Digital Ally, Inc. Patent applications |
Patent application number | Title | Published |
20150050003 | COMPUTER PROGRAM, METHOD, AND SYSTEM FOR MANAGING MULTIPLE DATA RECORDING DEVICES - A multiple recording device management system including an intermediate multiple recording device managing apparatus, a vehicle recording device mounted in a police vehicle and synced to the managing apparatus, and a personal recording device carried by a police officer and wirelessly synced to the managing apparatus. The managing apparatus is operable to detect when the vehicle recording device, personal recording device, or any other synced device in range has begun recording and to transmit a communication signal to any synced recording device in range indicating that the recording device should begin recording and to further transmit a time stamp to synced recording devices for corroborating recorded data. | 02-19-2015 |
20140125966 | TRAFFIC SCANNING LIDAR - A system for determining the speed and position of objects comprises a beam source, a transmit reflection device, a beam receiver, a receive reflection device, and a controller. The beam source may generate a beam. The transmit reflection device may reflect the beam at the objects and may include a plurality of transmit faces with each transmit face oriented at a different angle and operable to reflect the beam at a different height. The beam receiver may detect the beam. The receive reflection device may include a plurality of receive faces with each receive face oriented at a different angle and operable to focus the beam reflected from objects at different heights onto the beam receiver. The controller may determine the position of the objects over time and calculate the speed of the objects based on a change in the position of the objects. | 05-08-2014 |
20140092299 | PORTABLE VIDEO AND IMAGING SYSTEM - A portable video and imaging system includes a camera for capturing video of an event, and a video recording device for recording the captured video of the event. The camera is housed in a first housing, the recording device is housed in a second housing, and the first and second housings are physically separate. Various embodiments provide for the system to be mounted to a user's body, an article of clothing, such as a shirt or a hat, to a vehicle, or to an ancillary component carried by the user, such as a firearm. | 04-03-2014 |
20140092251 | MOBILE VIDEO AND IMAGING SYSTEM - An all-weather non-enclosed-vehicle mounted system for recording video and audio. The weatherproof system comprises an interface for connecting various system components and external devices, a display monitor integrated into the same housing as an electronics module operable to receive the video and audio, and a memory operable to receive and store the video and audio. | 04-03-2014 |
20130342697 | VEHICLE-MOUNTED VIDEO SYSTEM WITH DISTRIBUTED PROCESSING - A vehicle-mounted system for recording video and audio. The system uses distributed processing, including encoding the video and audio at their source(s), and a high-speed, e.g., Ethernet, bus connecting the various system components and external devices. The system may include a display monitor which is integrated into the same housing as a rear view mirror of the vehicle, with the display monitor being located behind the mirror and video displayed on the monitor being visible through the mirror. | 12-26-2013 |
20130314537 | MULTI-FUNCTIONAL REMOTE MONITORING SYSTEM - A multi-functional remote monitoring system for use in a mobile surveillance system comprising a host controller, at least one hub transceiver, and at least one remote monitoring transmitter (“RMT”) operable to capture and transmit data, wherein the hub transceiver is operable to communicate to and receive data from the at least one RMT. The hub transceiver and the RMT are adapted for bi-directional transmission and receipt of data, including audio and data signals. The host controller is operable to control the hub transceiver and facilitate communication of the audio and data signals between the RMTs and the hub transceiver. | 11-28-2013 |
20110255070 | TRAFFIC SCANNING LIDAR - A system for determining the speed and position of objects comprises a beam source, a transmit reflection device, a beam receiver, a receive reflection device, and a controller. The beam source may generate a beam. The transmit reflection device may reflect the beam at the objects and may include a plurality of transmit faces with each transmit face oriented at a different angle and operable to reflect the beam at a different height. The beam receiver may detect the beam. The receive reflection device may include a plurality of receive faces with each receive face oriented at a different angle and operable to focus the beam reflected from objects at different heights onto the beam receiver. The controller may determine the position of the objects over time and calculate the speed of the objects based on a change in the position of the objects. | 10-20-2011 |
20100328463 | REAR VIEW MIRROR WITH INTEGRATED VIDEO SYSTEM - A vehicle-mounted system ( | 12-30-2010 |
20100167687 | MULTI-FUNCTIONAL REMOTE MONITORING SYSTEM - A multi-functional remote monitoring system for use in a mobile surveillance system comprising a host controller, at least one hub transceiver, and at least one remote monitoring transmitter (“RMT”) operable to capture and transmit data, wherein the hub transceiver is operable to communicate to and receive data from the at least one RMT. The hub transceiver and the RMT are adapted for bi-directional transmission and receipt of data, including audio and data signals. The host controller is operable to control the hub transceiver and facilitate communication of the audio and data signals between the RMTs and the hub transceiver. | 07-01-2010 |