HONEYWELL INTERNATIONAL INC. patent applications on August 22nd, 2024
Patent Applications by HONEYWELL INTERNATIONAL INC. on August 22nd, 2024
HONEYWELL INTERNATIONAL INC.: 18 patent applications
HONEYWELL INTERNATIONAL INC. has applied for patents in the areas of A61M21/00 (1), G08B17/00 (1), H01M4/04 (1), G01C21/16 (1), G01C25/00 (1) A61M21/00 (1), G01C21/1652 (1), G08G5/0021 (1), G08B29/145 (1), G08B29/12 (1)
With keywords such as: data, device, fire, air, control, based, location, output, comprising, and gear in patent application abstracts.
Patent Applications by HONEYWELL INTERNATIONAL INC.
Inventor(s): Balasubramanyam Ravindranath of Bangalore (IN) for honeywell international inc., Stephane Marche of Toulouse (FR) for honeywell international inc., Swetha Balasa of Bangalore (IN) for honeywell international inc.
IPC Code(s): A61M21/00, A61B5/00
CPC Code(s): A61M21/00
Abstract: a system and method of waking a person includes receiving, in a processing system, stimuli configuration data that is indicative of all available waking stimuli available for use. sleep state data that is indicative of a current sleep state of the person is received in the processing system. the stimuli configuration data and the sleep state data are processed, in the processing system, to determine (i) a set of the available stimuli to use to awaken the person and (ii) a sequence of activation of the set available stimuli to use. the set of available stimuli are selectively activated, via the processing system, in the determined sequence of activation.
Inventor(s): Daniel Yee of Fort Mill SC (US) for honeywell international inc., Rahul Avasthi of Richardson TX (US) for honeywell international inc.
IPC Code(s): A62B9/00, G01N33/00
CPC Code(s): A62B9/006
Abstract: an air quality monitoring device and associate method of monitoring air quality is provided. an example air quality monitoring device may include a housing comprising a chamber and an inlet port, a plurality of sensors to measure air quality data, and a controller. the inlet port is structured to selectively receive ambient air flow such that the sensors measure air quality data associated with the ambient air flow and to selectively receive air flow directly from an outlet port of a positive airway pressure machine such that the sensors measure air quality data associated with the air flow from positive airway pressure machine. the controller compares the measured air quality data associated with the ambient air flow with the measured air quality data associated with the air flow from the positive airway pressure machine to determine net air quality data associated with air flow from the positive airway pressure machine.
Inventor(s): Anjaiah TUMU of Charlotte NC (US) for honeywell international inc., Rahul Ramesh BHASKARWAR of Charlotte NC (US) for honeywell international inc., Garaga PHANI KUMAR of Charlotte NC (US) for honeywell international inc.
IPC Code(s): A62B18/00, A61M16/00
CPC Code(s): A62B18/006
Abstract: various embodiments are directed to a method for operating a blower so as to generate an at least substantially consistent output flowrate comprising programmatically determining an optimized motor speed based at least in part on blower motor data and a blower characterization curve, wherein the blower characterization curve defines a correlation between motor speed and motor voltage of a blower motor configured to generate a desired respirator output flowrate; and programmatically adjusting a motor voltage based at least in part on a comparison of measured motor speed data to the optimized motor speed, wherein the blower characterization curve is defined by one or more blower characterization equations derived based at least in part on a plurality of motor output calibration points. various embodiments are directed to a respirator apparatus configured to generate an at least substantially consistent respirator output airflow.
Inventor(s): Nilesh Purohit of Charlotte NC (US) for honeywell international inc., Kaimi Gao of Charlotte NC (US) for honeywell international inc., Ronald Vogl of Charlotte NC (US) for honeywell international inc., Ankit Sethi of Charlotte NC (US) for honeywell international inc., Ryan Hulse of Charlotte NC (US) for honeywell international inc.
IPC Code(s): B23P15/26, F25B1/00
CPC Code(s): B23P15/26
Abstract: methods for forming an improved refrigeration system comprising: (a) providing an existing refrigeration circuit comprising an existing refrigerant having a gwp of greater than 1200, a plurality of evaporators in a refrigerated space containing products accessible to consumers, a rack of compressors and at least one condenser located remotely from the areas accessible to consumers; (b) disconnecting the fluid connection between the existing liquid refrigerant from said condenser and said evaporators; (c) disconnecting the fluid connection between said existing refrigerant vapor from said evaporators in step (b) and said suction of said compressor or compressor rack; and (d) establishing a new first refrigeration circuit comprising the compressor rack and said condenser; (e) establishing a new second refrigeration circuit comprising at least one of the evaporators by steps comprising: (i) removing the existing refrigerant from the evaporators and at least a portion of said conduits which have been disconnected in steps (b) and (c); and (ii) replacing the removed existing refrigerant with a second refrigerant comprising: (1) from about 30 to about 70% by weight of cf3i; (2) from about 9% to about 58% by weight of hfo-1234yf; (3) from 1% to about 21.5% by weight of hfc-32; and optionally (4) from 0.5% to 4% by weight of hfc-125, co2 or a combination of hfc-125 and co2.
20240278923. PROPULSOR BRAKE LOCK_simplified_abstract_(honeywell international inc.)
Inventor(s): Ronald Vaughan of Tempe AZ (US) for honeywell international inc., James N. Quitmeyer of Tempe AZ (US) for honeywell international inc., Everett Canepa of Phoenix AZ (US) for honeywell international inc.
IPC Code(s): B64D31/08, B64C11/00, B64D27/24, B64D31/14, B64D35/08, B64U30/29, B64U50/23
CPC Code(s): B64D31/08
Abstract: a propulsor brake lock system includes an aircraft propulsor, a reduction gear assembly, a brake shaft, and a brake assembly. the aircraft propulsor includes a propeller having a propeller input shaft coupled thereto. the reduction gear assembly includes at least an input gear and an output gear. the input gear and output gear are both rotatable with the propeller input shaft. the brake shaft is coupled to, and is rotatable with, the output gear. the brake assembly is coupled to the brake shaft and is moveable between a disengaged position, in which the brake shaft may rotate whenever the output gear rotates, and an engaged position, in which the brake shaft is prevented from rotating, thereby preventing rotation of the output gear, the input gear, and the propeller input shaft.
Inventor(s): Jayaprakash Meruva of Bangalore (IN) for honeywell international inc., Rajesh V. Poojary of Bangalore (IN) for honeywell international inc., Sachin Kumar S. of Kerala (IN) for honeywell international inc., Ganapati Hegde of Bangalore (IN) for honeywell international inc.
IPC Code(s): B64F1/18, G06F9/445, G06F21/60, H04L67/125
CPC Code(s): B64F1/18
Abstract: airport gate visual docking guidance system digital twin methods, systems, and devices are described herein. one method includes: identifying that a device of the visual docking guidance system is non-responsive, determining which device is non-responsive, initiating start-up of one visual docking guidance system program selected from: a visual docking guidance system software program, a central computing system program, or an operating station program, selecting a digital twin data set corresponding to the device of the visual docking guidance system that was non-responsive, wherein the set includes parameter data that was customized by a user of the visual docking guidance system and is particular to the device of the visual docking guidance system that was non-responsive, and sending the digital twin parameter data to the device of the visual docking guidance system that was non-responsive to update one or more parameters stored in association with the visual docking guidance system program.
Inventor(s): Mehrad Mehr of Raleigh NC (US) for honeywell international inc., Bahram Jadidian of Watchung NJ (US) for honeywell international inc.
IPC Code(s): C04B41/45, C04B35/83, C04B41/50, C04B41/52, C04B41/87, C04B41/89, C23C16/26, C23C16/56
CPC Code(s): C04B41/4558
Abstract: an example method for forming a high temperature coating includes depositing a carbon layer on to a surface of a composite article using chemical vapor deposition. the composite substrate includes a composite substrate including a carbon matrix. the surface of the composite article includes one or more surface voids. the method further includes applying a metal slurry to the surface of the composite article following the deposition of the carbon layer and reacting a metal of the metal slurry with carbon of the carbon layer to form an antioxidant layer of a metal carbide on the composite article.
Inventor(s): Haluk Kopkalli of Staten Island NY (US) for honeywell international inc., Daniel C. Merkel of Orchard Park NY (US) for honeywell international inc., Haiyou Wang of Amherst NY (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., Tao Wang of Shanghai (CN) for honeywell international inc., Jennifer W. McClaine of Branchburg NJ (US) for honeywell international inc., Gavin Towler of Charlotte NC (US) for honeywell international inc., Haridasan K. Nair of Wiliamsville NY (US) for honeywell international inc.
IPC Code(s): C07C51/64, B01D3/40, B01D11/04
CPC Code(s): C07C51/64
Abstract: the present disclosure provides a method of removing iodine (i) and iodine-containing species from processes for producing trifluoroiodomethane (cfi). the present disclosure further provides another method of removing iodine and iodine-containing species from trifluoroacetyl iodide (tfai).
Inventor(s): Yian Zhai of Lockport NY (US) for honeywell international inc., Sudharsanam Ramanathan of Buffalo NY (US) for honeywell international inc., Pramod K.W. Harikumar Warrier of Cheektowaga NY (US) for honeywell international inc., Alexey Kruglov of Belmont WA (US) for honeywell international inc., Dimitrios Papanastasiou of Buffalo NY (US) for honeywell international inc., Christophe Roger of Buffalo NY (US) for honeywell international inc.
IPC Code(s): C09K5/04
CPC Code(s): C09K5/041
Abstract: the fluoroether 3-(difluoromethoxy)-1,1,1,2,2-pentafluoropropane (“hfe-347mcf”) may be used as a refrigerant and/or heat transfer composition, such as in single phase and two phase cooling systems, and a method of heating and/or cooling an electronic component or device includes providing a heat transfer fluid comprising at least about 10% by weight of 3-(difluoromethoxy)-1,1,1,2,2-pentafluoropropane, and transferring heat between the electronic component and the heat transfer fluid. the fluoroether 3-(difluoromethoxy)-1,1,1,2,2-pentafluoropropane may be synthesized by reacting 2,2,3,3,3-pentafluoro-1-propanol with chlorodifluoromethane (r-22).
Inventor(s): Gertjan Job Hofman of Vancouver (CA) for honeywell international inc., Sebastien Tixier of North Vancouver (CA) for honeywell international inc.
IPC Code(s): G01B15/02, G01N23/00, H01M4/04
CPC Code(s): G01B15/02
Abstract: a system includes a top scanner head configured over a coated substrate. an x-ray sensor and a second x-ray sensor scan the coated substrate. at least one of the x-ray sensor and second x-ray sensor is tuned to an energy level below an absorption peak and at least one of the x-ray sensor and second x-ray sensor is tuned to an energy level above the absorption peak. the x-ray sensor and second x-ray sensor scan a same sheet spot on the coated substrate. a bottom scanner head is configured underneath the coated substrate to provide a location for a detection of x-rays for the x-ray sensor and the second x-ray sensor.
Inventor(s): Ganesh Kumar Vaithilingam of Gandhi Nagar (IN) for honeywell international inc., Delhi Aruna of Bengaluru (IN) for honeywell international inc., Shobana Arumugam of Bengaluru (IN) for honeywell international inc., Prema Rajendran of Kurinjipadi taluku (IN) for honeywell international inc.
IPC Code(s): G01C21/16, G01C25/00
CPC Code(s): G01C21/1652
Abstract: a method to determine a precise location for alignment of an inertial navigation system (ins) is provided. the method includes aiming an imaging and ranging system mounted on a gimbal on a vehicle at a machine-readable image at a known location, determining an azimuth, an elevation angle, and a slant range to the machine-readable image, capturing the machine-readable image, decoding the known location from the machine-readable image, deriving the precise location of the vehicle from the known location, the azimuth, the elevation angle and the slant range, and aligning the ins based on the precise location.
Inventor(s): Austin Acker Taranta of Southampton (GB) for honeywell international inc., Leonard George Budd of Southampton (GB) for honeywell international inc., Francesco Poletti of Southampton (GB) for honeywell international inc., Eric Numkam Fokoua of Southampton (GB) for honeywell international inc., Seyed Mohammad Abokhamis Mousavi of Portsmouth (GB) for honeywell international inc.
IPC Code(s): G02B6/44
CPC Code(s): G02B6/444
Abstract: techniques are provided for controlling azimuthal alignment of a cross-section of the anti-resonant hollow core fiber when winding such anti-resonant hollow core fiber into a coil.
Inventor(s): Joseph Z. LU of Glendale AZ (US) for honeywell international inc., Jeffrey Glen RENFRO of Deer Park TX (US) for honeywell international inc., Joseph Steven MAJEWSKI of Huntington NY (US) for honeywell international inc., Ramdas PAI of Cary NC (US) for honeywell international inc.
IPC Code(s): G05B13/04
CPC Code(s): G05B13/042
Abstract: systems, apparatuses, methods, and computer program products for constrained emissions control, emissions optimization, and emissions planning are provided herein. in some embodiments, a computer-implemented method may include receiving operational data associated with one or more assets. in some embodiments, the operational data comprises short-term operational data and long-term operational data. in some embodiments, a computer-implemented method may include generating, based on applying the short-term operational data and the long-term operational data to an optimization model, a long-term emissions optimization plan. in some embodiments, a computer-implemented method may include generating, based at least on the long-term emissions optimization plan, a short-term emissions control. in some embodiments, a computer-implemented method may include initiating performance of one or more emissions optimization actions based at least in part on the long-term emissions optimization plan or the short-term emissions control.
Inventor(s): Hamid TARMAZDI of Park Holme (AU) for honeywell international inc.
IPC Code(s): G06F16/27, G06F11/34, G06F16/14
CPC Code(s): G06F16/27
Abstract: a method for synchronizing data between a plurality of datasets includes receiving a request to match a subject record in a first dataset with a corresponding record in a remote second dataset based on at least one synchronization criteria, dividing the second dataset into a plurality of chunks each comprising a predetermined number of records, generating a probabilistic data structure respectively associated with a first of the plurality of chunks and configured to determine whether the corresponding record is contained in the first of the plurality of chunks, determining within a predetermined level of accuracy that the corresponding record is present in the first of the plurality of chunks based on the probabilistic data structure, and causing one or more attributes of the subject record to be synchronized with one or more attributes of the corresponding record.
Inventor(s): Rajesh Babu Nalukurthy of Bangalore (IN) for honeywell international inc., Jayaprakash Meruva of Bangalore (IN) for honeywell international inc., Siva Sankar Mathuraju of Bangalore (IN) for honeywell international inc., Simon Foulkes of Oakham (GB) for honeywell international inc., Sameer Agrawal of Weddington NC (US) for honeywell international inc., Vipindas E K of Kannur (IN) for honeywell international inc.
IPC Code(s): G08B29/12, G06F16/245, G06F16/248, G08B5/36, G08B17/00, H04W88/02
CPC Code(s): G08B29/12
Abstract: fire alarm system device identification methods and systems are described herein. one fire alarm system, includes a gateway connected to a system control panel for allowing mobile device access to the system, a mobile device connected to the control panel, a fire alarm system control application on the mobile device, wherein the fire alarm control system application gains access to the control panel via the gateway, a search utility in the fire alarm control system application for identifying a particular fire alarm system device that is in a specific condition or location, and a database accessible via the fire alarm control system application wherein location and condition information about the plurality of fire alarm system devices is located, such that the search utility can search the database and identify the particular fire alarm system device from the other of the plurality of fire alarm system devices.
Inventor(s): Benjamin H. Wolf of Leicester (GB) for honeywell international inc., Hariprasad Kozhikkotakathitta Veetil of Bangalore (IN) for honeywell international inc., Himanshu Goyal of Jaipur (IN) for honeywell international inc.
IPC Code(s): G08B29/14, G06F3/04817, G08B17/107
CPC Code(s): G08B29/145
Abstract: devices, methods, and systems for causing a self-testing fire sensing device to initiate a fire response are described herein. one device includes a user interface, a memory, and a processor configured to execute executable instructions stored in the memory to receive, via the user interface, a selection to initiate a fire response, receive, via the user interface, a selection of a self-testing fire sensing device to initiate the fire response, transmit a command to the self-testing fire sensing device to initiate the fire response, and receive a notification of a number of output events triggered by the initiation of the fire response by the self-testing fire sensing device.
Inventor(s): Sanjib Maji of Bangalore (IN) for honeywell international inc., Kaushik Viswanatha of Bangalore (IN) for honeywell international inc., Mohammed Ibrahim Mohideen of Bangalore (IN) for honeywell international inc., Sadguni Venkataswamy of Bangalore (IN) for honeywell international inc.
IPC Code(s): G08G5/00, B64D43/02
CPC Code(s): G08G5/0021
Abstract: systems and methods are provided for displaying differential ground speed for traffic surrounding an aircraft. the system includes an aircraft control panel in a cockpit of an ownship aircraft and a digital traffic display located on the control panel. the digital traffic display provides cockpit display of traffic information (cdti) that shows a speed scale with a graphical display of the ground speed of the ownship aircraft and the ground speed of traffic to follow (ttf). the separation scale also shows a graphical display of a separation distance between the ownship aircraft and the ttf. a change in separation distance is calculated based of the difference in ground speed between the ownship aircraft and the ttf. an advisory/warning indicator that shows a color-coded status of the change in separation distance in comparison a pre-determined desired separation distance between the ownship aircraft and the ttf.
20240284171. ACCESS CONTROL VIA A MOBILE DEVICE_simplified_abstract_(honeywell international inc.)
Inventor(s): Sanjay Roy of Plymouth MN (US) for honeywell international inc., Frank Lin of Oatlands (AU) for honeywell international inc., Bryan Jones of Muswellbrook (AU) for honeywell international inc., Datta Godbole of Plymouth MN (US) for honeywell international inc., Himanshu Khurana of Plymouth MN (US) for honeywell international inc.
IPC Code(s): H04W12/06, H04M1/72412, H04W4/02, H04W12/08, H04W12/30, H04W12/37, H04W12/64, H04W88/04
CPC Code(s): H04W12/06
Abstract: systems, devices, and methods for access control via a mobile device are described herein. one method includes receiving location information associated with a mobile device in a facility, determining that the mobile device is within a particular distance of an area of the facility based on the location information, determining whether a user of the mobile device is allowed access to the area, and allowing access to the area via a relay associated with the area responsive to a determination that the user is allowed access.
HONEYWELL INTERNATIONAL INC. patent applications on August 22nd, 2024
- HONEYWELL INTERNATIONAL INC.
- A61M21/00
- A61B5/00
- CPC A61M21/00
- Honeywell international inc.
- A62B9/00
- G01N33/00
- CPC A62B9/006
- A62B18/00
- A61M16/00
- CPC A62B18/006
- B23P15/26
- F25B1/00
- CPC B23P15/26
- B64D31/08
- B64C11/00
- B64D27/24
- B64D31/14
- B64D35/08
- B64U30/29
- B64U50/23
- CPC B64D31/08
- B64F1/18
- G06F9/445
- G06F21/60
- H04L67/125
- CPC B64F1/18
- C04B41/45
- C04B35/83
- C04B41/50
- C04B41/52
- C04B41/87
- C04B41/89
- C23C16/26
- C23C16/56
- CPC C04B41/4558
- C07C51/64
- B01D3/40
- B01D11/04
- CPC C07C51/64
- C09K5/04
- CPC C09K5/041
- G01B15/02
- G01N23/00
- H01M4/04
- CPC G01B15/02
- G01C21/16
- G01C25/00
- CPC G01C21/1652
- G02B6/44
- CPC G02B6/444
- G05B13/04
- CPC G05B13/042
- G06F16/27
- G06F11/34
- G06F16/14
- CPC G06F16/27
- G08B29/12
- G06F16/245
- G06F16/248
- G08B5/36
- G08B17/00
- H04W88/02
- CPC G08B29/12
- G08B29/14
- G06F3/04817
- G08B17/107
- CPC G08B29/145
- G08G5/00
- B64D43/02
- CPC G08G5/0021
- H04W12/06
- H04M1/72412
- H04W4/02
- H04W12/08
- H04W12/30
- H04W12/37
- H04W12/64
- H04W88/04
- CPC H04W12/06
