Honeywell International Inc. patent applications on December 26th, 2024
Patent Applications by Honeywell International Inc. on December 26th, 2024
Honeywell International Inc.: 20 patent applications
Honeywell International Inc. has applied for patents in the areas of G08G5/00 (2), B60L58/10 (1), G06Q30/018 (1), G06V20/13 (1), G06V20/52 (1) B60L58/10 (1), G06F16/215 (1), G08G5/0008 (1), G08B29/185 (1), G06T7/70 (1)
With keywords such as: data, aircraft, digital, sign, flight, svf, battery, optical, database, and format in patent application abstracts.
Patent Applications by Honeywell International Inc.
Inventor(s): Shuai Chen of Shanghai (CN) for honeywell international inc., Jinkun Liu of Shanghai (CN) for honeywell international inc., Alan Bruce Hickman of Phoenix AZ (US) for honeywell international inc., Xueqian Song of Shanghai (CN) for honeywell international inc.
IPC Code(s): B60L58/10, B60L3/12, B64D31/00, G05D1/10
CPC Code(s): B60L58/10
Abstract: a system may monitor energy consumption of an aircraft. the system may include a memory and processing circuitry in communication with the memory. the processing circuitry may be configured to receive aircraft status data that indicates whether one or more fault conditions are present on the aircraft; receive flight plan data corresponding to a flight plan of the aircraft; and receive battery data indicative of a status of one or more batteries, wherein the battery data includes an amount of energy stored by the one or more batteries and a power output capability of the one or more batteries. additionally, the processing circuitry may determine, based on the aircraft status data, the flight plan data, and the battery data, whether the aircraft is capable of completing the flight plan; and output, based on determining that the aircraft is not capable of completing the flight plan, a warning message.
Inventor(s): Pavel Trnka of Prague (CZ) for honeywell international inc., Vladimir Havlena of Prague (CZ) for honeywell international inc.
IPC Code(s): B60L58/16, G06N5/04, G07C5/00, G07C5/08
CPC Code(s): B60L58/16
Abstract: devices, methods, systems, and computer-readable media for calculating a battery lifetime of an electric vehicle are described herein. one or more embodiments include receiving via a wide area network, at a network computing device, actual battery use data of a specific electric vehicle, expected battery use data, and battery use data from each of a one or more network connected electric vehicles and calculating an estimated lifetime of a battery of the specific electric vehicle based on the actual battery use data, the expected battery use data, and the battery use data from the one or more network connected electric vehicles.
Inventor(s): Eric P. Passman of Morris Plains NJ (US) for honeywell international inc., Mahdi Mohajeri of Morris Plains NJ (US) for honeywell international inc.
IPC Code(s): C04B35/622, C04B35/01, C04B41/00, H01F27/32, H01F41/12
CPC Code(s): C04B35/62222
Abstract: electromechanical devices and methods of forming coating layers thereon are provided. the electromechanical devices include components each having one or more surfaces formed of one or more metallic materials and susceptible to operating environments having temperatures in excess of 150� c. for a long term, and electrically insulative coating layers formed on the one or more surfaces of the components. the coating layer is configured to survive in operating environments having temperatures in excess of 180� c. for a long term.
Inventor(s): Haluk Kopkalli of Staten Island NY (US) for honeywell international inc., Haiyou Wang of Amherst NY (US) for honeywell international inc., Gustavo Cerri of Parsippany NJ (US) for honeywell international inc., Selma Bektesevic of Williamsville NY (US) for honeywell international inc., Yuon Chiu of Denville NJ (US) for honeywell international inc., Christian Jungong of Depew NY (US) for honeywell international inc., Richard D. Horwath of Richmond VA (US) for honeywell international inc., Daniel C. Merkel of Orchard Park NY (US) for honeywell international inc., Jennifer W. McClaine of Branchburg NJ (US) for honeywell international inc., Terris Yang of East Amherst NY (US) for honeywell international inc., Richard Wilcox of West Caldwell NJ (US) for honeywell international inc., Joshua Close of Cheektowaga NY (US) for honeywell international inc., Rajendar Mallepally of Charlotte NC (US) for honeywell international inc.
IPC Code(s): C07C17/363, B01J27/224
CPC Code(s): C07C17/363
Abstract: the present disclosure provides an integrated process for producing trifluoroiodomethane (cfi), in three steps: a) reacting a first reactant stream comprising hydrogen (h) and iodine (i) in the presence of a first catalyst to produce a first product stream comprising hydrogen iodide (hi); (b) reacting the first product stream with a second reactant stream comprising trifluoroacetyl chloride (tfac) in the presence of a second catalyst to produce an intermediate product stream comprising trifluoroacetyl iodide (tfai); and (c) reacting the intermediate product stream to produce a final product stream comprising trifluoroiodomethane. (cfi).
Inventor(s): Haiyou Wang of Amherst NY (US) for honeywell international inc., Gustavo Cerri of Parsippany NJ (US) for honeywell international inc., Mitchel Cohn of Tonawanda NY (US) for honeywell international inc., Selma Bektesevic of Williamsville NY (US) for honeywell international inc.
IPC Code(s): C07C21/18, C07C17/25, C07C17/358, C07C17/38, C07C17/383, C07C17/395
CPC Code(s): C07C21/18
Abstract: the present disclosure provides high purity e-1,3,3,3-tetrafluoropropene (hfo-1234ze). more specifically, the present disclosure provides e-1,3,3,3-tetrafluoropropene (hfo-234ze) in at least 99.99% purity, containing less than 3 ppm 1,1,3,3,3-pentafluoropropene (hfo-1225zc). the present disclosure further provides a method of making high purity e-1,3,3,3-tetrafluoropropene (hfo-1234ze).
Inventor(s): Greg Reynen of North Vancouver (CA) for honeywell international inc.
IPC Code(s): G01B15/00, G01B21/16, G01N23/20025
CPC Code(s): G01B15/00
Abstract: sensors used in sheet manufacturing environments can be sensitive to the gap between the scanner heads. nuclear gauges measure both the sheet product and gas in the column between the scanner heads. the gap distance can affect the measurement in a linear or non-linear fashion depending on the sensing principle high frequency vibrations can cause the sensor devices therein to move. techniques for controlling the sensor gap between operative surfaces on dual scanner heads during measurement operation employs a closed-loop control where piezoelectric actuators are used to maintain a constant gap throughout the scan by closing the error signal on the gap measurement sensor. a system for measuring a property of a continuous sheet includes dual scanner heads housing radiation emitters and receivers. gap measurement signals energize the actuators that adjust the position of one or both sensor devices to maintain the gap at a desired distance.
Inventor(s): Tiequn Qiu of Glendale AZ (US) for honeywell international inc., Jianfeng Wu of Tucson AZ (US) for honeywell international inc., Matthew Wade Puckett of Phoenix AZ (US) for honeywell international inc., Steven Tin of Edina MN (US) for honeywell international inc., Glen A. Sanders of Scottsdale AZ (US) for honeywell international inc.
IPC Code(s): G01C19/72, G02F1/01
CPC Code(s): G01C19/722
Abstract: various examples of a closed-loop optical gyroscope are disclosed. the closed-loop optical gyroscope includes a broadband light source configured to generate broadband optical signal(s). the broadband optical signal(s) propagate in an optical resonator and are coupled in and out of the optical resonator by optical couplers. a phase modulator applies phase modulation to the optical signal(s) based on a sawtooth modulation signal. the optical signal(s) repropagate in the optical resonator in a different direction. the optical signal(s) are then received and analyzed to determine parameter(s) of the phase modulator. one or more processors configure the phase modulator based on the determined parameter(s).
Inventor(s): Michael Leo Held of Stevens Point WI (US) for honeywell international inc., Michael Forbes of North Vancouver (CA) for honeywell international inc.
IPC Code(s): G01N5/00
CPC Code(s): G01N5/00
Abstract: profile alignment with cross-correlation is employed to determine the alignment between two measured profiles taken at different locations along a sheet of material. aligning two profiles in sheet manufacturing is critical so that the coating weight on the sheet can be calculated. coat weight profile is calculated by subtracting the weight of the sheet prior to coating from the measured total weight of the coated sheet after coating. when profiles are not aligned correctly for this subtraction, the coat weight profile will be inaccurate and corrective control actions for apparent deviations in coat weight may be applied to the wrong part of the sheet and may result in poor quality. profile misalignments are monitored by repeatedly performing cross-correlation analysis as new measurement data becomes available. offset is tracked over time and displayed. automatic alerts are triggered when the offset deviates from zero and/or changes in value (within certain thresholds).
Inventor(s): Armin Wellig of Mont-sur-Rolle (CH) for honeywell international inc.
IPC Code(s): G01S13/04, G01S13/06, G01S13/56, G01S13/58, G06F18/24, G06V10/147, G06V20/13, G06V20/52, G06V20/64
CPC Code(s): G01S13/04
Abstract: a computer assisted method for processing output from a mmwave sensor to derive a more reliable count of people in a room, zone or space being monitored by the sensor. in some examples, damping is applied to a varying “people count” signal from the sensor. the damping reduces volatility of the people count and avoids counting anomalous false positive detections. when the people count value decreases, damping may be applied more heavily to disregard intermittent false negatives where the sensor momentarily fails to detect an actual person. in some examples, the mmwave sensor provides point clouds representing the approximate shape and location of detected apparent objects, some of which may be people. some example methods define digital targets corresponding to the point clouds. the targets are deemed to represent real people if the objects and their corresponding targets have sufficient lifespan and exhibit movement within a predetermined normal range.
Inventor(s): Srikanth VELAGA of Hyderabad (IN) for honeywell international inc., Sneha NAYAK of Bangalore (IN) for honeywell international inc., Shambhavi JOSHI of Margao (IN) for honeywell international inc., Senthil Nathan C of Tamil Nadu (IN) for honeywell international inc., Karthika MURUGESAN of Mumbai (IN) for honeywell international inc., Jayalaxmi Vaman TELANG of Bangalore (IN) for honeywell international inc., Jaikiran LENKARAM of Bangalore (IN) for honeywell international inc., Dharmendran CHANDRASEKAR of Madurai (IN) for honeywell international inc., Cicily Preethy N J of Kadugodi (IN) for honeywell international inc.
IPC Code(s): G05B23/02, G06F40/40
CPC Code(s): G05B23/0283
Abstract: embodiments of the present disclosure provide for improved determination of maintenance actions to be performed for a particular asset. embodiments automatically segment maintenance suggestions into a remotely performable classification and a non-remotely performable classification, and/or enabling initiation of such maintenance actions accordingly. some embodiments receiving at least one service case recommendation associated with an asset, applying the at least one service case recommendation to an intelligence machine learning model, the intelligence machine learning model configured to determine a data value indicating a likelihood that each service case recommendation of the at least one service case recommendation is remotely performable, determining, via the data value, at least one remotely performable maintenance suggestion from the at least one service case recommendation, and outputting at least one notification associated with the at least one remotely performable maintenance suggestion to a user associated with remote access of the asset.
Inventor(s): Dani Stern of Seattle WA (US) for honeywell international inc., Jayaprakash Meruva of Bangalore (IN) for honeywell international inc., Nitant Kulshrestha of Bengaluru (IN) for honeywell international inc., Rajiv Reddy V S of Bangalore (IN) for honeywell international inc.
IPC Code(s): G06F3/04842, H04W4/021
CPC Code(s): G06F3/04842
Abstract: a digital sign may be used in a building. the digital sign includes a housing, a display housed by the housing, a wireless interface that supports one or more wireless protocols, and a controller that is housed by the housing and is operatively coupled to the display and the wireless interface. the controller is configured to identify a current location of the digital sign in the building, obtain via the wireless interface one or more key performance indicators of the building that are dependent on the current location of the digital sign in the building, and display on the display the one or more key performance indicators of the building that are dependent on the current location of the digital sign in the building.
20240427744. DATA MANAGEMENT SYSTEM_simplified_abstract_(honeywell international inc.)
Inventor(s): Martin Pot of Seville Grove (AU) for honeywell international inc., Andrew Griffiths of Calgary (CA) for honeywell international inc.
IPC Code(s): G06F16/215, G06F9/54, G06F16/23
CPC Code(s): G06F16/215
Abstract: approaches for managing communication between a first database server and a second database server are described. according to one example, an out-of-sequence data (oosd) notification is generated by the first database server each time out-of-sequence data is received from at least one data source. the oosd notification indicates receipt of the out-of-sequence data from the at least one data source and may include the out-of-sequence data. the oosd notification is then transmitted by the first database server to the second database server over a dedicated communication channel. the oosd notification is received and processed by the second database server for incorporating the out-of-sequence data within a database of the second database server in a chronological order.
Inventor(s): Rodney Stein of Edmonton (CA) for honeywell international inc., Ambika Khatri of Bangalore (IN) for honeywell international inc.
IPC Code(s): G06F16/25
CPC Code(s): G06F16/258
Abstract: a format conversion system provides an extendable library of data format conversion functions configured to convert raw data (e.g., telemetry data) from any number of original formats to at least one normalized format. received raw data is routed to the appropriate format conversion function in the library based on format conversion routing metadata generated with respect to raw data from a particular source and/or a mapping of data sources to corresponding original data formats and/or to corresponding format conversion functions. a selected format conversion function from the library is executed with respect to raw data from particular data sources, and normalized data corresponding to the raw data is output. a format conversion function definition interface enables user configuration of the various format conversion functions, and a configuration interface enables user configuration of the mapping used to route the raw data to the various format conversion functions.
20240428160. ASSET WORKFLOW MANAGEMENT_simplified_abstract_(honeywell international inc.)
Inventor(s): Yadunandan B.C of Bangalore (IN) for honeywell international inc., Perminder Singh of Bangalore (IN) for honeywell international inc., Nivas Sekar of Bangalore (IN) for honeywell international inc., Girish Venkatasubbarao of Bangalore (IN) for honeywell international inc.
IPC Code(s): G06Q10/0633
CPC Code(s): G06Q10/0633
Abstract: techniques for asset workflow management are described. in one example implementation, the present subject matter facilitates in managing configuration changes of an asset in an industrial environment and further facilitates identification and managing resultant changes in a configuration data file corresponding to the asset in view of the configuration changes.
20240428262. SUSTAINABLE VEHICLE FUEL PLATFORM_simplified_abstract_(honeywell international inc.)
Inventor(s): Dhanunjaya Kumar Vangaveti of Hyderabad (IN) for honeywell international inc.
IPC Code(s): G06Q30/018
CPC Code(s): G06Q30/018
Abstract: embodiments of the present disclosure provide a computer-implemented method for executing one or more sustainable vehicle fuel (svf) operations related to an svf platform. the computer-implemented method includes requesting svf supplier source data from one or more svf suppliers, where the svf supplier source data can be configured in various data formats. the computer-implemented method also includes aggregating the svf supplier source data in order to determine and display a current svf availability associated with a respective svf supplier associated with a respective travel hub. the computer-implemented method also includes determining, via an svf optimization model, a suggested svf mixing ratio for a vehicle associated with a user profile, as well as a carbon offset and/or a carbon credit generated by the user profile for using svf. the carbon credit and/or carbon offset can be generated by verifying one or more user purchases of svf on a blockchain-enabled database.
[[20240428348. METHODS AND SYSTEMS FOR CONFIGURING A CUSTOMIZED DIGITAL SIGN FOR DISPLAY IN A TENANT SPACE OF A MULTI-TENANT BUILDING THAT INCLUDES ENERGY CONSUMPTION INFORMATION ASSOCIATED WITH THE PARTICULAR TENANT SPACE_simplified_abstract_(honeywell international inc.)]]
Inventor(s): Akshay Nayak of Bangalore (IN) for honeywell international inc., Brett Richards of Mableton GA (US) for honeywell international inc., Dani Stern of Seattle WA (US) for honeywell international inc., Jayaprakash Meruva of Bangalore (IN) for honeywell international inc., Manikandabose Nagarajan of Tamilnadu (IN) for honeywell international inc., Nitant Kulshrestha of Bengaluru (IN) for honeywell international inc., Rajiv Reddy VS of Bangalore (IN) for honeywell international inc.
IPC Code(s): G06Q50/06, G06Q10/0639
CPC Code(s): G06Q50/06
Abstract: a digital sign template is customized for a tenant space of a multi-tenant building. a registration code is generated for the customized digital sign template. a server is accessed via a display device in the tenant space, and the registration code for the customized digital sign template that correspond to the tenant space is entered. the server receives the entered registration code for the customized digital sign template that correspond to the tenant space, and in response, the server retrieves the customized digital sign template that correspond to the registration code, obtains current values for one or more energy consumption kpis that are associated with the tenant space and are included in the customized digital sign template, and displays the retrieved customized digital sign template with the current values for the one or more energy consumption kpis that are included in the customized digital sign template.
20240428436. VISION-ONLY POSE RELOCALIZATION_simplified_abstract_(honeywell international inc.)
Inventor(s): Jack Tsai of Minneapolis MN (US) for honeywell international inc., Zachary Fisher of Minneapolis MN (US) for honeywell international inc., Vijay Venkataraman of Excelsior MN (US) for honeywell international inc., Nikhil Gupta of Bengaluru (IN) for honeywell international inc.
IPC Code(s): G06T7/70, G06F16/583, G06V10/74
CPC Code(s): G06T7/70
Abstract: systems and methods for vision-only pose relocalization include an image acquisition device on an object that acquires a query frame of an environment containing the object; and a memory device that stores an image database. further, the system can also include a processor that executes computer-readable instructions that direct the processor to perform a coarse-matching algorithm to identify a set of coarsely matched frames of data stored in the image database that coarsely match the query frame; perform a fine-matching algorithm to identify a candidate image in the set of coarsely matched frames that match the query frame; designate the candidate image as a matching image based on whether the candidate image satisfies a validity check; and perform a pose-solving algorithm based on the acquired query frame, the matching image, and parameters for the image acquisition device to estimate a pose of the object in six degrees of freedom.
Inventor(s): RajeshBabu Nalukurthy of Atlanta GA (US) for honeywell international inc., Narendra Chandrakant Salve of Bangalore (IN) for honeywell international inc., Srivatsa Haridas of Bangalore (IN) for honeywell international inc.
IPC Code(s): G08B29/18, G06F3/0482, G06F30/20, G08B21/02, G08B29/22
CPC Code(s): G08B29/185
Abstract: systems and methods are provided that can include receiving a plurality of cause and effect rules for a security system that protects a secured area, simulating a plurality of cause and effect rules responsive to user input identifying an emergency event in one of a plurality of zones of the secured area, and during simulation, displaying on a graphical user interface a first indicator that identifies a first output of a first of the plurality of cause and effect rules within a first of the plurality of zones.
Inventor(s): Muthusankar Subramaniyan of Brno (CZ) for honeywell international inc., Erwan Paricaud of Toulouse (FR) for honeywell international inc., Sivakumar Kanagarajan of Bangalore (IN) for honeywell international inc.
IPC Code(s): G08G5/00, H04W76/14, H04W76/30
CPC Code(s): G08G5/0008
Abstract: a wake energy formation flight plan is received from a formation flight coordination ground station at a first aircraft. the wake energy formation flight plan includes an aircraft identifier of a second aircraft and a formation flight path. the formation flight path is along a portion of a first flight path of the first aircraft that overlaps with a portion of a second flight path of the second aircraft. a paired communication channel is established between the first fms of the first aircraft and a second fms of the second aircraft while the first and second aircraft are flying in formation along at least a portion of the first formation flight path to enable transmission of first fms data generated by the first fms to the second fms and receipt of second fms data generated by the second fms at the first fms.
Inventor(s): Anoop S of Bangalore (IN) for honeywell international inc., Sadguni Venkataswamy of Bangalore (IN) for honeywell international inc., Gang He of Morris Plains NJ (US) for honeywell international inc., David Wright of Phoenix AZ (US) for honeywell international inc., Robin Girdhar of Bangalore (IN) for honeywell international inc., Naseeruddin Mohammed of Phoenix AZ (US) for honeywell international inc.
IPC Code(s): G08G5/00, B64D43/02, G08G5/06
CPC Code(s): G08G5/0021
Abstract: a method and system for dynamically representing the separation for air traffic has been developed. first, air traffic is detected which requires maintenance of a separation distance from an ownship aircraft. the ground speed of the ownship, the ground speed of the air traffic and the current separation distance is determined. a predicted separation distance is calculated following a specific time interval. the predicted separation distance between the air traffic and the ownship is based on a differential in ground speed between the air traffic and the ownship and the specific time interval. the location of the air traffic, the separation distance and the predicted separation distance are all shown on a graphical display onboard the ownship. the separation distance and the predicted separation distance are represented on a non-linear scale on the graphical display.
Honeywell International Inc. patent applications on December 26th, 2024
- Honeywell International Inc.
- B60L58/10
- B60L3/12
- B64D31/00
- G05D1/10
- CPC B60L58/10
- Honeywell international inc.
- B60L58/16
- G06N5/04
- G07C5/00
- G07C5/08
- CPC B60L58/16
- C04B35/622
- C04B35/01
- C04B41/00
- H01F27/32
- H01F41/12
- CPC C04B35/62222
- C07C17/363
- B01J27/224
- CPC C07C17/363
- C07C21/18
- C07C17/25
- C07C17/358
- C07C17/38
- C07C17/383
- C07C17/395
- CPC C07C21/18
- G01B15/00
- G01B21/16
- G01N23/20025
- CPC G01B15/00
- G01C19/72
- G02F1/01
- CPC G01C19/722
- G01N5/00
- CPC G01N5/00
- G01S13/04
- G01S13/06
- G01S13/56
- G01S13/58
- G06F18/24
- G06V10/147
- G06V20/13
- G06V20/52
- G06V20/64
- CPC G01S13/04
- G05B23/02
- G06F40/40
- CPC G05B23/0283
- G06F3/04842
- H04W4/021
- CPC G06F3/04842
- G06F16/215
- G06F9/54
- G06F16/23
- CPC G06F16/215
- G06F16/25
- CPC G06F16/258
- G06Q10/0633
- CPC G06Q10/0633
- G06Q30/018
- CPC G06Q30/018
- G06Q50/06
- G06Q10/0639
- CPC G06Q50/06
- G06T7/70
- G06F16/583
- G06V10/74
- CPC G06T7/70
- G08B29/18
- G06F3/0482
- G06F30/20
- G08B21/02
- G08B29/22
- CPC G08B29/185
- G08G5/00
- H04W76/14
- H04W76/30
- CPC G08G5/0008
- B64D43/02
- G08G5/06
- CPC G08G5/0021
