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.

Abstract: A system enables threat monitoring in a school or other “crowd” environment. The premises where the crowd environment will exist includes one or more nodes that can gather realtime location data for multiple mobile devices. The system includes off-premises processing such as a data center, or an on-premises server, or both. The processing receives the realtime location data from the one or more nodes and performs swarm analytics processing on the data. The swarm analytics processing can determine if movement patterns indicated by the location data indicate a likely threat condition for the crowd. The system notifies a first responder of the threat condition. The system can optionally notify the users of the mobile devices as well.

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: A system enables threat monitoring in a school or other “crowd” environment. The premises where the crowd environment will exist includes one or more nodes that can gather realtime location data for multiple mobile devices. The system includes off-premises processing such as a data center, or an on-premises server, or both. The processing receives the realtime location data from the one or more nodes and performs swarm analytics processing on the data. The swarm analytics processing can determine if movement patterns indicated by the location data indicate a likely threat condition for the crowd. The system notifies a first responder of the threat condition. The system can optionally notify the users of the mobile devices as well.

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: 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: 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: 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.

Abstract: The present application is directed to a system for protecting male reproductive health. An example system may comprise at least a temperature control portion and a monitoring device. The temperature control portion may include a thermal accumulation material to absorb heat generated by male genitalia. The monitoring device may include at least one sensor to sense an internal temperature corresponding to a surface temperature of the male genitalia, and possibly a second sensor to sense a temperature external to the temperature control portion. The monitoring device may compare the internal and/or external temperatures to threshold temperature levels, and may take action based on either/both temperatures being at or above the threshold temperature levels.

Abstract: Technologies are presented that provide a cloud-based context-aware distributive taxi cab dispatching service to registered users. A method of providing this service may include receiving, from a user device of a registered user, a request for taxi information, obtaining the requested information from one or more computing devices of one or more taxi cabs or taxi service companies and one or more data stores, and providing the obtained information to the user device. The provided taxi information may be based on a passenger profile of the user and may include a list of taxi cabs recommended based on the profile. The method may further include scheduling a selected taxi cab. The method may also include monitoring the user's location and updating the scheduling of the taxi based on the user's location. The method may also include monitoring the user's location while in a taxi for data collection and safety reasons.