Abstract: The information processing device extracts one or a plurality of autonomously drivable sections in the traveling route of the vehicle to the destination. Further, the information processing device specifies the first section having the longest autonomous driving continuable time on the traveling route. Then, the information processing device outputs the autonomous driving continuable time in the first section.

Abstract: The information processing device extracts one or a plurality of autonomously drivable sections in the traveling route of the vehicle to the destination. Further, the information processing device specifies the first section having the longest autonomous driving continuable time on the traveling route. Then, the information processing device outputs the autonomous driving continuable time in the first section.

Abstract: A task management device includes a control unit that executes, when satisfaction of a specific condition is detected during a period in which a vehicle to be operated in a mode corresponding to an application is operated in a first mode, operation start control to start an operation of the vehicle in a second mode that is different from the first mode before a schedule end time of the period.

Abstract: A task management device includes a control unit that calculates a required time for maintenance of an internal environment of at least one vehicle to be operated in a mode corresponding to an application before the mode of the at least one vehicle is switched from a first mode to a second mode based on information acquired from any one of a first target to be transported by the at least one vehicle in the first mode and a second target to be transported by the at least one vehicle in the second mode that is different from the first mode, and adjusts a dispatch schedule of the at least one vehicle in accordance with the required time calculated.

Abstract: A task management device includes a control unit that detects a deterioration of an internal environment of a vehicle as an environmental deterioration during a period in which the vehicle to be operated in a mode in accordance with an application is operated in a first mode, calculates a time required for maintenance of the internal environment of the vehicle in accordance with the detected environmental deterioration and determines whether the maintenance is completed by a mode switching time limit for switching the mode of the vehicle to a second mode that is different from the first mode, and executes operational control in accordance with a determination result obtained.

Abstract: The task management device includes a control unit that performs maintenance start control for starting maintenance of the internal environment of the vehicle during a period in which the vehicle operated in the mode corresponding to the application is operated in the first mode, and performs mode switching control for switching the vehicle to the second mode different from the first mode after the maintenance is completed.

Abstract: A clutch driving device having a self-lock function includes a friction mechanism that generates a friction force in a direction opposite to a rotation direction of rotation transferred by a transfer mechanism that transfers an output of a motor to a clutch. The friction mechanism includes a rotation body that rotates by the force in the rotation direction transferred by the transfer mechanism, a friction plate that generates a friction force by contact with the rotation body, and a spring that biases the friction plate toward the rotation body such that the rotation body and the friction plate are brought into contact with each other. An intermediate shaft of the transfer mechanism includes a rotation transfer portion that rotates together with the rotation body and is movable in the axial direction relative to the rotation body.

Abstract: A clutch unit includes a clutch having a clutch spring, a motor that generates an actuation driving force for actuating the clutch, an output shaft that transfers the clutch reaction force to the clutch and receives an elastic restoring force of the clutch spring as a clutch reaction force, and a spring that inputs an assist force for assisting the actuation driving force to the output shaft. In switching the clutch from an engaged state to a disengaged state, the output shaft receives the assist force before receiving the clutch reaction force, whereas in switching the clutch from the disengaged state to the engaged state, the assist force becomes zero after the clutch reaction force becomes zero.

Abstract: A clutch driving device includes: a spring that is deformable in a circumferential direction when seen in an axial direction to thereby generate a force in the circumferential direction; a first projection disposed at one end of the spring; an output gear that rotates in an disengaging direction or an engaging direction of the clutch; and a pin that is provided to the output gear to be rotatable together with the output gear and contacts the first projection to thereby transfer the elastic restoring force to the output gear. A contact point between the first projection and the pin moves toward an axis of the spring at least once when seen in the axial direction of the spring in a case where the output gear rotates in a direction in which the elastic restoring force of the spring decreases.

Abstract: A clutch unit includes a clutch having a clutch spring, a motor that generates an actuation driving force for actuating the clutch, an output shaft that transfers the clutch reaction force to the clutch and receives an elastic restoring force of the clutch spring as a clutch reaction force, and a spring that inputs an assist force for assisting the actuation driving force to the output shaft. In switching the clutch from an engaged state to a disengaged state, the output shaft receives the assist force before receiving the clutch reaction force, whereas in switching the clutch from the disengaged state to the engaged state, the assist force becomes zero after the clutch reaction force becomes zero.

Abstract: A clutch driving device having a self-lock function includes a friction mechanism that generates a friction force in a direction opposite to a rotation direction of rotation transferred by a transfer mechanism that transfers an output of a motor to a clutch. The friction mechanism includes a rotation body that rotates by the force in the rotation direction transferred by the transfer mechanism, a friction plate that generates a friction force by contact with the rotation body, and a spring that biases the friction plate toward the rotation body such that the rotation body and the friction plate are brought into contact with each other. An intermediate shaft of the transfer mechanism includes a rotation transfer portion that rotates together with the rotation body and is movable in the axial direction relative to the rotation body.

Abstract: A clutch driving device includes: a spring that is deformable in a circumferential direction when seen in an axial direction to thereby generate a force in the circumferential direction; a first projection disposed at one end of the spring; an output gear that rotates in an disengaging direction or an engaging direction of the clutch; and a pin that is provided to the output gear to be rotatable together with the output gear and contacts the first projection to thereby transfer the elastic restoring force to the output gear. A contact point between the first projection and the pin moves toward an axis of the spring at least once when seen in the axial direction of the spring in a case where the output gear rotates in a direction in which the elastic restoring force of the spring decreases.

Abstract: A bridge apparatus is disclosed, the bridge apparatus being connected between a first network and a second network and achieving a communication between equipment connected to the first network and equipment connected to the second network. This apparatus accepts communication from the equipment over the first network to equipment disconnected from the second network, and then, preserves contents of the communication even in the case where the equipment over the second network has been disconnected from the second network for reasons such as electric power cut. In the case where the disconnected equipment has been connected to the second network again, this apparatus transmits the accepted contents of the communication to the reconnected equipment.

Abstract: According to one embodiment, an electric power management apparatus is for controlling electric power of at least one home appliance using at least one rechargeable battery. The apparatus includes an analysis unit, a first generating unit, and a second generating unit. The analysis unit analyzes a charge residue of the rechargeable battery. The first generating unit generates a control schedule used to control the electric power of the home appliance in accordance with the charge residue. The second generating unit generates a charge/discharge schedule used to control charge and discharge of the rechargeable battery in accordance with the charge residue.

Abstract: According to one embodiment, there is provided a communication device including a first communication layer receiving processor to perform a receiving process on a first communication layer on data received from a first communication device. The first communication layer receiving processor includes a first key identifying unit to identify, a key required to process the data; a first attribute identifying unit to identify, pursuant to key data, first attribute information that is attribute information associated with the key as identified; and a data processor to process the data using the key as identified. The data processed by the data processor and the first attribute information are passed to a second communication layer processor configured to perform a process on a second communication layer.

Abstract: According to one embodiment, a communication apparatus includes a communication part which receives a notification concerning measurement information from a measurement equipment and receives a signal from a terminal apparatus, and a notification setting part to set a notification frequency of the measurement equipment according to content of the signal received from the terminal apparatus.

Abstract: Provided are a communication apparatus, a communication relay apparatus, a communication method and a communication system, which prevent an apparatus from continuing to operate in an undesired operation state, if a communication failure occurs when remote control is performed. The communication apparatus which is connectable with a server through a wired or wireless network and remotely operable by the server, includes a holding unit that holds information as to whether the communication apparatus is in a state of being remotely operated by a certain method; a determination unit that determines whether communication between the communication apparatus and the server is possible or not; and a control unit that causes the communication apparatus to be shifted to a predetermined operation state, when the holding unit holds information indicating a state of being remotely operated and the determination unit determines that communication between the communication apparatus and the server is disabled.

Abstract: A communication apparatus according to the embodiment, which is capable of receiving a control command from an operation terminal and transmitting the control command to at least one equipment, includes a communication unit that receives the control command which controls the equipment, an equipment state determination unit that determines whether the equipment is in a state of being able to execute the control command, and a control unit that, if the equipment state determination unit determines that the equipment is not in the state of being able to execute the control command, does not transmit the control command to the equipment, and if the equipment state determination unit determines that the equipment is in the state of being able to execute the control command, transmits the control command to the equipment.

Abstract: According to one embodiment, a control apparatus communicable with a power measuring apparatus includes a communication unit, a threshold storage, and a controller. The communication unit acquires a usable power value from the power measuring apparatus. The threshold storage stores a threshold value. The controller changes a working state thereof in accordance with a comparison result of the usable power value and the threshold value.

Abstract: A communication device according to an embodiment includes a reception unit, a determination unit, a generation unit, and a transmission unit. The reception unit receives a telegram which is transmitted to a node. The determination unit determines whether or not the telegram which is received by the reception unit includes a command related to a communication path. When the determination unit determines that the telegram does not include the command related to the communication path, the generation unit generates a non-pass signal which indicates that the telegram does not pass through a public line. The transmission unit transmits the non-pass signal which is generated by the generation unit to the node.