A work assisting system to assist with work performed by a work vehicle includes a flying body including a flying apparatus capable of flying and transporting a work-related article related to the work performed by the work vehicle, and a transfer section connected to the flying apparatus to transfer the work-related article between the flying body and the work vehicle. The flying body includes an information acquirer configured or programmed to acquire work information as information on the work-related article, and the flying body causes the transfer section to transfer the work-related article based on the work information.

The present inventive concept provides for a method of apparatus static inertia compensation using external robots. The method includes identifying a region of at least one wind turbine experiencing actual or imminent static inertia. A wind speed at the region is identified. The identified wind speed is compared to a predetermined cut-in speed. An external force necessary to overcome the actual or imminent static inertia based on the compared identified wind speed and the predetermined cut-in speed is calculated. The calculated external force necessary to overcome the actual or imminent static inertia using at least one external robot is generated.

An urban air mobility power supply system includes an urban air mobility (UAM) device and a power supply drone docked with the UAM device using electromagnetic force to supply external power, and a power supply method, in which the UAM device 200 and the power supply drone are accurately aligned with each other using electromagnets provided in the UAM device and the power supply drone to supply power, and the UAM device and the power supply drone can be easily separated from each other using electromagnetic force.

A method for operating an unmanned aircraft of a motor vehicle charging station which has at least one charging point for a motor vehicle is disclosed, and may include projecting by a projector of an aircraft, at least temporarily, an image aimed at supporting a user of the motor vehicle onto a projection surface. An unmanned aircraft for a motor vehicle charging station and a motor vehicle charging station are further disclosed.

A technique is described for implementing drones as a service. As an example, a drone may receive instructions from one or more network elements, coordinate operations with the one or more network elements, and perform at least one task associated with the instructions. The drone may deliver a container to a first location and perform object recognition to validate an object of a subscriber being delivered to a second location. The drone may measure the weight and dimensions of the object to confirm the object is within operating guidelines. After verifying the object is within operating guidelines, the drone may transport the container containing the object to the second location.

One or more system and associated methods for installing a line spacer upon adjacent lines that are suspended are provided. A system includes a portion for holding and releasing the line spacer onto the lines. The system includes a portion for actuating securing portions of the line spacer to secure the line spacer upon the lines. The system includes a flying drone portion for levitation of the portion for holding and the portion for articulating to the lines.

A remotely controlled hand tool includes a grip region and an actuating button. A remotely controlled tool includes a holding region and a triggering means. The hand tool or tool enables favorable remote control by a removable application part held in the grip region or holding region. The hand tool or tool is attached to an automatically movable flying vehicle by means of an attachment.

A cable winch (100) for deploying and retracting a cable (50) during the installation of powerline cables on transmission towers. The cable winch (100) includes a base frame (102), a spool (110), a drive system (120), a sensor system (200), and a control system (300). The spool (110) is mounted for rotation on the base frame (102) and the cable (50) is releasably securable to the spool (110). The drive system (120) is able to drive rotation of the spool (110) to either pay out or wind in the cable (50) along a cable path. The cable path passes through the sensor system (200), which has a first sensor (244) able to detect and output tension data in relation to the tension in the cable (50) passing through the sensor system (200). The control system (300) is adapted to receive the tension data output by the sensor system (200) and modulate the speed and torque of the drive system (120) in order to maintain a predetermined tension in the cable (50).

One or more system and associated methods for installing a line spacer upon adjacent lines that are suspended are provided. A system includes a portion for holding and releasing the line spacer onto the lines. The system includes a portion for actuating securing portions of the line spacer to secure the line spacer upon the lines. The system includes a flying drone portion for levitation of the portion for holding and the portion for articulating to the lines.

Methods, systems, and apparatus, including computer programs encoded on computer-storage media, for property management and monitoring using a drone. In some implementations, images of an outside area corresponding to a property are obtained. From the images, it is determined that a person is approaching the property. A state of the property is identified. An action to perform by a drone is determined based on the images and a state of the property. The drone is instructed to navigate to the person and perform the action.