Honeywell International Inc. patent applications on December 12th, 2024
Patent Applications by Honeywell International Inc. on December 12th, 2024
Honeywell International Inc.: 16 patent applications
Honeywell International Inc. has applied for patents in the areas of G01P15/125 (2), G01P15/08 (2), B25G1/10 (1), G06F18/2431 (1), H04L41/22 (1) G01P15/125 (2), B25G1/102 (1), B81B7/0019 (1), G05B19/41835 (1), G05D1/652 (1)
With keywords such as: data, classification, event, device, time, training, network, altitude, embodiments, and original in patent application abstracts.
Patent Applications by Honeywell International Inc.
Inventor(s): Raviteja TATA of Vuyyuru (IN) for honeywell international inc., Prudhvi YARLAGADDA of Hyderabad (IN) for honeywell international inc., Rizwan AHMAD of Hyderabad (IN) for honeywell international inc., Ashish JAIN of Lucknow (IN) for honeywell international inc., Christy GARIPPO of Lincolnshire IL (US) for honeywell international inc.
IPC Code(s): B25G1/10, B25G1/04, H02G1/00
CPC Code(s): B25G1/102
Abstract: an anti-pinch device for use with an insulating apparatus and an insulating apparatus that includes the anti-pinch device are provided. the anti-pinch device includes a body configured to be at least partially disposed about an insulating apparatus. the body is configured to translate relative the insulating apparatus. the device further includes a pinch prevention mechanism attached to the body of the anti-pinch device. the pinch prevention mechanism is configured to prevent ingress of at least a portion of a user's finger into the insulating apparatus in an instance in which the user actuates an input element defined by the insulating apparatus.
Inventor(s): Paul W. Dwyer of Seattle WA (US) for honeywell international inc., Stephen F. Becka of Nampa ID (US) for honeywell international inc.
IPC Code(s): B81B7/00, G01P1/02, G01P15/13
CPC Code(s): B81B7/0019
Abstract: an accelerometer includes an enclosure coupled to one or more mechanical interposers. the interposers are configured to couple the enclosure to a magnetic assembly and the magnetic assembly is configured to couple to a proof mass. the accelerometer may include electrical circuitry having a torquer coil coupled to the proof mass, where the electrical circuitry may be configured to generate an electrical signal based on an acceleration of the accelerometer. orienting the coupling of the of the enclosure to the magnetic assembly, temperature strain on the accelerometer may be relieved.
20240410914. TRANSLATIONAL MASS ACCELEROMETER_simplified_abstract_(honeywell international inc.)
Inventor(s): Paul W. Dwyer of Seattle WA (US) for honeywell international inc., Stephen F. Becka of Nampa ID (US) for honeywell international inc.
IPC Code(s): G01P15/125, G01P15/08
CPC Code(s): G01P15/125
Abstract: an example micro electro-mechanical systems (mems) accelerometer device includes a proof mass comprising at least one of one or more isolated conductive coil traces or one or more pick-off combs within the proof mass, the one or more pick-off combs comprising a plurality of pick-off comb tines; a pole-piece layer coupled to the proof mass; and a return-path layer coupled to the proof mass, wherein the at least one of the one or more isolated conductive coil traces or the one or more pick-off combs are formed by selective laser etching.
20240410915. ACCELEROMETER INCLUDING PROOF MASS_simplified_abstract_(honeywell international inc.)
Inventor(s): Paul W. Dwyer of Seattle WA (US) for honeywell international inc.
IPC Code(s): G01P15/125, G01P15/08
CPC Code(s): G01P15/125
Abstract: an example proof mass includes a substrate; one or more etched apertures in the substrate; and one or more integrated coils, wherein the one or more etched apertures are formed by selective laser etching, wherein the one or more integrated coils are formed by laser ablation.
Inventor(s): Rohan James McAdam of Walang (AU) for honeywell international inc., Graeme John Laycock of Sidney (AU) for honeywell international inc., Andrew James Lo of Sidney (AU) for honeywell international inc.
IPC Code(s): G05B19/418
CPC Code(s): G05B19/41835
Abstract: a method and system controlled by a human machine interface (hmi) connected to an industrial process control and automation system controlling an industrial process. the hmi collects information and data from a semantic network in response to a natural language request input into the hmi by an operator. the hmi generates a visual layout for the received information and data that is displayed to the operator using the visual layout.
Inventor(s): Yasuo ISHIHARA of Phoenix AZ (US) for honeywell international inc., Supratik GON of Phoenix AZ (US) for honeywell international inc.
IPC Code(s): G05D1/652
CPC Code(s): G05D1/652
Abstract: a system and method for selectively preventing an alert mode implemented in an enhanced ground proximity warning system (egpws) from generating an alert includes retrieving from a cruise altitude data source, using the egpws, cruise altitude data that is indicative of a cruise altitude of an aircraft, and retrieving from a take-off altitude data source, using the egpws, take-off altitude data this is indicative of a take-off altitude of the aircraft. the cruise altitude data and the take-off altitude data are processed in the egpws to determine if the cruise altitude is below the altitude from which the aircraft is taking off. when the cruise altitude is below the altitude from which the aircraft is taking off, the alert mode implemented in the egpws is prevented from generating the alert until the aircraft is at the cruise altitude.
Inventor(s): McMillan Goyal of Bengaluru (IN) for honeywell international inc., Abhiram Puranam of Bengaluru (IN) for honeywell international inc., Shrai Lakshman R. of Bengaluru (IN) for honeywell international inc., Anjeneya Dubey of Robbinsville NJ (US) for honeywell international inc.
IPC Code(s): G06F8/65, G06F8/41
CPC Code(s): G06F8/65
Abstract: embodiments of the disclosure provide for improved automation of software change management. such embodiments enable automatically managing and testing software modifications. some embodiments receive a change request data object indicative of a software modification, generate a risk level of the software modification based on the change request data object, and generate a test scheduling data object based on the change request data object and the risk level, where the test scheduling data object is indicative of a testing operation for the software modification. some embodiments initiate performance of the testing operation at a testing environment and receive, from the testing environment, test performance data. some embodiments determine a test failure based on the test performance data and, in response to determining the test failure, generate a communication bridge between a subset of a plurality of computing devices based on the test failure and a development flow data object.
Inventor(s): WOLFGANG GUNTHER DINKEL of Mannheim (DE) for honeywell international inc., ZHENG LI of Frankfurt am Main (DE) for honeywell international inc., CHIAHSUN HO of Lawrenceville GA (US) for honeywell international inc., AMIT KUMAR of Munster (DE) for honeywell international inc.
IPC Code(s): G06F9/54
CPC Code(s): G06F9/542
Abstract: various embodiments relate to event data structure routing and/or processing via an event processor platform. in an implementation, an event data structure is received. the event data structure can be generated by a mobile device based on an inspection event related to an asset located within an operational environment. additionally, a first portion of the event data structure can include at least one event parameter identifier and a second portion of the event data structure comprises event data. in response to the event data structure, the at least one event parameter identifier is compared to a set of predefined event parameter rules for respective event processors of a set of event processors. additionally, the event data structure is routed to a particular event processor in response to a determination that the at least one event parameter identifier satisfies the set of predefined event parameter rules.
Inventor(s): Waad SUBBER of Niskayuna NY (US) for honeywell international inc., Lakshminarayana PAILA of Knoxville TN (US) for honeywell international inc., Judith FAINOR of Doylestown PA (US) for honeywell international inc., Ankit SINGH of Apex NC (US) for honeywell international inc.
IPC Code(s): G06F11/34
CPC Code(s): G06F11/3409
Abstract: systems, apparatuses, methods, and computer program products are provided. for example, a computer-implemented method provided herein may include receiving a system architecture. in some embodiments, the system architecture is representative of a plurality of services and a plurality of services metadata datasets. in some embodiments, the computer-implemented method may include parsing the system architecture to generate a plurality of services resource consumption representation requests. in some embodiments, the computer-implemented method may include processing the plurality of services resource consumption representation requests using a plurality of services resource consumption utilization tools. in some embodiments, the computer-implemented method may include receiving a plurality of services resource consumption responses from the plurality of services resource consumption utilization tools. in some embodiments, the computer-implemented method may include determining a services resource consumption based at least in part on the plurality of services resource consumption responses.
Inventor(s): Waad Subber of Niskayuna NY (US) for honeywell international inc., Ankit Singh of Apex NC (US) for honeywell international inc.
IPC Code(s): G06F18/2431
CPC Code(s): G06F18/2431
Abstract: a multi-class classification system performs multi-class classification using an adapted, multi-level binary classification model in conjunction with pre-classification and post-classification processing. original, multi-class training data is transformed into coarse-level adapted training data and fine-level adapted training data. in the coarse-level adapted training data, objects from the original training set are classified into either a majority classification set (representing the largest original classification set) or a non-majority classification set representing a combination of the remaining classification sets from the original training data. in the fine-level adapted training data, objects from the non-majority classification set retain their original classifications from the original training data. the adapted training data is used to train coarse-level and fine-level instances of the binary classification model, which are used to generate coarse-level and fine-level binary classifications of objects with respect to an input data set. the binary classifications are transformed into a multi-class classification.
Inventor(s): Viraj Srivastava of Bengaluru (IN) for honeywell international inc., Minal Dani of Bangalore (IN) for honeywell international inc., Chinmaya Kar of Al Jubail (AE) for honeywell international inc.
IPC Code(s): G06N5/022
CPC Code(s): G06N5/022
Abstract: examples techniques to select training data to train artificial intelligence models to monitor industrial processes are described. from historical data relating to an industrial process, a range of values exhibited by operating parameters of the industrial process under normal operation is estimated. one or more steady time windows are identified for the operating parameters. a steady time window of an operating parameter is a duration of time where values of the operating parameter are within the estimated range of values. based on the identified steady time windows, a composite steady time window is determined. the composite steady time window is a duration of time where a maximum of the identified steady time windows overlap. the data corresponding to the composite steady time window is provided as training data to the ai model.
Inventor(s): Waad Subber of Niskayuna NY (US) for honeywell international inc., Ankit Singh of Apex NC (US) for honeywell international inc.
IPC Code(s): G06N20/00
CPC Code(s): G06N20/00
Abstract: a multi-label classification system performs multi-label classification using an adapted multi-class classification model in conjunction with pre-classification and post-classification processing and data transformation. an original, multi-label training data set in which objects are classified into at least one but possibly multiple original classification sets is transformed into an adapted, multi-class training data set in which the same objects are each classified into a combined classification set representing a combination of all of the individual, original classification sets into which the object is classified in the original training data set. the adapted training data set is used to train a multi-class classification model, which trained model is used to generate a multi-class classification of objects with respect to an input data set. the multi-class classification is transformed into a multi-label classification.
Inventor(s): Vignesh S of Erode (IN) for honeywell international inc., Rajapriyan Thambidurai of Bangalore (IN) for honeywell international inc., Arun Ramesh of Puducherry (IN) for honeywell international inc.
IPC Code(s): G06Q50/16
CPC Code(s): G06Q50/163
Abstract: techniques for performing handover-takeover (hoto) activity corresponding to an operation shift are described. in an example implementation, an initiation request to initiate the hoto activity corresponding to an operation shift are received, where the initiation request is received from a first user initiating handover of the operation shift, and the initiation request includes credentials of the first user. thereafter, credentials of a second user taking over the operation shift from the first user are received. the credentials of the second user are then compared with the credentials of the first user. one of the hoto activity and a self-takeover activity is then performed based on the comparing of the credentials of the second user with the credentials of the first user.
Inventor(s): John Suddreth of Phoenix AZ (US) for honeywell international inc., Kenneth Leiphon of Phoenix AZ (US) for honeywell international inc., Sean Caufield of Phoenix AZ (US) for honeywell international inc.
IPC Code(s): G06V20/56, G06T3/40, G06T7/20, G06T7/70
CPC Code(s): G06V20/56
Abstract: a virtual window system for a vehicle is disclosed. the virtual window system includes a display device and a controller. the controller is configured to: receive an image of a scene in a field of view (fov) of an imaging system of the vehicle at an image capture time; predict a vehicle location at a predicted image display time; translate the image to a predicted image having an estimated view of the scene from the vehicle at the predicted vehicle location based on a predicted render time, a predicted display time, an amount of predicted position change between vehicle position at the image capture time and predicted vehicle position at the predicted image display time; and cause the translated image to be displayed on the display device at the predicted image display time.
Inventor(s): Rajeshbabu Nalukurthy of Atlanta GA (US) for honeywell international inc., Sameer Agrawal of Weddington NC (US) for honeywell international inc., Andrew L. Macfarlane of Santa Barbara CA (US) for honeywell international inc., Udayabharathi Shrivastava of Snellville GA (US) for honeywell international inc.
IPC Code(s): G08B29/06
CPC Code(s): G08B29/06
Abstract: devices, systems, and methods for providing first responders with contextual information of a facility having an alarm event for enhanced public safety operations are described herein. one system includes an alarm system control panel, multiple first communication paths for communicating information between the alarm system control panel and to both an alarm system monitoring station device and a mobile device having an alarm monitoring software application thereon, the alarm monitoring software application communicating via one of a second multiple of communication paths with a first responder device, and the alarm system monitoring station device also communicating via a different communication path with the first responder device.
Inventor(s): Harshal S. Haridas of Jamison PA (US) for honeywell international inc., Lonnie Walker of West Chester PA (US) for honeywell international inc., Doreen West of Dresher PA (US) for honeywell international inc., Nofal Aamir of Collegeville PA (US) for honeywell international inc.
IPC Code(s): H04L41/22, H04L41/12
CPC Code(s): H04L41/22
Abstract: a method and apparatus for discovering and displaying a graphical representation of a plurality of network devices connected to a communication network comprises a control network module coupled to the plurality of network devices. a first component of a control network module captures attribute data from the network devices. a second component of the control network module constructs a switch data table identifying a media access control address for each port of a communication network switch associated with each of the plurality of network devices. the second component uses the attribute data and the switch data table to construct a neighbor data table for the plurality of network devices connected to the communication network. a third component of the control network module uses the neighbor data table to construct a neighboring device table and build the graphical representation of the communication network on a display device.
Honeywell International Inc. patent applications on December 12th, 2024
- Honeywell International Inc.
- B25G1/10
- B25G1/04
- H02G1/00
- CPC B25G1/102
- Honeywell international inc.
- B81B7/00
- G01P1/02
- G01P15/13
- CPC B81B7/0019
- G01P15/125
- G01P15/08
- CPC G01P15/125
- G05B19/418
- CPC G05B19/41835
- G05D1/652
- CPC G05D1/652
- G06F8/65
- G06F8/41
- CPC G06F8/65
- G06F9/54
- CPC G06F9/542
- G06F11/34
- CPC G06F11/3409
- G06F18/2431
- CPC G06F18/2431
- G06N5/022
- CPC G06N5/022
- G06N20/00
- CPC G06N20/00
- G06Q50/16
- CPC G06Q50/163
- G06V20/56
- G06T3/40
- G06T7/20
- G06T7/70
- CPC G06V20/56
- G08B29/06
- CPC G08B29/06
- H04L41/22
- H04L41/12
- CPC H04L41/22