Abstract: A remote controller comprises a gripping member, a control stick arranged on the gripping member, and a retaining device installed on the gripping member. The retaining device comprises a support mechanism, a clamping mechanism rotatably installed on the support mechanism, and a communication mechanism rotatably connected to the clamping mechanism. The clamping mechanism comprises a first clamping part and a second clamping part opposite to the first clamping part. The communication mechanism comprises a receiving member, a connecting shaft arranged on the receiving member and pivotably connecting the receiving member with the second clamping part, and an antenna arranged on the receiving member and configured to transfer data. The connecting shaft is configured to allow the receiving member to rotate relative to the second clamping part and to be received between the first clamping part and the second clamping part.

Abstract: A heat dissipation device includes an air guiding cover and a heat conduction plate. The air guiding cover includes an air duct configured to guide an airflow and including a mounting window formed on a sidewall of the air duct, an air inlet formed at a first end of the air duct, and an air outlet formed at a second end of the air duct. The heat conduction plate is disposed at the mounting window and covers the mounting window.

Abstract: A system for image alignment includes an alignment mechanism (132) configured to permit user alignment of images. A first imaging modality (110) is configured to concurrently provide images in two imaging planes using an imaging mechanism (134) associated with the alignment mechanism (132). An image processing module (126) is configured to display first images collected with the first imaging modality and second images collected with a second imaging modality (130) to permit user alignment using the alignment mechanism between the first images and the second images in multiple planes. A registration module (115) is stored in memory and configured to register the first images with corresponding second images in the multiple planes when alignment in the multiple planes has been achieved.

Abstract: A gimbal locking device includes a body portion including a first surface and a second surface opposite to each other, a clutch portion extending from the first surface, and a fastening portion extending from the second surface. The fastening portion includes an extension portion extending from the second surface.

Abstract: An image capturing module including a casing, a camera unit disposed in the casing, a circuit board device connected to the camera unit and disposed in the casing, and a heat dissipation device. The circuit board device includes a circuit board unit disposed at a periphery of the camera unit and including a functional module. The heat dissipation device includes a heat sink attached on a surface of the functional module for dissipating heat from the functional module.

Abstract: A branched polyorganosiloxane having, on average, at least two radical-curable groups per molecule and a curable silicone composition that comprises (I) the branched polyorganosiloxane and (II) a radical initiator. Cured products prepared therefrom. Devices containing the branched polyorganosiloxane, composition, or cured product. Methods of making the branched polyorganosiloxane and composition and methods of using and uses of the materials and devices.

Abstract: A circuit board device includes a polyhedral support frame and a circuit board unit. The circuit board unit includes two rigid boards and a flexible board connecting the two rigid boards. The two rigid boards are folded with respect to each other through the flexible board and are disposed on different sides of the support frame, respectively.

Abstract: An in situ method for forming a thermally conductive thermal radical cure silicone composition is provided. The in situ method comprises forming a thermally conductive clustered functional polymer comprising the reaction product of a reaction of a polyorganosiloxane having an average, per molecule, of at least 2 aliphatically unsaturated organic groups; a polyorganohydrogensiloxane having an average of 4 to 15 silicon atoms per molecule; and a reactive species having, per molecule, at least 1 aliphatically unsaturated organic group and 1 or more curable groups; in the presence of a filler treating agent, a filler comprising a thermally conductive filler, an isomer reducing agent, and a hydrosilylation catalyst. The method further comprises blending the thermally conductive clustered functional polymer with a radical initiator.

Abstract: System and method can support a measurement module on a movable object. The measurement module includes a first circuit board with one or more sensors. Additionally, the measurement module includes a weight block assembly, wherein the weight block assembly is configured to have a mass that keeps an inherent frequency of the measurement module away from an operation frequency of the movable object. Furthermore, said first circuit board can be disposed in an inner chamber within the weight block assembly.

Abstract: The present invention provides substituted azaindole prodrugs, methods of making said prodrugs, pharmaceutical compositions of said prodrugs and methods of using said prodrugs and pharmaceutical compositions thereof to treat or prevent diseases or disorders such as cancer.

Abstract: Systems, methods and computer-readable media are provided for enabling and/or managing contribution of paid time off. A system including one or more units configured for determining the value of paid time off as currency; and one or more units configured for conducting a transaction wherein paid time off is designated for contribution, and the determined value of the paid time off is designated for payment to one or more organizations is provided. Corresponding methods and computer-readable media are also provided.

Abstract: A curable silicone composition is provided that comprises a reaction product of a reaction of (I) a clustered functional polyorganopolysiloxane having at least one radical curable group selected from an acrylate group and a methacrylate group; (II) a silicone reactive diluent, and a (III) a radical initiator.

Abstract: A hydrosilylation process is used to prepare a clustered functional polyorganosiloxane. The clustered functional polyorganosiloxane comprises a reaction product of a reaction of a) a polyorganosiloxane having an average, per molecule, of at least 2 ahphatically unsaturated organic groups; b) a polyorganohydrogensiloxane having an average of 4 to 15 silicon atoms per molecule; and c) a reactive species having, per molecule at least 1 aliphatically unsaturated organic group and 1 or more radical curable groups selected from an acrylate group and a methacrylate group; in the presence of d) a hydrosilylation catalyst, and e) an isomer reducing agent. The weight percent of silicon bonded hydrogen atoms in component b) divided by the weight percent of aliphatically unsaturated organic groups in component a) (the SiHb/Via ratio) ranges from 4/1 to 20/1. The resulting clustered functional polyorganosiloxane is useful in a curable silicone composition for electronics applications.

Abstract: A method for forming a thermally conductive thermal radical cure silicone composition comprising (I) a clustered functional polyorganopolysiloxane; optionally (II) a silicone reactive diluent, (III) a filler comprising a thermally conductive filler, (III?) a filler treating agent, and (IV) a radical initiator is provided. In this method, the clustered functional polyorganosiloxane (I) and the optional silicone reactive diluent (II) are premade prior to their addition to respective components (III), (III?) and (IV).

Abstract: An in situ method for forming a thermally conductive thermal radical cure silicone composition is provided. The in situ method comprises forming a thermally conductive clustered functional polymer comprising the reaction product of a reaction of a polyorganosiloxane having an average, per molecule, of at least 2 aliphatically unsaturated organic groups; a polyorganohydrogensiloxane having an average of 4 to 15 silicon atoms per molecule; and a reactive species having, per molecule, at least 1 aliphatically unsaturated organic group and 1 or more curable groups; in the presence of a filler treating agent, a filler comprising a thermally conductive filler, an isomer reducing agent, and a hydrosilylation catalyst. The method further comprises blending the thermally conductive clustered functional polymer with a radical initiator.

Abstract: A system and process for melamine production by gas-phase quenching method and its process are provided. The said system includes a urea scrubber, after which a fluidized bed reactor, a hot-air cooler, a hot-air filter, a crystallizer and a melamine collector are installed in series successively, where the said melamine collector is connected to the said urea scrubber and the said fluidized bed reactor is connected to a carrier gas pre-heater which is connected to a carrier gas compressor; the said system further includes a gas-liquid separator which is connected to the said urea scrubber which is connected to a crystallizer; wherein a cool air blower is provided between the said gas-liquid separator and the crystallizer. The production system of the invention has the advantages of high productivity, stable operation, low energy consumption, low investment and high economic value of tail gas.

Abstract: A method of fabricating a porous metal-based biomaterial, the method includes dispersing microwave susceptors into organic solvent to form a homogeneous suspension, dispersing bioactive fillers into organic solvent to form a homogeneous solution, mixing metal powder with the homogeneous solution and the homogeneous suspension to form a mixture, cold-pressing the mixture into a compact with predefined shape and size, placing the compact in a sintering container, and emitting microwave to heat the compact and remove the organic solvent resided in the compact at the same time.