SECURITY SYSTEM WITH DISTRIBUTED AUDIO AND VIDEO SOURCES

Abstract

Disclosed is a hub station of an alarm system, having: a hub station housing; a hub station controller disposed within the hub station housing, wherein the hub station is configured for: monitoring, over a short range telecommunications network, a plurality of client stations that are distributed in a plurality of architectural zones, the plurality of client stations each including a client station housing and located therein a client station power transformer, a client station speaker, a client station microphone, and one of a plurality of client station controllers; determining, from the monitoring, that an alert condition exists in the one of the architectural zones; and establishing a first bidirectional communication concurrently with two or more of the plurality of client stations distributed in the plurality of architectural zones.

Claims

1. A hub station of an alarm system, comprising: a hub station housing; a hub station controller disposed within the hub station housing, wherein the hub station is configured for: monitoring, over a short range telecommunications network, a plurality of client stations that are distributed in a plurality of architectural zones, the plurality of client stations each including a client station housing and located therein a client station power transformer, a client station speaker, a client station microphone, and one of a plurality of client station controllers; determining, from the monitoring, that an alert condition exists in the one of the architectural zones; and establishing a first bidirectional communication concurrently with two or more of the plurality of client stations distributed in the plurality of architectural zones.

2. The hub station of claim 1, wherein the short range telecommunications network is a local area network or a personal area network.

3. The hub station of claim 2, wherein the hub station is configured for communicating, bi-directionally, with a central station over a long range telecommunications network.

4. The hub station of claim 3, wherein the long range telecommunications network is one or more Public Switched Telephone Networks (PTSN).

5. The hub station of claim 4, comprising establishing a second bidirectional communication with the central station when establishing the first bidirectional communication upon determining that an alarm condition exists in one architectural zone.

6. The hub station of claim 5, comprising establishing another bidirectional communication over the public communications network when establishing the first bidirectional communication and the second bidirectional communication.

7. The hub station of claim 6, wherein establishing the other bidirectional communication comprises establishing the other bidirectional communication with a mobile device.

8. The hub station of claim 7, wherein the mobile device is a mobile phone.

9. The hub station of claim 8, wherein the host is configured to store contact information for establishing the other bidirectional communication upon determining that an alarm condition exists in one of the architectural zones.

10. The hub station of claim 9, wherein each of the bidirectional communications includes voice and image data.

11. An alarm system comprising: the host station of claim 10; a plurality of client stations that are configured for being distributed in a plurality of architectural zones, the plurality of client stations each including a client station housing and located therein a client station power transformer, a client station speaker, a client station microphone, and a client station controller.

12. A method of monitoring for an alarm condition with a hub station that includes a hub station controller within in a hub station housing, the method comprising: monitoring, over a short range telecommunications network, a plurality of client stations that are distributed in a plurality of architectural zones, the plurality of client stations each including a client station housing and located therein a client station power transformer, a client station speaker, a client station microphone, and one of a plurality of client station controllers; determining, from the monitoring, that an alert condition exists in one of the architectural zones; and establishing a first bidirectional communication over the short range telecommunications network with two or more of the plurality of client stations distributed in the plurality of architectural zones.

13. The method of claim 12, wherein the short range telecommunications network is a local area network or a personal area network.

14. The method of claim 13, comprising establishing a second bidirectional communication with a central station when establishing the first bidirectional communication upon determining that an alarm condition exists in one of the architectural zones.

15. The method of claim 14, wherein establishing the second bidirectional communication comprises establishing the second bidirectional communication over one or more Public Switched Telephone Networks (PTSN).

16. The method of claim 15, comprising establishing another bidirectional communication over a communications network that differs from the short range telecommunication network.

17. The method of claim 16, wherein establishing the other bidirectional communication comprises establishing the other bidirectional communication over one or more Public Switched Telephone Networks (PTSN).

18. The method of claim 17, wherein establishing the other bidirectional communication comprises establishing the other bidirectional communication with a mobile device.

19. The method of claim 18, comprising accessing contact information stored locally at the hub station or remotely at the central station for establishing the other bidirectional communication upon determining that an alarm condition exists in one of the architectural zones.

20. The method of claim 19, wherein establishing each of the bidirectional communications includes transferring voice and image data.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0063] The present disclosure is illustrated by way of example and not limited in the accompanying figures in which like reference numerals indicate similar elements.

[0064] FIG. 1 shows a plurality of alarm stations distributed in a respective plurality of zones connected over a network in an installation area;

[0065] FIG. 2 is a flow chart illustrating a method of monitoring for an alarm condition according to the embodiment illustrated in FIG. 1;

[0066] FIG. 3 is another flow chart illustrating additional aspects of the method of FIG. 2;

[0067] FIG. 4 shows the plurality of alarm stations distributed in the respective plurality of zones in the installation area, wherein the alarm stations are activated to for two-way communication;

[0068] FIG. 5 is a flow chart illustrating additional aspects method of monitoring for an alarm condition according to the embodiment illustrated in FIG. 4;

[0069] FIG. 6 shows the plurality of alarm stations distributed in the respective plurality of zones in the installation area, wherein the alarm stations are activated to identify a location of an alarm condition;

[0070] FIG. 7 is a flow chart illustrating a method of monitoring for an alarm condition according to the embodiment illustrated in FIG. 6;

[0071] FIG. 8 is another flow chart illustrating aspects of a method of monitoring for an alarm condition according to the embodiment illustrated in FIG. 6;

[0072] FIG. 9 shows the plurality of alarm stations distributed in the respective plurality of zones in the installation area, wherein the alarm stations are activated to execute a calibration process; and

[0073] FIG. 10 is another flow chart illustrating aspects of a method of monitoring for an alarm condition according to the embodiment illustrated in FIG. 9.

DETAILED DESCRIPTION

[0074] Turning to FIG. 1, the disclosed embodiments provide a security system (system) 100 that enables wireless communicating two-way (bidirectional) voice, by a network 110, which may be a short range network such as a local area network (such as WiFi) or a personal area network (such as Bluetooth). The system 100 may include a hub station 112 having a hub station housing 113, a control panel 114 for the hub station 112 with a hub station electronic controller 115 therein (illustrated schematically). A plurality of client stations 120 are provided, for example four such client stations 120a-120d are identified in FIG. 1. Such client stations 120 are provided throughout an installation area 130. Each of the client stations 120 includes within one of a plurality of client station housings 121, one of a plurality of client station speakers 122, one of a plurality of client station microphones 124, one of a plurality of client station transformers 126 (illustrated schematically) and one of a plurality of client station controllers 127 (illustrated schematically).

[0075] The system 100 provides communications (bidirectional) between the system 100 and a central station 150, via a central station controller 151 (illustrated schematically), that is remotely located over a further network 145 which may be a long range network such as a wide area network distributed over the Public Switched Telephone Networks (PTSN). The client stations 120 may be distributed throughout architectural zones (zones) 140, including for example four distributed zones 140a-140d of the installation area 130, that are in addition to a primary zone at the hub station 112. The installation area 130 maybe a private residence and the zones 140 may be separate rooms and/or on multiple levels therein.

[0076] There are typically packaging limitations at a hub station 112. By packaging the client station speakers 122 and client station microphones 124 with the client station transformers 126 at the client station housings 121, such limitations are avoided. Instead larger and more powerful speakers and microphones for the client station speakers 122 and the client station microphones 124 may be utilized. This configuration may provide a larger communication range at the client stations 120. In some embodiments the client stations 120 may include video displays 128 and may be capable of video capture.

[0077] The system 100 provides a relatively enhanced communication range. The client stations 120 are configured to annunciate programmable status messages, such as front door open, throughout the installation area 130. The status messages provide an understanding of a state of the security system to a system user 160, whom may be a homeowner.

[0078] FIG. 2 is a flowchart illustrating a method of monitoring for an alarm condition with the client stations 120. As illustrated in box 510 the method includes communicating, bi-directionally, with the hub station 112. As illustrated in box 520 the method includes communicating, bi-directionally, with the central station 150 through the hub station 112.

[0079] FIG. 3 is a flowchart illustrated further aspects of the method of FIG. 2 more specifically of communicating, bi-directionally, with the central station 150 through the hub station 112. As illustrated in box 550 the method includes transmitting to the central station 150 through the hub station 112 first data representing first sounds received from a client station microphones 124. As illustrated in box 560 the method includes transmitting from the client station speakers 122 second sounds obtained from second data received from the central station 150 through the hub station 112. As illustrated in box 570 the method includes transmitting from a client station display first images obtained from third data received from the central station 150 through the hub station 112. As illustrated in box 570 the method includes transmitting to the central station 150 through the hub station 112 fourth data representing images received from a client image sensor of the client stations 120.

[0080] With the above disclosed embodiments, a hub station 112 may communicate with an array of client stations 120. This configuration may enable voice, and for example video, communications from multiple zones 140 within an installation area 130. This provides capabilities such as being able to triangulate sound source location within or proximate one of the zones 140. During an emergency, such a location could be provided to medical services 170 and other first responders via the central station 150.

[0081] Turning to FIG. 4, the disclosed embodiments pool communications for a group 200 of two or more of the plurality of the client stations 120 during an alarm condition. The group 200 can be collectively assessed by the control panel 114, for example as one collective audio/video channel. In the illustrated embodiment the group 200 includes a first client station 120a and a second client station 120b of the plurality of client stations 120, respectively located in a first zone 140a and a second zone 140b of the plurality of zones 140. In the illustration, these zones 140a, 140b are located on a common level 180 of the installation area 130. The common level 180 may be a level in which a particular person 190, such as an infirmed person, spends their time and where such person would need to be addressed during and alarm condition.

[0082] Additionally, according to an embodiment, external communication routes 210 may be communicatively connected to the group 200 by the system 100 through the network 145 by action of the control panel 114. Such sources may be provided with networked two-way audio and video capabilities. For example, if the system detects that a personal panic alarm has sounded in one zone, electronic contact addresses, which may be phone numbers, stored in the system 100 for example at the control panel 114, may be automatically contacted by the control panel 114 and bridged into the network 110 to the client stations 120 in the group 200. Applications of the disclosed embodiments includes automatically bridging a doctor 220 via the external communication routes 210, or in addition or as an alternative, members of a family whom are remotely located. In addition, medical services 170 may be bridged to the grouped stations. That is, in addition to be summoned by the central station 150, medical services 170 may be connected over the network 145 for direct two way communications with the client stations 120 in the group 200. Two way voice, and in one embodiment video, communications may be enabled by the system with the connected family members and emergency service personnel. In addition, such two way communications may include personnel at the central station 150 so required efforts are coordinated.

[0083] Turning to FIG. 5, a flowchart that shows a method of monitoring for an alarm condition by the host station according to an embodiment. As illustrated in box 610 the method includes monitoring, over a short range telecommunications network, the plurality of client stations 120 that are distributed in the plurality of zones 140. As illustrated in box 620 the method includes determining, from the monitoring, that an alert condition exists in one of the zones 140. As illustrated in box 630 the method includes establishing a first bidirectional communication with two or more of the plurality of client stations 120 distributed in the plurality of zones 140. As illustrated in box 640 the method includes accessing contact information stored locally at the hub station or remotely at the central station 150 for establishing the other bidirectional communication upon determining that an alarm condition exists in one of the zones 140. As illustrated in box 650 the method includes establishing a second bidirectional communication with a central station 150 when establishing the first bidirectional communication upon determining that an alarm condition exists in one of the zones 140. As illustrated in box 660 the method includes establishing another bidirectional communication upon establishing the first bidirectional communication and the second bidirectional communications.

[0084] Benefits of the disclosed embodiments include coalescing audio and/or video access points at the client stations 120 of the group 200 enables enhanced coverage for two-way communications with a central station 150. According to the disclosed embodiments, the control panel 114 may store contact addresses for the external communication routes 210 to be automatically connected to the client stations 120 that are in the group 200. Thus, desired persons and resources may be automatically contacted in the event of an emergency.

[0085] Turning to FIG. 6, the disclosed embodiments provide for storing information about the different zones 140 for the plurality of client stations 120 to assess various audio signal characteristics. The disclosed embodiments enable determining where in the installation area 130 an alarm condition, such as a sound source by action of an intruder 250, is being detected. For example, an initial alarm condition may be detecting an intrusion at a door-window sensor, for example in one of the zones 140 proximate a level 260 that is associated with a garage. Thereafter, the system 100 may monitor for movement of the intruder 250 by monitoring audio signals at each of the plurality of client stations 120. Through monitoring of audio characteristics such as changing frequency and amplitude of sounds at or proximate the plurality of client stations 120, the system 100 may determine that a source of a dominant sound, such as the intruder 250, is moving between client stations 120 and therefore moving between zones 140 in the installation area 130.

[0086] Benefits of the disclosed embodiments include enabling the central station 150 to track a developing alarm condition in an installation area 130 and relay such information, for example to law enforcement agencies 300 over the network 145. The same information may be utilized to identify location of medical distress within one of the zones 140 in the installation area 130, thereby enabling the central station 150 to communicate with medical services 170 and identify a specific location of a need within the installation area 130.

[0087] FIG. 7 shows a flowchart that shows a method of monitoring for an alarm condition by the host station according to an embodiment. As illustrated in box 710 the method includes monitoring, over the short range telecommunications network prior to an active alarm condition, the plurality of client stations 120 that are distributed in the plurality of zones 140. As illustrated in box 720 the method includes identifying the active alarm condition, from the monitoring, by identifying a perimeter breach at one of the zones 140. As illustrated in box 730 the method includes communicating, bi-directionally over the short range telecommunications network during an active alarm condition, with the plurality of client stations 120 that are distributed in the plurality of zones 140. As illustrated in box 740 the method includes obtaining, from the communicating during the active alarm condition, intrusion sound data indicative of a sounds received by one or more of the plurality of client stations 120. As illustrated in box 745 the method includes determining, from intrusion sound data, intrusion location data indicative of a location and movement of an intrusion among the zones 140. As illustrated in box 750 the method includes forwarding, over a long range telecommunications network, the intrusion data to a central station 150.

[0088] FIG. 8 is a flowchart that shows additional aspects of the method illustrated in FIG. 7 and more specifically of determining, from intrusion sound data, intrusion location data. As illustrated in box 760 the method includes developing, from the intrusion sound data, a soundscape of the plurality of zones 140. As illustrated in box 770 the method includes comparing the soundscape with a sound map of the plurality of zones 140. As illustrated in box 780 the method includes obtaining the location and movement of the intrusion among the zones 140 following comparing the soundscape with the sound map.

[0089] Turning to FIG. 9, the disclosed embodiments provide a process for calibrating the system 100 by applying test tones, though each of the plurality of client stations 120, and mapping audio qualities and characterization within and around each of the plurality of zones 140. This process allows for a better understanding of nuances of sound propagation and sound characteristics in and around each of the zones 140 of the installation area 130. The calibration process may occur, for example, manually and periodically when the system is activated. During calibration, each of the plurality of client stations 120, one after another, may emit one of a plurality of a test tones 350, including for example four sets of test tones 350a-350d respectively from the plurality of client stations 120. The hub station 112 may also emit one of the test tones 350. Though this calibration process, the control panel 114 may develop a tonal map for the installation area 130 and within for each of the zones 140, which may later be used to identify a souse of an alert condition (as indicated above). In addition, through the calibration process, a performance of the system is optimized.

[0090] FIG. 10 is a flowchart that shows a method of calibrating a sound map of an alarm system. As illustrated in bloc 810 the method includes instructing one or more of the plurality of client stations 120 to emit a test signal at a respective one or more predetermined times. As illustrated in bloc 820 the method includes receiving from the others of the plurality of client stations 120 data indicative of a detected sound levels during the one or more predetermined times. As illustrated in bloc 830 the method includes associating the data indicative of the sound levels with a location within each of the zones 140 of the one or more of the plurality of client stations 120 instructed to emit a test signal at a respective one or more predetermined times. As illustrated in bloc 830 the method includes calibrating the sound map automatically while the alarm system is in an armed-away state.

[0091] As described above, embodiments can be in the form of processor-implemented processes and devices for practicing those processes, such as a processor. Embodiments can also be in the form of computer program code containing instructions embodied in tangible media, such as network cloud storage, SD cards, flash drives, floppy diskettes, CD ROMs, hard drives, or any other computer-readable storage medium, wherein, when the computer program code is loaded into and executed by a computer, the computer becomes a device for practicing the embodiments. Embodiments can also be in the form of computer program code, for example, whether stored in a storage medium, loaded into and/or executed by a computer, or transmitted over some transmission medium, loaded into and/or executed by a computer, or transmitted over some transmission medium, such as over electrical wiring or cabling, through fiber optics, or via electromagnetic radiation, wherein, when the computer program code is loaded into an executed by a computer, the computer becomes an device for practicing the embodiments. When implemented on a general-purpose microprocessor, the computer program code segments configure the microprocessor to create specific logic circuits.

[0092] The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the present disclosure. As used herein, the singular forms a, an and the are intended to include the plural forms as well, unless the context clearly indicates otherwise. It will be further understood that the terms comprises and/or comprising, when used in this specification, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, element components, and/or groups thereof.

[0093] Those of skill in the art will appreciate that various example embodiments are shown and described herein, each having certain features in the particular embodiments, but the present disclosure is not thus limited. Rather, the present disclosure can be modified to incorporate any number of variations, alterations, substitutions, combinations, sub-combinations, or equivalent arrangements not heretofore described, but which are commensurate with the scope of the present disclosure. Additionally, while various embodiments of the present disclosure have been described, it is to be understood that aspects of the present disclosure may include only some of the described embodiments. Accordingly, the present disclosure is not to be seen as limited by the foregoing description, but is only limited by the scope of the appended claims.