HONEYWELL INTERNATIONAL INC. patent applications on August 8th, 2024
Patent Applications by HONEYWELL INTERNATIONAL INC. on August 8th, 2024
HONEYWELL INTERNATIONAL INC.: 21 patent applications
HONEYWELL INTERNATIONAL INC. has applied for patents in the areas of B64C13/50 (2), F25B9/00 (2), C09K5/04 (2), G06F16/31 (1), G01R33/345 (1) A61K8/732 (1), G01R33/345 (1), H01M10/4285 (1), G09B5/02 (1), G08G5/0039 (1)
With keywords such as: light, data, sensor, state, include, gas, signal, based, control, and operator in patent application abstracts.
Patent Applications by HONEYWELL INTERNATIONAL INC.
Inventor(s): Anthony Anzalone of Charlotte NC (US) for honeywell international inc., Yiu Keung Ling of Charlotte NC (US) for honeywell international inc., Jon Thomas Herdlein of Charlotte NC (US) for honeywell international inc., Leonard Michael Stachura of Charlotte NC (US) for honeywell international inc.
IPC Code(s): A61K8/73, A61K8/04, A61K8/26, A61K8/31, A61K8/34, A61K8/72, A61Q5/00, A61Q5/06, A61Q15/00
CPC Code(s): A61K8/732
Abstract: disclosed are methods of applying a leave-on personal care treatment products comprising:
Inventor(s): Thea Feyereisen of Minneapolis MN (US) for honeywell international inc., Gang He of Morris Plains NJ (US) for honeywell international inc., Hicham Atassi of Brno (CZ) for honeywell international inc., Jan Ciganek of Brno (CZ) for honeywell international inc., Bohdan Blaha of Brno (CZ) for honeywell international inc., Nasiruddin Mohammed of Plymouth MN (US) for honeywell international inc.
IPC Code(s): B60Q9/00, A61B5/00, A61B5/024, A61B5/11, B63B79/15, B64D45/00
CPC Code(s): B60Q9/00
Abstract: systems and methods are provided for detecting potential vehicle operator incapacitation based on operator physiological state data. raw operator physiological state data is received from a biosensing wearable device of an operator of a vehicle. the raw operator physiological state data includes raw operator actigraphy state data. contextual motion data is received from at least one environmental motion sensor. the contextual motion data is associated with movement of the vehicle. a motion filter mask is generated based on the contextual motion data. the motion filter mask is applied to the raw operator actigraphy state data to filter the contextual motion data from the raw operator actigraphy state data to generate actual operator actigraphy state data. a determination is made regarding whether the actual operator actigraphy state data is less than an actigraphy threshold. an operator incapacity alert is issued based on the determination.
Inventor(s): Petr Hanus of Brno (CZ) for honeywell international inc., Ondrej Hajek of Brno (CZ) for honeywell international inc., Ondrej Mandel of Prague (CZ) for honeywell international inc., Darrell W. Horner of Tempe AZ (US) for honeywell international inc.
IPC Code(s): B64C13/50
CPC Code(s): B64C13/503
Abstract: a system configuration significantly reduces the number of interconnections needed between an electromechanical actuator (ema) and an ema controller (emac) while maintaining redundancy and other safety aspects needed by the target application. this allows simplification of communication interfaces between multiple sensors in the ema and emac and unification of the interface to multiple sensors inside the emac, leading to cost and weight reduction that can be significant for many aerospace products and applications, including unmanned vehicle (e.g., uam/uav) applications.
Inventor(s): Mohan Kanathu of Bangalore (IN) for honeywell international inc., Sivaprakash Pasupathi of Bangalore (IN) for honeywell international inc., Ondrej Karas of Brno (CZ) for honeywell international inc.
IPC Code(s): B64D15/20
CPC Code(s): B64D15/20
Abstract: a system for detecting ice accretion on a rotor of an aircraft includes a processing system that is configured to: receive torque data indicative of actual torque supplied from an electric motor to the rotor; implement a model of the electric motor and the rotor that determines an estimated torque that should be supplied from the electric motor to the rotor; compute a load on the rotor from the actual torque and the estimated torque; compare the computed load to a predetermined magnitude; and when the computed load exceeds the predetermined magnitude, generate an alert that indicates ice is accreting on the rotor.
Inventor(s): Samuel F. Yana Motta of Charlotte NC (US) for honeywell international inc., Ankit Sethi of Charlotte NC (US) for honeywell international inc., Yang Zou of Charlotte NC (US) for honeywell international inc.
IPC Code(s): C09K5/04, C10M107/24, C10M107/32, C10M171/00, C10N20/00, C10N40/30, F25B9/00, F25B31/00
CPC Code(s): C09K5/044
Abstract: the present invention relates to a refrigerant composition, including difluoromethane (hfc-32), pentafluoroethane (hfc-125), and trifluoroiodomethane (cfi) for use in a heat exchange system, including air conditioning and refrigeration applications and in particular aspects to the use of such compositions as a replacement of the refrigerant r-410a for heating and cooling applications and to retrofitting heat exchange systems, including systems designed for use with r-410a.
Inventor(s): Ryan HULSE of Charlotte NC (US) for honeywell international inc., Rajiv Ratna SINGH of Charlotte NC (US) for honeywell international inc., Justin BECKER of Charlotte NC (US) for honeywell international inc., Robert Gerard RICHARD of Charlotte NC (US) for honeywell international inc., Rajat S. BASU of Charlotte NC (US) for honeywell international inc., Hang T. PHAM of Charlotte NC (US) for honeywell international inc., Ian SHANKLAND of Charlotte NC (US) for honeywell international inc.
IPC Code(s): C09K5/04, F25B9/00
CPC Code(s): C09K5/045
Abstract: compositions comprising multi-fluorinated olefins and hfc-32 are disclosed. such compositions are useful particularly for in stationary refrigeration and air conditioning equipment.
Inventor(s): Darrell W. Horner of Tempe AZ (US) for honeywell international inc.
IPC Code(s): G01D5/14, B64C13/50
CPC Code(s): G01D5/142
Abstract: a digital surface position sensor includes a position sensor, an adaptable hardware interface, and a processing circuit. the position sensor is adapted to be coupled to an aircraft flight control surface and is configured to sense a position of the aircraft flight control surface and supply a position signal representative thereof. the adaptable hardware input supplies an identification signal that identifies the aircraft flight control surface to which the position sensor is coupled. the processing circuit is coupled to receive the position signal and the identification signal. the processing circuit is configured, upon receipt of the signals, to process the position signal and the identification signal and generate (i) a first digital position signal representative of the position of, and the identification of, the aircraft flight control surface and (ii) and independent second digital signal representative of the position of, and the identification of, the aircraft flight control surface.
Inventor(s): Basavaprashant DUMPALA of Charlotte NC (US) for honeywell international inc., Kumaran S. NARASIMHAN of Charlotte NC (US) for honeywell international inc., Gurudutt K. K of Charlotte NC (US) for honeywell international inc., Shivaraj ARAKERI of Charlotte NC (US) for honeywell international inc., Ronald W. MYERS of Charlotte NC (US) for honeywell international inc.
IPC Code(s): G01D21/00
CPC Code(s): G01D21/00
Abstract: a sensor is disclosed herein. in an example sensor may include a first component including a sensing element, a first power connector, a first ground connector, and a signal connector. the sensor may include a second component including a receiving circuitry, a second power connector, a second ground connector, and a second signal connector. the first and second components may be configured to attach to and detach from each other. any of the first and second power connectors, the first and second ground connectors, and the first and second signal connectors may be configured such that when the first and second components are attached to each other the first and second power and the first and second ground connectors are electronically coupled before the first and second signal connectors.
Inventor(s): Bastiaan Kastelein of Hippolytushoef (NL) for honeywell international inc., Guido Temme of Bad Iburg (DE) for honeywell international inc.
IPC Code(s): G01F1/50, G01F15/04, G01F15/063
CPC Code(s): G01F1/50
Abstract: a system includes a gas meter to measure gas consumption and flow downstream for a gas regulator. the system also includes the gas regulator with an inlet connected to an upstream pipeline and an outlet connected to the gas meter. the system also includes a pressure sensor positioned within the gas meter to measure outlet pressure of the gas regulator. the gas meter is able to derive upstream pressure without an additional pressure sensor on an inlet side of the gas regulator by combining the measured gas flow and a measured regulator outlet pressure with a characterization curve of the gas regulator showing a relation between input pressure to the output pressure and to the gas flow.
Inventor(s): John CHAPPLES of Portsmouth (GB) for honeywell international inc., Keith Francis Edwin PRATT of Portsmouth (GB) for honeywell international inc., Thomas FOLEY of Southampton (GB) for honeywell international inc.
IPC Code(s): G01N27/12, H01M10/48
CPC Code(s): G01N27/126
Abstract: systems, apparatus, and methods for detecting a vapor are provided herein. the system for detecting a vapor may include a battery and a sensor disposed proximate the battery. the sensor of the system for detecting a vapor may further include a substrate. the sensor of the system for detecting a vapor may further include a pair of electrodes disposed on the substrate. the sensor of the system for detecting a vapor may further include a polymer support disposed on the substrate such that the polymer support is in contact with the pair of electrodes. in this regard, the polymer support may include an ionic salt. the polymer support may be configured to absorb at least some of the vapor and, when the polymer support absorbs at least some of the vapor, a conductivity of the polymer support may increase.
Inventor(s): Fan YANG of Charlotte NC (US) for honeywell international inc., Jun WANG of Charlotte NC (US) for honeywell international inc., Yu HU of Charlotte NC (US) for honeywell international inc., Lei AI of Charlotte NC (US) for honeywell international inc., Wu CHEN of Charlotte NC (US) for honeywell international inc., Jun SUN of Charlotte NC (US) for honeywell international inc.
IPC Code(s): G01R15/20
CPC Code(s): G01R15/207
Abstract: a non-invasive current sensor and a method for assembling the non-invasive current sensor are provided. an example non-invasive current sensor may include a first housing, the first housing including a magnetic core having a first end and a second end and a protective case. the magnetic core may be formed into a substantially complete perimeter having a center opening, and defining an air gap may between the first end and the second end of the magnetic core. the first housing may further include a protective case disposed in the air gap of the magnetic core. in addition, the non-invasive current sensor may include a second housing having a sensing element. the sensing element may be positioned such that in an instance in which the first housing is attached to the second housing, the protective case receives the sensing element.
Inventor(s): Neal Eldrich Solmeyer of Edina MN (US) for honeywell international inc., Matthew Wade Puckett of Phoenix AZ (US) for honeywell international inc., Matthew Robbins of Minneapolis MN (US) for honeywell international inc., Jianfeng Wu of Tucson AZ (US) for honeywell international inc., Mary Salit of Plymouth MN (US) for honeywell international inc.
IPC Code(s): G01R33/345, G01R33/26
CPC Code(s): G01R33/345
Abstract: systems for an integrated photonic responsive material sensor are described herein. in certain embodiments, a system includes a carrier wafer that includes a cavity formed in the carrier wafer. the carrier wafer also includes a responsive waveguide coupled to the cavity, the responsive waveguide formed from responsive material responsive to a force by shifting a resonance frequency of point defects in the responsive material in response to the force, wherein a pump light is directed to the responsive waveguide to prepare the responsive waveguide to absorb a probe light when exposed to a radio frequency at the point defect resonance frequency. additionally, the system includes components coupled to the carrier wafer, wherein the components include a probe light source that generates the probe light, wherein the components are positioned in relation to the carrier wafer to couple the probe light into the cavity.
Inventor(s): Chao Chen of Beijing (CN) for honeywell international inc., Rick Han of Tianjin (CN) for honeywell international inc., Tonya Tang of Beijing (CN) for honeywell international inc., Zhi Yi Sun of Beijing (CN) for honeywell international inc., Qixiang Hu of Tianjin (CN) for honeywell international inc., Helen Yan of Tianjin (CN) for honeywell international inc., Kaixuan Qin of Tianjin (CN) for honeywell international inc., Lily Zhao of Tianjin (CN) for honeywell international inc., Harvey Ma of Tianjin (CN) for honeywell international inc.
IPC Code(s): F21V8/00
CPC Code(s): G02B6/0088
Abstract: a building control device includes a printed circuit board (pcb) assembly with a controller. a lighting assembly is operatively coupled to the pcb and is controlled by the controller. the lighting assembly includes a light guide that extends around a periphery of an interposing region. the light guide having a front face and one or more light sources optically coupled to the light guide such that light provided by the one or more light sources enters the light guide and is distributed to the front face of the light guide to provide a diffuse light output. a cover forms at least part of a front face of the building control device and includes a transparent region in registration with at least part of the front face of the light guide.
Inventor(s): Chao Chen of Beijing (CN) for honeywell international inc., Tonya Tang of Beijing (CN) for honeywell international inc., Rick Han of Tianjin (CN) for honeywell international inc., Lily Zhao of Tianjin (CN) for honeywell international inc., Qixiang Hu of Tianjin (CN) for honeywell international inc., Harvey Ma of Tianjin (CN) for honeywell international inc., Helen Yan of Tianjin (CN) for honeywell international inc.
IPC Code(s): G02B6/42, G02B6/35
CPC Code(s): G02B6/428
Abstract: a building control device includes a printed circuit board including control circuitry for controlling at least part of the building control device. an lcd display is operatively coupled to the printed circuit board and is controlled at least in part by the control circuitry of the printed circuit board. a plurality of leds are operatively coupled to the printed circuit board and are controlled at least in part by the control circuitry of the printed circuit board. an opaque plate defines an at least translucent arc-shaped region that extends around at least part of the lcd display. a light guide is situated behind the opaque plate and is configured to be illuminated by the plurality of leds such that light from the light guide is visible through the at least translucent arc-shaped region of the opaque plate.
Inventor(s): Dan LI of Beijing (CN) for honeywell international inc., Bin DONG of Beijing (CN) for honeywell international inc., Vladimir KOTALA of Brno (CZ) for honeywell international inc., Jeffrey John van der ZWEEP of Peoria AZ (US) for honeywell international inc., David M. KOLBET of Scottsdale AZ (US) for honeywell international inc.
IPC Code(s): G06F8/65, G06F8/71, H04L67/00, H04L67/1095
CPC Code(s): G06F8/65
Abstract: disclosed are methods and systems for synchronizing a user application on a remote device with a server application on a server. for instance, a method may include determining, by the remote device, that the user application contains new maintenance information, based on a synchronization table included in the user application, and based on determining that the user application contains the new maintenance information: generating, by the remote device, an update packet including the new maintenance information, sending, by the remote device, the generated update packet to the server, receiving, by the remote device, an indication from the server that the server application has been updated with the generated update packet, and updating, by the remote device, the synchronization table in the user application.
Inventor(s): Lakshminarayana PAILA of Knoxville TN (US) for honeywell international inc., Ankit SINGH of Apex NC (US) for honeywell international inc.
IPC Code(s): G06F16/33, G06F16/31, G06F40/123, G06F40/263
CPC Code(s): G06F16/3344
Abstract: a method of optimizing full text search results for multiple languages includes importing a document from a first organization including one or more first organization users, wherein the one or more first organization users are associated with a first organization location; determining a first organization language based on the first organization location; analyzing the imported document with a natural language processing (nlp) service to determine a primary document language; and indexing a determined document language to the imported document based at least in part on the first organization language and the primary document language, wherein indexing the determined document language to the imported document causes the document to be searched using a document search tool in the determined document language.
Inventor(s): Ankit SINGH of Apex NC (US) for honeywell international inc., Pinaki RAY of Fremont CA (US) for honeywell international inc.
IPC Code(s): G06Q30/0201, G06F8/77, H04L9/40
CPC Code(s): G06Q30/0201
Abstract: a method of bidirectional data flow includes: receiving analytics data at a repository of the business intelligence tool, wherein the analytics data is imported in a repository-compatible format; generating visualizations with the business intelligence tool using the analytics data; importing the generated visualizations from the business intelligence tool to a saas-hosted report generation tool; locating the imported visualizations within a report generated using the saas-hosted report generation tool, wherein the imported visualizations are located using one or more predefined templates; receiving approval for the located imported visualizations, wherein the received approval is based on one or more access permissions associated with a user based on access permissions stored in an identity and access module; and removing the analytics data from the repository of the business intelligence tool based on the received approval for the located imported visualizations, wherein the business intelligence tool is hosted in a containerized environment.
Inventor(s): Suresh Bazawada of Phoenix AZ (US) for honeywell international inc., Anil Kumar Songa of Bangalore (IN) for honeywell international inc., Bojanapu Naresh of Hyderabad (IN) for honeywell international inc.
IPC Code(s): G08G5/00
CPC Code(s): G08G5/0039
Abstract: systems and methods are provided for generating a modified flight to avoid a no turn situation. a current flight path of an aircraft is received from a source of current flight path of the aircraft. current aircraft location data is received from at least one geospatial sensor of the aircraft. terrain data is retrieved from an onboard database based on the current aircraft location data. the terrain data includes a first terrain obstacle and a second terrain obstacle. a determination is made regarding whether the current flight path of the aircraft leads to a no turn situation with respect to the first terrain obstacle and the second terrain obstacle. a first notification associated with implementation of a modified flight path in accordance with a viable turn with respect to the first terrain obstacle and the second terrain obstacle is displayed on an onboard display device based on the determination.
Inventor(s): Viraj Srivastava of Bengaluru (IN) for honeywell international inc., Praveen Sam of Cypress TX (US) for honeywell international inc., Niranjan Amrutur Subba Rao of Bangalore (IN) for honeywell international inc.
IPC Code(s): G09B5/02, G06N20/00, G06Q10/0633
CPC Code(s): G09B5/02
Abstract: example methods, apparatuses, systems, and computer program products are provided. for example, an example computer-implemented method includes receiving a plurality of runtime facility process variable indicators and a plurality of runtime derived process metric indicators, receiving a facility state tree data object that comprises a plurality of facility state tree nodes corresponding to a plurality of facility state indicators; generating a runtime facility state indicator, generating a runtime facility score indicator associated with the runtime facility state indicator, and generating a remote operator assistance data object associated with the facility indicator.
Inventor(s): Nirmal A. KUMAR of Charlotte NC (US) for honeywell international inc., Paresh SANCHIHAR of Charlotte NC (US) for honeywell international inc.
IPC Code(s): H01M10/42, H01M50/342
CPC Code(s): H01M10/4285
Abstract: an example apparatus, method, and computer program product for detecting thermal runaway in a battery pack are provided. the example apparatus may include a membrane, a light source, and a light sensing diode, disposed within a vent housing. in some embodiments, the membrane may be positioned between a battery compartment, including a battery cell, and an external environment. in some embodiments, the light source and the light sensing diode may be on opposite sides of the membrane. in an instance in which a pressure within the battery compartment exceeds a maximum internal pressure such that the membrane is ruptured, the light sensing diode may receive light from the light source. in some embodiments, receiving light from the light source at the light sensing diode may be an indication of an onset of thermal runaway.
Inventor(s): Philip C. Foster of Murphy TX (US) for honeywell international inc.
IPC Code(s): H01M50/375, H01M10/52, H01M50/143
CPC Code(s): H01M50/375
Abstract: a battery cell unit comprising a battery cell body, and outgassing material encapsulating the battery cell body, wherein (i) the outgassing material comprises a compound that emits one or more off-gasses at a range of off-gas temperatures, (ii) the range of off-gas temperatures is associated with a thermal runaway pending event, and (iii) the one or more off-gasses are detectable by a gas sensor.
HONEYWELL INTERNATIONAL INC. patent applications on August 8th, 2024
- HONEYWELL INTERNATIONAL INC.
- A61K8/73
- A61K8/04
- A61K8/26
- A61K8/31
- A61K8/34
- A61K8/72
- A61Q5/00
- A61Q5/06
- A61Q15/00
- CPC A61K8/732
- Honeywell international inc.
- B60Q9/00
- A61B5/00
- A61B5/024
- A61B5/11
- B63B79/15
- B64D45/00
- CPC B60Q9/00
- B64C13/50
- CPC B64C13/503
- B64D15/20
- CPC B64D15/20
- C09K5/04
- C10M107/24
- C10M107/32
- C10M171/00
- C10N20/00
- C10N40/30
- F25B9/00
- F25B31/00
- CPC C09K5/044
- CPC C09K5/045
- G01D5/14
- CPC G01D5/142
- G01D21/00
- CPC G01D21/00
- G01F1/50
- G01F15/04
- G01F15/063
- CPC G01F1/50
- G01N27/12
- H01M10/48
- CPC G01N27/126
- G01R15/20
- CPC G01R15/207
- G01R33/345
- G01R33/26
- CPC G01R33/345
- F21V8/00
- CPC G02B6/0088
- G02B6/42
- G02B6/35
- CPC G02B6/428
- G06F8/65
- G06F8/71
- H04L67/00
- H04L67/1095
- CPC G06F8/65
- G06F16/33
- G06F16/31
- G06F40/123
- G06F40/263
- CPC G06F16/3344
- G06Q30/0201
- G06F8/77
- H04L9/40
- CPC G06Q30/0201
- G08G5/00
- CPC G08G5/0039
- G09B5/02
- G06N20/00
- G06Q10/0633
- CPC G09B5/02
- H01M10/42
- H01M50/342
- CPC H01M10/4285
- H01M50/375
- H01M10/52
- H01M50/143
- CPC H01M50/375
