Abstract: Systems and methods may provide for establishing a data usage budget based on one or more of user input and historical usage data, wherein the data usage budget distinguishes between usage types and distinguishes between connection types. Additionally, a data usage of one or more client devices may be monitored in accordance with the data usage budget. In one example, the usage types are designated as one or more of a high bandwidth usage and a low bandwidth usage, and the connection types are designated as one or more of a capped connection and a non-capped connection.

Abstract: Embodiments described herein relate generally to providing information through tactility. A computer system may receive an input from a user. The computer system may identify one or more locations associated with haptic elements disposed on a wearable haptic apparatus. The computer system may generate a message that includes an indication of the one or more locations. The computer system may transmit this message to the wearable haptic apparatus. The wearable haptic apparatus may actuate one or more haptic elements disposed thereon based on the indication of the one or more locations included in the message. Other embodiments may be described and/or claimed.

Abstract: Technologies for directional wayfinding include a mobile computing device having one or more local location sensors to generate data indicative of movement of the mobile computing device. The mobile computing device captures first sensor data indicative of movement of the mobile computing device along a path and determines a series of waypoints based on the first sensor data. The waypoints may describe movement data of the mobile computing device, including length and direction of movement. The mobile computing device determines a series of directional instructions to guide a user of the mobile computing device back along the path in the reverse order and presents the directional instructions to the user. The mobile computing device may monitor the sensor data to determine whether the user has arrived at each waypoint while reversing the path. The sensors may include an accelerometer, gyroscope, magnetometer, or altimeter. Other embodiments are described and claimed.

Abstract: Technologies for communicating roadway information includes a plurality of roadway markers configured to propagate communications amongst each other. To do so, each roadway marker is configured to transmit communications to one or more other roadway markers. The communications may include sensor data generated by a sensor of a roadway marker. One or more roadway markers may transmit the sensor data to a roadway controller. Additionally or alternatively, the communication may include an alert message. A roadway marker may include a local alert device and be configured to activate the alert device in response to receiving an alert message. Additionally, one or more roadway markers may communicate with a roadway controller, a roadway traffic device, and/or an in-vehicle computing system of a vehicle to propagate roadway marker sensor data and/or alert messages. The roadway controller may be configured to control the roadway traffic devices, roadway makers, and/or communicate with remote computing devices.

Abstract: Techniques for projecting virtual images are described herein. A plane of a surface may be identified, and a virtual image is projected onto the plane of the physical surface. The virtual image is rendered at a graphical user interface of a mobile computing device.

Abstract: Technologies for cloud-based media search and editing include a video editor configured to build a media query and associate the media query with a dynamic content slot of a media program. When generating video output based on the media program, the video editor transmits the media query to a cloud analytics server and receives 5 search results identifying one or more media clips produced by a number of mobile computing devices. The video editor may display a list of clips for selection by the user or may automatically include one of the clips in the output. The cloud analytics server transmits an acceptance policy defining criteria for acceptable media, based on the media query, to the mobile computing devices. The mobile computing devices configure 10 capture settings according to the acceptance policy and may display a user interface to assist the user in capturing acceptable media. Other embodiments are described and claimed.

Abstract: Technologies for directional wayfinding include a mobile computing device having one or more local location sensors to generate data indicative of movement of the mobile computing device. The mobile computing device captures first sensor data indicative of movement of the mobile computing device along a path and determines a series of waypoints based on the first sensor data. The waypoints may describe movement data of the mobile computing device, including length and direction of movement. The mobile computing device determines a series of directional instructions to guide a user of the mobile computing device back along the path in the reverse order and presents the directional instructions to the user. The mobile computing device may monitor the sensor data to determine whether the user has arrived at each waypoint while reversing the path. The sensors may include an accelerometer, gyroscope, magnetometer, or altimeter. Other embodiments are described and claimed.

Abstract: Embodiments described herein relate generally to providing information through tactility. A computer system may receive an input from a user. The computer system may identify one or more locations associated with haptic elements disposed on a wearable haptic apparatus. The computer system may generate a message that includes an indication of the one or more locations. The computer system may transmit this message to the wearable haptic apparatus. The wearable haptic apparatus may actuate one or more haptic elements disposed thereon based on the indication of the one or more locations included in the message. Other embodiments may be described and/or claimed.

Abstract: Technologies are presented that provide contextually interactive apparel in practical implementations and applications. A method for directing a change in an interface of a wearable device may include detecting a trigger and providing a change command to an interface controller of a wearable device based on the trigger. The interface controller may direct a change (e.g., a change in visual pattern, audio, etc.) in an interface of the wearable device, based on the change command, that is perceivable by persons in proximity of the wearable device. The providing the change command may include providing one or more change commands to a plurality of wearable devices in a choreographed manner. The method may further include determining other wearable devices that exist and/or are being concurrently worn within a predetermined proximity of the wearable device, and providing information regarding the other wearable devices.

Abstract: Systems and methods may provide for establishing a data usage budget based on one or more of user input and historical usage data, wherein the data usage budget distinguishes between usage types and distinguishes between connection types. Additionally, a data usage of one or more client devices may be monitored in accordance with the data usage budget. In one example, the usage types are designated as one or more of a high bandwidth usage and a low bandwidth usage, and the connection types are designated as one or more of a capped connection and a non-capped connection.

Abstract: Technologies for communicating roadway information includes a plurality of roadway markers configured to propagate communications amongst each other. To do so, each roadway marker is configured to transmit communications to one or more other roadway markers. The communications may include sensor data generated by a sensor of a roadway marker. One or more roadway markers may transmit the sensor data to a roadway controller. Additionally or alternatively, the communication may include an alert message. A roadway marker may include a local alert device and be configured to activate the alert device in response to receiving an alert message. Additionally, one or more roadway markers may communicate with a roadway controller, a roadway traffic device, and/or an in-vehicle computing system of a vehicle to propagate roadway marker sensor data and/or alert messages. The roadway controller may be configured to control the roadway traffic devices, roadway makers, and/or communicate with remote computing devices.

Abstract: Technologies for controlling vision correction of a wearable computing device includes controlling an opacity of an adjustable lens of the wearable computing device to generate a viewing port through the adjustable lens such that a region defined by the viewing port has an opacity less than a remaining region of the adjustable lens. For example, the opacity of the adjustable lens may be increased except for the region defined by the viewing port. In use, the wearable computing device may adjust the location, size, and/or shape of the viewing port based on a predefined prescription, the direction of the user's gaze, the user's viewing context, and/or other criteria. Additionally or alternatively, an image may be displayed on an external display surface of the adjustable lens. The wearable computing device may include multiple adjustable lens, each of which may be controlled in a similar manner.

Abstract: Various systems and methods for an intelligent ringer in smartphones are described herein. A system for implementing intelligent notifications includes a communication module to receive at a compute device, an indication of an incoming communication, a notification module to present from the compute device, a notification of the incoming communication, an audio processing module to determine whether a change in ambient noise occurs around the compute device while the notification is being presented, and a rules module to reference a rules engine to determine an action based on whether the change in ambient noise occurs, where the notification module is to present the notification in accordance with the action.

Abstract: Various systems and methods for implementing an unstructured user interface are described herein. A system for implementing an unstructured user interface comprises a monitor module to monitor, at a compute device, input received at an electronic palette, the input producing a plurality of data elements; a data tagging module to tag each of the plurality of data elements with a corresponding timestamp; a data structure construction module to use the timestamps of the plurality of data elements to organize the plurality of data elements into a data structure; and a user interface module to present a user interface to a user of the compute device, the user interface based on the data structure.

Abstract: Technologies for communicating roadway information includes a plurality of roadway markers configured to propagate communications amongst each other. To do so, each roadway marker is configured to transmit communications to one or more other roadway markers. The communications may include sensor data generated by a sensor of a roadway marker. One or more roadway markers may transmit the sensor data to a roadway controller. Additionally or alternatively, the communication may include an alert message. A roadway marker may include a local alert device and be configured to activate the alert device in response to receiving an alert message. Additionally, one or more roadway markers may communicate with a roadway controller, a roadway traffic device, and/or an in-vehicle computing system of a vehicle to propagate roadway marker sensor data and/or alert messages. The roadway controller may be configured to control the roadway traffic devices, roadway makers, and/or communicate with remote computing devices.

Abstract: Embodiments described herein relate generally to providing notifications over a network. A computing system may detect contextual information associated with a device. The contextual information may include, for example, information based on sensors of the device and/or information based on applications of the device. The computing system may determine whether the device is willing to receive a notification (e.g., a task or an alert) based on that contextual information. The computing system may indicate to a server whether the device is willing to receive the notification. If the device is willing to receive the notification, the server may communicate the notification to the device. Other embodiments may be described and/or claimed.

Abstract: Technologies for directional wayfinding include a mobile computing device having one or more local location sensors to generate data indicative of movement of the mobile computing device. The mobile computing device captures first sensor data indicative of movement of the mobile computing device along a path and determines a series of waypoints based on the first sensor data. The waypoints may describe movement data of the mobile computing device, including length and direction of movement. The mobile computing device determines a series of directional instructions to guide a user of the mobile computing device back along the path in the reverse order and presents the directional instructions to the user. The mobile computing device may monitor the sensor data to determine whether the user has arrived at each waypoint while reversing the path. The sensors may include an accelerometer, gyroscope, magnetometer, or altimeter. Other embodiments are described and claimed.

Abstract: Systems and methods may detect a proximity of one or more client devices to a venue that provides ambient music and generate an anonymous playlist based on preference data associated with the one or more client devices. Additionally, the anonymous playlist may be sent to the venue. In one example, one or more additional venue suggestions are sent to at least one of the one or more client devices based on the preference data and one or more playlists associated with the one or more additional venues.

Abstract: Various systems and methods for an intelligent ringer in smartphones are described herein. A system for implementing intelligent notifications includes a communication module to receive at a compute device, an indication of an incoming communication, a notification module to present from the compute device, a notification of the incoming communication, an audio processing module to determine whether a change in ambient noise occurs around the compute device while the notification is being presented, and a rules module to reference a rules engine to determine an action based on whether the change in ambient noise occurs, where the notification module is to present the notification in accordance with the action.

Abstract: Apparatuses, methods and storage medium associated with providing mobile cloud proxy service to mobile client devices are disclosed. In embodiments, a mobile cloud proxy device may include a cloud proxy server to provide the cloud proxy service to the mobile client devices while the mobile client devices are within a mobile cloud proxy service area serviced by the cloud proxy server. The cloud proxy server may include a device and service area management module to manage the mobile cloud proxy service area and the one or more mobile client devices, and a policy and service management module to manage and provide the mobile cloud proxy service in accordance with one or more cloud proxy service policies. Other embodiments may be disclosed and/or claimed.