Abstract: A luminous module intended to be fastened to a luminous device of a motor vehicle. The luminous module includes at least one first attachment mechanism configured to fasten the luminous module to the luminous device in a first direction and a second attachment mechanism configured to fasten the luminous module to the luminous device in a second direction that differs from the first direction.
Abstract: The invention relates to a light module for a lighting device of a motor vehicle, including a light source and an optical device, the optical device being arranged to receive light emitted by the light source and to form, from the light, a light beam having an upper cut-off including a first portion and a second portion which are substantially horizontal and separated by a third portion descending from the first portion and ascending towards the second portion, the third portion being such that the light beam has, when projected onto a screen, a light-free zone extending at least horizontally in a range from substantially 0° to ?2.2° and vertically in a range from substantially 0° to ?0.8°.
Abstract: The present disclosure relates to navigational systems for vehicles. In one implementation, such a navigational system may a first output from a first sensor and a second output from a mapping system; identify a target object in the first output; and determine, based on the first output, a detected driving condition associated with the target object and whether the condition triggers a navigational constraint. If the navigational constraint is triggered, the system may cause a first navigational adjustment. If the navigational constraint is not triggered, the system may determine whether a representation of the target object is included in the second output. If the representation of the target object is included in the second output, the system may cause a second navigational adjustment. If the representation of the target object is not included in the second output, the system may forego any navigational adjustments.
Abstract: An operating method for a server includes: displaying, on a screen of a user terminal, a first user interface including a first image obtained by correcting a captured image; displaying, on the screen of the user terminal, a second user interface including a first control point, a second control point, and a segment connecting the first control point to the second control point; obtaining a first user input from the first control point or the second control point; and in response to the first user input, displaying, through the first user interface, a second image obtained by correcting the captured image based on rotational information determined by the first control point, the second control point and the segment, and a center position of the first image.
Abstract: An apparatus and a method for introducing an optical lens into a turning device are disclosed. The apparatus includes a carrier body and a carrier element for receiving the lens. The carrier element is arranged in the carrier body. The carrier element has a supporting surface for receiving the lens and is displaceably mounted in relation to the carrier body.
Abstract: A display device includes first and second display modules and first and second turning pieces that include a first coupling piece, a first turning piece, a second turning piece, and a third turning piece, a second coupling piece and a guiding device. When the first and second display modules are switched between folding and unfolding, the first turning piece pivots relative to the first coupling piece and the second turning piece, and the third turning piece pivots relative to the second coupling piece and the second turning piece. When the display module is switched from folded to unfolded, the other side of the first display module relative to the side is pulled, the side of the first display module is guided by one end of the guiding device and slides to the other end, the first and second display modules are symmetrically unfolded with the side edge as the center.
Abstract: An apparatus includes a base, including two motors and a mechanical coupling mechanism, and a cartridge shaped to define two stators and respective pairs of ports in fluidic communication with the stators. The cartridge is removably insertable into the base and includes two rotors disposed, respectively, within the stators. The mechanical coupling mechanism is configured to mechanically couple the rotors to the motors, respectively, such that, following insertion of the cartridge into the base, the motors rotate the rotors, thereby pumping fluid through the pairs of ports. Other embodiments are also described.
Type:
Grant
Filed:
May 12, 2021
Date of Patent:
October 29, 2024
Assignee:
Johnson & Johnson Surgical Vision, Inc.
Inventors:
Yehuda Algawi, Assaf Govari, Eran Aharon, Ilya Sitnitsky, Stanislav Katzir
Abstract: A light system of a vehicle includes a first light housing including a first light source configured to emit a first light from a face of the first light housing, a second light housing including a second light source configured to emit a second light from a face of the second light housing, a gap located between the first light housing and the second light housing, and a light guide within the gap, wherein the light guide is configured to transmit the first light from the first light housing to illuminate the gap with the first light.
Abstract: Provided is a method for manufacturing photoabsorbing contact lenses and photoabsorbing contact lenses produced thereby. The method comprises: (a) providing a mold assembly comprised of a base curve and a front curve, the base curve and the front curve defining and enclosing a cavity therebetween, the cavity containing a reactive mixture, wherein the reactive mixture comprises at least one polymerizable monomer, a photoinitiator which absorbs at an activating wavelength, and a photoabsorbing compound which displays absorption at the activating wavelength; and (b) curing the reactive mixture to form the photoabsorbing contact lens by exposing the reactive mixture to radiation that includes the activating wavelength, wherein the radiation is directed at both the base curve and the front curve of the mold assembly, and wherein the radiation's radiant energy at the base curve is greater than the radiation's radiant energy at the front curve.
Type:
Grant
Filed:
May 19, 2023
Date of Patent:
October 29, 2024
Assignee:
Johnson & Johnson Vision Care, Inc.
Inventors:
Brian Aitken, Jeffrey D. Caltrider, Leilani K. Sonoda, Robert MacDonald Smith, Donnie J. Duis
Abstract: A method and system for prediction of wave properties include collecting time-series data streams from one or more wave measurement devices and processing the data to identify data parameters to establish boundary conditions of a numerical model. The numerical model may be used to compute a predicted wave field of time-series data for a variety of wave properties at a target location.
Type:
Grant
Filed:
November 14, 2023
Date of Patent:
October 29, 2024
Assignee:
RE VISION CONSULTING, LLC
Inventors:
Mirko Previsic, Ravi Challa, Anantha Karthikeyan
Abstract: A method for producing a security device includes providing at least one stochastic selector, generating a coupling between an identifier and one particular combination of security features from a finite set of distinct combinations of security features based on the at least one stochastic selector, registering the coupling in a database, and applying an identification element including the identifier and a non-printable security element including the particular combination of security features according to the coupling to a substrate to produce a security device.
Abstract: The invention relates to a motor vehicle lighting device that includes light module arranged adjacent to one another in a transverse direction of the lighting device, each light module includes a light source capable of emitting a light beam and a collector comprising a reflective surface. A common lens common to the light modules, configured to project the light beam reflected by the collector, the lens forms on the road an image of the reflective surface of the collector. The lighting device includes a plurality of printed circuits, each printed circuit supporting the light source of one of the light modules. The printed circuits are arranged in the device in a stepped arrangement extending in planes that are parallel to one another and the common lens extending in the transverse direction while being substantially inclined with respect to these planes.
Abstract: A light system including a lens, a reflector, and a light source. The lens has body portion and a waterfall portion that extends at an angle relative to the body portion so that the waterfall portion is exposed when the light system is installed in a vehicle. The reflector is located adjacent to the lens. The light source is located adjacent to the lens that is configured to provide light to the reflector so that the reflector reflects the light through the waterfall portion so that the waterfall portion is illuminated.
Abstract: A phacoemulsification apparatus includes an ultrasound transmitter, an irrigation-aspiration tool, a robotic arm, and a processor. The ultrasound transmitter is configured to generate and focus an ultrasound beam into a lens capsule of an eye of a patient, to emulsify a lens of the eye. The irrigation-aspiration tool having a distal end including an outlet of an irrigation channel for flowing irrigation fluid into the lens capsule, and an inlet of an aspiration channel for removing material from the lens capsule. The robotic arm is configured to move the distal end of the irrigation-aspiration tool inside the lens capsule. The processor is configured to control the ultrasound transmitter to irradiate one or more target locations in the eye capsule with the focused ultrasound beam, and control the robotic arm to move the distal end of the irrigation-aspiration tool in coordination with the target locations irradiated by the ultrasound transmitter.
Abstract: A dynamic backlight control method, a dynamic backlight module, and a storage medium are provided in the present application. A lamp bead of the dynamic backlight module includes a green chip and at least two blue chips. The dynamic backlight control method includes: receiving a source signal; and when the source signal is a pure blue signal, turning off the green chip, and driving more than two of the blue chips to output blue light.
Abstract: A multi-core processor configured to improve processing performance in certain computing contexts is provided. The multi-core processor includes multiple processing cores that implement barrel threading to execute multiple instruction threads in parallel while ensuring that the effects of an idle instruction or thread upon the performance of the processor is minimized. The multiple cores can also share a common data cache, thereby minimizing the need for expensive and complex mechanisms to mitigate inter-cache coherency issues. The barrel-threading can minimize the latency impacts associated with a shared data cache. In some examples, the multi-core processor can also include a serial processor configured to execute single threaded programming code that may not yield satisfactory performance in a processing environment that employs barrel threading.
Type:
Grant
Filed:
February 15, 2022
Date of Patent:
October 29, 2024
Assignee:
Mobileye Vision Technologies Ltd.
Inventors:
Yosef Kreinin, Yosi Arbeli, Gil Israel Dogon
Abstract: For example, a processor may be configured to process Range-Doppler (RD) information corresponding to an RD bin to identify a first plurality of values corresponding to a first plurality of virtual antennas of a virtual antenna array and a second plurality of values corresponding to a second plurality of virtual antennas of the virtual antenna array. For example, the RD information corresponding to the RD bin may be based on radar Receive (Rx) signals received by a plurality of Rx antennas based on radar Transmit (Tx) signals from a Tx array including a first plurality of Tx antennas and a second plurality of Tx antennas. For example, the processor may be configured to determine one or more estimated RD-Azimuth (RDAz) based (RDAz-based) Doppler folds corresponding to one or more RDAz bins, for example, based on the first plurality of values and the second plurality of values.
Type:
Application
Filed:
March 18, 2024
Publication date:
October 24, 2024
Applicant:
MobilEye Vision Technologies Ltd.
Inventors:
Daniel Gudinetsky, Moshe Teplitsky, Adi Panzer, Ilia Yoffe, Alon Cohen
Abstract: Provided is a technique for controlling a pan-tilt-zoom (PTZ) camera. A method of controlling a PTZ camera via a user terminal includes displaying, on a screen, a first image obtained from the PTZ camera according to a first setting value, obtaining a first user input for setting, on the screen, an area corresponding to a second setting value, displaying, on the screen, a second image obtained from the PTZ camera according to the second setting value, obtaining a second user input on the screen, and generating a plurality of areas corresponding to the second user input.