KONINKLIJKE PHILIPS N.V. patent applications on January 23rd, 2025
Patent Applications by KONINKLIJKE PHILIPS N.V. on January 23rd, 2025
KONINKLIJKE PHILIPS N.V.: 18 patent applications
KONINKLIJKE PHILIPS N.V. has applied for patents in the areas of G16H40/40 (3), A61M16/06 (3), A61B8/00 (2), A61B5/00 (2), G16H15/00 (2) G16H40/40 (3), A45D1/04 (1), A61B5/4082 (1), A61B5/6803 (1), A61B6/463 (1)
With keywords such as: device, medical, image, wireless, data, flow, patient, subject, mask, and based in patent application abstracts.
Patent Applications by KONINKLIJKE PHILIPS N.V.
20250024924. A HAIR TREATMENT DEVICE_simplified_abstract_(koninklijke philips n.v.)
Inventor(s): KA WAI SIU of HONG KONG (CN) for koninklijke philips n.v., CHOR MAN NG of HONG KONG (CN) for koninklijke philips n.v.
IPC Code(s): A45D1/04, A45D2/00
CPC Code(s): A45D1/04
Abstract: present disclosure discloses a hair treatment device. the hair treatment device includes a body defined with a hair-treatment section and a heating plate disposed in the hair treatment section. the heating element is an electrical conductor. further, the hair treatment device includes at least one ion generator configured to generate and channelize ions through a groove defined in the body adjacent to the hair-treatment section forming an ion stream. furthermore, the hair treatment device includes an ion attractor defined in the body. the ion attractor bridges the groove and the heating element, where the heating element attracts ions from the ion stream through the ion attractor for distributing ion stream along a length of the groove. even distribution of the ions along the length of the groove, provides more area for defrizzing of hair, thereby facilitates effective defrizzing of the hair.
Inventor(s): Junmo An of Cambridge MA (US) for koninklijke philips n.v., Richard Earl Gregg of Cambridge MA (US) for koninklijke philips n.v.
IPC Code(s): A61B5/00, A61B5/0205, A61B5/11, A61B5/318
CPC Code(s): A61B5/4082
Abstract: a system for analyzing a neurological and/or neurodegenerative disorder (nd) is disclosed. the system include an electrocardiogram (ecg) sensor and an inertial measurement unit (imu) sensor to a subject; a processor; a memory that stores instructions. when executed by the processor, the instructions cause the processor to: gather ecg and imu data for the subject; input the integrated ecg and imu data to a first computational model and a second computational model; and infer a presence of the nd based on the first computational model, or a change in the nd based on the second computational model. a method for analyzing and nd is also disclosed.
Inventor(s): JONAS DEAN COCHRAN of SANTEE CA (US) for koninklijke philips n.v., MATTHEW BANET of SAN DIEGO CA (US) for koninklijke philips n.v., RICHARD ANDREW SOFRANKO of FINLEYVILLE PA (US) for koninklijke philips n.v.
IPC Code(s): A61B5/00, A61B5/026, A61B5/0531, A61B5/296, A61M16/06
CPC Code(s): A61B5/6803
Abstract: a system for measuring a time-dependent impedance waveform from a patient, and calculating a parameter from this waveform. a wearable mask is coupled to a positive airway pressure machine to deliver a flow of gas to the patient. an impedance sensor attached to the wearable mask measures the ipg and/or br waveform. the sensor features a first drive electrode that injects a first electrical current into the region, and a first sense electrode that measures an electrical signal related to the first electrical current and blood flow in the region. a processing system runs computer code configured to: 1) receive a digital representation of the time-dependent impedance waveform; and 2) process the digital representation, or a signal calculated therefrom, to determine the parameter.
Inventor(s): Thomas Koehler of Hamburg (DE) for koninklijke philips n.v., Rafael Wiemker of Hamburg (DE) for koninklijke philips n.v., Cornelis Petrus Hendriks of Eindhoven (NL) for koninklijke philips n.v., Michael Polkey of London (GB) for koninklijke philips n.v., Joerg Sabczynski of Hamburg (DE) for koninklijke philips n.v., Roberto Buizza of Eindhoven (NL) for koninklijke philips n.v., Jaap Roger Haartsen of Best (NL) for koninklijke philips n.v.
IPC Code(s): A61B6/46, A61B6/00, A61B6/50
CPC Code(s): A61B6/463
Abstract: a medical imaging device includes a display device; and at least one electronic processor programmed to perform an imaging method including controlling an associated medical imaging device to acquire a dynamic lung image including a time sequence of lung images depicting at least one lung of the patient; separating the dynamic lung image into a dynamic respiration image depicting density changes due to respiration and a dynamic perfusion image depicting density changes due to lung perfusion; at least one of: (i) generating a respiration delay image based on the dynamic respiration image; and (ii) generating a perfusion delay image based on the dynamic lung perfusion image; and displaying the respiration delay image and/or lung perfusion delay image on the display device.
20250025135. ULTRASOUND INTERFACE UNIT AND METHOD_simplified_abstract_(koninklijke philips n.v.)
Inventor(s): Shyam Bharat of Arlington MA (US) for koninklijke philips n.v., Jonathan Thomas Sutton of Boston MA (US) for koninklijke philips n.v., Balasundar Iyyavu Raju of North Andover MA (US) for koninklijke philips n.v., Harald Greiner of Nufringen (DE) for koninklijke philips n.v., Frank Enslin of Deckenpfronn (DE) for koninklijke philips n.v., McKee Dunn Poland of Andover MA (US) for koninklijke philips n.v., Martha Gail Grewe Wilson of Andover MA (US) for koninklijke philips n.v., Ivan Salgo of Pelham MA (US) for koninklijke philips n.v.
IPC Code(s): A61B8/00, A61B8/08
CPC Code(s): A61B8/56
Abstract: an interface unit or connecting between an ultrasound sensing apparatus and a patient monitor for providing ultrasound monitoring functionality of one or more physiological or anatomical parameters based on processing of ultrasound data. the interface unit includes means for processing acquired ultrasound data to derive measurements of one or more physiological or anatomical parameters and is configured for outputting said derived measurements to a coupled patient monitor unit, e.g. for display and/or trending by the patient monitor.
Inventor(s): SVEN KROENKE-HILLE of HAMBURG (DE) for koninklijke philips n.v., JENS VON BERG of HAMBURG (DE) for koninklijke philips n.v., STEWART YOUNG of HAMBURG (DE) for koninklijke philips n.v., DANIEL BYSTROV of HAMBURG (DE) for koninklijke philips n.v., HEINER MATTHIAS BRUECK of PINNEBERG (DE) for koninklijke philips n.v., ANDRE GOOSSEN of ELDENA (DE) for koninklijke philips n.v.
IPC Code(s): A61B34/10, A61B34/20
CPC Code(s): A61B34/10
Abstract: the present invention relates to prospective analysis of subject and/or implant positioning. provided is a computer-im-plemented method for assisting positioning of a subject having an orthopedic implant in x-ray imaging. the method comprises applying one or more radiofrequency, rf, signals to an anatomy of interest of the subject where the orthopedic implant is located. the method further comprises detecting a response signal and/or signal change in response to the applied rf signal impacting the orthopedic implant and tissue being adjacent to and/or surrounding the implant, and determining, from the detected response signal and/or signal change, an implant positioning estimation relative to an x-ray imaging device. further, the method comprises determining, from the implant positioning estimation, a feedback being indicative for positioning the x-ray imaging device and the subject to each other with respect to a target positioning, to be provided for assisting the positioning.
Inventor(s): Bernardus Hendrikus Wilhelmus HENDRIKS of EINDHOVEN (NL) for koninklijke philips n.v., Rogier Rudolf WILDEBOER of EINDHOVEN (NL) for koninklijke philips n.v., Josephus Arnoldus Johannes Maria KAHLMAN of TILBURG (NL) for koninklijke philips n.v., Jarich Willem SPLIETHOFF of UTRECHT (NL) for koninklijke philips n.v., Gerardus Henricus Maria GIJSBERS of LIEMPDE (NL) for koninklijke philips n.v., Dirk SCHÄFER of HAMBURG (DE) for koninklijke philips n.v., Alexander KOLEN of EINDHOVEN (NL) for koninklijke philips n.v., Walter RUETTEN of LINNICH (DE) for koninklijke philips n.v.
IPC Code(s): A61B34/20, A61B5/06, A61B34/10
CPC Code(s): A61B34/20
Abstract: a mechanism for generating feedback information for aiding in improved performance of tracking the location of an interventional device. where such tracking is performed using one or more electric. electromagnetic and/or magnetic fields generated by one or more field generators on the surface of the subject. a spatial relationship between field generators on a surface of the subject and one or more anatomical structures of the subject is determined from non-invasive imaging data. this spatial relationship is used to generate the feedback information for calibrating a mapping or location tracking system and/or for repositioning the field generators.
20250025611. A BREAST PUMP_simplified_abstract_(koninklijke philips n.v.)
Inventor(s): YANNYK PARULIAN JULIAN BOURQUIN of EINDHOVEN (NL) for koninklijke philips n.v., BABU VARGHESE of EINDHOVEN (NL) for koninklijke philips n.v., JONATHAN ALAMBRA PALERO of WAALRE (NL) for koninklijke philips n.v., MARCO BARAGONA of DELFT (NL) for koninklijke philips n.v.
IPC Code(s): A61M1/06
CPC Code(s): A61M1/0697
Abstract: a breast pump comprises a breast shield, a stimulator for applying a negative stimulus to promote milk expression, a light source for illuminating the nipple and/or a portion of the breast, and a controller for synchronizing the timing of operation of the light source and the stimulator. the stimulation of blood flow using light has been found to promote milk extraction. in particular, the control of the light source prevents deterioration of the milk quality caused by the illumination.
Inventor(s): JONAS DEAN COCHRAN of SANTEE CA (US) for koninklijke philips n.v., MATTHEW BANET of SAN DIEGO CA (US) for koninklijke philips n.v.
IPC Code(s): A61M16/00, A61M16/06
CPC Code(s): A61M16/0003
Abstract: the invention provides a system for monitoring a patient featuring a wearable mask coupled to a positive airway pressure machine that delivers a flow of gas at positive pressures, through the mask, and to an airway of the patient. attached to the mask is an electronics control unit featuring a printed circuit board, a microprocessor, a wireless transmitter, and a battery. the electronics control unit has a weight less than 30 grams and is enclosed by an enclosure of having a volume of less than 180 cm. a plurality of sensors electrically connect to the electronics control unit.
Inventor(s): JONAS DEAN COCHRAN of SANTEE CA (US) for koninklijke philips n.v., MATTHEW BANET of SAN DIEGO CA (US) for koninklijke philips n.v.
IPC Code(s): A61M16/00, A61M16/06
CPC Code(s): A61M16/024
Abstract: the invention provides a wearable mask for monitoring a blood pressure value and providing a flow of gas at a positive pressure to the patient. the mask includes a first sensor, configured to measure a time-dependent optical waveform from a first region underneath a first portion of the wearable mask, with the time-dependent optical waveform including a first pulse. a second sensor measures a time-dependent impedance waveform from a second region proximal to the mask, with the time-dependent impedance waveform including a second pulse. a microprocessor attaches to the wearable mask and is configured to: 1) receive digital representations of both the first and second pulses; 2) process the digital representations to determine a time difference between the first and second pulses, or a parameter calculated therefrom; and 3) process the time difference between the first and second pulses, or the parameter calculated therefrom, to determine the blood pressure value.
Inventor(s): Igor JACOBS of ASTEN (NL) for koninklijke philips n.v., Gertjan Laurens SCHUURKAMP of UTRECHT (NL) for koninklijke philips n.v.
IPC Code(s): G06T11/20, G06F3/0486, G06F16/23, G16H10/60
CPC Code(s): G06T11/206
Abstract: in one embodiment, a method for presenting information along plural stages of patient care, the method comprising: initializing an interactive flow diagram () based on data, the interactive flow diagram based on an underlying data model, the interactive flow diagram comprising nodes () comprising an aggregated visual representation of key-value pairs, columns () comprising a stacked bar visualization of the nodes, and links () between the nodes; displaying the interactive flow diagram; and dynamically updating the interactive flow diagram based on user interactions with the interactive flow diagram, the interactions resulting in updates to the underlying data model that change an arrangement of at least one of the nodes, the columns, or the links.
Inventor(s): Artur Hahn of Hamburg (DE) for koninklijke philips n.v.
IPC Code(s): G09B5/02, A61B8/00, G06F40/58, G09B5/04, G16H15/00
CPC Code(s): G09B5/02
Abstract: a computer-implemented method to manipulate a medical image acquisition system comprises using a large language model to receive inputs and determine instructions based on the received inputs. the inputs comprise a user defined input comprising one or a combination of a medical imaging exam type; a plurality of symptoms; and an instruction to manipulate the medical image acquisition system. the determined outputs comprise instructions comprising a first position instruction for the image acquisition sensor with respect to a subject; and a first plurality of medical image acquisition system settings, wherein the first plurality of medical image acquisition system settings comprises at least image acquisition sensor settings.
Inventor(s): Milosh STOLIKJ of EINDHOVEN (NL) for koninklijke philips n.v., Lu WANG of EINDHOVEN (NL) for koninklijke philips n.v., Qi GAO of EINDHOVEN (NL) for koninklijke philips n.v.
IPC Code(s): G16H40/40
CPC Code(s): G16H40/40
Abstract: a non-transitory computer readable medium () stores instructions executable by at least one electronic processor () to perform a medical device servicing method () for a medical device (), including: deriving a representation () of abase diagnostic procedure for diagnosing a malfunction of the medical device from one or more service manuals (); analyzing historical service records () to extract diagnostic procedures applied in historical service cases for diagnosing the malfunction of the medical device; adding the extracted diagnostic procedures to the representation of the base diagnostic procedure to generate an updated representation () of the base diagnostic procedure; calculating likelihood of success scores () for each path of the updated representation of the base diagnostic procedure based on statistics of outcomes of the historical service cases; and outputting the updated representation of the base diagnostic procedure on an electronic processing device () operable by a service engineer (se).
Inventor(s): Artur SOSSIN of HAMBURG (DE) for koninklijke philips n.v., Ingmar GRAESSLIN of BOENNINGSTEDT (DE) for koninklijke philips n.v.
IPC Code(s): G16H40/40
CPC Code(s): G16H40/40
Abstract: a non-transitory computer readable medium () stores instructions executable by at least one electronic processor () to perform a method () of monitoring a quality assurance (qa) procedure performed using a medical device (). the method includes receiving a signal indicating a start of the qa procedure; analyzing video () of the medical device acquired after receiving the signal to detect one or more errors during the qa procedure; and providing a remedial action addressing the detected one or more errors.
Inventor(s): Johannes Henricus Maria KORST of EINDHOVEN (NL) for koninklijke philips n.v., Serverius Petrus Paulus PRONK of VUGHT (NL) for koninklijke philips n.v., Mauro BARBIERI of EINDHOVEN (NL) for koninklijke philips n.v., Marc André PETERS of VELDHOVEN (NL) for koninklijke philips n.v.
IPC Code(s): G16H40/40
CPC Code(s): G16H40/40
Abstract: a non-transitory computer readable medium () stores instructions readable and executable by at least one electronic processor () to perform a method () of selecting a subset of log data () automatically generated by a medical device () undergoing servicing. the method includes generating chains () of a hierarchical components chart () representing components of the medical device (), wherein each chain begins at a node () of the hierarchical components chart representing a component of the medical device involved in the servicing and extends upward through the hierarchy of the hierarchical components chart: identifying a subset of components of the medical device corresponding to the nodes of the generated chains: selecting the subset of the log data as messages () of the log data associated with the identified subset of components of the medical device; and displaying at least a portion of the subset of the log data.
Inventor(s): Thusitha Dananjaya De Silva MABOTUWANA of REDMOND WA (US) for koninklijke philips n.v., Lawrence BUB of BOTHELL WA (US) for koninklijke philips n.v., Jesse WAKLEY of BOTHELL WA (US) for koninklijke philips n.v.
IPC Code(s): G16H80/00, G16H15/00, G16H30/20
CPC Code(s): G16H80/00
Abstract: a non-transitory computer readable medium () stores instructions executable by at least one electronic processor () to a method () of selecting relevant prior reports in telemedicine. the method includes receiving a query for prior reports (); selecting one or more prior reports; re-formatting at least one of the selected prior reports; and transmitting the re-formatted prior reports to an electronic processing device () operable by a medical professional.
Inventor(s): Sarun Selvanesan of Berlin (DE) for koninklijke philips n.v., Thomas Fehrenbach of Berlin (DE) for koninklijke philips n.v., BART KROON of EINDHOVEN (NL) for koninklijke philips n.v., Cornelius Hellge of Berlin (DE) for koninklijke philips n.v., Roya Ebrahim Rezagah of Berline (DE) for koninklijke philips n.v., Robin Thomas of Berlin (DE) for koninklijke philips n.v., Thomas Wirth of Berlin (DE) for koninklijke philips n.v., Thomas Schierl of Berlin (DE) for koninklijke philips n.v.
IPC Code(s): H04W72/542, H04W4/40, H04W24/04, H04W24/08, H04W24/10
CPC Code(s): H04W72/542
Abstract: in the field of wireless communications, approaches for a reallocation and reservation of resources for high priority communications, for a quality of service, qos, feedback, and for handling certain events in a wireless communication network are described. embodiments relate to the implementation of such approaches for entities of a wireless communication network or system performing sidelink communications like v2x mode 3 or mode 4 ues. in particular, improved approaches for a reallocation and reservation of resources for high priority communications, for a qos feedback and for handling certain events in a wireless communication network are presented.
Inventor(s): Thomas Haustein of Berlin (DE) for koninklijke philips n.v., Thomas Wirth of Berlin (DE) for koninklijke philips n.v., Lars Thiele of Berlin (DE) for koninklijke philips n.v., Martin Kurras of Berlin (DE) for koninklijke philips n.v., Marcus Grossmann of Berlin (DE) for koninklijke philips n.v., Marco Breiling of Berlin (DE) for koninklijke philips n.v., Junyoung Nam of Berlin (DE) for koninklijke philips n.v.
IPC Code(s): H04W88/06, H04B7/06, H04W4/44, H04W16/14, H04W24/02, H04W36/14, H04W72/12
CPC Code(s): H04W88/06
Abstract: a user device ue for a wireless communication with a plurality of wireless network elements includes a plurality of antennas. the plurality of antennas are configured to form a plurality of spatial or directional beams. the user device is configured to provide simultaneously a plurality of independent wireless communication links using the plurality of spatial or directional beams, wherein the user device is configured to provide a first wireless communication link with a first wireless network element using a first spatial or directional beam and to provide a second wireless communication link with a second wireless network element using a second antenna beam.
KONINKLIJKE PHILIPS N.V. patent applications on January 23rd, 2025
- KONINKLIJKE PHILIPS N.V.
- A45D1/04
- A45D2/00
- CPC A45D1/04
- Koninklijke philips n.v.
- A61B5/00
- A61B5/0205
- A61B5/11
- A61B5/318
- CPC A61B5/4082
- A61B5/026
- A61B5/0531
- A61B5/296
- A61M16/06
- CPC A61B5/6803
- A61B6/46
- A61B6/00
- A61B6/50
- CPC A61B6/463
- A61B8/00
- A61B8/08
- CPC A61B8/56
- A61B34/10
- A61B34/20
- CPC A61B34/10
- A61B5/06
- CPC A61B34/20
- A61M1/06
- CPC A61M1/0697
- A61M16/00
- CPC A61M16/0003
- CPC A61M16/024
- G06T11/20
- G06F3/0486
- G06F16/23
- G16H10/60
- CPC G06T11/206
- G09B5/02
- G06F40/58
- G09B5/04
- G16H15/00
- CPC G09B5/02
- G16H40/40
- CPC G16H40/40
- G16H80/00
- G16H30/20
- CPC G16H80/00
- H04W72/542
- H04W4/40
- H04W24/04
- H04W24/08
- H04W24/10
- CPC H04W72/542
- H04W88/06
- H04B7/06
- H04W4/44
- H04W16/14
- H04W24/02
- H04W36/14
- H04W72/12
- CPC H04W88/06