAM PRODUCTS FOR A STABILIZED VEHICLE RELATED INTERFACE COMPONENT
Systems, apparatuses, methods, and computer program products are provided herein. For example, a method may include receiving, from a wearable device, head motion data. In some embodiments, the method includes generating eye motion data by applying the head motion data to an eye motion determination model. In some embodiments, the method includes detecting device motion data associated with a device. In some embodiments, the method includes generating vehicle related stabilization data by applying the eye motion data and the device motion data to a vehicle related stabilization model. In some embodiments, the method includes generating a stabilized vehicle related interface component based on the vehicle related stabilization data and vehicle related device display data. In some embodiments, the method includes causing the stabilized vehicle related interface component to be rendered to an interface of the device.
G06F 3/01 - Dispositions d'entrée ou dispositions d'entrée et de sortie combinées pour l'interaction entre l'utilisateur et le calculateur
G06F 3/04845 - Techniques d’interaction fondées sur les interfaces utilisateur graphiques [GUI] pour la commande de fonctions ou d’opérations spécifiques, p. ex. sélection ou transformation d’un objet, d’une image ou d’un élément de texte affiché, détermination d’une valeur de paramètre ou sélection d’une plage de valeurs pour la transformation d’images, p. ex. glissement, rotation, agrandissement ou changement de couleur
17.
SYSTEMS AND METHODS FOR DETECTING AND WARNING OF AIRCRAFT ROLLOVER CONDITIONS
Systems and methods are provided for detecting and warning of aircraft rollover conditions. The systems include one or more sensors onboard the aircraft and a controller onboard the aircraft that is in operable communication with the one or more sensors. The controller is configured to, by one or more processors: receive input data from the one or more sensors and, optionally, one or more other sources, process the input data to dynamically determine a roll angle of the aircraft, an angular roll rate of the aircraft, and a critical rollover angle of the aircraft, determine whether current or potential static or dynamic rollover conditions of the aircraft exist based, at least in part, on the roll angle, the angular roll rate, and the critical rollover angle, and generate an alert in response to determining that the current or potential static or dynamic rollover conditions exist.
G01C 23/00 - Instruments combinés indiquant plus d’une valeur de navigation, p. ex. pour l’aviationDispositifs de mesure combinés pour mesurer plusieurs variables du mouvement, p. ex. la distance, la vitesse ou l’accélération
B64C 27/00 - GiravionsRotors propres aux giravions
18.
SYSTEM AND METHOD FOR GUIDING VISITORS IN AN ENVIRONMENT
Systems and methods for guiding visitors to their intended destinations within an environment are provided. The system comprises a processor and an AI engine. The processor receives a visitor request comprising information about a destination in the environment. The processor determines a current location of the visitor. Further, the processor obtains a current status of one or more access points associated with the environment. Further, the processor provides the information about the destination, the current location of the visitor, and the current status of the one or more access points as an input to the AI-engine. Further, the processor receives a route to the destination of the visitor from the AI engine. Further, the processor provides, using at least one multimedia output, the route on a user device of the visitor.
A system comprises circuitry configured to: receive a plurality of GNSS signals; determine GNSS measurements based on the GNSS signals; compute a solution for position and clock offset based on the GNSS measurements; place the clock offset of the solution into a moving window time buffer having a time window; perform a curve fit procedure on the clock offset of the solution in the moving window time buffer to obtain a curve fit; compute curve fit residuals by subtracting the curve fit from the clock offset; examine magnitudes of the curve fit residuals over the time window to identify a largest curve fit residual of the curve fit residuals in the time window; determine whether the largest curve fit residual in the time window exceeds a predetermined detection threshold; and determine that spoofing is present when the largest curve fit residual in the time window exceeds the predetermined detection threshold.
A current sensing system may include a housing having a chamber configured to contain an epoxy, the housing further comprising a magnetic core having a gap configured to surround the chamber and a spacer structure mechanically coupled to the magnetic core configured to stabilize the gap of the magnetic core. The current sensing system may further include a Hall sensing element comprised within the chamber and surrounded by the epoxy. The spacer structure may be further configured to allow the epoxy to sufficiently cure at temperatures at or above a predetermined threshold.
G01R 15/20 - Adaptations fournissant une isolation en tension ou en courant, p. ex. adaptations pour les réseaux à haute tension ou à courant fort utilisant des dispositifs galvano-magnétiques, p. ex. des dispositifs à effet Hall
G01R 19/00 - Dispositions pour procéder aux mesures de courant ou de tension ou pour en indiquer l'existence ou le signe
G01R 33/00 - Dispositions ou appareils pour la mesure des grandeurs magnétiques
A phase change thermal interface material including a thermally conductive filler, a phase change wax, a coupling agent, and a polymer matrix material. The thermally conductive filler includes from about 50 wt. % to about 70 wt. % aluminum powder; from about 19 wt. % to about 30 wt. % aluminum oxide; and from about 1 wt. % to about 9 wt. % zinc oxide, based on the total weight of the phase change thermal interface material. The phase change thermal interface material has a thermal impedance from about 0.02° Ccm2/W to about 0.04° Ccm2/W, as determined by ASTM D5470.
C09K 5/06 - Substances qui subissent un changement d'état physique lors de leur utilisation le changement d'état se faisant par passage de l'état liquide à l'état solide, ou vice versa
C08L 47/00 - Compositions contenant des homopolymères ou des copolymères de composés possédant un ou plusieurs radicaux aliphatiques non saturés, l'un au moins contenant plusieurs liaisons doubles carbone-carboneCompositions contenant des dérivés de tels polymères
H01L 23/367 - Refroidissement facilité par la forme du dispositif
H01L 23/373 - Refroidissement facilité par l'emploi de matériaux particuliers pour le dispositif
22.
SYSTEMS, APPARATUSES, METHODS, AND COMPUTER PROGRAM PRODUCTS WITH ADAPTIVE POWER MANAGEMENT FOR MOTION STABILIZED TOUCH CONTROL
Embodiments of the present disclosure relate to systems and methods for motion stabilized touch control with adaptive power management. A motion stabilization model is used to generate reference data comprising stabilized positions for touch points associated with a touch screen device, based on motion data from inertial measurement units. Touch zones are adjusted according to these stabilized positions through computer-executable instructions. The system monitors device activity using motion data and identifies computational resources to be allocated based on the activity state. Touch detection models are updated using these resources to learn the stabilized positions. Additionally, the system adjusts the refresh rate of the touch screen device in response to user interactions and recalibrates the dimensions of touch zones based on the adjusted refresh rate, thereby enhancing responsiveness and power efficiency.
G06F 3/041 - Numériseurs, p. ex. pour des écrans ou des pavés tactiles, caractérisés par les moyens de transduction
G06F 3/04886 - Techniques d’interaction fondées sur les interfaces utilisateur graphiques [GUI] utilisant des caractéristiques spécifiques fournies par le périphérique d’entrée, p. ex. des fonctions commandées par la rotation d’une souris à deux capteurs, ou par la nature du périphérique d’entrée, p. ex. des gestes en fonction de la pression exercée enregistrée par une tablette numérique utilisant un écran tactile ou une tablette numérique, p. ex. entrée de commandes par des tracés gestuels par partition en zones à commande indépendante de la surface d’affichage de l’écran tactile ou de la tablette numérique, p. ex. claviers virtuels ou menus
Devices, systems, and methods for providing an aspirating smoke detector device with test module are described herein. One aspirating smoke detector particulate or gas generation module includes a housing having a test particulate or gas generation chamber formed therein and wherein the test particulate or gas generation chamber has an inlet connection to a first pipe of an aspirating smoke detector pipe network and an outlet connection to a second pipe of an aspirating smoke detector pipe network and a test particulate or gas release apparatus that introduces a predetermined amount of test particulate or gas into the test particulate or gas generation chamber so that after it travels through a portion of the aspirating smoke detector a measured amount can be determined.
An example method for supporting an undefined data type in an automation control system comprises receiving, from a user, a selection of a process parameter associated with a control system for an industrial process; receiving a selection of the undefined data type from a plurality of data types, wherein the plurality of data types include defined data types and the undefined data type; associating the undefined data type with the process parameter; and storing the association between the undefined data type and the process parameter.
G05B 19/4155 - Commande numérique [CN], c.-à-d. machines fonctionnant automatiquement, en particulier machines-outils, p. ex. dans un milieu de fabrication industriel, afin d'effectuer un positionnement, un mouvement ou des actions coordonnées au moyen de données d'un programme sous forme numérique caractérisée par le déroulement du programme, c.-à-d. le déroulement d'un programme de pièce ou le déroulement d'une fonction machine, p. ex. choix d'un programme
25.
SYSTEMS AND METHODS FOR EXTRACTING DATA FROM DOCUMENTS ASSOCIATED WITH ASSETS IN A FACILITY
Various embodiments described herein relate to systems and methods for extracting data from documents associated with assets in a facility. In this regard, the documents are retrieved from data sources initially. Then, a document is processed using a first processing technique to extract first data from the document. This first data corresponds to instrument tags associated with corresponding assets. The first data is validated using certain validation techniques. The document is also processed using a second processing technique to extract second data from the document such that the second data is different from the first data. The validated first data and the extracted second data are then consolidated to configure data templates associated with related assets in the facility. The data templates are also rendered on a display as well.
Techniques for inter-network communication are described. In response to initiation of a transaction between a first node in a first network and a second node in a second network, an attribute associated with an industrial asset linked to the first node to be communicated to the second node is determined. The attribute includes an identification parameter, an operational parameter, and an optimization parameter of the industrial asset. The transaction includes a modification request for modifying the attribute of the industrial asset from the second node. The transaction is authenticated to ascertain compliance of the second node with a predefined protocol for permitting the second node to modify the attribute of the industrial asset. In response to the authentication of the transaction, an attribute modification signal permitting the modification of the attribute of the industrial asset is generated. The attribute modification signal is transmitted to the first node.
An integrated device for a vehicle includes a housing, a wireless transceiver, at least one universal serial bus (USB) circuit, and a processor. The housing is adapted to be mounted within a vehicle. The wireless transceiver is disposed within the housing and is configured to wirelessly connect with one or more devices that are disposed external to the housing. The at least one USB circuit is disposed within the housing and includes a USB port adapted to receive a USB connector. The processor is disposed within the housing and is in operable communication with, and is configured to at least implement built-in testing (BIT) of, the wireless transceiver and the at least one USB circuit. The device may also include a carbon monoxide (CO) sensor.
A method comprises receiving at least one audio message providing instructions to a user on an aircraft, and displaying, on a graphical user interface (GUI) of a display device on the aircraft, at least one transcription of the at least one audio message on a transcription page provided to display transcriptions of multiple audio messages in a predetermined order. The method also displays, by at least one processor, at least one parameter field on the transcription page and associated with the instructions. The at least one parameter field has an indicator feature that indicates the at least one parameter field is modifiable by a user directly on the transcription page. Then the method includes displaying, by at least one processor, an input parameter entered by the user and displayed on the parameter field.
G06F 3/02 - Dispositions d'entrée utilisant des interrupteurs actionnés manuellement, p. ex. des claviers ou des cadrans
G06F 3/04886 - Techniques d’interaction fondées sur les interfaces utilisateur graphiques [GUI] utilisant des caractéristiques spécifiques fournies par le périphérique d’entrée, p. ex. des fonctions commandées par la rotation d’une souris à deux capteurs, ou par la nature du périphérique d’entrée, p. ex. des gestes en fonction de la pression exercée enregistrée par une tablette numérique utilisant un écran tactile ou une tablette numérique, p. ex. entrée de commandes par des tracés gestuels par partition en zones à commande indépendante de la surface d’affichage de l’écran tactile ou de la tablette numérique, p. ex. claviers virtuels ou menus
G06F 40/109 - Maniement des polices de caractèresTypographie cinétique ou temporelle
A vapor cell comprises: a main glass body section comprising wall(s) surrounding a cavity, the wall(s) having first interior surface(s) having first glass structures extending into and/or away from the cavity; a top glass lid positioned on top of and attached to the main glass body section, the top glass lid having second interior surface(s) having second glass structures extending into and/or away from the cavity; a bottom glass lid positioned below and attached to the main glass body section, the bottom glass lid having third interior surface(s) having third glass structures extending into and/or away from the cavity; and wherein the first glass structures, the second glass structures, and the third glass structures are configured to tune an index of refraction of the vapor cell to reduce RF signal scattering within the vapor cell.
Embodiments relate generally to systems and methods for gas detection. A method may include receiving a first indication of a first location of a gas detector corresponding to an inert working zone, determining if detected oxygen content in the first location is outside at least one of a first threshold or a second threshold, in response to determining that the detected oxygen content is outside at least one of the first threshold or the second threshold, activating a alarm, receiving a second indication of a second location of the gas detector corresponding to a normal working zone, deactivating the alarm based on the received second indication, and automatically switching a mode of operation of the gas detector between an inert operation mode to a normal operation mode, based on the detected oxygen content, the first indication, or the second indication.
Devices, systems, and methods for notifying a user of an emergency event are described herein. In some examples, one or more embodiments include an alerting device comprising a memory and a processor to execute instructions stored in the memory to receive event data from a remote computing device, where the event data is associated with an emergency event, and cause an alarm to be output to notify a user of an occurrence of the emergency event based on the received event data, where the alarm is output to a space in which the alerting device is located.
G08B 25/01 - Systèmes d'alarme dans lesquels l'emplacement du lieu où existe la condition déclenchant l'alarme est signalé à une station centrale, p. ex. systèmes télégraphiques d'incendie ou de police caractérisés par le moyen de transmission
H04W 76/50 - Gestion de la connexion pour les connexions d'urgence
A phase change thermal interface material including a thermally conductive filler, a phase change wax, a coupling agent, and a polymer matrix material. The thermally conductive filler includes from about 50 wt. % to about 70 wt. % aluminum powder; from about 19 wt. % to about 30 wt. % aluminum oxide; and from about 1 wt. % to about 9 wt. % zinc oxide, based on the total weight of the phase change thermal interface material. The phase change thermal interface material has a thermal impedance from about 0.02 °Ccm2/W to about 0.04 °Ccm2/W, as determined by ASTM D5470.
C09K 5/06 - Substances qui subissent un changement d'état physique lors de leur utilisation le changement d'état se faisant par passage de l'état liquide à l'état solide, ou vice versa
H01L 23/373 - Refroidissement facilité par l'emploi de matériaux particuliers pour le dispositif
H05K 7/20 - Modifications en vue de faciliter la réfrigération, l'aération ou le chauffage
Various embodiments described herein relate to systems and methods for processing data received from various data sources in a facility. In this regard, an input is received corresponding to at least one change in one or more assets. Configuration data associated with the one or more assets is updated based on the at least one change. Further, the updated configuration data is persisted at one or more data loaders. At least one Extract Transform Load (ETL) process is triggered corresponding to the updated configuration data to generate one or more aggregates associated with the one or more assets. As a result, Key Performance Indicator (KPI) metrics associated with the one or more assets is calculated.
Heat resistant systems provide a self-activating insulative solution. A seal system includes a case defining a joining line where two sections of the case join together. The case envelops an internal space and separates the internal space from an external space. A seal is disposed at the joining line and a case extension defines a cavity on an outside of the seal. The case extension has an opening that extends between the cavity and the external space. A lining of a heat responsive material is provided in the case extension. The material expands to an activated state when exposed to heat above a threshold temperature and passes through the opening encapsulating the case extension and insulating the seal from the external space.
B64D 33/02 - Aménagement sur les aéronefs des éléments ou des auxiliaires des ensembles fonctionnels de propulsion, non prévu ailleurs des entrées d'air de combustion
F02C 7/25 - Prévention ou protection contre l'incendie
F02C 7/28 - Agencement des dispositifs d'étanchéité
F16L 23/16 - Raccords à brides caractérisés par les moyens d'étanchéité
F16L 59/18 - Dispositions spécialement adaptées aux nécessités localisées telles qu'à l'endroit des brides, des jonctions, des soupapes ou d'autres éléments similaires adaptées aux raccords
B64D 41/00 - Installations génératrices de puissance pour servitudes auxiliaires
B64D 45/00 - Indicateurs ou dispositifs de protection d'aéronefs, non prévus ailleurs
A method and system for validating performance of an Auto Flight Control System (AFCS) of an vehicle has been developed. A target for the vehicle is entered into the AFCS by a pilot of the vehicle. A mode of operation for the vehicle is entered into the AFCS by the pilot of the vehicle. The pilot's intention is determined based on the entered target and mode of operation. A maneuver plan of the vehicle is predicted based on the entered target and mode of operation. The predicted maneuver plan is validated based on environmental conditions affecting the target for the vehicle. The predicted maneuver plan is validated based on operational performance characteristics of the vehicle. The pilot is alerted if predicted maneuver plan fails validation. A suggested corrective action is provided to the pilot if predicted maneuver plan fails to be validated.
A method for training a machine learning (ML) model for peak detection in flaring is disclosed. The method comprises receiving, via least one processor, historical flare data associated with one or more flare stacks over a predefined time period; training, via least one processor, an artificial intelligence (AI)/machine learning (ML) model, based at least on the historical data, predefined definitions of flaring, and labeled flare data; determining, via least one processor, one or more peaks in the flaring using the trained AI/ML model; identifying, via least one processor, one or more parameters associated with each of the one or more peaks; determining, via least one processor, whether the one or more parameters satisfy predefined parameters; and deploying, via least one processor, the trained AI/ML model for managing the flaring upon determining the one or more parameters associated with each of the one or more peaks satisfy the predefined parameters.
F23G 7/08 - Procédés ou appareils, p. ex. incinérateurs, spécialement adaptés à la combustion de déchets particuliers ou de combustibles pauvres, p. ex. des produits chimiques de gaz d'évacuation ou de gaz nocifs, p. ex. de gaz d'échappement utilisant des torchères, p. ex. dans des cheminées
38.
SYSTEMS AND METHODS FOR ADS-B VALIDATION USING VEHICLES
A method of validating ADS-B is described herein. The method includes receiving, from time synchronized vehicles, ADS-B data (identifier, horizontal position information, and altitude information for a first vehicle) with a timestamp (defining a time of reception of the ADS-B message). The method includes receiving, from each vehicle, a determined position at the time of reception of the ADS-B message. The method includes determining differences in time of arrival for the ADS-B message to each vehicle, extracting altitude information from the ADS-B data, and determining an estimated horizontal position of the first vehicle based on the differences in time of arrival, the determined positions received from each vehicle, and the extracted altitude information. The method includes determining whether the horizontal position information in the ADS-B message is valid based on a comparison of the estimated horizontal position of the first vehicle and the horizontal position information in the ADS-B message.
G01S 5/02 - Localisation par coordination de plusieurs déterminations de direction ou de ligne de positionLocalisation par coordination de plusieurs déterminations de distance utilisant les ondes radioélectriques
A hermetically sealed sensing device is provided. The hermetically sealed sensing device may comprise a header defining one or more substantially cylindrical cavities, at least one terminal, and/or a sensing element. In some examples, the hermetically sealed sensing device comprises a silicon rubber stopper configured to provide, along with the at least one terminal, a hermetic seal in the one or more substantially cylindrical cavities. In some examples, the hermetically sealed sensing device comprises threaded grooves along the one or more substantially cylindrical cavities such that a sealing material (e.g., glass-fiber reinforced polyester composite material, epoxy-based potting material, silicon-based potting material, etc.) and the at least one terminal may form a hermetic seal therein.
A method in an aircraft of using prognostic indicators for aircraft maintenance includes retrieving aircraft health data for a plurality of aircraft components wherein the aircraft health data includes at least one of mechanical systems condition indicator (CI) data, vibration spectrum data, resampled time-domain (RTD) data, and RTD spectrum data. The method includes estimating component health status information for the plurality of aircraft components using a plurality of prognostic modules wherein each prognostic module is configured to generate health status information for at least one of the aircraft components, the health status information includes at least one of a current health indicator and a prognostic indicator. The method also includes storing the component health status information for the aircraft components in a database onboard the aircraft, and causing the display of the health status information for the specific component on an aircraft display.
G07C 5/08 - Enregistrement ou indication de données de marche autres que le temps de circulation, de fonctionnement, d'arrêt ou d'attente, avec ou sans enregistrement des temps de circulation, de fonctionnement, d'arrêt ou d'attente
B64F 5/60 - Test ou inspection des composants ou des systèmes d'aéronefs
G06F 16/22 - IndexationStructures de données à cet effetStructures de stockage
G06F 16/955 - Recherche dans le Web utilisant des identifiants d’information, p. ex. des localisateurs uniformisés de ressources [uniform resource locators - URL]
41.
SYSTEM AND METHOD FOR PLANT LOGBOOK ANALYSIS POWERED BY NEURAL NETWORK
A system for industrial plant logbook analysis by neural network language model, having a processor, a memory, and one or more programs stored in the memory. The one or more programs comprising instructions configured to receive a logbook of the industrial plant and extract an entity hierarchy flow providing details of hierarchy of various components of the industrial plant, such that the entity hierarchy flow is based on one or more data driven algorithms, design documentation, and a plant context hierarchy document. The system further trains the neural network language model with the entity hierarchy flow, where the training is based on a pretrained language model. The system further receives a user input requesting the industrial plant logbook analysis, such that based on the user input the system calculates a token output of the industrial plant logbook analysis using the trained neural network language model. The system further validates the calculated token output by a generative AI validation layer, updates the token output of the logbook analysis, and displays the updated output of the logbook analysis to the user.
G05B 13/02 - Systèmes de commande adaptatifs, c.-à-d. systèmes se réglant eux-mêmes automatiquement pour obtenir un rendement optimal suivant un critère prédéterminé électriques
G06F 40/284 - Analyse lexicale, p. ex. segmentation en unités ou cooccurrence
42.
OPTIMIZED SUPERVISION RATE FOR WIRELESS INTRUSION DETECTORS
A first sensor periodically communicates at a first supervisory rate and a second sensor periodically communicates at a second supervisory rate. A first tamper alarm associated with the first sensor is issued when the first supervisory signals are not received from the first sensor at the first supervisory rate. A second tamper alarm associated with the second wireless security sensor is issued when the second supervisory signals are not received from the second sensor at the second supervisory rate. The first supervisory signals and the second supervisory signals are scheduled in a manner that helps detect tampering with one or more of the first and/or second security sensors in an expedited manner.
Example embodiments described herein may include a housing for at least one sensing element defining an inclined and/or eccentric sensing column cavity. The sensing column cavity may be filled with a gel material for imparting force and/or pressure to a sensing element. In some embodiments, the sensing column cavity may have a first width at the end of the sensing column cavity proximate to a PCB. The sensing column cavity may have a second width at the end of the sensing column cavity proximate to a protective cap. The first width may be smaller than the second width, wherein the first width defines a diameter of a substantially circular profile of the sensing column cavity and the second width defines a major axis of a substantially elliptical profile of the sensing column cavity. The sensing column cavity may comprise one or more additional widths defining one or more additional profiles.
09 - Appareils et instruments scientifiques et électriques
Produits et services
(1) Commercial and industrial access control systems, namely, computer hardware and recorded software for controlling access to facilities and areas, security monitoring and managing users and their building access privileges, identity management and photo IDs, and video surveillance and management; Recorded and downloadable software providing security for computer networks integrated into security systems, namely access control, intrusion, or fire security software systems.
45.
SYSTEM AND METHOD FOR HANDLING OF JSON OBJECTS BY A LARGE LANGUAGE MODEL
The present disclosure discloses a system and method for handling of JSON objects by a large language model (LLM). The proposed system and method involves receiving a user input requesting an analysis of one or more quality records, and extracting the one or more of quality records, wherein each quality record comprises one or more JSON objects. The system and method further involve identifying an applicable rule for parsing each of the one or more JSON objects, parsing each of the one or more JSON objects by an API corresponding to the identified applicable rule, feeding the parsed JSON objects to the LLM to obtain the analysis of the one or more quality records, and displaying the obtained analysis of the one or more quality records to the user.
The present invention relates to a method and a system for optimizing a carbon emission reduction in a process industry. The method comprises identifying one or more processes being run in the process industry and identifying one or more assets associated with the each of the running processes, the information of one or more assets being stored in an asset repository. Further, the method comprises determining an energy demand profile of each of the processes, said profile identifies an energy requirement in running of the process and determining the carbon emission of the process based on the energy demand profile of each of the processes. The method further includes identifying an availability of one or more green energy resources for acquiring the green energy by the process industry and receiving additional data comprising at least one of: an asset health index of the assets in each of the processes, an acquirable amount of the green energy from each of the available green energy resources, wherein each green energy resource is associated with a carbon weightage and a cost, and a weather forecast for a predetermined time period for a location of the process industry. Further, the method comprises executing an optimization model to provide at least one recommendation providing a green energy requirement for each of the processes based on the received additional data, the energy demand profile and the carbon emission of the process.
G06Q 30/018 - Certification d’entreprises ou de produits
G06Q 10/04 - Prévision ou optimisation spécialement adaptées à des fins administratives ou de gestion, p. ex. programmation linéaire ou "problème d’optimisation des stocks"
47.
AIRCRAFT ENGINE SENSING APPARATUS WITH INSULATED CONNECTION WIRES
Various examples of the present disclosure provide aircraft engine sensing apparatuses and methods of manufacturing aircraft engine sensing apparatuses. For example, an example aircraft engine sensing apparatus includes an aircraft engine sensor, a plurality of connection wires, and at least one ceramic insulator. In some examples, the aircraft engine sensor is positioned within an aircraft engine. In some examples, the plurality of connection wires connect the aircraft engine sensor to a sensor connector. In some examples, the plurality of connection wires are positioned within a wire protection housing. In some examples, the at least one ceramic insulator is positioned within the wire protection housing and defines a plurality of insulator openings. In some examples, each of the plurality of connection wires passes through one of the plurality of insulator openings.
F01D 21/00 - Arrêt des "machines" ou machines motrices, p. ex. dispositifs d'urgenceDispositifs de régulation, de commande ou de sécurité non prévus ailleurs
B64D 45/00 - Indicateurs ou dispositifs de protection d'aéronefs, non prévus ailleurs
A method for compressing a video stream includes retrieving a plurality of frames corresponding to the video stream. For each of two or more sequential frames of the plurality of frames of the video stream, the method includes extracting Key Point Descriptors (KPDs) for the respective frame and processing the respective frame using Principle Component Analysis (PCA) followed by vector quantization, resulting in a quantized explained variance matrix for the respective frame. The quantized explained variance matrix for the respective frame is stored. The KPDs for the respective frame are stored.
H04N 19/172 - Procédés ou dispositions pour le codage, le décodage, la compression ou la décompression de signaux vidéo numériques utilisant le codage adaptatif caractérisés par l’unité de codage, c.-à-d. la partie structurelle ou sémantique du signal vidéo étant l’objet ou le sujet du codage adaptatif l’unité étant une zone de l'image, p. ex. un objet la zone étant une image, une trame ou un champ
H04N 19/177 - Procédés ou dispositions pour le codage, le décodage, la compression ou la décompression de signaux vidéo numériques utilisant le codage adaptatif caractérisés par l’unité de codage, c.-à-d. la partie structurelle ou sémantique du signal vidéo étant l’objet ou le sujet du codage adaptatif l’unité étant un groupe d’images [GOP]
H04N 19/60 - Procédés ou dispositions pour le codage, le décodage, la compression ou la décompression de signaux vidéo numériques utilisant un codage par transformée
49.
METHODS AND SYSTEMS FOR DETERMINING AN OPTIMAL START AND STOP TIME OF AIR HANDLING UNITS
A method and system for determining optimal start and stop time of Air Handling Units (AHU) are disclosed. The method comprises receiving, via at least one processor, a set of parameters associated with one or more zones in real time; determining an occupancy status of each of one or more zones based at least on received set of parameters; determining at least one start time and stop time for an Air Handling Unit (AHU) for each of one or more zones using historical data and each model of a plurality of models; determining a weighted average value for the determined at least one start time and stop time for the AHU based on a predefined weight allocated to each of at least one start time and stop time; and determining an optimal start and stop (OSS) time of AHU for each zone based at least on weighted average value.
Devices, systems, and methods for monitoring detection and notification for event system failure are described herein. In some examples, one or more embodiments include a computing device comprising a processor and a memory having instructions stored thereon which, when executed by the processor, cause the processor to receive an indication of an event detected by an event system installed in a facility, determine a failure of a device of the event system while the event is occurring, and provide a notification of the failure while the event is occurring.
Embodiments of the present disclosure provide systems, apparatuses, and methods for determining quantities of multiple vapors using a single sensor. In one embodiment, a method includes determining, by one or more processors an impedance of a sensing element; determining, by the one or more processors, a capacitance of the sensing element; and determining, by the one or more processors and based at least in part on (i) the impedance of the sensing element and (ii) the capacitance of the sensing element, (a) a quantity of a first vapor that has reacted with the sensing element and (b) a quantity of a second vapor that has reacted with the sensing element.
G01N 27/22 - Recherche ou analyse des matériaux par l'emploi de moyens électriques, électrochimiques ou magnétiques en recherchant l'impédance en recherchant la capacité
52.
SYSTEMS, APPARATUSES, METHODS, AND COMPUTER PROGRAM PRODUCTS FOR INITIATING PERFORMANCE OF ONE OR MORE AVIATION OPERATION ACTIONS
Systems, apparatuses, methods, and computer program products are provided herein. For example, a method may include determining that a first communication channel between a first aircraft and an aviation operations control system is unavailable. In some embodiments, the method includes detecting one or more other aircraft using at least one detection operation. In some embodiments, the method includes identifying aircraft operations data associated with the one or more other aircraft. In some embodiments, the method includes determining a relay aircraft from the one or more other aircraft by applying the aircraft operations data to a relay aircraft model. In some embodiments, the method includes causing a second communication channel to be established between the first aircraft and the relay aircraft. In some embodiments, the method includes initiating performance of one or more aviation operation actions using the second communication channel.
Systems, apparatuses, methods, and computer program products are provided herein. For example, a method may include connecting to an external aviation turnaround device. In some embodiments, the method includes receiving external aviation turnaround data from the external aviation turnaround device. In some embodiments, the method includes identifying aircraft aviation turnaround data associated with an aircraft. In some embodiments, the method includes broadcasting the aircraft aviation turnaround data to the external aviation turnaround device. In some embodiments, the method includes generating revised aviation operations data by applying the external aviation turnaround data or the aircraft aviation turnaround data to an aviation performance engine. In some embodiments, the method includes initiating performance of one or more aviation related actions based on the revised aviation operations data.
An example apparatus includes a single die, the single die including a first set of one or more magnetic tunnel junction (MTJ) elements comprising a first anisotropy that results in the first set of one or more magnetic tunnel junction elements being configured to perform a write operation at a first write speed. The single die further includes a second set of one or more MTJ elements comprising a second anisotropy that results in the second set of one or more MTJ elements being configured to perform a write operation at a second write speed different from the first write speed. The single die further includes processing circuitry configured to cache data at the first set of one or more MTJ elements for short-term storage and to store data at the second set of one or more MTJ elements for long-term storage.
G11C 11/16 - Mémoires numériques caractérisées par l'utilisation d'éléments d'emmagasinage électriques ou magnétiques particuliersÉléments d'emmagasinage correspondants utilisant des éléments magnétiques utilisant des éléments dans lesquels l'effet d'emmagasinage est basé sur l'effet de spin
55.
METHODS AND SYSTEMS FOR CONFIGURATION AND ENROLLMENT OF IMAGE CAPTURING DEVICES USING ARTIFICAL INTELLIGENCE (AI)
A method and system for configuring and enrolling one or more image capturing devices are disclosed. The method comprises receiving, via at least one processor, at least one input request from a user; determining, via the at least one processor, a position and a placement of the image capturing devices based at least on multimedia data captured by the image capturing devices and at least one input request, using a video cognitive module; generating, via the at least one processor, a configuration data sheet for the one or more image capturing devices based at least on one or more data sets and the position and the placement of the one or more image capturing devices, using an AI module; initiating the configuration and the enrollment of the one or more image capturing devices based at least on the generated configuration data sheet using a camera module.
A method for detecting anomalies within an industrial control network is disclosed. The method comprises receiving asset data from one or more assets of an industrial control network in real time; correlating the asset data with a predefined functional data; determining anomaly data within the correlated asset data based at least on a weight factor and an anomaly score, using an unsupervised model; categorizing the anomaly data into one or more groups of anomaly data based at least on a number of clusters, using at least a supervised or unsupervised model; assigning a weight to each group of anomaly data; determining whether the weight assigned to each group is above a preset threshold value; and generating an alert associated with each group, for a user upon determining the weight assigned to each group is above the preset threshold value, that corresponds to anomalous events detected within the industrial control network.
Systems and methods for improved testing of system implementation are described herein. In one example, a method includes receiving a test case based on requirements for a system, wherein a first subset of all system inputs includes defined system inputs for the test case, wherein a second subset of all system inputs includes undefined system inputs for the test case. The method further includes generating extended test vectors from the test case by replacing the undefined system inputs for the test case with different values, wherein each respective extended test vector includes a different combination of values for the undefined system inputs from other extended test vectors. The method further includes executing the extended test vectors on a target platform for the system. The method further includes verifying whether outputs generated during execution of the extended test vectors match expected values for the defined system outputs for the test case.
A fluid sampling device comprising a reel having a plurality of imaging chambers configured to receive a fluid sample. Each imaging chamber is configured to be illuminated from a first side and to emit light through the fluid sample and out of a second side. Further, the reel may comprise a plurality of fluid paths. Each fluid path of the plurality of fluid paths is positioned between two imaging chambers of the plurality of imaging chambers and at each end of an imaging chamber of the plurality of imaging chambers. Each fluid path is an interconnect between two imaging chambers to provide a flow path.
G01N 21/01 - Dispositions ou appareils pour faciliter la recherche optique
G01N 21/25 - CouleurPropriétés spectrales, c.-à-d. comparaison de l'effet du matériau sur la lumière pour plusieurs longueurs d'ondes ou plusieurs bandes de longueurs d'ondes différentes
59.
SENSOR HOUSING ASSEMBLY FOR MULTIPLE MOUNTING INTERFACES AND CONFIGURATIONS
A sensor housing assembly comprising a body; and a flange comprising (i) a length that is perpendicular to the body, (ii) an overhang that comprises at least a majority of the length, wherein the overhang is configurable with a mount object, (iii) a plurality of mounting ribs that comprise raised surfaces with respect to a base surface of the flange, and (iv) a mounting aperture that allows passing of a fastener through the flange
An accelerometer system comprising: a housing; a magnet disposed within the housing and extending along a longitudinal axis from a first end to a second end; and a metallic insert disposed between the first end of the magnet and a surface of the housing, wherein a first surface of the metallic insert is configured to contact the first end of the magnet, and wherein a second surface of the metallic insert is configured to contact the surface of the housing.
In some examples, a system includes a conduit configured to receive a cooled air flow produced by an air conditioning pack of a vehicle, such as an aircraft, and deliver the cooled air flow to volume defined by a brake system of the vehicle. The conduit may receive the cooled air flow from one or more compartments of the vehicle and/or an environmental control system of the vehicle. The conduit is configured to deliver the cooled air flow to provide cooling to one or more components of the brake system, such as one or more rotor discs and/or one or more stator discs.
In some examples, a system includes a conduit configured to receive a cooled air flow produced by an air conditioning pack of a vehicle, such as an aircraft, and deliver the cooled air flow to an interior volume defined by the vehicle, such as an interior volume defined by a hollow axle of a landing gear assembly. The conduit may receive the cooled air flow from one or more compartments of the vehicle and/or an ECS of the vehicle. The conduit is configured to deliver the cooled air flow to provide cooling to one or more components within the interior volume.
B64D 13/08 - Aménagements ou adaptations des appareils de conditionnement d'air pour équipages d'aéronefs, passagers ou pour emplacements réservés au fret l'air étant climatisé l'air étant réchauffé ou refroidi
A sensor assembly comprising a printed circuit board assembly (PCBA) housing that is configured horizontally or in parallel with a planar surface of a magnet. The PCBA housing comprises a PCBA that is deposed within a cavity of the PCBA housing. The PCBA comprises a pair of magnetic field sensors that (i) are oriented horizontally with respect to the planar surface of the magnet and (ii) comprises a first magnetic field sensor of the pair of magnetic field sensors that is configured a predetermined distance from a second magnetic field sensor of the pair of magnetic field sensors, wherein the pair of magnetic field sensors are configured to generate a respective pair of electrical signals that comprise a phase-shift between the respective pair of electrical signals proportional to the predetermined distance.
G01D 5/16 - Moyens mécaniques pour le transfert de la grandeur de sortie d'un organe sensibleMoyens pour convertir la grandeur de sortie d'un organe sensible en une autre variable, lorsque la forme ou la nature de l'organe sensible n'imposent pas un moyen de conversion déterminéTransducteurs non spécialement adaptés à une variable particulière utilisant des moyens électriques ou magnétiques influençant la valeur d'un courant ou d'une tension en faisant varier la résistance
An antenna system formed by one or more layers of a Printed Circuit Board (PCB). The antenna system includes a first antenna element configured to resonate in a first frequency band centered at about 5.4 GHz and a second antenna element configured to resonate in a second frequency band centered at about 2.4 GHz. The first antenna element and the second antenna element fit within a rectangular area of less than about 100 square millimeters on the PCB. The first antenna element has a bandwidth of at least 2 GHz and the second antenna element has a bandwidth of at least 100 MHz, wherein the bandwidth is defined as having less than a −10 dB return loss within the band. The first antenna element and the second antenna element may be formed on a common conductive layer of a PCB.
A fire sensing device is described herein. One fire sensing device includes a first transmitter light-emitting diode (LED) configured to emit a first light, a second transmitter LED configured to emit a second light, a controller configured to command the first transmitter LED to cease emitting the first light and the second transmitter LED to start emitting the second light, and a photodiode configured to detect the first light and the second light.
G08B 17/107 - Déclenchement par la présence de fumée ou de gaz utilisant un dispositif émetteur et récepteur de lumière pour détecter une diffusion de lumière due à de la fumée
Provided is a high metal ion concentration emulsion comprising an oil phase and a water phase. The oil phase includes at least two emulsifiers and an oil. The at least two emulsifiers may include a hydrophobic emulsifier and a hydrophilic emulsifier. The water phase includes stannous fluoride, a chelating agent, citric acid, and water.
A method for providing technical support assistance to a user is disclosed. The method comprises receiving at least one input query from a user; generating an optimized search query based at least on the at least one input query, one or more instructions, and historical data, using an artificial intelligence (AI) model; creating at least one vector representation search query based on the optimized search query, using the AI model; determining a plurality of similar vectors corresponding to the at least one vector representation search query from a plurality of vectors; filtering vectors from the plurality of similar vectors based on a predefined tunable threshold, using the AI model; generating at least one synthesized AI response for the user based on the vectors filtered using the AI model; displaying the at least one synthesized AI response and one or more feedback parameters to the user.
Techniques are provided which enhance accuracy of determining a distance between a body, e.g., of vehicle, (or a radar thereof) to a surface. Accuracy is improved by more accurately interpolating an estimated distance between the body and the surface. For example, a VTOL, such as a UAM, can more accurately determine its altitude over a surface of terrain or structure. Hence, risk of harm, to the VTOL aircraft and/or its passengers and/or cargo, is diminished.
G01S 13/34 - Systèmes pour mesurer la distance uniquement utilisant la transmission d'ondes continues, soit modulées en amplitude, en fréquence ou en phase, soit non modulées utilisant la transmission d'ondes continues modulées en fréquence, tout en faisant un hétérodynage du signal reçu, ou d’un signal dérivé, avec un signal généré localement, associé au signal transmis simultanément
Embodiments of the present disclosure provide early anti-ice valve fault detection. Engine data associated with a flight operation of an aircraft may be received, the engine data may comprise timeseries data for one or more monitored engine parameters and the aircraft may be associated with an anti-ice system comprising a thermal anti-ice valve and a pressure sensor. One or more feature datasets may be extracted from the engine data and using one or more feature extraction models. Each feature dataset may represent a data slice from the engine data that satisfies thermal anti-ice valve feature extraction criteria. An anti-ice valve fault prediction may be generated by applying the feature dataset to one or more fault prediction models. The performance of one or more prediction-based actions may be initiated based on the anti-ice valve fault prediction.
A method and system for detecting anomalies within a domain name system (DNS) traffic is disclosed. Through the utilization of at least one processor, the method comprises receiving DNS traffic data from each of one or more DNS servers in real time, comparing the DNS traffic data with a data stored in a database. Furthermore, the method comprises determining a status of each of one or more DNS servers based on comparison. Further, the method comprises generating an alert for one or more users, based at least on the status. Furthermore, the method comprises determining whether each of one or more DNS servers outside a predefined learning period is queried by one or more DNS hosts. Thereafter, the method comprises adding each of one or more DNS servers to a baseline database upon determining that each of one or more DNS servers outside the predefined learning period is queried.
A method for detecting and attributing the cause of anomalies within a cyber-physical system such as in avionics or vetronics network is disclosed. The method comprises monitoring, via at least one processor, data of one or more components within the avionics and vetronics network in real time; determining, via the at least one processor, one or more anomalies from the monitored data using a condition-based maintenance model and a cyber-defense model; determining, via the at least one processor, whether the one or more anomalies is related to a cascading fault using the condition-based maintenance model and the cyber-defense model; determining, via the at least one processor, the one or more anomalies corresponding to a component failure or an evidence of the cyberattack; and generating, via the at least one processor, one or more alerts for a user associated with the one or more anomalies.
Embodiments of the present disclosure provide improved process monitoring. Process data associated with a controller may be received. The process data may comprise a plurality of data samples. One or more process data evaluation iterations may be performed to generate one or more process data subsets by removing one or more portions of the process data that is associated with at least one asset condition of one or more asset conditions. One or more asset performance scores may be generated based on the one or more process data subsets. A user interface comprising the one or more asset performance scores may be caused to be rendered on a user device.
Embodiments of the disclosure provide for persistent accumulation and maintenance of lifecycle data for vehicle components. In the context of a method, the method includes initializing, in a data store, a count of occurrences of an event associated with an event condition for a vehicle component installed on a vehicle, the count of occurrences of the event being maintained at the data store for a lifecycle of the vehicle component; storing, in the data store, a definition for the event condition; obtaining, from an onboard sensor or system, vehicle data associated with operation of the vehicle; determining that a subset of the vehicle data meets the event condition; in response, updating the count of occurrences at the data store; and causing rendering of the updated count of occurrences on a computing device external to the vehicle.
G07C 5/00 - Enregistrement ou indication du fonctionnement de véhicules
G07C 5/08 - Enregistrement ou indication de données de marche autres que le temps de circulation, de fonctionnement, d'arrêt ou d'attente, avec ou sans enregistrement des temps de circulation, de fonctionnement, d'arrêt ou d'attente
75.
Electromagnetic Shields and Methods of use Therefor
Electromagnetic shields and methods are provided for electromagnetic shielding. The electromagnetic shields include a first material configured for reflection and/or absorption of electromagnetic radiation and that includes a polymer matrix with magnetic and/or conductive nanoparticles dispersed therein. The electromagnetic shield may be provided between a source of electromagnetic radiation and an object to provide the electromagnetic shielding to the object.
A method for auto-categorizing asset criticality using a machine learning (ML) technique in an industrial control network is disclosed. The method comprises selecting, via at least one processor, a plurality of asset factors associated with one or more assets of the industrial control network; assigning, via the at least one processor, a scale factor to each asset factor; creating, via the at least one processor, one or more clusters of the plurality of asset factors based at least on the scale factor; determining, via the at least one processor, centroids from each of the one or more clusters based at least on a Euclidean distance, to train a ML model; and deploying, via the at least one processor, the trained ML model comprising the one or more clusters having respective centroids determined, within the industrial control network to categorize an asset criticality for each of the one or more assets.
G05B 13/02 - Systèmes de commande adaptatifs, c.-à-d. systèmes se réglant eux-mêmes automatiquement pour obtenir un rendement optimal suivant un critère prédéterminé électriques
77.
SYSTEM AND METHOD FOR OPTIMIZING ALERTS FOR A USER TECHNOLOGICAL FIELD
A method for optimizing alerts for a user is disclosed. The method comprises monitoring a plurality of alerts of one or more alert types within a predefined time period; determining a count of the plurality of alerts of each alert type within the predefined time period; determining the count of the plurality of alerts of each alert type exceeds a predefined threshold level within the predefined time period; triggering a storm alert corresponding to the plurality of alerts of each alert type upon determining the count of the plurality of alerts of each alert type exceeds the predefined threshold level, wherein the storm alert corresponds to an alert triggered when the plurality of alerts of each alert type is occurred multiple times within the predefined time period; and displaying a notification related to the storm alert and information related to the storm alert, to a user.
Techniques are provided for implementing a low insertion loss optical coupler utilizing adiabatic tapering of spacings between two adjacent optical waveguides and tapering of a portion of one of the optical waveguides. An optical resonator with a higher quality factor may be formed using two of the low insertion loss optical couplers.
Embodiments of the present disclosure provide improved asset monitoring. A set of one or more performance indicators for an asset is identified. A set of one or more weighted performance indicator scores corresponding to the set of one or more performance indicators is generated. A performance health score for the asset is generated for the asset based on the set of one or more performance indicators and uptime data by aggregating the set of one or more performance indicators with respect to the uptime data. Performance of one or more prediction-based actions based on the performance health score.
Techniques for autonomous maintenance management (AMM) of an industrial facility are described. In one aspect, an AMM system monitors operational data values and an event associated with an equipment to determine key performance indicators and trend patterns associated with the equipment, where the event is characterized by deviations in the operational data values from a pre-determined threshold value, and where the trend pattern is indicative at least of operational history of the equipment. The KPIs and trend patterns are analysed to predict a behaviour of the equipment, based on which a dynamic maintenance schedule is generated, where the dynamic maintenance schedule includes a task to be executed for maintenance of the equipment. Further, the system obtains personnel information of the industrial facility to identify personnel to perform the task and accordingly issues a maintenance work order in correspondence to the dynamic maintenance schedule for maintenance of the equipment.
Systems and methods for location aware access are provided. A location aware access system comprises a card reader and at least one controller. The card reader obtains access credential from a card, generates a corresponding time stamp, ascertains location coordinates representative of a geolocation of the card reader when the access credentials were received, and provides the access credentials, the time stamp, and the location coordinates to the controller. The controller is configured to receive the access credentials, the time stamp, and the location coordinates corresponding to the geolocation of the card from the card reader. Further, the controller is configured to perform authentication of the card based on the access credentials, the time stamp, and the location coordinates corresponding to the geo location of the card, and trigger an unlocking mechanism corresponding to the card reader upon successful authentication of the card.
A method and system for updating a variant for a reference flight plan for an aircraft with a flight management system (FMS) has been developed. First, the reference flight plan is generated with the FMS. A clone of the reference flight plan is copied for analysis of potential changes to the reference flight plan. The clone of the reference flight plan is modified with any changes to the reference flight plan that occurred subsequent to copying the clone of the reference flight plan. The modified clone of the reference flight plan is then analyzed for incorporating potential changes to the reference flight plan.
A system comprises a set of databases in communication with a processor, and a requirements validation AI engine hosted by the processor. The databases comprise software requirements, regulatory guidelines, historical requirements defects, requirements review checklist, and prompts. The AI engine communicates with the databases, and a fine-tuned LLM communicates with the AI engine. A user interface communicates with the AI engine, and a configuration management repository communicates with the user interface. The user interface sends new requirements, from the configuration management repository, with corresponding check instructions to the AI engine, which selects prompts for review, based on types of new requirements and the check instructions. The AI engine sends the prompts and the new requirements to the LLM to review for any defects in the new requirements. The LLM sends a response to the user interface, to report on validity of and any defects in the new requirements.
Systems, apparatuses, methods, and computer program products are provided herein. For example, a method may include access aviation specification data. In some embodiments, the method may include training a generative machine learning model using aviation specification data. In some embodiments, the method may include generating synthetic aviation data using the generative machine learning model. In some embodiments, the method may include training one or more global positioning system (GPS) spoofing detection machine learning models using the synthetic aviation data and historical aviation operations data. In some embodiments, the method may include deploying a first GPS spoofing detection machine learning model of the one or more GPS spoofing detection machine learning models to an edge-based device.
Systems, apparatuses, methods, and computer program products are provided herein. For example, a method includes receiving search event data representative of a search event. In some embodiments, the method includes accessing real-time target physical condition data from a target device. In some embodiments, the real-time target physical condition data is representative of one or more real-time target physical condition items. In some embodiments, the method includes generating a target physical condition interface component based on the real-time target physical condition data. In some embodiments, the method includes generating a search event access interface component. In some embodiments, the search event access interface component comprises one or more access links. In some embodiments, the method includes causing the target physical condition interface component to be rendered to a search event operations interface in response to a selection of a target physical condition access link of the one or more access links.
The present invention relates refrigerants which include HFO-1233zd. HFO-1234ze(E), and HFC-134a and the use of such refrigerants in high temperature heat pumps.
F25B 30/02 - Pompes à chaleur du type à compression
C09K 5/04 - Substances qui subissent un changement d'état physique lors de leur utilisation le changement d'état se faisant par passage de l'état liquide à l'état vapeur ou vice versa
87.
SYSTEMS, APPARATUSES, METHODS, AND COMPUTER PROGRAM PRODUCTS FOR GENERATING AN AVIATION OPERATIONS PACKAGE
Systems, apparatuses, methods, and computer program products are provided herein. For example, a method may include receiving aviation operations database status data associated with an aviation operations database. In some embodiments, the method may include generating an aviation operations package based on the aviation operations database status data. In some embodiments, the method may include encrypting the aviation operations package using a cloud-based key. In some embodiments, the method may include deploying the aviation operations package to an onboard aviation operations device.
H04L 9/32 - Dispositions pour les communications secrètes ou protégéesProtocoles réseaux de sécurité comprenant des moyens pour vérifier l'identité ou l'autorisation d'un utilisateur du système
88.
SYSTEMS, APPARATUSES, METHODS, AND COMPUTER PROGRAM PRODUCTS FOR PERFORMING ONE OR MORE AVIATION RELATED OPERATIONS
Systems, apparatuses, methods, and computer program products are provided herein. For example, a method may include establishing a first communication channel with the secondary portable aviation operations device and a second communication channel with an onboard aviation operations device, establishing a first communication channel with the secondary portable aviation operations device and a second communication channel with an onboard aviation operations device, securing the first communication channel with the secondary portable aviation operations device, receiving cloud aviation operations data from the secondary portable aviation operations device via the first communication channel, receiving onboard aviation operations data from the onboard aviation operations device via the second communication channel, performing one or more aviation related operations based at least in part on the cloud aviation operations data or the onboard aviation operations data.
Anomalous behavior of an appliance plugged into a smart socket may be identified. A baseline appliance profile is identified for the appliance plugged into the smart socket, based at least in part on the current and the voltage sampled at each of a plurality of sample times. An operational profile is identified based at least in part on the current and the voltage sampled during an operational time period. The operational profile of the appliance is compared to the baseline appliance profile, and an anomalous behavior in the operation of the appliance is detected and/or predicted based at least in part on the comparison of the operational profile of the appliance to the baseline appliance profile. Action may be taken in response to detecting and/or predicting the anomalous behavior in the operation of an appliance.
Approaches for implementing incentive-based user feedback mechanism related to an application are described. In an example, a feedback session is initiated by sending a prompt message to the user's device upon detecting a feedback trigger. Thereafter, a questionnaire with questions based on user attributes is transmitted, and user responses are received. Responses are analyzed to assign metric scores to users, modifying order or content of questions of the questionnaire.
Electrical circuits and systems are provided for line replaceable units (LRUs) having an inductor shared between an electromagnetic interference (EMI) filtering stage and an inrush current limiting active pre-charge circuit. An exemplary circuit includes a first bus reference voltage node, a second bus reference voltage node, a switching element coupled between the first bus reference voltage node and a third node, a first diode coupled between the third node and the second bus reference voltage node to enable current from the second bus reference voltage node to the third node, at least one capacitive element coupled between a fourth node and the second bus reference voltage node, an inductive element coupled between the third node and the fourth node, and a second diode coupled between the fourth node and the first bus reference voltage node to enable current from the fourth node to the first bus reference voltage node.
H02M 1/36 - Moyens pour mettre en marche ou arrêter les convertisseurs
H02M 1/44 - Circuits ou dispositions pour corriger les interférences électromagnétiques dans les convertisseurs ou les onduleurs
H02M 3/158 - Transformation d'une puissance d'entrée en courant continu en une puissance de sortie en courant continu sans transformation intermédiaire en courant alternatif par convertisseurs statiques utilisant des tubes à décharge avec électrode de commande ou des dispositifs à semi-conducteurs avec électrode de commande utilisant des dispositifs du type triode ou transistor exigeant l'application continue d'un signal de commande utilisant uniquement des dispositifs à semi-conducteurs avec commande automatique de la tension ou du courant de sortie, p. ex. régulateurs à commutation comprenant plusieurs dispositifs à semi-conducteurs comme dispositifs de commande finale pour une charge unique
Techniques for determining an overall health status of a rotating asset are described. In one aspect, a type of the rotating asset is identified and one or more operational parameters corresponding to the rotating asset are obtained for a first time period. The one or more operational parameters are monitored over the first time period to detect an anomaly, and a deviation of the first operational parameter value from the first operating range is calculated to compute an anomaly score associated with the anomaly detected. In correspondence to the anomaly score and the one or more operational parameters, one or more degradation indicators for the rotating asset are derived, from which, a Unified Degradation Indicator (UDI) is determined. Further, an overall health report in correspondence to the UDI is generated, and accordingly, one or more maintenance actions associated with the rotating asset is initiated.
An aircraft system comprises at least one display device within an aircraft, a flight management system (FMS), at least one user interface, and processor circuitry forming at least one processor communicatively coupled to the display device, the FMS, and the user interface. The at least one processor is arranged to operate by displaying, prior to take-off while the aircraft is on the ground, at least one noise abatement departure procedure (NADP) page, where the NADP page has at least one input field arranged to receive an NADP parameter value from a user after display of the at least one input field. The NADP page displays an indication of an NADP parameter type to be entered into the at least one input field. The processor also is arranged to operate by loading the NADP parameter value as part of a customized NADP into the FMS.
A system is provided for detecting an anomaly in a monitored device having one or more internal components that are mechanically displaced during operation of the monitored device which produces pressure variations internal to the monitored device. For example, a system comprises a passive infrasound sensor mounted to an exterior wall of the monitored device to detect infrasound produced by the pressure variations and a monitoring device comprising a controller. The controller is configured to receive data from the passive infrasound sensor corresponding to the detected infrasound, compare the data received from the passive infrasound sensor to a plurality of infrasound reference signals to determine if the detected infrasound is indicative of an anomaly in at least one of the one or more internal components.
A method comprises controlling, via a first process of a process controller, the industrial process, wherein the process controller is coupled, via a communication path, to an input/output (I/O) link execution environment manager (IOL EE), the process controller comprising a microprocessor configured to host a first control execution environment to support a first set of I/O functions and corresponding control execution functions to control the industrial process; migrating a subset of the first set of I/O functions and corresponding control execution functions to a second process of the process controller to form a second set of I/O functions and corresponding control functions, wherein the microprocessor is configured to host a second control execution environment to support the second set of I/O functions and the corresponding control execution functions to control the industrial process; and controlling, via second process.
G05B 19/042 - Commande à programme autre que la commande numérique, c.-à-d. dans des automatismes à séquence ou dans des automates à logique utilisant des processeurs numériques
97.
TECHNIQUES FOR IMPROVING SIGNAL TO NOISE RATIO OF AN OPTICAL AIR-DATA SYSTEM
Techniques are provided which improve the signal to noise ratio of an optical air data system. A pulsed optical signal is sequentially provided to different optical emitters. Upon receiving the pulsed optical signal, each optical emitter emits an optical beam along a unique line of sight to a unique region of the atmosphere. A return optical signal is reflected and/or scattered back to an optical receiver. The return optical signal is detected to provide data about the return optical signal. Using data about the pulsed optical signal and each return optical signal, optical air data parameters can be derived with improved accuracy and/or sensitivity.
A vacuum pressure sensor may comprise a weld ring and a header element welded to the weld ring. The header element may comprise one or more header pins hermetically sealed to the header element, a piezoresistive sensing element coupled to the header element and electrically coupled to the one or more header pins, a corrugated diaphragm coupled to the header element and the weld ring, wherein the diaphragm, along with the header element, defines a cavity that is configured to contain a material, and a plastic spacer disposed within the cavity. The vacuum pressure sensor may comprise a protruding, pointed edge or a substantially flat edge with no corner break of at least a portion of the header element in physical contact with the metal plate.
G01L 9/06 - Mesure de la pression permanente, ou quasi permanente d’un fluide ou d’un matériau solide fluent par des éléments électriques ou magnétiques sensibles à la pressionTransmission ou indication par des moyens électriques ou magnétiques du déplacement des éléments mécaniques sensibles à la pression, utilisés pour mesurer la pression permanente ou quasi permanente d’un fluide ou d’un matériau solide fluent en faisant usage des variations de la résistance ohmique, p. ex. de potentiomètre de dispositifs piézo-résistants
A collision avoidance system is provided for an aircraft that includes a fuselage and a plurality of aircraft surfaces coupled to and extending from the fuselage. The collision avoidance system includes a light engine that is mounted on at least one of the aircraft surfaces and is configured, upon being energized, to emit a light beam in one or more directions. The light engine is further configured such that, when the light beam is emitted, it creates a light plane that is disposed at a predetermined angle relative to a ground surface on which the aircraft is located and extends, from the aircraft surface, along the ground surface thereby producing an elongated light pattern on the ground surface and on any obstacle that the light plane encounters.
Various embodiments described herein relate to systems and methods for managing recall requests in a facility. In this regard, first objects associated with one or more fields of a recall request is initially received in the facility. At least one first object of the first objects is parsed through a model. Also, second objects associated with the one or more fields of the recall request is then retrieved from a database. Based on the parsing, a first mapping for the first objects with the second objects are determined. Based at least on some algorithms and factors, a second mapping for the first objects with the second objects are also determined. A mapping for each of the first objects with the corresponding second objects is identified using the first and the second mappings. The mapping for each of the first objects is rendered via user interface using visual representations.
