Abstract: An application configured to provide a service using a particular type of sensor data can be executed by a first mobile device. The application attempting to access the particular type of sensor data from the first mobile device can be detected. Responsive to detecting the application attempting to access the particular type of sensor data from the first mobile device, the first mobile device can receive first sensor data from at least a second mobile device via at least a first low energy communication link, wherein the first sensor data received from the second mobile device is the particular type of sensor data the application is attempting to access, and the first mobile device can execute program code configured to provide the particular type of sensor data, and providing the first sensor data received from the second mobile device to the application.

Abstract: A method of black ice detection includes receiving image stream data from a mobile device. The mobile device is in a vehicle. At least one of accelerometer data from at least one accelerometer, temperature and humidity data, and on board dash vehicle data is received. A classifier embedded in the mobile device is run to evaluate the received image stream data, and the at least one of the accelerometer data, the temperature and humidity data, and the on board dash vehicle data. It is determined whether black ice is present in the image stream data based on a result generated by the classifier.

Abstract: Technical solutions are described for selecting components from multiple vendors for a system. An example computer-implemented method includes receiving, by a processor, an environment map that identifies a first component placeholder of the system. The computer-implemented method further includes identifying, by the processor, that the first component placeholder interfaces with a second component placeholder of the system. The computer-implemented method further includes determining, by the processor, a role assigned to the first component placeholder, where the role indicates a type of data that a first component at the first component placeholder communicates with a second component at the second component placeholder. The computer-implemented method further includes determining, by the processor, a list of components for selecting the first component, where each component from the list of components matches the role assigned to the first component placeholder.

Abstract: A method of black ice detection includes receiving image stream data from a mobile device. The mobile device is in a vehicle. At least one of accelerometer data from at least one accelerometer, temperature and humidity data, and on board dash vehicle data is received. A classifier embedded in the mobile device is run to evaluate the received image stream data, and the at least one of the accelerometer data, the temperature and humidity data, and the on board dash vehicle data. It is determined whether black ice is present in the image stream data based on a result generated by the classifier.

Abstract: Techniques for improving real-time communications over a mobile network are provided. In one aspect, a method for managing data transfer in a mobile network wherein user equipment transmit data through one or more cell towers is provided. The method includes the steps of: intercepting data packets from the user equipment; determining a location of a given one of the cell towers in the mobile network to which the data packets are to be sent; and tunneling the data packets directly to the given cell tower. A system for managing data transfer in a mobile network wherein user equipment transmit data through one or more cell towers is also provided.

Abstract: Embodiments include methods, systems and computer programs for deployment and execution of tasks in a network of computing devices. Aspects include creating by a requester device of a task for deployment and execution in the network wherein the task is composed of a set of computing and sensing programs and a task representation that includes at least one of computing requirements, data requirements, and context requirements and transmitting the task representation to at least one member of the network of computing devices. Aspects also include selecting a plurality of computing devices in the network that match at least one of the computing requirements, the data requirements, and the context requirements in the task representation and deploying each of the set of computing and sensing programs of the task to the selected computing devices.

Abstract: According to an embodiment, a method for registering a component is provided. The method includes receiving a request for registration of the component. The method also includes acquiring registration information of the component in response to the request by communicating directly with the component and exacting the registration information and modifying a registration entry associated with the component in a registration database according to the registration information.

Abstract: An application configured to provide a service using a particular type of sensor data can be executed by a first mobile device. The application attempting to access the particular type of sensor data from the first mobile device can be detected. Responsive to detecting the application attempting to access the particular type of sensor data from the first mobile device, the first mobile device can receive first sensor data from at least a second mobile device via at least a first low energy communication link, wherein the first sensor data received from the second mobile device is the particular type of sensor data the application is attempting to access, and the first mobile device can execute program code configured to provide the particular type of sensor data, and providing the first sensor data received from the second mobile device to the application.

Abstract: Techniques for reconfiguring mobile networks based on network state information are provided. In one aspect, a method for managing a mobile network is provided. The method includes the steps of: gathering network state information from an edge of the mobile network, wherein the edge of the mobile network includes a radio network and a cellular network through which user equipment communicate with an internet protocol (IP) network which is at a core of the mobile network; analyzing the network state information based on policy controls to determine actions for optimizing the mobile network; and reconfiguring the mobile network using the actions for optimizing the mobile network. A system for managing a mobile network is also provided.

Abstract: Techniques for improving real-time communications over a mobile network are provided. In one aspect, a method for managing data transfer in a mobile network wherein user equipment transmit data through one or more cell towers is provided. The method includes the steps of: intercepting data packets from the user equipment; determining a location of a given one of the cell towers in the mobile network to which the data packets are to be sent; and tunneling the data packets directly to the given cell tower. A system for managing data transfer in a mobile network wherein user equipment transmit data through one or more cell towers is also provided.

Abstract: A portable computing system includes a portable computing device consisting essentially of a logical processor, a memory in communication with the logical processor with operating system software, a high speed, secure wireless communication module in communication with the logical processor, an integrated power source suitable to provide all power needs of the portable computing device and an integrated electric power generation mechanism in communication with the integrated power source power source to recharge the integrated power source. In addition a visual display is provided that has a power supply separate from the integrated power source of the portable computing device and a complementary wireless communication module, the portable visual display in communication with the high speed, secure wireless communication module through the complementary wireless communication module. The portable computing device and the visual display do not share a physical connection.

Abstract: Disclosed are structures comprising a composite of fluorinated particulate carbon dispersed in a polymer, the fluorinated carbon being present in an amount sufficient to reduce the dielectric constant of the composition, the structure also including electrical conductor patterns.The composite can be made conductive by irradiating it with an UV excimer laser.

Abstract: Disclosed are structures comprising a composite of fluorinated particulate carbon dispersed in a polymer, the fluorinated carbon being present in an amount sufficient to reduce the dielectric constant of the composition, the structure also including electrical conductor patterns.The composite can be made conductive by irradiating it with an UV excimer laser.

Abstract: Disclosed is a process of effecting a change in the dielectric constant and coefficient of thermal expansion of a polyimide material, by forming a composite based on a dispersion of 2-60 wt. % of fluorinated particulate carbon material and a polyimide or polyimide precursor, and heating the dispersion to about 400.degree. C. at 65.degree.-200.degree. C./second.

Abstract: Disclosed are structures comprising a composite of fluorinated particulate carbon dispersed in a polymer, the fluorinated carbon being present in an amount sufficient to reduce the dielectric constant of the composition, the structure also including electrical conductor patterns. The composite can be made conductive by irradiating it with an UV excimer laser.