KONINKLIJKE PHILIPS N.V. patent applications on January 9th, 2025
Patent Applications by KONINKLIJKE PHILIPS N.V. on January 9th, 2025
KONINKLIJKE PHILIPS N.V.: 21 patent applications
KONINKLIJKE PHILIPS N.V. has applied for patents in the areas of G06T7/00 (4), A61B34/20 (4), A61B34/30 (3), A46B13/02 (2), A61C17/34 (2) A61C17/3472 (2), A61B5/4552 (1), G06F11/0781 (1), H04L1/1896 (1), H04B7/0478 (1)
With keywords such as: image, device, configured, data, luminance, light, imaging, based, ultrasound, and input in patent application abstracts.
Patent Applications by KONINKLIJKE PHILIPS N.V.
20250009291. A SYSTEM AND METHOD FOR GUM ANALYSIS_simplified_abstract_(koninklijke philips n.v.)
Inventor(s): Mark Thomas JOHNSON of Arendonk (BE) for koninklijke philips n.v., Priscilla BRANDAO SILVA of Eindhoven (NL) for koninklijke philips n.v., Gerben KOOIJMAN of Leende (NL) for koninklijke philips n.v., Cornelis Reinder RONDA of Aachen (DE) for koninklijke philips n.v., Amir Hussein RMAILE of Eindhoven (NL) for koninklijke philips n.v.
IPC Code(s): A61B5/00, A61C17/02, A61C17/024
CPC Code(s): A61B5/4552
Abstract: a system is provided for monitoring gum recession. a nozzle is for application to the teeth and gums and a fluid is pumped to a nozzle opening. a sensor is provided for sensing a pressure or flow rate so that a pressure or flow rate profile is derived as the nozzle is moved between a tooth surface and a gum surface. from characteristics of the pressure or flow rate profile at the transition between the tooth surface and the gum surface, the presence of gum recession can be detected.
Inventor(s): David Hope Simpson of Bothell WA (US) for koninklijke philips n.v., Earl M. Canfield of New Braunfels TX (US) for koninklijke philips n.v., Robert Gustav Trahms of Edmonds WA (US) for koninklijke philips n.v., Vijay Thakur Shamdasani of Kenmore WA (US) for koninklijke philips n.v.
IPC Code(s): A61B8/08, A61B8/13, G01S7/52, G06T7/00
CPC Code(s): A61B8/5223
Abstract: an ultrasound system according to some embodiments may include an ultrasound transducer configured to transmit ultrasound pulses toward tissue and generate echo signals responsive to the ultrasound pulses, a channel memory configured to store the echo signals, a beamformer configured to generated beamformed signals responsive to the echo signals, a neural network configured to receive one or more samples of the echo signals or the beamformed signals and produce a first type of ultrasound imaging data, and a processor configured to generate a second type of ultrasound imaging data, wherein the one or more processors may be further configured to generate an ultrasound image based on the first type of ultrasound imaging data and the second type of ultrasound imaging data and to cause a display communicatively coupled therewith to display the ultrasound image.
Inventor(s): AARON DOMINGO LEYVA of AURORA CO (US) for koninklijke philips n.v.
IPC Code(s): A61B17/34, A61M25/00
CPC Code(s): A61B17/3468
Abstract: apparatuses for lead extraction using a lead locking device are provided. the apparatus includes a stylet device configured to insert into a pathway of a lumen of the catheter including the first part of a tip; and the second part of a body wherein the body is configured at an end for connection to the tip when deployed in the lumen of the catheter; wherein the tip of the stylet device is configured to: apply pressure at an obstruction in the catheter, remove the obstruction by the movement against the obstruction to cause a clearing of obstruction in the lumen of the catheter, and enable the opening of the catheter for a lead locking device (lld) to navigate past during the lead extraction procedure.
Inventor(s): MARCIN A. BALICKI of CAMBRIDGE MA (US) for koninklijke philips n.v., MOLLY LARA FLEXMAN of MELROSE MA (US) for koninklijke philips n.v.
IPC Code(s): A61B34/20, A61B34/00, A61B34/30, A61B34/32, G06T7/70
CPC Code(s): A61B34/20
Abstract: a robotic device () is configured to operate an interventional device () comprising an outer device and an inner device movably positioned with the outer device. a method for controlling the robotic device () includes receiving image data from an image of a portion of the interventional device () and a branched intersection of a plurality of branches of an anatomical structure. the method also includes analyzing the image data to measure at least one of a location or an orientation of a distal portion of the outer device and of a distal portion of the inner device in the image. the method further includes determining a path for the interventional device (), and controlling, based on a plurality of modules of predefined motions stored in a memory (), the robotic device () to operate the interventional device () through the path by a sequence of the predefined motions. the method further includes displaying the path on a display ().
Inventor(s): MARCIN ARKADIUSZ BALICKI of CAMBRIDGE MA (US) for koninklijke philips n.v.
IPC Code(s): A61B34/30, A61B34/20, A61B90/00
CPC Code(s): A61B34/30
Abstract: a controller is provided for controlling a robotic device () configured for insertion into an anatomical structure () of a subject (). the controller includes at least one processor () and a non-transitory memory for storing machine executable instructions that, when executed by the at least one processor (), cause the at least one processor () to receive ultrasound image data from an imaging interface device (), the ultrasound image data corresponding to an ultrasound image showing the anatomical structure () and a portion of the robotic device () within in the anatomical structure (), where the imaging interface device () is maneuverable for providing the ultrasound image data; detect a movement of the imaging interface device (); and output at least one command for controlling movement of the robotic device () from a first position to a second position in response to the detected movement of the imaging interface device ().
Inventor(s): MARCIN ARKADIUSZ BALICKI of CAMBRIDGE MA (US) for koninklijke philips n.v.
IPC Code(s): A61B34/32, A61B34/20, A61B34/30
CPC Code(s): A61B34/32
Abstract: a control device () for controlling movement of a medical instrument is presented. the control device comprises a limiting indicator providing unit () configured to provide an indicator () of a limiting position for an instrument () beyond which the position of the instrument is considered as out-of-limit, and a position providing unit () configured to provide a position () of the instrument from a received image including a portion of the instrument and/or retrieved movement of the instrument. the control device further comprises a controller () configured to control a movement of the instrument based on the indicator of the limiting position and the position of the instrument such that the position of the instrument maintains a predetermined relation with respect to the limiting position. this allows for an improved movement control for medical and other instruments.
20250009490. PERMANENT TOOTH EMERGENCE ASSESSMENT_simplified_abstract_(koninklijke philips n.v.)
Inventor(s): Rim HELAOUI of Eindhoven (NL) for koninklijke philips n.v., Priscilla BRANDAO SILVA of Eindhoven (NL) for koninklijke philips n.v., Amir Hussein RMAILE of Eindhoven (NL) for koninklijke philips n.v., Gerben KOOIJMAN of Leende (NL) for koninklijke philips n.v., Mark Thomas JOHNSON of Arendonk (BE) for koninklijke philips n.v.
IPC Code(s): A61C17/22, G16H20/00
CPC Code(s): A61C17/221
Abstract: a processing arrangement and method for providing guidance in relation to permanent tooth emergence of an infant. embodiments propose to process an obtained indicator of tooth mobility of a primary (infant) tooth with a pre-determined algorithm or decision tool, and generate a prompt relating to possible adult tooth emergence dependent upon an outcome of the algorithm or decision tool. the prompt may be a recommendation to check for adult tooth emergence at a site of the relevant tooth. the prompt may be a prediction or estimate of a permanent tooth emergence status.
Inventor(s): Evan Dak Wah DENGLER of Seattle WA (US) for koninklijke philips n.v., Sungsoo LEE of Bellevue WA (US) for koninklijke philips n.v., Kevin Arnold MILLER of Bellevue WA (US) for koninklijke philips n.v.
IPC Code(s): A61C17/34, A46B9/04, A46B13/02
CPC Code(s): A61C17/3472
Abstract: a power toothbrush device () including a brush head member () having a set of bristles (); a body portion () coupled with the brush head member; and a drivetrain assembly (). the drivetrain assembly includes an actuator () configured to generate periodic linear movement and a drivetrain shaft () configured to transmit the generated periodic linear movement to the brush head member. the set of bristles are configured to be driven in a first direction (tm) at an amplitude equal to or greater than 0.25 mm and less than 3 mm and a frequency equal to or greater than 0.25 hz and less than 520 hz in the first direction. the drivetrain shaft is further configured to periodically rotate the set of bristles in a second direction (sm) about a central axis of the power toothbrush device.
Inventor(s): Regan Starkey FOSTER of Lynnwood WA (US) for koninklijke philips n.v.
IPC Code(s): A61C17/34, A46B9/04, A46B13/02
CPC Code(s): A61C17/3472
Abstract: a power toothbrush device () including a brush head member () having bristles and a drivetrain assembly () having a drivetrain shaft () configured to drive the brush head member. the drivetrain assembly includes a resonator () configured to rotate about a central axis (a) to move the bristles in a first movement pattern; a resilient member (); a magnet (a, b, a, b) connected with the resonator; and a conductor (a, b, a, b). as the resonator rotates and the magnet moves toward the conductor in a first direction, a force is generated upon the magnet in a second direction that is opposite the first direction, and the force generated upon the magnet thereby causes a rotation of the resilient member about a second axis that is different than the central axis.
Inventor(s): FRANCISCUS IVO JOOSTEN of EINDHOVEN (NL) for koninklijke philips n.v.
IPC Code(s): A61M1/06
CPC Code(s): A61M1/062
Abstract: a sensor system is for sensing the start of milk expression into a collection vessel when using a breast pump device. a sensor is used to provide a signal indicating the presence of the first milk expressed, for use in controlling the breast pump to switch from a stimulation mode to an expression mode. the sensor detects a change in the reflectance of the base of the collection vessel to the electromagnetic radiation used by the sensor.
Inventor(s): BABU VARGHESE of EINDHOVEN (NL) for koninklijke philips n.v., YANNYK PARULIAN JULIAN BOURQUIN of EINDHOVEN (NL) for koninklijke philips n.v., JONATHAN ALAMBRA PALERO of WAALRE (NL) for koninklijke philips n.v., WILLEM VERKRUIJSSE of VELDHOVEN (NL) for koninklijke philips n.v., ELVIRA JOHANNA MARIA PAULUSSEN of REPPEL-BOCHOLT (NL) for koninklijke philips n.v., KIRAN KUMAR THUMMA of EINDHOVEN (NL) for koninklijke philips n.v.
IPC Code(s): A61N5/06
CPC Code(s): A61N5/0616
Abstract: according to an aspect, there is provided an acne-treatment system comprising a processing unit () and an acne-treatment apparatus () configured to treat an acne lesion on skin of a subject by means of first treatment light having wavelengths predominantly in a range from 600 to 700 nm and second treatment light having wavelengths predominantly in a range from 400 to 480 nm, the processing unit () being configured to: receive one or more measurement signals provided by one or more sensors () that are configured and arranged to measure one or more parameters indicative of a degree of inflammation and/or a severity phase of the acne lesion, said one or more measurement signals representing an indicated degree of inflammation and/or an indicated severity phase of the acne lesion; determine a light-intensity ratio of intensity of the first treatment light to intensity of the second treatment light to be applied to the acne lesion based on the indicated degree of inflammation and/or the indicated severity phase of the acne lesion represented by the one or more measurement signals; and control one or more light sources () of the acne-treatment apparatus () to generate the first treatment light and the second treatment light according to the determined light-intensity ratio for application to the acne lesion.
Inventor(s): MARIUS IOSIF BOAMFA of VELDHOVEN (NL) for koninklijke philips n.v., BABU VARGHESE of EINDHOVEN (NL) for koninklijke philips n.v.
IPC Code(s): B26B19/46, A61N5/06, B26B19/14, B26B19/38, B26B19/48
CPC Code(s): B26B19/46
Abstract: a hair-cutting head () for a hair-cutting device () having two sets () of light sources which are configured to emit light predominantly in different respective wavelength bands. a first set () emits light in a wavelength band of 400-500 nm. a second set () emits light in a wavelength band of 500 nm and above. for improved eye safety, the first set of light sources is arranged so that its light output is projected onto the user's skin () during operation only via a central region () of a skin-contacting area () of the hair-cutting head (). the second set () of light sources is arranged so that its light output is provided on the user's skin during operation only via a peripheral region () of the same skin-contacting area. this arrangement aims to make it more likely that the light of the first set () of light sources is fully shielded by the contact of skin to the hair-cutting head during normal operation, protecting the eyes from this light.
20250013519. MEDICAL IMAGING DEVICE FAULT HANDLING_simplified_abstract_(koninklijke philips n.v.)
Inventor(s): Qi Gao of EINDHOVEN (NL) for koninklijke philips n.v., Meru Adagouda Patil of BANGALORE (IN) for koninklijke philips n.v., Soubhik Paul of BANGALORE (IN) for koninklijke philips n.v., Nagaraju Bussa of BANGALORE (IN) for koninklijke philips n.v.
IPC Code(s): G06F11/07
CPC Code(s): G06F11/0781
Abstract: proposed are concepts pertaining to aiding fault diagnosis through the consideration of the relevance of different log files to a fault. in particular, embodiments of the invention propose generating predicted relevance scores for different log files, and/or content contained therein. the most relevant log file(s), or parts thereof, may then be prioritized for provision to an engineer, for example.
20250014154. OPTIMIZING THE DISPLAYING OF HDR IMAGES_simplified_abstract_(koninklijke philips n.v.)
Inventor(s): Rutger Nijland of Someren (NL) for koninklijke philips n.v.
IPC Code(s): G06T5/92, G06T5/40, G06V10/60
CPC Code(s): G06T5/92
Abstract: 1. to obtain in a pragmatic manner better watchable hdr images, we propose several variants of an image processing apparatus for processing an input image (im_comm) of an input video to obtain an output image of an output video, wherein the input image has pixels which have input luminances (ln_in_pix) which fall within a first luminance dynamic range (dr_), which first luminance dynamic range has a first maximum luminance (pl_v_hdr), wherein the output image has pixels which have output luminances which can be calculated from the input luminances and which fall within a second luminance dynamic range, which second luminance dynamic range has a second maximum luminance (pl_v_mdr), wherein the apparatus comprises a video data input () arranged to receive the input image and a reference luminance mapping function (f_l) which is encoded as metadata associated with the input image, wherein the reference luminance mapping function specifies a relationship between luminances of a first reference image and luminances of a second reference image, wherein the first reference image is the input image, wherein the second reference image has a second reference maximum luminance (pl_v_sdr); wherein the apparatus comprises a display adaptation unit () arranged to determine an adapted luminance mapping function (fl_da) which is based on the reference luminance mapping function (f_l), wherein the display adaptation unit uses a pre-fixed display adaptation algorithm, which specifies for each point on a diagonal, in a coordinate system of the input luminances normalized to a maximum being 1 and the output luminances normalized to a maximum being 1, a respective metric along a line segment oriented in a pre-fixed direction, the line segment starting on the diagonal, wherein the respective metric at each position is normalized by giving the point of intersection of the line segment and the locus of the luminance function (f_l) in the coordinate system the value 1, wherein the determining locates a position on each respective metric corresponding to the second maximum luminance (pl_v_mdr), wherein the collection of positions on the respective metrics is output as the adapted luminance mapping function (fl_da); characterized in that the apparatus comprises a processing comprises a boost determination circuit () arranged to calculate a booster strength value (bo) comprising: —a histogram calculation unit () arranged to determine a histogram (hist) of intermediate luminances obtained by applying the adapted luminance mapping function (fl_da) to the input luminances, —an average calculation circuit () arranged to calculate an average brightness measure (ab) on the basis of the histogram, —a first converter unit () arranged to calculate a first strength value (posb) from the average brightness measure (ab), —a second measuring unit () arranged to calculate a weighted sum (bde) of pixel counts in at least two configurable upper bins of the histogram, —a second conversion unit () arranged to calculate a second strength value (negb) from the weighted sum (bde), —wherein the boost determination circuit determines the booster strength value (bo) on the basis of a value (dv) which is equal to the first strength value (posb) minus the second strength value (negb); wherein the apparatus is further arranged to: use the display adaptation unit to calculate an adjusted adapted luminance mapping function (f_alt_b), wherein the adjusted adapted luminance mapping function is calculated by using the display adaptation algorithm in a setting which outputs the locus of positions equal to the booster strength value on the metric as the adjusted adapted luminance mapping function (f_alt_b); and the apparatus comprising a color transformer () arranged to apply the adjusted adapted luminance mapping function (f_alt_b) to the input luminances to obtain the output luminances.
Inventor(s): IRINA WAECHTER-STEHLE of HAMBURG (DE) for koninklijke philips n.v., NICK FLÄSCHNER of HAMBURG (DE) for koninklijke philips n.v., ALEXANDRA GROTH of HAMBURG (DE) for koninklijke philips n.v., ROLF JÜRGEN WEESE of NORDERSTEDT (DE) for koninklijke philips n.v.
IPC Code(s): G06T7/13, G06T7/00, G06T7/149, G06T19/20, G06V20/69, G06V20/70
CPC Code(s): G06T7/13
Abstract: according to an aspect, there is provided a computer implemented method for boundary detection of an object of interest in an image (), the method comprising: for a volume of the image corresponding to a portion of a three-dimensional. 3d, mesh, representing the object of interest, predicting, by a regression network, at least one predicted distance from the portion of the 3d mesh to a boundary of the object of interest in the image, the at least one predicted distance corresponding to a class (); and determining a distance of the portion of the 3d mesh to the boundary based on at least one probability of the volume corresponding to a class and the at least one predicted distance ().
Inventor(s): IGOR JACOBS of ASTEN (NL) for koninklijke philips n.v., JON RAGNAR PLUYTER of BREDA (NL) for koninklijke philips n.v., LUCAS JACOBUS FRANCISCUS GEURTS of STERKSEL (NL) for koninklijke philips n.v., DIEDERIK RASENBERG of AMSTERDAM (NL) for koninklijke philips n.v., JOHN CORNELIUS PETRUS VAN DER VEN of HELMOND (NL) for koninklijke philips n.v., LYNN JORIEN JACINDA HEESTERBEEK of BEST (NL) for koninklijke philips n.v., DIMITRIOS MAVROEIDIS of UTRECHT (NL) for koninklijke philips n.v., BIN YU of EINDHOVEN (NL) for koninklijke philips n.v.
IPC Code(s): G16H10/20, G06F40/279, G06T7/00, G06T17/00, G06T19/00, G06V10/70, G06V20/64
CPC Code(s): G16H10/20
Abstract: a system () for processing medical image data regarding a clinical question uses patient data (), medical image data () and clinical guidelines (). the system has a processor subsystem () to determine, based on user input (), a use case regarding the clinical question for a patient. the processor retrieves the patient data and image data regarding the use case to determine an anatomical object. then, the processor selects an algorithm from an algorithm repository (am) based on the determined anatomical object and executes the algorithm on the image data to provide the output data for assessing the clinical question. the processor may also use the codified clinical guidelines regarding the use case to select said algorithm. effectively the most appropriate algorithm is executed for the specific use case.
Inventor(s): MATHIVANAN DAMODARAN of S-HERTOGENBOSCH (NL) for koninklijke philips n.v., EEFJE HUIJTKER of EINDHOVEN (NL) for koninklijke philips n.v., BASTIAAN WILHELMUS MARIA MOESKOPS of UDEN (NL) for koninklijke philips n.v., LU WANG of EINDHOVEN (NL) for koninklijke philips n.v., JONATHAN ALAMBRA PALERO of WAALRE (NL) for koninklijke philips n.v.
IPC Code(s): G16H20/00, G06T7/00
CPC Code(s): G16H20/00
Abstract: according to an aspect, there is provided a computer-implemented method () for generating a treatment instruction, the method () comprising: receiving () first image data relating to the skin of a subject; obtaining (), based on the first image data, an indication of a location of one or more features of the subject; generating (), based on the first image data, an initial map of the skin of the subject including the location of the identified features; receiving () second image data relating to the skin of the subject during a current treatment session; determining (), based on the second image data, a treatment parameter relating to a treatment performed in respect of the skin of the subject; generating (), based on the initial map and the treatment parameter, an updated map of the skin of the subject; and generating (), based on the updated map, a treatment instruction for delivery to a recipient device.
Inventor(s): MARKUS JOHANNES HARMEN DEN HARTOG of EINDHOVEN (NL) for koninklijke philips n.v., JAVIER OLIVAN BESCOS of EINDHOVEN (NL) for koninklijke philips n.v.
IPC Code(s): G16H20/40, A61B34/20, A61B90/00, G16H30/20, G16H40/20
CPC Code(s): G16H20/40
Abstract: various embodiments of the present disclosure encompass a visual image sequence controller () for controlling an augmentation of a visual imaging sequence acquisition of an interventional imaging sequence in a rendered augmented view of an image-guided intervention by an augmented reality device (). the visual imaging sequence acquisition () includes, for each interventional image of the interventional imaging sequence (), an interactive virtual indicator of a sequence number of a corresponding interventional image within the interventional imaging sequence () and an imaging parameter of the imaging modality () (e.g., a direction, a rotation and/or an angulation of the imaging modality ()) during an acquisition of the corresponding interventional image by the imaging modality (). the controller () interfaces with the imaging modality () and/or a display () responsive to a user interaction with at least one of the interactive virtual indicators.
Inventor(s): Markus Landmann of Erlangen (DE) for koninklijke philips n.v., Marcus Grossmann of Erlangen (DE) for koninklijke philips n.v., Ramireddy Venkatesh of Erlangen (DE) for koninklijke philips n.v.
IPC Code(s): H04B7/0456, H04B7/0417, H04B7/06, H04L25/02, H04W72/04, H04W76/00, H04W88/08
CPC Code(s): H04B7/0478
Abstract: the embodiments herein relate to a method performed by a ue () for providing a channel state information (csi) feedback in a wireless communication system including at least the ue and a gnb () or a radio network node. the ue () is operative, by means of e.g. the processor () to: estimate the mimo channel between the gl'jb () and the ue () based on received dl reference signals for the configured resource blocks. the ue () is further operative to calculate, based on a performance metric. a precoder matrix, for a number of antenna ports of the gnb () and configured subbands, the precoder matrix being based on two codebooks and a set of combination coefficients for complex scaling/combining one or more of vectors selected from a first codebook and a second codebook, and the ue () is operative to report a csi feedback and/or a pmi and/or a pmi/ri, to the gnb (), used to indicate the precoder matrix for the configured antemia ports and resource blocks.
Inventor(s): Baris Goktepe of Berlin (DE) for koninklijke philips n.v., Martin Leyh of Erlangen (DE) for koninklijke philips n.v., Thomas Fehrenbach of Berlin (DE) for koninklijke philips n.v., Thomas Heyn of Erlangen (DE) for koninklijke philips n.v., Bernard Niemann of Erlangen (DE) for koninklijke philips n.v., Julian Popp of Erlangen (DE) for koninklijke philips n.v., Cornelius Hellge 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., Kahled Hassan of Laatzen (DE) for koninklijke philips n.v.
IPC Code(s): H04L1/1867
CPC Code(s): H04L1/1896
Abstract: the embodiments herein relate to a method performed by ue, a ue, a network node or gnb and a method performed by the gnb for handling retransmissions in a wireless telecommunications system and resolving misalignment between the ue and the gnb. according to exemplary embodiments, there is provided a retransmission counter placed or implemented at the ue and/or the gnb which is configured to count every failing data packet (i.e., the receiver(s)/transmitters is/are informed via the nack messages or the nack timers). there is also provided a retransmission assignment indicator message configured to comprise, fully or partially: the content of said counter and the content or the structure of the cgb (code block group), e.g., either all cbgs are retransmission versions or part of the cgbs are retransmission versions.
20250016903. MONITORING THE STATE OF AN X-RAY TUBE_simplified_abstract_(koninklijke philips n.v.)
Inventor(s): KLAUS JÜRGEN ENGEL of VELDOVEN (NL) for koninklijke philips n.v., GEREON VOGTMEIER of AACHEN (DE) for koninklijke philips n.v.
IPC Code(s): H05G1/54, H05G1/26, H05G1/28
CPC Code(s): H05G1/54
Abstract: systems and methods are provided for monitoring the state of an x-ray tube (). the method comprises: receiving sensor data from a sensor array apparatus () positioned to observe at least part of a surface of an anode () of the x-ray tube; processing the received sensor data to identify and quantify surface damage to the anode; storing the identified and quantified surface damage with a time stamp; and correlating the identified and quantified surface damage to one or more usage protocols in an operational history record of the x-ray tube and used at a time corresponding the time stamp and/or used at a time in between time stamps.
KONINKLIJKE PHILIPS N.V. patent applications on January 9th, 2025
- KONINKLIJKE PHILIPS N.V.
- A61B5/00
- A61C17/02
- A61C17/024
- CPC A61B5/4552
- Koninklijke philips n.v.
- A61B8/08
- A61B8/13
- G01S7/52
- G06T7/00
- CPC A61B8/5223
- A61B17/34
- A61M25/00
- CPC A61B17/3468
- A61B34/20
- A61B34/00
- A61B34/30
- A61B34/32
- G06T7/70
- CPC A61B34/20
- A61B90/00
- CPC A61B34/30
- CPC A61B34/32
- A61C17/22
- G16H20/00
- CPC A61C17/221
- A61C17/34
- A46B9/04
- A46B13/02
- CPC A61C17/3472
- A61M1/06
- CPC A61M1/062
- A61N5/06
- CPC A61N5/0616
- B26B19/46
- B26B19/14
- B26B19/38
- B26B19/48
- CPC B26B19/46
- G06F11/07
- CPC G06F11/0781
- G06T5/92
- G06T5/40
- G06V10/60
- CPC G06T5/92
- G06T7/13
- G06T7/149
- G06T19/20
- G06V20/69
- G06V20/70
- CPC G06T7/13
- G16H10/20
- G06F40/279
- G06T17/00
- G06T19/00
- G06V10/70
- G06V20/64
- CPC G16H10/20
- CPC G16H20/00
- G16H20/40
- G16H30/20
- G16H40/20
- CPC G16H20/40
- H04B7/0456
- H04B7/0417
- H04B7/06
- H04L25/02
- H04W72/04
- H04W76/00
- H04W88/08
- CPC H04B7/0478
- H04L1/1867
- CPC H04L1/1896
- H05G1/54
- H05G1/26
- H05G1/28
- CPC H05G1/54