An audio-video communication system comprises a wireless exterior module located proximate an entrance, a computerized controller running a software application, and a remote peripheral device. The wireless exterior module includes a proximity sensor for detecting a person at the entrance, a video c
An audio-video communication system comprises a wireless exterior module located proximate an entrance, a computerized controller running a software application, and a remote peripheral device. The wireless exterior module includes a proximity sensor for detecting a person at the entrance, a video camera for recording an image of the person at the entrance, a microphone for recording the person at the entrance, a speaker for playing audio to the person at the entrance, a transmitter for communicating sounds and images of the person at the entrance, and a receiver for receiving communications at the wireless exterior module. The computerized controller is disposed in wireless electronic communication with the wireless exterior module via the transmitter and the receiver of the wireless exterior module. The remote peripheral device is configured to electronically communicate with the computerized controller for viewing an image from the video camera communicated from the wireless exterior module.
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1. An audio-video communication and answering system, said system comprising: at least one wireless exterior module having a proximity sensor, a video camera, a microphone, a speaker, an electrical connection, a keypad having one or more buttons, an RF transmitter, and an RF receiver;a software appl
1. An audio-video communication and answering system, said system comprising: at least one wireless exterior module having a proximity sensor, a video camera, a microphone, a speaker, an electrical connection, a keypad having one or more buttons, an RF transmitter, and an RF receiver;a software application including a graphical user interface that enables a user to view streaming video transmitted from the at least one wireless exterior module and receive real-time audio from the at least one wireless exterior module;a wireless router, wherein the wireless router enables communication through the Internet between the at least one wireless exterior module and at least one remote peripheral device, which is a cell phone; andthe at least one wireless exterior module further comprising a recording component that records video and audio communication that is transmitted to the at least one remote peripheral device,wherein the recorded video can be viewed in real time or at a later time on the graphical user interface,wherein the at least one wireless exterior module is configured to transmit an alert to a cell phone upon detection of a person at an entrance by the proximity sensor or if the one or more buttons of the at least one wireless exterior module are pressed, andwherein the at least one wireless exterior module is operable to record digital audio, digital video, or any combination thereof in response to an event separate and apart from detection by the proximity sensor or pressing of the one or more buttons on the at least one wireless exterior module. 2. The audio-video communication and answering system of claim 1, wherein the software application is managed by an administrator that defines a preferred hierarchy of storage of the video and audio communication. 3. The audio-video communication and answering system of claim 2, wherein the hierarchy of storage is configured to use a redundant system. 4. The audio-video communication and answering system of claim 1, wherein an administrator defines user access to the software application and wherein the video camera of the wireless exterior module is configured to be remotely actuated. 5. The audio-video communication and answering system of claim 1, wherein the software application can selectively sort a recorded video, and wherein the at least one wireless exterior module further comprises a camera card operable to store recorded video. 6. The audio-video communication and answering system of claim 1, wherein the at least one wireless exterior module is configured to broadcast a user-defined message, wherein the user-defined message is created using the software application, andwherein the video camera of the at least one wireless exterior module is configured to be remotely actuated. 7. The audio-video communication and answering system of claim 1 further comprising: an interior transceiver comprising a speaker that broadcasts arrival of a visitor. 8. The audio-video communication and answering system of claim 7, wherein the interior transceiver further comprises a mute switch. 9. The audio-video communication and answering system of claim 1, wherein the at least one remote peripheral device is configured to display a digital image previously stored in a database captured by the at least one wireless exterior module. 10. The audio-video communication and answering system of claim 1, wherein the system is configured to respond to events related to the at least one wireless exterior module. 11. A method for audio-video communication with visitors to a business or residence, wherein the method utilizes at least one exterior module having a proximity sensor, a video camera, a microphone, a speaker, a keypad having one or more buttons, an RF transmitter, an RF receiver, a software application, and a wireless router, the method comprising: enabling, via the wireless router, wireless communication through the Internet between the at least one exterior module and at least one remote peripheral device, which is a cell phone, after at least one of the one or more buttons are pressed on the keypad;transmitting a prompt to the at least one remote peripheral device upon detection of visitors to the business or residence by the proximity sensor or if the one or more buttons of the keypad of the at least one exterior module are pressed;after the prompt has been transmitted to the at least one remote peripheral device, streaming video from the at least one exterior module to the at least one remote peripheral device and displaying the streaming video via a graphical user interface on the at least one remote peripheral device;providing audio from the at least one exterior module to the at least one peripheral device;recording video and audio communication using the at least one exterior module; andproviding recorded video on the graphical user interface associated with the peripheral device. 12. The method of claim 11 further comprising: defining a preferred hierarchy of storage of the video and audio communication; andstoring the video and audio communication based upon the preferred hierarchy. 13. The method claim 12, further comprising: accessing a database configured to store time-stamped video and audio data received by the at least one exterior module for later viewing on the at least one remote peripheral device,providing access to the database through the software application; andcreating various levels of access to the database, containing at least one declared occupant, and wherein at least a portion of the database is replicated so that data is preserved. 14. The method of claim 11 further comprising: defining user access to the software application;accessing a database configured to store time-stamped video and audio data received by the at least one exterior module for later viewing on the at least one remote peripheral device,providing access to the database through the software application;creating various levels of access to the database; andaccessing video from a second exterior module comprising a video camera using the software application. 15. The method of 11 further comprising the steps of: storing time-stamped video or audio data received by the at least one exterior module;creating a redundant system of the stored video or audio data from the at least one exterior module;transmitting video from an interior transceiver comprising a video camera that is located within the business or residence to the software application;displaying video from the interior transceiver on the software application; andtransmitting audio from the interior transceiver to the software application,wherein the interior transceiver is configured to receive instructions from the software application. 16. The method of claim 15 further comprising the steps of: providing the software application with access to a database, wherein the database has various levels of access to the database and contains a hierarchy of storage for audio and video data based upon the location of the entrance; andcreating a redundant system so that the audio and video data is preserved. 17. The method of claim 11 further comprising: creating a first default prompt for interacting with a visitor on the graphical user interface; andcreating a second default prompt for interacting with the visitor on the graphical user interface. 18. The method claim 11 further comprising the step of: providing video to the software application from a second exterior module comprising a video camera configured to provide video to the software application; andan interior transceiver configured to display text related to audio-video communication;storing time-stamped video and audio data received by the at least one exterior module in a database for later viewing on the at least one remote peripheral device;displaying one or more video libraries;accessing the database; andreplicating a least a portion of the database so that data is preserved. 19. The method of claim 11 further comprising the steps of: creating a first default prompt on the graphical user interface after the prompt is provided to the user; andcreating a second default prompt on the graphical user interface related to the recorded video or audio. 20. The method of claim 11 further comprising the steps of: providing the software application with access to a database, wherein the database has various levels of access to the database and contains a hierarchy of storage for audio and video data;creating a redundant system so that the audio and video data is preserved in a distributed manner; andstoring one or more emergency numbers in a database for use upon an event occurring that is associated with the at least one exterior module.
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