Abstract: Methods, devices and systems are disclosed for inter-app communications between software applications on a mobile communications device. In one aspect, a computer-readable medium on a mobile computing device comprising an inter-application communication data structure to facilitate transitioning and distributing data between software applications in a shared app group for an operating system of the mobile computing device includes a scheme field of the data structure providing a scheme id associated with a target software app to transition to from a source software app, wherein the scheme id is listed on a scheme list stored with the source software app; and a payload field of the data structure providing data and/or an identification where to access data in a shared file system accessible to the software applications in the shared app group, wherein the payload field is encrypted.

Abstract: In one embodiment, a lidar system includes a light source configured to emit local-oscillator (LO) light and pulses of light, the emitted pulses of light including a first emitted pulse of light, where an optical frequency of the first emitted pulse of light is offset from an optical frequency of the LO light by a first frequency offset. The lidar system further includes a receiver configured to detect the LO light and a first received pulse of light, the first received pulse of light including light from the first emitted pulse of light scattered by a target located a distance from the lidar system. The receiver includes a detector, where: the LO light and the first received pulse of light are coherently mixed together at the detector, and the detector is configured to produce a photocurrent signal corresponding to the coherent mixing.

Abstract: Systems and methods are disclosed that provide smart alerts to users, e.g., alerts to users about diabetic states that are only provided when it makes sense to do so, e.g., when the system can predict or estimate that the user is not already cognitively aware of their current condition, e.g., particularly where the current condition is a diabetic state warranting attention. In this way, the alert or alarm is personalized and made particularly effective for that user. Such systems and methods still alert the user when action is necessary, e.g., a bolus or temporary basal rate change, or provide a response to a missed bolus or a need for correction, but do not alert when action is unnecessary, e.g., if the user is already estimated or predicted to be cognitively aware of the diabetic state warranting attention, or if corrective action was already taken.

Abstract: Scanning lidar systems and methods for performing a redundant beam scan to reduce data loss resulting from obscurants are presented. An example system comprises a first light source and a second light source having a spatial displacement relative to the first light source. The example system also includes a mirror assembly and an optical window configured to transmit the light pulses emitted from the light sources, wherein the spatial displacement of the second light source relative to the first light source is such that the first and second light pulses produce two pixels corresponding to a same portion of an image. The example system also includes a receiver configured to receive the light pulses when scattered by one or more targets, the receiver including two or more detectors configured to detect at least one of the light pulses and output an electric signal for generating the two pixels.

Abstract: A lidar system for scanning a field of regard is described having first and second light beams and first and second detectors. The light beams pass through a lateral beam shifting device prior to being directed to a beam scanner. The lateral beam shifting device reduces the overall size of the emitted and returned light beams thus reducing the size of scanner components. Lateral beam shifting devices may be a single rhomboid prism, a pair of rhomboid prisms, a pair of mirrors, or a single mirror or prism.

Abstract: In one embodiment, a lidar system includes a light source configured to emit a pulse of light and a scanner configured to direct the emitted pulse of light into a field of regard of the lidar system. The lidar system also includes a receiver configured to receive a portion of the emitted pulse of light scattered by a target located a distance from the lidar system. The receiver includes a digital micromirror device (DMD) that includes a two-dimensional array of electrically addressable micromirrors, where a portion of the micromirrors are configured to be set to an active-on state to direct the received pulse of light to a detector array. The detector array includes a two-dimensional array of detector elements, where the detector array is configured to detect the received pulse of light and produce an electrical signal corresponding to the received pulse of light.

Abstract: In one embodiment, a lidar system includes a light source configured to emit a pulse of light and a scanner configured to direct the emitted pulse of light into a field of regard of the lidar system. The lidar system also includes a receiver configured to receive a portion of the emitted pulse of light scattered by a target located a distance from the lidar system. The receiver includes a digital micromirror device (DMD) that includes a two-dimensional array of electrically addressable micromirrors, where a portion of the micromirrors are configured to be set to an active-on state to direct the received pulse of light to a detector array. The detector array includes a two-dimensional array of detector elements, where the detector array is configured to detect the received pulse of light and produce an electrical signal corresponding to the received pulse of light.

Abstract: An apparatus is disclosed for winding a paper web from a rotatable drum onto a driven spool which supports a reel. The apparatus includes a frame which includes a base having a first and a second end. A stand extends from the first end of the base for rotatably supporting the drum so that the paper web is guided by the drum. A further stand extends from the second end of the base. A carriage is slidably supported by the base such that sliding of the carriage between the first and second ends of the base is permitted. A moving device extends between the carriage and the further stand for moving the carriage relative to the drum. A reel in position control device is controllably connected to the moving device for selectively moving the carriage towards and away from the drum. The arrangement is such that when the reel supported by the driven spool is mounted on the carriage and the paper web is guided by the drum onto the reel, the paper web is controllably wound onto the core.

Abstract: An apparatus is disclosed for winding a paper web from a rotatable drum onto a driven spool which supports a reel. The apparatus includes a frame which includes a base having a first and a second end. A stand extends from the first end of the base for rotatably supporting the drum so that the paper web is guided by the drum. A further stand extends from the second end of the base. A carriage is slidably supported by the base such that sliding of the carriage between the first and second ends of the base is permitted. A moving device extends between the carriage and the further stand for moving the carriage relative to the drum. A reel in position control device is controllably connected to the moving device for selectively moving the carriage towards and away from the drum. The arrangement is such that when the reel supported by the driven spool is mounted on the carriage and the paper web is guided by the drum onto the reel, the paper web is controllably wound onto the core.

Abstract: A control apparatus is disclosed for controlling nip pressure in a nip of a metering size press. The apparatus includes a metering size press roll and a backing roll which cooperates with the size press roll for defining therebetween the nip. A support post is provided for rotatably supporting the backing roll. A linear bearing is disposed beneath the support post for mounting the support post. Also, a moving device is connected to the support post for moving the support post and the backing roll supported by the support post such that the supported backing roll and the support post mounted on the linear bearing is moved for controlling the nip pressure in the nip between the rolls.

Abstract: The image processing system includes an image processor performing adaptive pixel segmentation for a sequence of image frames collected during movement relative to a scene, with each image frame having a plurality of pixels. An image sensor collects the sequence of image frames while moving relative to the scene. The image processor may perform the adaptive pixel segmentation by generating a probability density function (PDF) for pixels based upon a plurality of past image frames from the sequence thereof, determining whether pixels in a new image frame from the sequence thereof are independently moving pixels or background pixels based upon comparing the new image frame to the at least one PDF, and updating the at least one PDF based upon the new image frame.

Abstract: A mechanism and method for the continuous winding of a web of paper into rolls including a shear type load cell for measuring the horizontal component of the reactive force on the winding drum with the output of the load cell being used to control the nip pressure between the winding drum and the roll being wound. Another load cell measures the tension of the incoming paper web, and this measurement is subtracted to give the net nip pressure. An initial reading is taken when the core on which the web is to be wound is lowered onto the load cell and an initial reading is taken to provide the index point of the weight of the core and reel, and when the core is being pivoted downwardly over the drum, the vertical and horizontal components with the total nip load are calculated to control the nip load. Thus, the nip load is carefully controlled at all positions to provide an improved drum winder obtaining controlled nip load and controlled density of the roll being wound.

Abstract: In a method and apparatus for automatically feeding sleeves in roll cutting machines of the support roller type, a wide web (12) of paper or the like is unwound at an unwinding station (10). At a cutting station (20) the wide web (12) is slit lengthwise into at least two narrower, partial-width webs (24). The narrower, partial-width webs (24) are wound up using winding sleeves (44, 54) at two winding stations (40, 50) arranged either side of the support roller(s) (30) and each comprising at least one winding device (41, 51) so that adjacent partial-width webs (24) are wound at different winding stations (40, 50 respectively).