Abstract: An automatic vertical farming system may include a frame defining at least one growth area and configured to support a plurality of vertical plant growth structures within the at least one growth area. The system may include at least one light, at least one liquid conduit, and at least one gas conduit. The system may include at least one robot disposed on a top side of the frame and movably supported by the frame. The at least one robot may include at least one tool configured to manipulate the plurality of vertical plant growth structures. The system may include a control system including at least one processor configured to automatically control illumination by the at least one light, liquid flow through the at least one liquid conduit, gas flow through the at least one gas conduit, and operation of the at least one robot.

Abstract: An automatic vertical farming system may include a frame defining at least one growth area and configured to support a plurality of vertical plant growth structures within the at least one growth area. The system may include at least one light, at least one liquid conduit, and at least one gas conduit. The system may include at least one robot disposed on a top side of the frame and movably supported by the frame. The at least one robot may include at least one tool configured to manipulate the plurality of vertical plant growth structures. The system may include a control system including at least one processor configured to automatically control illumination by the at least one light, liquid flow through the at least one liquid conduit, gas flow through the at least one gas conduit, and operation of the at least one robot.

Abstract: Various implementations include approaches for controlling a wearable audio device. In some cases, a method includes: detecting an initiation trigger for initiating a spatialized augmented reality (AR) menu mode; providing at least two distinct audio choices corresponding with spatially delineated zones in a menu defined relative to a physical position of the wearable audio device, in response to the initiation trigger, wherein each audio choice is associated with a selection from the menu; receiving a selection command indicating selection of one of the audio choices, wherein the selection command comprises a gesture detected by a gesture detection system at the wearable audio device; and in response to receiving the selection command: a) initiating playback of audio content associated with the selected audio choice, b) adjusting a setting at the wearable audio device, c) entering an additional menu related to the selection command, or d) exiting the menu.

Abstract: Various implementations include approaches for controlling a wearable audio device. In some cases, a method includes: detecting an initiation trigger for initiating a spatialized augmented reality (AR) menu mode; providing at least two distinct audio choices corresponding with spatially delineated zones in a menu defined relative to a physical position of the wearable audio device, in response to the initiation trigger, wherein each audio choice is associated with a selection from the menu; receiving a selection command indicating selection of one of the audio choices, wherein the selection command comprises a gesture detected by a gesture detection system at the wearable audio device; and in response to receiving the selection command: a) initiating playback of audio content associated with the selected audio choice, b) adjusting a setting at the wearable audio device, c) entering an additional menu related to the selection command, or d) exiting the menu.

Abstract: Various implementations include approaches for controlling a wearable audio device. In some cases, a method includes: detecting an initiation trigger for initiating a spatialized augmented reality (AR) menu mode; providing at least two distinct audio choices corresponding with spatially delineated zones in a menu defined relative to a physical position of the wearable audio device, in response to the initiation trigger, wherein each audio choice is associated with a selection from the menu; receiving a selection command indicating selection of one of the audio choices, wherein the selection command comprises a gesture detected by a gesture detection system at the wearable audio device; and in response to receiving the selection command: a) initiating playback of audio content associated with the selected audio choice, b) adjusting a setting at the wearable audio device, c) entering an additional menu related to the selection command, or d) exiting the menu.

Abstract: Various implementations include approaches for controlling a wearable audio device. Particular approaches include: receiving data indicating the wearable audio device is proximate an additional wearable audio device worn by an additional user and running a personally attributed audio engine; and initiating personally attributed audio playback at the wearable audio device, where the personally attributed audio playback includes audio playback associated with the additional user.

Abstract: Various implementations include approaches for dynamically demonstrating device capabilities in a wearable audio device based upon detected environmental conditions. In certain cases, these approaches include initiating a demonstration using the wearable audio device to provide the user with an example of the device capabilities, based upon detected environmental conditions proximate the wearable audio device and/or a biometric state of the device user.

Abstract: Various implementations include approaches for controlling a wearable audio device. Particular approaches include: receiving data indicating the wearable audio device is proximate an additional wearable audio device worn by an additional user and running a personally attributed audio engine; and initiating personally attributed audio playback at the wearable audio device, where the personally attributed audio playback includes audio playback associated with the additional user.

Abstract: Various implementations include approaches for dynamically demonstrating device capabilities in a wearable audio device based upon detected environmental conditions. In certain cases, these approaches include initiating a demonstration using the wearable audio device to provide the user with an example of the device capabilities, based upon detected environmental conditions proximate the wearable audio device and/or a biometric state of the device user.

Abstract: An automatic vertical farming system may include a frame defining at least one growth area and configured to support a plurality of vertical plant growth structures within the at least one growth area. The system may include at least one light, at least one liquid conduit, and at least one gas conduit. The system may include at least one robot disposed on a top side of the frame and movably supported by the frame. The at least one robot may include at least one tool configured to manipulate the plurality of vertical plant growth structures. The system may include a control system including at least one processor configured to automatically control illumination by the at least one light, liquid flow through the at least one liquid conduit, gas flow through the at least one gas conduit, and operation of the at least one robot.