A user device may be used to prevent a user from driving a vehicle while distracted by the user device. The user device may create a user profile, determine whether the user is driving, and collect usage data while the user is driving. The user profile may include information regarding the driver's propensity to be distracted while driving and the usage data may include information on whether the user is actually distracted by the user device. The user device may determine whether the driver is distracted based on the user profile and the usage data, and may respond in one or more ways, such as by alerting the driver with an audio signal, disabling a feature of the user device, logging instances of user distraction with a diagnostics device, activating a braking system of the vehicle, warning nearby drivers about the driver being distracted, and more.

A separation alert device for warning a user of separation from an item includes a housing that defines an internal space. The housing is configured for retention on the user's person. A power module, a microprocessor, a first proximity sensor and a plurality of alarms are coupled to the housing and are positioned in the internal space. The microprocessor is operationally coupled to the power module. The first proximity sensor and the alarms are operationally coupled to the microprocessor. A second proximity sensor is in wireless communication with the microprocessor. The second proximity sensor is coupled to an item that the user desires to retain proximate to the user. The microprocessor is positioned to receive a location signal from the second proximity sensor. Separation of the first proximity sensor by a preset distance from the second proximity sensor will compel the microprocessor to compel the alarms to notify the user.

A separation alert device for warning a user of separation from an item includes a housing that defines an internal space. The housing is configured for retention on the user's person. A power module, a microprocessor, a first proximity sensor and a plurality of alarms are coupled to the housing and are positioned in the internal space. The microprocessor is operationally coupled to the power module. The first proximity sensor and the alarms are operationally coupled to the microprocessor. A second proximity sensor is in wireless communication with the microprocessor. The second proximity sensor is coupled to an item that the user desires to retain proximate to the user. The microprocessor is positioned to receive a location signal from the second proximity sensor. Separation of the first proximity sensor by a preset distance from the second proximity sensor will compel the microprocessor to compel the alarms to notify the user.

Power models may be used to identify devices in a building or state changes of devices in a building by processing a power monitoring signal with the power models. A power model for a device may be trained using examples of power monitoring signals corresponding to that device, and network monitoring may be used to identify training data for training power models for that device. Network monitoring may include receiving information about network packets transmitted by devices in the building and processing the information about the network packets to determine information about a state change of a first device in the building at a first time. A portion of the power monitoring signal that includes the first time may then be used to train a power model for the first device. The trained power model for the first device may then be deployed to a building where it used to perform power monitoring of the first device.

The disclosed computer-implemented method for detecting text display manipulation attacks may include (1) extracting a file name from a file that is under evaluation for malicious content, (2) inspecting, by a software security system, the file name for at least one control character that manipulates how the file name is displayed, (3) determining, based on inspecting the file name, that the file name includes the control character that manipulates how the file name is displayed, and (4) performing, by the software security system, a security action based at least in part on the determination that the file name includes the control character. Various other methods, systems, and computer-readable media are also disclosed.

A head-mounted impact sensing and warning device includes a band adapted to be worn around at least a portion of the head or helmeted area of a user; an impact sensing device configured to sense an impact sustained by the head or the helmeted area of the user; at least one visual indicating device operatively coupled to the impact sensing device, the at least one visual indicating device configured to produce a visual indicator when the impact sensing device senses an impact that exceeds a predetermined impact level, thereby providing a visual alert that the impact sustained by the head or the helmeted area of the user exceeded the predetermined impact level; and a unit housing containing the impact sensing device and the at least one visual indicating device, the unit housing being coupled to the band or the helmeted area.

This disclosure relates to a system and method for determining responsiveness of a driver of a vehicle to feedback regarding driving behaviors. The system may include a sensor configured to generate output signals conveying first driving behavior information, which may characterize operation of the vehicle by the driver. The system may include one or more processors configured to obtain the first driving behavior information. The one or more processors may effectuate provision of feedback defined by feedback information based on the first driving behavior. The sensor may be configured to output signals conveying second driving behavior information, which may characterize operation of the vehicle by the driver during and/or subsequent to the provision of the feedback. The one or more processors may be configured to obtain the second driving behavior information and assess responsiveness of the driver to the feedback based on the second driving behavior information.

Methods and systems for monitoring and control of remote processes are provided herein. The methods comprise communications over a cellular or satellite network, and monitoring and control of multiple processes over vast distances. The systems feature a physical or virtual controller connected to and accessible via the Internet. An Internet-accessible user dashboard is also provided.

Methods and systems for monitoring and control of remote processes are provided herein. The methods comprise communications over a cellular or satellite network, and monitoring and control of multiple processes over vast distances. The systems feature a physical or virtual controller connected to and accessible via the Internet. An Internet-accessible user dashboard is also provided.

A computing device may communicate with a mobile node via a wireless link, and may determine if the mobile node is within range or out of range. In response to that determination, the computing device may cause various actions to occur, such as opening a door, unlocking a door, arming/disarming a monitoring system, activating a light, or other actions.