Abstract: The invention relates to a method for operating a secondary station to search for PDCCH in search spaces on a plurality of component carriers, wherein the component carriers comprise an anchor carrier and a plurality of other carriers and the search spaces change in a preconfigured way with the time.

Abstract: Values of components of total carbon dioxide excreted by a subject can be provided. One or more signals may be received conveying information related to a rate of total carbon dioxide excreted by the subject. Based at least in part on the received one or more signals, a first capnometric component and/or a second capnometric component may be determined. The first capnometric component may indicate a rate of metabolic carbon dioxide production. The second capnometric component may indicate a rate of carbon dioxide transfer to or from body compartments of the subject that store carbon dioxide. The first capnometric component and/or the second capnometric component may be presented to a user.

Abstract: A method and system for controlling (210) at least one device. The device is controlled by sensing (208) at least one movement or presence of the user within at least one zone. The location of the zone being defined (202, 206) on the basis of the detected position of the user and updated (206) upon changes in position of the user being detected.

Abstract: The invention relates to an alignment layer with improved adhesion to liquid crystal (LC) films, to a precursor material used for the preparation of such a layer, to a laminate comprising such a layer and at least one LC polymer film, and to the use of the alignment layer and the laminate for optical, electrooptical, decorative or security uses and devices, wherein the alignment layer and the precursor material comprise at least one reactive mesogen in monomeric, oligomeric or polymeric form.

Abstract: A patient interface device (10) that includes a mask (12) and a headgear component (18) for attaching the patient interface device to the head of a patient. The headgear component includes a strap (20) and an attachment element (22, 40, 60, 80) provided between the mask and the strap. The attachment element has a mask attachment portion (24, 42, 62, 82) coupled to the mask, a strap attachment portion (26, 44, 64, 84) coupled to the strap, and a flexible linkage portion (28, 46, 66, 86) provided between the mask attachment portion and the strap attachment portion. The flexible linkage portion is more flexible than both the mask attachment portion and the strap attachment portion to enable the mask attachment element to flex, bend, and/or twist along multiple axes to conform to particular facial contours of the patient.

Abstract: A system (100) and a method for controlling an environmental physical characteristic in an environment of a person (105), a color and intensity tunable lamp, an electronic device and a computer program product are provided. The system (100) comprises an environment influencing means (102), a sensor (104), an input means (134) and a controller (130). The environment influencing means (102) changes the environmental physical characteristic in response to a control signal (112) indicating a desired influencing of the environmental physical characteristic. The sensor (104) obtains a sensor signal (122) representing a physiological condition of the person (105). The input means (134) obtains a user setting signal (132) representing a user setting with respect to the environmental physical characteristic. The controller (130) receives the sensor signal (122) and the user setting signal (132) and generates the control signal (112) by applying an original function (114) to the sensor signal (122).

Abstract: The invention provides a method of imposing a dynamic color scheme on light (311) of a lighting unit(300) arranged to generate light (311) of variable color. The method comprises: detecting with a sensor (210) a first color and a second color of a colored entity (100); and varying the color of the light (311) of the lighting unit (300) between the first color and the second color of the colored entity according to a time scheme. The invention further provides a color sensor unit (200) comprising a sensor (210) and a control unit (220) for use in such a method.

Abstract: A method and network connected rendering apparatus (130) are described. The network connected rendering apparatus (130) receives a command to play a content item and/or the content item to be played from another network connected device (110). Instead of automatically interrupting the current rendering activities of the rendering apparatus for playing the content item, the content item is added to a list of scheduled content items (140).

Abstract: An instrument for filling a substance supply container of a device for personal care treatment has a filling needle having a proximal end connected or connectable to a storage reservoir and a distal end, a substance transport conduit extending from the proximal end to at least one outlet provided in a radially facing surface portion closely adjacent the distal end of the filling needle. A sleeve is arranged around the filling needle and is movable between a first position closing off the at least one outlet and a second position proximally away from the first position and the at least one outlet. A system including such an instrument, a container for cooperation with such an instrument and for provisioning a device for personal care treatment as well as a device for personal care treatment including such a container are described.

Abstract: The invention relates to a system and a method for producing an image of a physical object and to a computer program element and a computer readable medium.

Abstract: Methods and apparatus for a scalable network of heterogeneous devices are disclosed. The network may include segment controllers in communication with a remote management system and a plurality of heterogeneous devices such as, for example, lighting fixture nodes and sensors. The segment controllers may transmit sensor data from the sensors to the remote management system. The segment controllers may also transmit control data to the lighting fixture nodes and, optionally, to one or more supplementary nodes. At least some of the control data may be based on data sent from the remote management system and, optionally, the segment controller may generate at least some of the control data independently of the remote management system.

Abstract: The invention describes a lighting assembly (10, 10?, 20, 20?) for use in a lighting arrangement (2) of a vehicle (1), comprising a projection lens (11, 21) and an array (12, 22) of light sources (S11, . . . , S26), wherein the projection lens (11, 21) and the light source array (12, 22) are arranged according to an asymmetry displacement (?i, ?2, di, d2) of the optical axis (X1, X2) of the projection lens (11, 21), and wherein the light sources (S11, . . . , S26) of the light source array (12, 22) of the lighting assembly (10, 10?, 20, 20?) are individually controllable to adjust a swivel angle (?1, ?2) of a light beam (BL, BH) generated by that lighting assembly (10, 10?, 20, 20?). The invention further describes a controller (3) for controlling the light sources (S11, . . . , S26) of such a lighting assembly (10, 10?, 20, 20?).

Abstract: A respiratory drug delivery apparatus (2) includes a medication storage and delivery device (8) having an outlet (30) and a feedback and compliance device (32) coupled thereto. The feedback and compliance device has an opening, and the outlet of the medication storage and delivery device is received through the opening. The feedback and compliance device includes: (i) one or more sensors (46, 52, 54, 56), each of the one or more sensors being structured to sense a parameter relating to use of the respiratory drug delivery apparatus without modifying or interfering with a flow of medication introduced by actuation of the medication storage and delivery device, (ii) one or more feedback devices (48, 50, 62), and (iii) a processing unit (42) programmed to cause the one or more feedback devices to provide feedback information to a patient (4) regarding use of the respiratory drug delivery apparatus based on an output of at least one of the one or more sensors.

Abstract: A method (100) of controlling an outdoor lighting system, a computer program product, a controlling device for controlling an outdoor lighting system and an outdoor lighting system are provided. The outdoor lighting system comprises outdoor lamps which are distributed over spatial segments of an outdoor space. The emitted light intensity of the outdoor lamps is controllable per spatial segment, and references are used to refer to specific spatial segments.

Abstract: There is provided a device for use by a user who may wander that comprises an audio unit for generating a first output audible to the user in response to a determination that the user is within a predetermined safe area. The audible output preferably comprises music. There is also provided a method of operating a device that is to be worn or carried by a user, comprising generating a first output audible to the user using an audio unit in the device in response to a determination that the user is within a predetermined safe area.

Abstract: An ultrasound probe acquires a 3D image dataset of a volumetric region of the body. The 3D image data is reformatted into a sequence of successive parallel image planes extending in one of three orthogonal directions through the volume. The sequence of images (74, 84, 94) is preferably formatted in accordance with the DICOM standard so that a clinician can review the 3D image data as a sequence of DICOM images on an image workstation.

Abstract: The invention relates to a system (102) for measuring a velocity of a fluid (104) flowing through a flow channel (106). The system comprises a heating element (108) configured for generating a thermal marker in the fluid (104) in response to a predetermined time-varying level of power provided to the heating element (108). The system (102) furthermore comprises a sensor arrangement (110) for generating a measurement signal (112) indicative for the velocity of the fluid (104) flowing through the channel (106). Herein, the sensor arrangement (110) is configured for measuring a time series of the primary temperature (114) of the fluid (104) at a predetermined primary location. The primary location and the heating element (108) are situated on an axis having at least a component parallel to the longitudinal axis (119) of the flow channel (106). The measurement signal (112) is based on the maximum value (120) of the time series of time series of the primary temperature (114) in response to the thermal marker.

Abstract: A method for operating a fluorescent lamp (5) having a nominal power (WLa) and stabilized with an EM ballast (B) comprises the steps of during normal operation, short-circuiting the lamp during a closing time interval (CTI) during each current period in order to operate the lamp at a reduced power. The method comprises the step of detecting whether the lamp is stabilized by means of an inductive ballast or by means of a capacitive ballast. If it is found that the ballast is capacitive, the timing of the closing time interval (CTI) is set such that the closing time interval (CTI) has a first closing time segment (CTS1) immediately before a zero-crossing of the current, having a first duration (?1) higher than zero, and a second closing time segment (CTS2) immediately after said zero-crossing of the current, having a second duration (?2) higher than zero.

Abstract: An electronic ballast for parallel lamp operation with program start including an electronic ballast for fluorescent lamps operably connected in parallel, each of the fluorescent lamps having lamp filaments. The electronic ballast includes a current fed self oscillating inverter (110) and preheat windings (127) operably connected to the current fed self oscillating inverter (110) to provide filament power (134) to the lamp filaments during the preheat time. The current fed self oscillating inverter (110) includes an output transformer (112) having a primary output transformer winding (114) and a secondary output transformer winding (116), the secondary output transformer winding (116) being operably connected to provide lamp power (132) to the fluorescent lamps; and a switch circuit (118) operably connected in series with the primary output transformer winding (114), the switch circuit (118) having a switch (120) operably connected in parallel with an inductor (124).

Abstract: A device and method of providing positive pressure support that employs a patient interface device (2, 102) having a mask (6, 106) and an adjustment arm (26, 126) coupled to the mask. The adjustment arm includes an extension member (28) extending from the mask. The mask engages the face of the patient and the adjustment arm is spaced from and not in engagement with the head of the patient. The method includes adjusting the pressure applied to the patient by the mask by adjusting a strapping force applied to the patient interface device without causing the adjustment arm to engage the head of the patient, as well as providing a flow of gas to the patient through the mask without causing the adjustment arm to engage the head of the patient.