Methods and systems for providing standardized mobile device distraction prevention and safety protocols are disclosed. In particular, an embodiment of a method for activating a distraction prevention or safety protocol behavior in a mobile device when the mobile device satisfies a specific condition is disclosed. The method includes discovering one or more protocol activators configured to transmit discovery information associated with a specific condition. The method further includes activating distraction prevention safety protocol behavior in the mobile device based at least in part on the discovery information. In an implementation, the specific condition may be a specified environment itself and or include an event when the mobile device enters a specified environment, or a specified sequence of numbers is dialed from the mobile device.

A communication device comprising: one or more processors and one or more memories supporting communication, the device comprising a plurality of modes, including at least a normal mode and at least one focused mode, wherein the normal mode is distinct from the focused mode, and wherein, when the device is in the focused mode one or more features of the device are at least partially disabled, and wherein the one or more features of the device that are at least partially disabled in the focused mode include one or more features relating to communication supported by the device, wherein the device is configured to: support a user interface (UI) for setting one or more focused time periods, and wherein the device is further configured to switch to the at least one focused mode during the focused time periods.

A method includes receiving initial sensor data and additional sensor data; and generating combined sensor data. A computing device for includes one or more processors; and one or more memories coupled to the one or more processors, the one or more memories including non-transitory computer executable instructions stored therein that, when executed by the one or more processors, cause the one or more processors to: receive initial sensor data and additional sensor data; and generate combined sensor data. A computer readable storage medium includes non-transitory computer readable instructions stored thereon for generating data regarding a vehicle crash, wherein the instructions when executed on one or more processors cause the one or more processors to: receive initial sensor data and additional sensor data; and generate combined sensor data.

A selectively handsfree communications module for use in high speed pursuits includes first and second switches, which are operationally engageable to a control panel of a first radio mounted in a first vehicle and to the first radio, respectively. The first radio is equipped for two-way communication with one or both of a base station and at least one second radio of a second vehicle. The second switch is engageable to a floorboard of the first vehicle and can be actuated by a foot of an operator. Programming code, which is selectively positionable on a microprocessor of the first radio, enables the microprocessor to accept signals from the first and second switches. Switching of the first switch signals the microprocessor to operate the first radio in a handsfree operational mode, wherein a microphone and a transceiver of the first radio are actuated upon actuation of the second switch.

Disclosed embodiments are directed an application program configured to run on a user's mobile device can allow voice-activated call pick-up to the user, without the user having to use his or her hands for picking up the call. For example, the application program can initially be trained to a user's voice command. When an incoming call is received at the mobile device, the user can pick up the call by issuing a voice command. In some embodiments, the application program can determine whether to allow voice-activated pick-up of calls based on data collected from multiple sensors associated with the vehicle, the mobile device, or a remote source.

A crash detection system for a vehicle comprises first and second batteries and a computational system comprising a processor and a non-transitory computer-readable medium. First and second antennas are both in electronic communication with the computational system and powered by one of the batteries, with the antennas configured to independently wirelessly communicate with an external network. A microphone powered by one of the batteries and in electronic communication with the computational system. The microphone continuously receives sound waves in real time and transmits sound signals to the processor. The processor monitors properties of the sound waves within the sound signals, compares the properties to thresholds stored in the non-transitory computer-readable medium, determines if the vehicle has been involved in a collision if at least one of the properties crosses the respective threshold, and communicates with the external network to report the collision with one of the antennas.

The present invention provides a safety control system for a vehicle with controls located on the vehicle steering wheel. The controls may be arranged in a cluster on one or both sides of the upper half of the steering wheel or on a special flange mounted to the steering wheel. The contours are easily recognizable and accessible while driving without any distraction to the driver. The controls can be enhanced by varied coloring, shape, size, and texture to make them easily identifiable. The controls can be used with portable telematics devices, in a multi-modal process in conjunction with thumb gesture interpretation or speech recognition. A universal portable device docking station may be used in conjunction with the control system.

A system and method for applying a low strength, low frequency magnetic field therapy to biological tissues. A coil is excited with a low frequency oscillating current, e.g., 10-1000 Hz. The coil is, e.g., 5-200 turns, having a diameter of 2-20 mm, and produces a magnetic field strength of about 0.01-5 mTelsa at a distance of 1 cm from the coil, or a cover over the coil, into the tissue. The current is preferably controlled by a smartphone or other programmable device controlled by a downloadable app in accordance with a PEMF program which may be separately downloaded or updated, and may be provided through an audio jack. Alternately, a digital interface and/or wireless interface may control the current. An app on the smartphone may be used to control the frequency, amplitude/envelope modulation, waveform, duration, etc. of the oscillation. The coil may be in mineral housing with a simple filter, and TRRS-type audio jack.

The disclosed system may include a first and a second mobile device coupled to a vehicular system, the vehicular system may include a processor and a memory including executable instructions that cause the processor to effectuate operations including (i) receiving an indication that the first mobile device is associated with a first driver of the vehicle when the first mobile device comes into proximity with the vehicular system, (ii) determining that the second mobile device is associated with the first driver of the vehicle based on identifying a biometric of the first driver, (iii) based on the indication received from the first mobile device, instructing the vehicular system to cause the first mobile device and the second mobile device to enter a mode, (iv) detecting an override from the first mobile device, and (v) responsive to detecting the override, instructing the vehicular system to release the second mobile device from the mode.

The present application discloses exemplary arrangements of an end-fire microphone array inside a vehicle and exemplary digital signal processors configured for the end-fire in-car microphone array. The exemplary digital signal processors may be configured in two modes, a phone call mode and an automatic speech recognition mode. In each mode, the exemplary digital signal processors are improved for enhanced SNR. Different end-fire microphone array arrangements are also disclosed.