Abstract: An antenna device (100) according to the present invention includes a primary radiation means (10) for guiding and emitting radio waves at transmission, and guiding radio waves at reception, an antenna member (20) for reflecting radio waves emitted by the primary radiation means (10) and forming a transmission beam at transmission, and reflecting received waves on the primary radiation means (10) at reception, an angle adjustment means (40) for changing a relative angle between the primary radiation means (10) and the antenna member (20), an angle calculation means (81) for calculating the relative angle to be formed between the primary radiation means (10) and the antenna member (20) for displacement of an azimuth occurring in the primary radiation means (10), and a control means (82) for controlling the angle adjustment means based on the calculated relative angle.

Abstract: A selection and distribution circuit (13) is provided between N optical transceivers (11) and one PON control circuit (12). The selection and distribution circuit (13) selects the optical transceiver (11) corresponding to an upstream frame that time-divisionally arrives, thereby transferring the upstream frame opto-electrically converted by the transceiver (11) to the PON control circuit (12) and distributing a downstream frame from the PON control circuit (12) to each optical transceiver (11). A power supply control circuit (23) stops power supply to at least one of one of optical transceivers (11) that are not used to transfer the frame of the optical transceivers (11) and a circuit that is not used to transfer the frame in the selection and distribution circuit (13). This can reduce the system cost per ONU in the optical transmission system.

Abstract: The present invention provides a compound of formula (1), wherein R1, R2, R3, R4a, R4b, R5a and R5b are as defined in the description, which has an autotaxin inhibitory activity, a pharmaceutical composition comprising the compound as an active ingredient, and a method of prevention or treatment of a disease involving autotaxin, which is characterized by administering the compound.

Abstract: A compound according to any one of formula (Ia) to (Ic), or its pharmaceutically acceptable salt: wherein R1, R2, R3, R4a, R4c, R5 are as defined in the description.

Abstract: The rotary machine includes a rotor rotatably provided and a resin-molded stator. The stator includes a stator core, a coil, and a mold portion. A tooth portion in the stator core includes first and second facing portions. The first facing portion includes a first facing surface where an air gap with the rotor becomes a first distance. The second facing portion is integrated with the first facing portion in the circumferential direction centered at the rotation axis of the rotor, and includes a second facing surface where the air gap becomes a second distance wider than the first distance. The second facing portion includes a groove portion on the second facing surface. The mold portion includes a first mold portion. The first mold portion covers the second facing portion, is provided at the groove portion, and includes a third facing surface where the air gap becomes the first distance.

Abstract: An air-fuel ratio (A/F) sensor control device includes: an impedance detector detecting an impedance of an A/F sensor; and a pump current controller performing a digital control on a supply of electric current to the A/F sensor. The pump current controller includes a PID calculator calculating an instruction current value according to a difference of two input values, i.e., the difference between a PID control target value and a detection value of an inter-terminal voltage of a Nernst cell; and a protection clamper limiting a supply of electric current to a pump cell based on the instruction current value and the impedance.

Abstract: The disclosure relates to Substituted Piperidin-4-amino-Type Compounds of Formula (I) and pharmaceutically acceptable salts and solvates thereof wherein R1, R2, R3, Q1, Q2, E1, E2, A, B, D, W, Z, a, b, n, and x are as defined herein, compositions comprising an effective amount of a Substituted Piperidin-4-amino-Type Compound, and methods to treat or prevent a condition, such as pain, comprising administering to an animal in need thereof an effective amount of a Substituted Piperidin-4-amino-Type Compound.

Abstract: Provided is a means for evaluating the wetting characteristic of an object such as a cell sheet and a culture dish in a non-contact fashion. The wetting characteristic of an object is evaluated by a method comprising the steps of: (1) removing a liquid by jetting a gas at a surface of the object covered with the liquid, (2) measuring a dimension of a region in which the liquid is removed after the completion of the gas jetting and (3) evaluating the wetting characteristic of the object using the measured dimension as an index.

Abstract: Disclosed is a compound which is useful as an AMPK activator. A compound represented by formula: or a pharmaceutically acceptable salt thereof, wherein R4 is hydrogen, or substituted or unsubstituted alkyl, R1, R2 and R3 are each independently hydrogen, halogen, hydroxy, cyano, nitro, carboxy, substituted or unsubstituted alkyl or the like, with the proviso that R1, R2 and R3 are not simultaneously hydrogen, X is a single bond, —S—, —O—, —NR5—, —C(?O)— or the like, R5 is hydrogen, or substituted or unsubstituted alkyl, Y is substituted or unsubstituted cycloalkyl, substituted or unsubstituted cycloalkenyl, substituted or unsubstituted heterocyclyl or the like.

Abstract: Provided is a printing plate, containing: a screen plate having an opening pattern; and, a frame body to which the screen plate is fixed, in which the screen plate includes at least one curved part and is relatively movably fixed to the frame body.

Abstract: A pressure sensor includes a substrate which has a diaphragm that is flexurally deformed by receiving a pressure, a side wall section which is placed on one surface side of the substrate and surrounds the diaphragm in a plan view, and a sealing layer which is placed so as to face the diaphragm through a space and seals the space, wherein the sealing layer includes a first silicon layer which has a through-hole facing the space, a silicon oxide layer which is located on the opposite side to the space with respect to the first silicon layer and seals the through-hole, and a second silicon layer which is located on the opposite side to the space with respect to the silicon oxide layer.

Abstract: An observation device observes a sample. The observation device includes an imaging unit, a first moving mechanism, and a cooling unit. The imaging unit is provided in a housing of the observation device. The imaging unit images the sample. The first moving mechanism is provided in the housing. The first moving mechanism moves the imaging unit in a first direction. The cooling unit is arranged in the first moving mechanism. The cooling unit cools the imaging unit along the first direction.

Abstract: A pressure sensor includes a substrate which has a diaphragm that is flexurally deformed by receiving a pressure, a side wall section which is placed on one surface side of the substrate and surrounds the diaphragm in a plan view, and a sealing layer which is placed so as to face the diaphragm through a space surrounded by the side wall section and seals the space, wherein the sealing layer includes a first silicon layer, a second silicon layer which is located on the opposite side to the substrate with respect to the first silicon layer, and a silicon oxide layer which is located between the first silicon layer and the second silicon layer, and the silicon oxide layer is sealed from the outside by being covered with the second silicon layer.

Abstract: An upstream allocation circuit (14) and a downstream allocation circuit (15) are provided in an OLT (1). For example, a superimposed frame obtained by bundling upstream frames (upstream control frames+upstream data frames) from all ONUS is input to the upstream allocation circuit (14) via a frame reproduction circuit (12-1). The superimposed frame may be generated at the stage of optical signals or generated after converting optical signals into electrical signals. The upstream allocation circuit (14) allocates each of the upstream control frames bundled into the superimposed frame to a predetermined PON control circuit (13) based on information (PON port number or LLID) added to the frames. The downstream allocation circuit (15) allocates, to a preset frame reproduction circuit (12), each downstream control frames output from the PON control circuits (13).

Abstract: The present invention provides a method for producing agrochemical granules, which contain an agrochemical active ingredient, one or more kinds of hydrophobic substances, and a substance capable of absorbing oil, with stable quality. The method for producing agrochemical granules of the present invention includes (i) a step of obtaining a mixture by mixing an agrochemical active ingredient, one or more kinds of hydrophobic substances, and a substance capable of absorbing oil together, (ii) a step of obtaining a kneaded material by loading the obtained mixture into a kneading device, kneading the mixture at a heating temperature equal to or higher than the highest melting point of the hydrophobic substances, and then causing the kneaded material to be discharged from the kneading device at a temperature equal to or lower than the highest melting point of the hydrophobic substances, and (iii) a step of granulating the obtained kneaded material by an extrusion molding method.

Abstract: An OLT (1) is formed by N optical transceivers (11), one PON control circuit (12), and one selection and distribution circuit (13). An optical transceiver selection control signal (SC) is transferred from the PON control circuit (12) to the selection and distribution circuit (13). The optical transceiver selection control signal (SC) indicates the timing of a discovery window, the timing of a grant, and a logical link identification number of a registered ONU assigned to the grant (a logical link identification number for a logical link with the registered ONU). The selection and distribution circuit (13) selects one optical transceiver (11-s (s is an integer falling within a range of 0 to N?1)) from the optical transceivers (11-0 to 11-N?1) based on the optical transceiver selection control signal (SC) from the PON control circuit (12).

Abstract: With the present invention the sheet shaped therapeutic substance can be accurately and easily affixed to the inside of the human body. As shown in FIG. 6A, the sheet shaped substance can be mounted on the head with wrinkles being formed. When this takes place, the sheet shaped substance is held in contact with the outer periphery of the head. Then, by making the pressure of the fluid inside the vent apertures positive, the sheet shaped substance can be blown off. The surface of the head is closely parallel to an inner surface of the esophagus wall for the sheet shaped substance to be affixed. Therefore, this particularly makes it possible to perform such applying step (FIG. 6B) in a more reliable fashion.

Abstract: A selection and distribution circuit (13) is provided between N optical transceivers (11) and one PON control circuit (12). The selection and distribution circuit (13) selects the optical transceiver (11) corresponding to an upstream frame that time-divisionally arrives, thereby transferring the upstream frame opto-electrically converted by the transceiver (11) to the PON control circuit (12) and distributing a downstream frame from the PON control circuit (12) to each optical transceiver (11). A power supply control circuit (23) stops power supply to at least one of one of optical transceivers (11) that are not used to transfer the frame of the optical transceivers (11) and a circuit that is not used to transfer the frame in the selection and distribution circuit (13). This can reduce the system cost per ONU in the optical transmission system.

Abstract: [Problem] To provide an online learning system in which learning outcome content output by learners is used without modification as teaching content for other learners, and teaching content is developed and improved in an autonomous manner without management by a system administrator. [Solution] In this invention, video/audio content materials (referred to herein as “video/audio clips”) of small units having a certain significance and typically having a length from several seconds to several tens of seconds are used as learning/teaching content, and video/audio clips of images and recordings of learners themselves implementing learning content are collected. The video/audio clips are used not only as material for measuring the degree of learning achieved, but also as learning/teaching content.

Abstract: An electronic device includes: a substrate; a piezoresistive element which is disposed on the side of the surface on one side of the substrate; a wall section which is disposed to surround the piezoresistive element in a plan view of the substrate, on the side of the surface on one side of the substrate; via wiring which is disposed on the side of the surface on one side of the substrate; and a covering layer which is disposed away from the via wiring in the plan view on the side opposite to the substrate with respect to the wall section and configures a cavity portion along with the substrate and the wall section.