CPC Class H04W

Systems and methods can support determining the physical position of a wireless device. Radio frequency sensors may be positioned within an electromagnetic environment where user equipment devices are serviced by a base station. The radio frequency sensors can receive wireless uplink signals transmitted from the user equipment devices to the base station. Data samples can be generated from the received signals. The data samples may be partitioned in time and frequency to generate spectrum tiles. The spectrum tiles may be statistically aggregated to reduce the quantity of data samples. A clustering algorithm may be applied to the statistically aggregated spectrum tiles to determine clusters of spectrum tiles. Signal parameters associated with respective clusters of spectrum tiles may be computed. Physical locations associated with user equipment devices can be estimated from the signal parameters associated with the respective clusters of spectrum tiles.

A method is provided of enhancing GPS data of a host vehicle within a cluster. V2V messages within the cluster are exchanged. A respective vehicle having a highest GPS trust factor is identified utilizing GPS data within the V2V messages. The GPS data of the host vehicle is adjusted as a function of GPS position of the identified vehicle and relative position data between the host vehicle and the identified vehicle.

A virtual reality goggle includes a goggle shaped body having multiple cameras mounted thereon. A display is supported by the goggle shaped body. A support extends between sides of the goggle shaped body and includes multiple cameras. Circuitry is coupled to receive video from the multiple cameras, the video comprising a composite field of view of approximately 360 degrees about the goggle, the circuitry to couple to a wireless communication device to transmit the received video to networked processing services, and to receive stitched stereoscopic three dimensional virtual reality video from the networked processing services, the circuitry further coupled to provide the received stitched stereoscopic three dimensional virtual reality video for display.

Methods and systems relating to the monitoring and control of heating devices in multiple units in one or more buildings. An intelligent node, containing a monitoring module and a controlling module, is installed for each unit in a building. The monitoring module monitors the activation and deactivation of the heating device or, alternatively, directly measures the amount of power used by the heating device. This monitoring data is transmitted to a central server and is sent to a user. The user can control the duty cycle of the heating device and, as such, can directly cause savings in energy. The duty cycle for each heating device is adjusted by the controlling module based on the user's commands. The system can also be used so that the duty cycle is set such that energy settings for adjacent units are similar.

A computer-implemented method for configuring or controlling a device is provided. In addition, a computer program product, and a device are provided. The method comprises detecting, by the device, an event, generating serialized event data in response to the event, receiving the event data from the device, identifying, via an expression, at least one element of the event data, wherein the element indicates a state of the device, performing at least one operation on the element of event data, wherein the operation includes determining the state of the device, displaying a result of the operation, determining whether an indication of an error in the result is received, and when a determination is made that there is no error and the result indicates that the state of the device is a specified state, performing, by the device, a task.

The invention relates to a method for operating a processing device (2) that comprises a control unit (4) and at least one field device (8, 10, 12) connected to said control unit (4) for the purpose of exchanging data via a data exchange connection (6), in which a field device (10) to be exchanged is replaced by another field device (12) to be inserted, and which comprises the steps of: generating an exchange signal (AS) using an exchange signal generator (14), and transmitting said exchange signal (AS) to the control unit (4). The invention also relates to a corresponding processing device and a control unit, field device, and exchange signal generator, as well as a computer program.

A system and method for mitigating or avoiding risks due to hazards encountered by platooning vehicles. The system and method involve interrogating, with one or more sensors, a space radially extending from a lead vehicle as the lead vehicle travels over the road surface, perceiving the environment within the space, ascertaining a hazard caused by an object in the space, and causing a following vehicle, operating in a platoon with the lead vehicle, to take a preemptive braking action to avoid or mitigate risks resulting from the hazard caused by the object in the space.

A wearable smart device of the present invention comprises: a main body on which a basic module is mounted; a band on which at least one auxiliary module is mounted, which is selectively attached and detached to the main body made of a polymer material or a rubber material to be bent; a connector electrically connecting the main body and the band; and a coupler physically connecting the main body and the band. According to a configuration of the present invention, the present invention is possible in realizing a high-capacity and high-performance smart device.

A system comprising a plurality of self-powered devices and at least one remote device. The plurality of self-powered devices may be configured to perform instructions. The plurality of self-powered devices may be configured to select one of a plurality of modes of operation. The remote device may be configured to store scheduling data. The remote device may be configured to communicate with the self-powered devices. The self-powered devices may select one of the plurality of modes of operation based on the scheduling data.