Abstract: Various systems and methods for personal sensory drones are described herein. A personal sensory drone system includes a drone remote control system comprising: a task module to transmit a task to a drone swarm for the drone swarm to execute, the drone swarm including at least two drones; a transceiver to receive information from the drone swarm related to the task; and a user interface module to present a user interface based on the information received from the drone swarm.

Abstract: Various systems and methods for personal sensory drones are described herein. A personal sensory drone system includes a drone remote control system comprising: a task module to transmit a task to a drone swarm for the drone swarm to execute, the drone swarm including at least two drones; a transceiver to receive information from the drone swarm related to the task; and a user interface module to present a user interface based on the information received from the drone swarm.

Abstract: Various systems and methods for personal sensory drones are described herein. A personal sensory drone system includes a drone remote control system comprising: a task module to transmit a task to a drone swarm for the drone swarm to execute, the drone swarm including at least two drones; a transceiver to receive information from the drone swarm related to the task; and a user interface module to present a user interface based on the information received from the drone swarm.

Abstract: Examples are disclosed for determining an interestingness score for one or more areas of interest included in a display element such as a static image or a motion video. In some examples, an interestingness score may be determined based on eye tracking or gaze information gathered while an observer views the display element.

Abstract: Technologies for immersive sensory experience sharing include one or more experience computing devices, an experience server, and a distance computing device. Each experience computing device captures sensor data indicative of a local sensory experience from one or more sensors and transmits the sensor data to the experience server. Sensors may include audiovisual sensors, touch sensors, and chemical sensors. The experience server analyzes the sensor data to generate combined sensory experience data and transmits the combined sensory experience data to the distance computing device. The experience server may identify one or more activities associated with the local sensory experience. The distance computing device renders a sensory experience based on the combined sensory experience data. The distance computing device may monitor a user response, generate user preferences based on the user response, and transmit the user preferences to the experience server. Other embodiments are described and claimed.

Abstract: Apparatuses, methods, and storage media for adaptive provision of content are described. In one instance, the apparatus may comprise a processor and an adaptive content provision module to be operated by the processor. The adaptive content provision module may include a content provision module to generate and provide for display a first view of content captured by first selected one or more of cameras, to a plurality of user devices; an analysis module to receive and analyze user response information provided by the plurality of user devices in response to the displayed first view of content; and a control module to control the content provision module to generate a second view of content captured by second selected one or more of the plurality of cameras, based at least in part on a result of the analysis of the user response information. Other embodiments may be described and claimed.

Abstract: Systems, apparatuses and methods may provide for classifying a physical proximity event with respect to a wearable device based on one or more of a haptic input or a scent input. Additionally, the classified physical proximity event may be correlated with an augmented reality (AR) effect, wherein the AR effect may be initiated via the wearable device. In one example, the AR effect cancels a negative perceptual impact of the physical proximity event.

Abstract: Systems and methods for directing foot traffic are disclosed. Crowd data is gathered from one or more crowd data sources to monitor crowd densities of a geographic area. Locations are received for pedestrian client devices within the geographic area. Augmented reality commands are determined and supplied to the pedestrian client devices to direct movement of users, generally away from more dense zones and toward less dense zones within the geographic area. The augmented reality commands may direct haptic augmented reality output by a pedestrian client device and/or an accessory associated therewith.

Abstract: This disclosure is directed to a control system for user apparel selection. A system may comprise a control device to receive information from at least one sensor in an environment where apparel selection may commonly take place (e.g., closet). The control device may include communication circuitry, user interface circuitry, closet controller circuitry, etc. to receive user sensor data and apparel sensor data from the at least one sensor. Some or all of this data may be provided to at least one external resource such as, for example, an apparel designer, an apparel manufacturer, a feedback accumulation website, etc., to elicit at least styling data. Apparel control logic within the device may utilize the above data along with context data that describes, for example, the event for which the apparel is required, environmental data (e.g., weather), etc. to disposition apparel, suggest at least one piece of apparel to the person, etc.

Abstract: Technologies for immersive sensory experience sharing include one or more experience computing devices, an experience server, and a distance computing device. Each experience computing device captures sensor data indicative of a local sensory experience from one or more sensors and transmits the sensor data to the experience server. Sensors may include audiovisual sensors, touch sensors, and chemical sensors. The experience server analyzes the sensor data to generate combined sensory experience data and transmits the combined sensory experience data to the distance computing device. The experience server may identify one or more activities associated with the local sensory experience. The distance computing device renders a sensory experience based on the combined sensory experience data. The distance computing device may monitor a user response, generate user preferences based on the user response, and transmit the user preferences to the experience server. Other embodiments are described and claimed.

Abstract: Systems and methods for directing foot traffic are disclosed. Crowd data is gathered from one or more crowd data sources to monitor crowd densities of a geographic area. Locations are received for pedestrian client devices within the geographic area. Augmented reality commands are determined and supplied to the pedestrian client devices to direct movement of users, generally away from more dense zones and toward less dense zones within the geographic area. The augmented reality commands may direct haptic augmented reality output by a pedestrian client device and/or an accessory associated therewith.

Abstract: Systems, apparatuses and methods may provide for classifying a physical proximity event with respect to a wearable device based on one or more of a haptic input or a scent input. Additionally, the classified physical proximity event may be correlated with an augmented reality (AR) effect, wherein the AR effect may be initiated via the wearable device. In one example, the AR effect cancels a negative perceptual impact of the physical proximity event.

Abstract: Various systems and methods for personal sensory drones are described herein. A personal sensory drone system includes a drone remote control system comprising: a task module to transmit a task to a drone swarm for the drone swarm to execute, the drone swarm including at least two drones; a transceiver to receive information from the drone swarm related to the task; and a user interface module to present a user interface based on the information received from the drone swarm.

Abstract: An item of value comprises an assembly of parts. The parts comprise a component that has value independent of the item, and an assembly security system that is operable to communicate with a central security system via a wide area network. The component comprises a component security system that is operable to communicate with the assembly security system. The assembly security system is operable to perform operations comprising (a) saving component data that identifies the component as part of the item; (b) after saving the component data, monitoring the component, via the component security system, to automatically determine whether the component has left a predetermined zone of proximity, relative to the item; and (c) in response to determining that the component has left the predetermined zone of proximity, automatically notifying the central security system that the component has left the predetermined zone of proximity. Other embodiments are described and claimed.

Abstract: Apparatuses, methods, and storage media for adaptive provision of content are described. In one instance, the apparatus may comprise a processor and an adaptive content provision module to be operated by the processor. The adaptive content provision module may include a content provision module to generate and provide for display a first view of content captured by first selected one or more of cameras, to a plurality of user devices; an analysis module to receive and analyze user response information provided by the plurality of user devices in response to the displayed first view of content; and a control module to control the content provision module to generate a second view of content captured by second selected one or more of the plurality of cameras, based at least in part on a result of the analysis of the user response information. Other embodiments may be described and claimed.

Abstract: An item of value comprises an assembly of parts. The parts comprise a component that has value independent of the item, and an assembly security system that is operable to communicate with a central security system via a wide area network. The component comprises a component security system that is operable to communicate with the assembly security system. The assembly security system is operable to perform operations comprising (a) saving component data that identifies the component as part of the item; (b) after saving the component data, monitoring the component, via the component security system, to automatically determine whether the component has left a predetermined zone of proximity, relative to the item; and (c) in response to determining that the component has left the predetermined zone of proximity, automatically notifying the central security system that the component has left the predetermined zone of proximity. Other embodiments are described and claimed.

Abstract: Examples are disclosed for determining an interestingness score for one or more areas of interest included in a display element such as a static image or a motion video. In some examples, an interestingness score may be determined based on eye tracking or gaze information gathered while an observer views the display element.

Abstract: According to some embodiments, hand gestures may be entirely used to control the apparent action of objects on a display screen. As used herein, using “only” hand gestures means that no physical object need be grasped by the user's hand in order to provide the hand gesture commands. As used herein, the term “hand-shaped cursor” means a movable hand-like image that can be made to appear to engage or grasp objects depicted on a display screen. In contrast a normal arrow cursor cannot engage objects on a display screen.

Abstract: Perceptual computing with a conversational agent is described. In one example, a method includes receiving a statement from a user, observing user behavior, determining a user context based on the behavior, processing the user statement and user context to generate a reply to the user, and presenting the reply to the user on a user interface.