Patent ID: 8274563
Filing Date: 2012-09-25
Classification: B60R,G08B,H04N

Abstract:
1. A portable security monitoring system for automatically detecting and tracking a dynamic triggering event occurring proximate to a first location and thereafter wirelessly reporting the dynamic triggering event to a remote second location, said portable security monitoring system comprising: means for automatically capturing real-time audio and video information of the detected dynamic triggering event; means for parsing said real-time audio and video information into a plurality of independently synchronized real-time data streams uniquely associated with a plurality of corresponding target zones defined at the first location respectively; and means for simultaneously playing back each of said independently synchronized real-time data streams so that the detected dynamic triggering event is displayed from a plurality of unique viewing angles at the remote second location, said unique viewing angles being associated with corresponding ones of said target zones; wherein said unique viewing angles are configured in such a manner that a chronological and cumulative view of said target zones is generated for permitting a user to identify real-time developments of the detected dynamic triggering event; wherein said automatic real-time audio and video information capturing means comprises: a plurality of portable real-time audio and video capturing devices removably seated at the first location for simultaneously capturing real-time audio information and real-time low speed video information of the detected dynamic triggering event, each of said real-time audio and video capturing devices maintaining a continuous line of sight along a corresponding one of said unique viewing angles so that each of said target zones are monitored during capturing processes; a plurality of sensors for detecting the dynamic triggering event, said sensors being communicatively coupled to said real-time audio and video capturing devices respectively, upon detection of the dynamic triggering event said sensors automatically generating and transmitting an activation signal to said real-time audio and video capturing devices for initializing a corresponding one of the capturing processes at said target zones respectively; and a first transceiver communicatively coupled to said real-time audio and video capturing devices for transmitting said real-time audio and video information to said real-time audio and video information parsing means; wherein said real-time audio and video information parsing means comprises: an intermediary base station disposed at the first location and communicatively coupled to said real-time audio and video capturing devices, said intermediary base station comprising a second transceiver for receiving said real-time audio and video information from said first transceiver; a recording device including a removable computer-readable electronic medium for recording said real-time audio and video information thereon; a processor communicatively coupled to said recording device; and a memory communicatively coupled to said processor, said memory including programmable software instructions that filters said real-time audio and video information into said independently synchronized real-time data streams, said software instructions including and executing a control logic algorithm including the steps of a. receiving said real-time audio and video information, b. bifurcating said real-time audio and video information into separate real-time audio and video data streams, c. identifying a total quantity of said target zones by identifying a matching total quantity of said unique viewing angles associated with each of said real-time audio and video data streams respectively, d. segmenting said real-time audio and video data streams into a plurality of unique real-time audio and video data streams associated with said total quantity of target zones respectively, e. chronologically assigning a unique numerical priority code to each of said unique real-time audio and video data streams according to a location of said associated target zones respectively, f. independently synchronizing corresponding ones of said unique real-time audio and video data streams by an increasing value of said unique numerical priority codes respectively, and g. generating a plurality of output signals containing each of said independently synchronized real-time audio and video data streams respectively; wherein said second transceiver continuously transmits said output signals to said simultaneous playback means; wherein said simultaneous playback means comprises: a service provider communicatively coupled to said real-time audio and video information parsing means for receiving said output signals from said second transceiver; a dedicated wireless communication link associated with said service provider; and a portable controller located at the remote second location and being communicatively coupled to said service provider via said dedicated communication link; wherein said service provider wirelessly transmits said independently synchronized real-time audio and video data streams over said dedicated communication link to said portable controller.