Illuminated signal devices and speed detectors for audio/video (A/V) recording and communication devices in accordance with various embodiments of the present disclosure are provided. In one embodiment, an illuminated signal device for providing a warning message of a passing vehicle is provided, the device comprising a speed detecting module, a communication module, and a processing module operatively connected to the speed detecting module and the communication module, the processing module comprising a processor, and a speed detecting application, wherein the speed detecting application configures the processor to detect motion of the passing vehicle using the speed detecting module, obtain speed data of the passing vehicle using the speed detecting module, and transmit the obtained speed data to a backend server, using the communication module, for providing the warning message of the passing vehicle to at least one social network.

In an aspect, a system for using artificial intelligence to evaluate, correct, and monitor user attentiveness includes a forward-facing camera, the forward-facing camera configured to capture a video feed of a field of vision on a digital screen, at least a user alert mechanism configured to output a directional alert to a user, a processing unit in communication with the forward-facing camera and the at least a user alert mechanism, a screen location to spatial location map operating on the processing unit, and a motion detection analyzer operating on the processing unit, the motion detection analyzer designed and configured to detect, on the digital screen, a rapid parameter change, determine a screen location on the digital screen of the rapid parameter change, retrieve, from the screen location to spatial location map, a spatial location based on the screen location, and generate, using the spatial location, the directional alert.

A method and apparatus are disclosed for distributing content items to a handheld device using a personal computer. A user can browse and select content using a personal computer or other computer that may be more readily available or more convenient to use than the handheld device. The personal computer can communicate with a web server which receives the user's request for content to be distributed to the handheld device. The web server can retrieve configuration information pertaining to the handheld device and communicate with a content server to determine whether the user's request for content distribution is valid based on information identifying the handheld device and at least some of the configuration information pertaining to the handheld device. The content server can transmit the requested content item to the handheld device if the user's request is valid and if the handheld device is able to receive the content item.

An optical connector includes a first sub-assembly that is factory-installed to a first end of an optical fiber and a second sub-assembly that is field-installed to the first end of the optical fiber. The optical fiber and first sub-assembly can be routed through a structure (e.g., a building) prior to installation of the second sub-assembly. The second sub-assembly interlocks with the first sub-assembly to inhibit relative axial movement therebetween. Example first sub-assemblies include a ferrule, a hub, and a strain-relief sleeve that mount to an optical fiber. Example second sub-assemblies include a mounting block; and an outer connector housing forming a plug portion.

A vehicle messaging method (600) and system (100) can include any number of data sources (101-103), an interface (104) that formats messages and addresses from the data sources, and a corresponding number of messaging servers (111-113) that receive targeted messages intended for a predetermined subset of subscribers associated with a vehicle identification number (VIN). Each messaging server can include a corresponding controller (121-123) programmed to assign (604) targeted messages to a predetermined channel and encode (606) the addresses of the targeted messages to the predetermined subset of subscribers using a VIN or portion thereof. The controller can be further programmed to transfer (608) the targeted messages and addresses to a satellite uplink (107) and satellite (110) via a messaging uplink interface (106) for retransmission and reception by a plurality of selective call receivers 109 addressable individually using a predetermined VIN or portion thereof.

The application is directed to techniques and processes for integrating multiple security systems. For instance, a system may receive first data from a first security system, where the first data indicates that the first security system detected a security event. The system may then analyze the first data to determine a type of the security event, a time frame of the security event, and/or a threat level of the security event. Based at least in part on the analyzing, the system may determine a security procedure for a second security system. The second security system may be located proximate to the first security system and/or may be included in a same security system network as the first security system. The security procedure may include changing a mode of the second security system and/or causing an electronic device of the second security system to generate image data.

The present invention relates to a flooring system for generating electricity from users as they walk. A flooring system (1) for characterising a footstep (2), comprising: a plurality of tiles (200) for supporting one or more people; and a plurality of sensors (100x, 100y, 100z), each sensor (100x, 100y, 100z) arranged to generate a signal representing a force applied thereto, wherein each tile (200) is supported by at least three sensors (100x, 100y, 100z), the flooring system (1) further comprising a data processing system (1001) in communication with each sensor (100x, 100y, 100z) for receiving the signal generated thereby, wherein for each tile (200): the data processing system (1001) is arranged to produce output data by comparing the signals received from the sensors (100x, 100y, 100z) supporting that tile (200) to estimate the location of a footstep (2).

An optical connector includes a first sub-assembly that is factory-installed to a first end of an optical fiber and a second sub-assembly that is field-installed to the first end of the optical fiber. The optical fiber and first sub-assembly can be routed through a structure (e.g., a building) prior to installation of the second sub-assembly. The second sub-assembly interlocks with the first sub-assembly to inhibit relative axial movement therebetween. Example first sub-assemblies include a ferrule, a hub, and a strain-relief sleeve that mount to an optical fiber. Example second sub-assemblies include a mounting block; and an outer connector housing forming a plug portion.

A solution is proposed for controlling usage of one or more perishable products. A corresponding method comprises storing an indication of one or more package events that may affect a duration of the perishable product being sensed by one or more sensors associated with the package; receiving an interrogation signal from a smart portable device of a user of the perishable product; retrieving package information being stored in association with the control unit in response to the interrogation signal, the package information comprising the indication of at least part of the package events; and transmitting the package information to the smart portable device for use by the smart portable device to control the usage of the perishable product according thereto.

An electric field detector includes field detection circuitry configured to detect voltage in an electric field in an environment and configured to determine if the voltage meets or exceeds a voltage threshold. A warning module operably connected with the field detection circuitry is configured to provide a warning to operators in the environment. A communication module operably connected with the field detection circuitry communicates a warning notification to another electric field detector.