Abstract: The present disclosure describes apparatuses and techniques for room temperature three-dimensional (3D) printing using edible printing materials. In some aspects, a 3D printer includes a printing platform configured to receive the extruded edible printing material from the printing cartridge, a cartridge receiver configured to hold an integrated printing cartridge that contains an edible printing material that can be extruded at room temperature, and a printing target. The position of the printing platform can be adjusted vertically and the position of the cartridge receiver can be adjusted in a plane perpendicular to the printing platform. The printing target is configured to allow extrusion of the edible printing material at precise and repeatable locations.

Abstract: Embodiments include an apparatus for fabricating a three-dimensional object from a digital representation of the object stored in a computer readable media, the apparatus comprising: a component having a surface on which the object is to be fabricated, wherein information is embedded within the component; a sensor configured to sense the information embedded within the component; a module configured to, based on the sensor sensing the information embedded within the component, determine one or both of (i) a characteristic of the component and (ii) a configuration parameter of the apparatus; and a print mechanism disposed above the surface of the component, wherein the print mechanism is configured to, based on the determined one or both of (i) the characteristic of the component and (ii) the configuration parameter of the apparatus, fabricate the object on the surface of the component.

Abstract: Embodiments include a method of fabricating a three-dimensional (3D) object using a 3D printing system, wherein the 3D printing system controls one or more parameters of the 3D printing system to fabricate the 3D object, the method comprising: sensing a characteristic of a component of the 3D printing system, wherein the characteristic of the component of the 3D printing system changes over time; and based on sensing a change in the characteristic of the component of the 3D printing system, calibrating a first parameter of the one or more parameters used to fabricate the 3D object.

Abstract: Embodiments include an apparatus for fabricating a three-dimensional (3D) object from a digital representation of the 3D object stored in a computer readable media. The apparatus includes a build platform on which the 3D object is to be fabricated and a nozzle configured to deposit printing material on the build platform to fabricate the 3D object. The apparatus further includes a first drive mechanism configured to drive the nozzle over the build platform and a second drive mechanism configured to rotate the build platform.

Abstract: Embodiments of the present disclosure provide an apparatus comprising a power supply, a wireless controller coupled to the power supply, the wireless controller being configured to wirelessly receive a command from a wireless thermostat of a ventilation system, the ventilation system having a vent through which a fluid passes, and a flow controller to automatically control an amount of flow of the fluid through the vent of the ventilation system based at least in part on the command received wirelessly from the wireless thermostat. Other embodiments may be described and/or claimed.

Abstract: In various embodiments, the present disclosure describes hand-held devices with one or more touch-sensitive areas. The hand-held devices include a housing occupying each of a first plane, a second plane, and a third plane. A first exterior surface of the housing occupies the first plane and includes a first touch-sensitive area responsive to user touch. A second exterior surface of the housing occupies the second plane and includes a second touch-sensitive area responsive to user touch. A third exterior surface of the housing occupies the third plane and includes a display screen. A user interface module causes display of a user interface on the display screen and interprets at least one of (i) user touch of the first touch-sensitive area as a command to interact with the user interface or (ii) user touch of the second touch-sensitive area as a command to interact with the user interface.

Abstract: Systems, apparatuses, and methods for a handheld image translation device including an image capture device are described herein. The handheld image translation device may include an image capture device configured to capture an image, one or more navigation sensors configured to capture a plurality of navigational measurements, and a print head configured to deposit a printing substance on a first medium. The image translation device may also include a control block configured to determine a position of the apparatus relative to a reference point based at least in part on the plurality of navigational measurements, and to control the print head to deposit the printing substance based at least in part on the image captured by the image capture device and the determined position of the apparatus. Other embodiments may be described and claimed.

Abstract: An apparatus includes a first nib structure that includes a first main body having a first and a second end. The first end is opposite to the second end. The first nib structure further includes a first nib coupled to the first end. The apparatus further includes a capacitive force sensor coupled to the second end of the first nib structure. The capacitive force sensor is configured to measure more than two levels of force being applied to the first nib. The capacitive force sensor comprises (i) a first plate and (ii) a second plate. The first plate is made of a material that is elastic to bend towards the second plate when the first nib structure transfers at least a portion of a force applied to the first nib.

Abstract: An electronic pen includes a first and a second nib structure. A twist mechanism is coupled to the first and second nib structures to selectively extend the first or the second nib structure away from the twist mechanism in response to a rotational force. An inner cylinder is coupled to the twist mechanism, the inner cylinder having a first center axis and configured to rotate around the center axis to transfer the rotational force to the twist mechanism. An outer cylinder surrounds the inner cylinder and is coupled to the inner cylinder to move the inner cylinder in a rotational direction when the outer cylinder is rotated. The outer cylinder has a second center axis that is offset with respect to the first center axis of the inner cylinder.

Abstract: A docking station for a portable media player. The docking station includes a docking connector to physically secure the portable media player and a communication interface to communicatively couple the portable media player to the docking station when the docking connector is physically securing the portable media player. A projection module operably linked to the communication interface and configured to receive video information from the portable media player via the communication interface projects a video image derived from the video information away from the docking station onto a viewing surface.

Abstract: A projection device is provided. In one embodiment, the projection device may include an optical system mounted within the projection device and having an optical system axis substantially parallel to the optical system. The projection device further may include a combination control operatively coupled to the optical system and having a control axis that is non-parallel to the optical system axis.

Abstract: The present invention provides a projector assembly including a projection device adapted to project an image, and a user-interface in communication with the projection device. The user-interface may be adapted to privately present user-readable information to a user.

Abstract: The present disclosure provides a projector assembly including a projection device adapted to project an image, and a user-interface in communication with the projection device. The user-interface may be adapted to privately present user-readable information to a user.

Abstract: A method for optimizing an appearance of a projected image. The method includes providing a first configuration having a plurality of preset projection device settings for a first type of projected image and providing a second configuration having a plurality of preset projection device settings for a second type of projected image. The method further includes selecting one of the first configuration and the second configuration, and automatically adjusting the respective plurality of preset projection device settings in accordance with the selection of one of the first configuration and the second configuration.

Abstract: The present invention provides a projector assembly including a projection device adapted to project an image, and a user-interface in communication with the projection device. The user-interface may be adapted to privately present user-readable information to a user.

Abstract: A locking system for pets. The system includes a locking leash assembly comprising a leash with a pet-securing region and a handle region. The handle region is adapted to be held by a user. The pet-securing region includes a lock assembly having a locked configuration and an unlocked configuration. In the locked configuration the lock assembly is adapted to secure together spaced-apart portions of the pet-securing region, thus defining a closed perimeter. The closed perimeter is sized to extend around a portion of a pet and configured to prevent removal of the leash from the pet. The lock assembly in the unlocked configuration is adapted to permit the release of the spaced-apart portions of the pet-securing region. In some embodiments, the leash includes a coupling structure adapted to be removably interlocked to a pet collar.

Abstract: A locking system for pets. The system includes a locking leash assembly comprising a leash with a pet-securing region and a handle region. The handle region is adapted to be held by a user. The pet-securing region includes a lock assembly having a locked configuration and an unlocked configuration. In the locked configuration the lock assembly is adapted to secure together spaced-apart portions of the pet-securing region, thus defining a closed perimeter. The closed perimeter is sized to extend around a portion of a pet and configured to prevent removal of the leash from the pet. The lock assembly in the unlocked configuration is adapted to permit the release of the spaced-apart portions of the pet-securing region. In some embodiments, the leash includes a coupling structure adapted to be removably interlocked to a pet collar.