Patent Description:
Known security systems and connected home systems include detectors, such as PIR motion sensors, cameras, window/door contacts, carbon monoxide sensors, and the like. Furthermore, known security systems and connected home systems operate in a plurality of modes, such as an armed away mode, an armed stay mode, and a disarmed mode. For example, when operating in the armed stay mode, one zone in a monitored region, such as a perimeter zone, will be armed, and another zone in the monitored region, such as an interior zone, will be disarmed.

When a known security system or connected home system is operating in the armed stay mode, opening a door or a window in the perimeter zone of the monitored region will trigger an alarm. However, a user may need or want to completely or partially open the door or the window to allow fresh air from outside into the monitored region, to view outside of the monitored region, for example, responsive to hearing a noise outside of the door or the window, or for some other reason. Known security systems and connected home systems cannot distinguish between the user intentionally or mistakenly opening the door or the window and an intruder opening the door or the window. Therefore, to avoid triggering the alarm, the user must bypass sensors associated with the door or the window by accessing a control panel device of the security system or the connected home system directly or via a mobile device and selecting the sensors to bypass. This is a time consuming process and is not user friendly. Furthermore, after the sensors are bypassed, they are not armed, thereby creating a security risk, especially when the user forgets to remove the bypass and rearm the sensors.

Additionally or alternatively, the user may need to arm the security system or the connected home from outside of the monitored region, including a zone in which a completely or partially open door or window is located. However, upon detecting the open door or window, the security system or the connected home system may not allow the user to arm the system. <CIT> discloses a peripheral device that connects to home alarm systems and aims to the global protection of an opening (door / window), and to make the residential alarm systems more friendly to the user. <CIT> discloses a security system which comprises an IR sensor circuit (motion sensor) and door/window sensors.

In view of the above, there is a continuing, ongoing need for improved systems and methods.

The invention is defined by the independent claims <NUM> and <NUM>.

Embodiments disclosed herein can include systems and methods for protecting a bypassed zone in a security system or a connected home system. For example, when the security system or the connected home system is operating in an armed stay mode, systems and methods disclosed herein can bypass a device, such as any type of door or window in an open state, or a device sensor associated with the device while continuing to monitor, secure, and protect the bypassed zone in which the device or the device sensor that is bypassed is located, for example, by transmitting notification messages to a user relating to detected activity in the bypassed zone.

According to the invention systems and methods disclosed herein include a portable sensor package (PSP) device that is temporarily placed in the bypassed zone, for example, on, in, or proximate to the device or the device sensor to be bypassed, and can detect motion and a direction of the motion. For example, the portable sensor package device can include a PSP sensor, such as a direction sensing motion detector, a PIR direction sensing motion detector, an IR transmitter and receiver, an IR obstacle sensor beam detector, or a camera with edge analytics that can detect the motion and the direction thereof within a field of view of the camera. Furthermore, in some embodiments, the PSP sensor can output a direction indication signal indicating the direction of the motion, such as motion from inside of a monitored region to outside of the monitored region or motion from outside of the monitored region to inside of the monitored region.

In operation, the portable sensor package device disclosed herein is temporarily placed in the bypassed zone of the monitored region monitored by the security system or the connected home system and proximate the device, such as the door or the window, or the device sensor associated with the device in the bypassed zone. After such placement, the user can arm or disarm the bypassed zone as needed.

In some embodiments, a software application or program executing on a control panel device, a mobile device, a cloud server device, or a wearable device can cause a visual indication of a coverage area monitored by the portable sensor package device to be visually displayed on a user interface device associated with the control panel device, the mobile device, the cloud server device, or the wearable device. Additionally or alternatively, in some embodiments, a notification device associated with the portable sensor package device can provide or display a visual indication of the coverage area in the bypassed zone. Accordingly, the user can adjust the coverage area as needed by adjusting a position of the portable sensor package device.

When the bypassed zone is armed, systems and methods disclosed herein can associate the portable sensor package device with the bypassed zone, and the user can bypass the device or the device sensor in the bypassed zone. In some embodiments, systems and methods disclosed herein can associate the portable sensor package device with the bypassed zone responsive to manual user input received via the user interface device of the control panel device, the mobile device, the cloud server device, or the wearable device. According to the invention the portable sensor package device detects the device sensor proximate thereto and transmits an instruction signal to the control panel device, the mobile device, the cloud server device, or the wearable device to automatically associate the portable sensor package device with the bypassed zone. In these embodiments, the portable sensor package device can include an indoor location sensing device, such as a BLE tag, and can identify its location based on a fixed or known location of the detected device sensor.

After the portable sensor package device is associated with the bypassed zone, the portable sensor package device can provide a trigger time delay, for example, <NUM>-<NUM> minutes, during which the portable sensor package device refrains from triggering any alarm. Accordingly, during the trigger time delay, the user can open the device without triggering an alarm. However, after expiration of the trigger time delay, the portable sensor package device can monitor the bypassed zone.

In some embodiments, a length of the trigger time delay can be configured by the user. For example, in some embodiments, the portable sensor package device can include a microphone to receive a voice command from the user to extend or reduce the trigger time delay.

While the portable sensor package device monitors the bypassed zone, the device can be in an open state. Upon detecting the motion in the bypassed zone, the portable sensor package device can detect the direction of the motion. For example, when the portable sensor package device determines that the direction of the motion is from inside of the monitored region to outside of the monitored region, the portable sensor package device can determine that the motion is likely the motion of an occupant of the monitored region and, therefore, does not trigger the alarm. However, when the portable sensor package device determines that the direction of the motion is from outside of the monitored region to inside of the monitored region, the portable sensor package device can determine that the motion is likely the motion of an intruder to the monitored region, and therefore, trigger the alarm. Additionally or alternatively, responsive to determining that the direction of the motion is from outside of the monitored region to inside of the monitored region, the portable sensor package device can transmit a notification signal, which the user can review and, responsive thereto, provide user input to trigger the alarm, when appropriate. For example, in some embodiments, the notification signal can be pushed to one or more connected devices, such as a connected speaker, television, mobile, phone, and the like.

In some embodiments, the portable sensor package device can be permanently mounted in the bypassed zone. In these embodiments, the user can bypass the bypassed zone or the permanently mounted portable sensor package device, and, after bypass, the permanently mounted portable package device can continue monitoring the bypassed zone. However, upon detection of a positive condition that would otherwise trigger the alarm, the permanently mounted portable sensor device can refrain from transmitting an alarm signal. Instead, responsive to detecting the positive condition, the permanently mounted package device can transmit the notification signal, which the user can review and, responsive thereto, provide user input to trigger the alarm, when appropriate.

<FIG> are block diagrams of a system <NUM> in accordance with disclosed embodiments. As seen in the side and top views of the system <NUM> in <FIG>, the system <NUM> can include a device <NUM> (a window) and one or more device sensors <NUM> (window sensors) associated with the device <NUM> for monitoring the device <NUM> and an ambient area.

As seen in the side and top views of the system <NUM> in <FIG>, when a user wants to open the device <NUM>, for example, for ventilation, the user can place a portable sensor package device <NUM> near the device <NUM> in a location to monitor activity and detect motion in a coverage area <NUM> around the device <NUM>. After the portable sensor package device <NUM> is placed, systems and methods disclosed herein can associate the portable sensor package device <NUM> with a zone of the device <NUM>, and the portable sensor package device <NUM> can start a trigger time delay during which the portable sensor package device <NUM> can refrain from triggering any alarm. That is, during the trigger time delay, the user can open the device <NUM> without the portable sensor package device <NUM> triggering the alarm.

After expiration of the trigger time delay, the portable sensor package device <NUM> can monitor the device <NUM> and the coverage area <NUM> with the device <NUM> in an open state. The portable sensor package device <NUM> can detect motion in the coverage area <NUM> and, upon such detection, determine a direction of the motion. When the portable sensor package device <NUM> determines that the direction of the motion is from inside of a monitored area associated with the device <NUM> to outside of the monitored area, the portable sensor package device <NUM> can refrain from triggering the alarm. However, when the portable sensor package device <NUM> determines that the direction of the motion is from outside of the monitored area to inside of the monitored area, the portable sensor package device <NUM> can trigger the alarm.

<FIG> is a block diagram of a system <NUM> in accordance with disclosed embodiments. As seen in the side and top views of the system <NUM> in <FIG>, the system <NUM> can include a device <NUM> (a garage) and one or more permanently mounted device sensors <NUM> (garage door sensor, motion sensor) associated with the device <NUM> for monitoring the device <NUM> and an ambient area for activity and for detecting motion in a coverage area around the device <NUM>. A user can bypass the device <NUM>, one or more of the permanently mounted device sensors <NUM>, or a zone in which the device <NUM> and the permanently mounted device sensors <NUM> are located. After bypass, when one or more of the permanently mounted device sensors <NUM> detects a positive condition that would otherwise trigger an alarm, the permanently mounted device sensor <NUM> can transmit a notification signal to solicit user input with instructions as to whether to trigger the alarm.

It is to be understood that the systems and methods as disclosed herein, including the portable sensor package device, can be implemented with a transceiver device, a PSP sensor, and a timing device, each of which can be in communication with control circuitry, one or more programmable processors, and executable control software as would be understood by one of ordinary skill in the art. In some embodiments, the transceiver device can communicate with the control panel device, the mobile device, the cloud server device, or the wearable device, the PSP sensor can detect motion and a direction thereof, and the timing device can start and stop the trigger time delay. Furthermore, in some embodiments, the control software can be stored on a transitory or non-transitory computer readable medium, including, but not limited to local computer memory, RAM, optical storage media, magnetic storage media, flash memory, and the like, and some or all of the control circuitry, the programmable processors, and the control software can execute and control at least some of the methods described herein.

In some embodiments, the system may further comprise a notification device, wherein the programmable processor and the executable control software instruct the notification device to display a visual indication of the coverage area in the bypassed zone. In some embodiments, the system may further comprise: a user interface device; and a transceiver device, wherein the user interface device receives user input, and responsive thereto, the programmable processor and the executable control software instruct the transceiver device to transmit an instruction signal to a control panel device, a mobile device, a cloud server device, or a wearable device to associate the sensor device with the bypassed zone. In some embodiments, the system may comprise: a transceiver device, wherein the sensor device detects the open device proximate to the sensor device, and responsive thereto, the programmable processor and the executable control software instruct the transceiver device to transmit an instruction signal to a control panel device, a mobile device, a cloud server device, or a wearable device to associate the sensor device with the bypassed zone. In some embodiments the system may further comprise: a timing device, wherein the timing device starts and stops a trigger time delay, and wherein the programmable processor and the executable control software refrain from triggering the alarm during the trigger time delay. In some embodiments the system may further comprise: a transceiver device, wherein the programmable processor and the executable control software trigger the alarm by instructing the transceiver device to transmit a notification signal to solicit user input as to whether to trigger the alarm.

Claim 1:
A method comprising:
providing a portable sensor package device (<NUM>) temporarily placed proximate to an open window or an open door (<NUM>) in a bypassed zone of a monitored region monitored by a security system or a connected home system, the security system or the connected home system monitoring the monitored region in an armed stay mode, wherein responsive to the portable sensor package device (<NUM>) detecting the open window, the open door, or a sensor (<NUM>) associated with the open window or the open door (<NUM>) proximate to the portable sensor package device (<NUM>), transmitting an instruction signal from the portable sensor package device to a control panel device, a mobile device, a cloud server device, or a wearable device to associate the portable sensor package device (<NUM>) with the bypassed zone;
the portable sensor package device detecting motion in a coverage area (<NUM>) of the portable sensor package device and a direction of the motion;
when the direction of the motion is from inside of the monitored region to outside of the monitored region, the portable sensor package device refraining from triggering an alarm; and
when the direction of the motion is from outside of the monitored region to inside of the monitored region, the portable sensor package device triggering the alarm.