Meta Platforms Technologies, LLC patent applications on 2025-06-05
Patent Applications by Meta Platforms Technologies, LLC on June 5th, 2025
Meta Platforms Technologies, LLC: 14 patent applications
Meta Platforms Technologies, LLC has applied for patents in the areas of C08L81/08 (Polysulfonates, 1), C09K19/025 (characterised by optical, electrical or physical properties of the components, in general, 1), D04B1/102 ({with stitch pattern (, take precedence)}, 1), G01S17/86 (RADIO DIRECTION-FINDING; RADIO NAVIGATION; DETERMINING DISTANCE OR VELOCITY BY USE OF RADIO WAVES; LOCATING OR PRESENCE-DETECTING BY USE OF THE REFLECTION OR RERADIATION OF RADIO WAVES; ANALOGOUS ARRANGEMENTS USING OTHER WAVES, 1), G02B27/0025 (Optical systems or apparatus not provided for by any of the groups - ,, 1), G02B27/0176 (Head-up displays, 1), G06F3/017 ({Gesture based interaction, e.g. based on a set of recognized hand gestures (interaction based on gestures traced on a digitiser )}, 1), G06F9/485 (Program initiating; Program switching, e.g. by interrupt, 1), G06T3/4053 (based on super-resolution, i.e. the output image resolution being higher than the sensor resolution, 1), G06T7/55 (from multiple images, 1)
With keywords such as: using, described, methods, compositions, herein, intrinsically, conducting, elastomers, tunable, making in patent application abstracts.
Top Inventors:
- Li Yao of Bothell WA US (1 patents)
- Dan My Nguyen of Newark DE US (1 patents)
- Gareth John Valentine of Kirkland WA US (1 patents)
- Wetthasinhage Sameera Kelum Perera of Kent OH US (1 patents)
- Md Mostafa of Redmond WA US (1 patents)
Patent Applications by Meta Platforms Technologies, LLC
Abstract: described herein are compositions for tunable intrinsically conducting elastomers and methods of making and using the same. the compositions include a conductive polymer, a polymer counterion, and optionally a bottlebrush block copolymer. optionally, the compositions include a crosslinker and a photoinitiator. also described herein are copolymer blends, elastomeric materials, and films including any one of the intrinsically conducting elastomers.
20250179363. LIQUID CRYSTAL FORMULATION PIXELATED LOCAL DIMMING (Meta Platforms Technologies, LLC)
Abstract: a polymer-stabilized liquid crystal (pslc) composition includes a liquid crystal component having high dielectric constant, a chiral dopant, a stabilizing polymer, and a photo-initiator. through the application of an applied voltage, the polymer-stabilized liquid crystal composition may be implemented to induce pixelated dimming in an ar display.
Abstract: an example garment integrated capacitive sensor includes a first knitted conductive electrode layer that is constructed using an insulated conductive fabric, wherein the first knitted conductive electrode layer has a first surface. the garment integrated capacitive sensor also includes a second knitted conductive electrode layer that is constructed using a non-insulated conductive fabric containing a second surface. the second surface is configured to be directly in contact with the first surface to produce a garment integrated capacitive sensor. the garment integrated capacitive sensor is also configured to be in communication with a processor, and the processor is configured to receive a sensed value from the garment integrated capacitive sensor.
Abstract: the disclosed method may include measuring, by a controller, a distance to an object based on a combination of polarization information of detected light and time-of-flight information of the detected light, wherein the detected light results from at least one of scattering or reflection of a light beam from an object. the disclosed method may additionally include performing, by an artificial reality system that includes the controller, one or more user interaction procedures based on information that includes the measured distance to the object. various other methods, systems, and computer-readable media are also disclosed.
20250180899. INSERT-FREE PRESCRIPTION CORRECTION OPTICAL MODULE (Meta Platforms Technologies, LLC)
Abstract: an optical module includes an electronic display configured to project image light along an optical axis and a lens assembly aligned with the optical axis, the lens assembly including (i) a primary optical element having a cylindrical surface profile defining a primary cylinder axis rotatably alignable with a first direction, and (ii) a secondary optical element having a cylindrical surface profile defining a secondary cylinder axis rotatably alignable with a second direction. astigmatism correction for the optical module may be achieved through independent rotation and alignment of the primary and secondary optical elements with respective correction settings.
20250180917. SYSTEMS METHODS NEW VR DEVICE FORM-FACTOR (Meta Platforms Technologies, LLC)
Abstract: systems for an improved vr device form-factor may include a head-mounted display; a rear unit that is adjustable to fit a user; and a transition unit housing at least one electronic subsystem, wherein the transition unit extends between the head-mounted display and the rear unit so as to cover a top portion of a user's head when worn by the user; and the transition unit comprises a front unit portion and a rear portion that is rotatable with respect to the front unit portion.
Abstract: aspects of the present disclosure can trigger an action based on a motion detected by an artificial reality (xr) device, such as a head-mounted display (hmd). the xr device can display an xr experience to a user. while displaying the xr experience, the xr device can detect a physical interaction with the xr device using one of more sensors (e.g., sensors of an inertial measurement unit (imu)). the physical interaction can generate a movement profile captured by the one or more sensors. the xr device can identify the physical interaction as a particular motion (e.g., one or more taps on the xr device) by applying a machine learning model to the movement profile. in response to identifying the particular motion, the xr device can trigger an action on the xr device (e.g., activating pass-through on the xr device).
20250181383. Power-Efficient Application Lifecycle (Meta Platforms Technologies, LLC)
Abstract: in one embodiment, an operating system of a computing system determines, by an application instance manager of the operating system, that a first instance corresponding to a first application is to be activated according to an instance database managed by the operating system, where the first application includes several application components, including the first instance and a presenter. the application instance manager invokes the first instance and the presenter, the presenter being managed by the first instance. the operating system determines that the presenter is configured to present data obtained by a data provider, the data provider being one of several application components of a second application. the data provider accesses data from a data store and populates a dataset defined by the second application. the presenter of the first application generates a user interface to present the data from the dataset defined by the second application.
20250182244. ADAPTIVE SUPER-SAMPLING BASED GAZE (Meta Platforms Technologies, LLC)
Abstract: in one embodiment, a method includes determining a gaze direction of a user wearing a head-mounted device, the head-mounted device having a display configured to output an image having multiple of pixels. the method may further include determining, for each of the multiple pixels, a set of sampling locations based on the gaze direction of the user, the sets of sampling locations of the multiple pixels being a portion of a sampling pattern defined based on the gaze direction of the user. in one embodiment, the method may also include computing, for each of the multiple pixels, a color value for the pixel by sampling a scene according to the set of sampling locations associated with the pixel, generating the image using the color values of the multiple pixels, and outputting the image using the display of the head-mounted device.
Abstract: the subject disclosure provides for systems and methods for generating a dense depth map. the method may include determining a first region of interest via input from a first sensor device configured to capture supplemental pixel images. the method may include determining a second region of interest via input from a second sensor device configured to capture supplemental pixel images. the method may include receiving depth measurements from a third sensor device configured to capture depth measurements. the method may include determining a plurality of depth maps from the pixel images from the first sensor device, the supplemental pixel images from the second sensor device, and the depth measurements from the third sensor device. the method may include generating from the plurality of depth maps a foveated region comprising a high-resolution image and a low-resolution image oriented on the periphery of the foveated region.
20250182390. Full Body Synthesis Artificial Reality Environments (Meta Platforms Technologies, LLC)
Abstract: artificial reality (xr) experiences today typically only provide users representations of their upper body (e.g., as avatars). although legs do not have a high range of movement or expression in xr, they are required to bring a sense of believability to digital humans represented in xr. however, tracking legs can be difficult because they are frequently not visible to xr device cameras. aspects of the present disclosure provide a full body synthesis system that can generate plausible full body poses of users by leveraging generative machine learning, in real time, on an xr device. the full body synthesis system can be flexible to multiple numbers and types of inputs (e.g., positions/rotations/accelerations of joints, computer vision models, etc.), and can generalize users of any height, body scale, and body shape.
Abstract: power based content-aware activation of light emitting element-based displays is described. a heatmap is generated that corresponds to an image. the image is associated with a plurality of pixels that each corresponds to a different light emitting element of an array of light emitting elements of a display element, and the heatmap describes an importance level of each pixel of the image. for each light emitting element of the array of light emitting elements, a determination is made whether the light emitting element will be active or inactive based in part on the heatmap, one or more cost functions, and at least one power constraint to generate visual content. the display element may present the visual content.
20250183536. WIDE-BAND ANTENNA PARASITIC ELEMENT (Meta Platforms Technologies, LLC)
Abstract: the disclosed system may include a frame, a printed circuit board (pcb) mounted to the frame, and at least one antenna electrically connected to the pcb via an antenna feed. the antenna may be shorter than a maximum specified length, and the antenna may be intended to operate within a specified frequency range for which the antenna's length is insufficiently long. still further, in this system, electrical current flowing to the antenna may be routed to at least a portion of the frame to create a parasitic arm. as such, the parasitic arm may radiate in conjunction with the antenna, providing constructive interference in the specified frequency range. various other mobile electronic devices, apparatuses, and methods of manufacturing are also disclosed.
20250185223. SYSTEM COOLING HEADSET DISPLAY (Meta Platforms Technologies, LLC)
Abstract: an electronic system is described that includes a headset device and associated cooling system. the headset device may be configured to physically separate high temperature components from other components of the headset device into multiple cavities. in some cases, the headset device may be divided into a display cavity and an electronics cavity to separate the display components from other components of the headset device.