BACKGROUND

1. Field of Invention

This invention relates to building alarm systems and door locks for automating door lock functions.

2. Related Art

Electronic door lock actuators, including so-called smart locks that are used to actuate existing door lock mechanisms, are known, e.g., as described in US Patent Application Publication US20170037937. Such door lock arrangements can allow a user to both operate the door lock manually, e.g., by operating a thumb turn, and electronically, e.g., by interacting with the door lock via an electronic device such as a smartphone. Alarm systems are also known in the art, e.g., for monitoring a building with respect to various conditions such as unauthorized entry through doors and/or windows, fire or smoke conditions, movement in a room or around a building, etc.

SUMMARY OF INVENTION

Aspects of the invention provide the ability for first responder personnel, such as fire, police or emergency medical technicians, to gain access to a building using a first responder code to cause an automated door lock to disengage to allow an associated door to be moved from a closed position to an opened position in case that an alarm system at the building indicates an alarm condition indicative of an emergency condition, such as smoke or fire at the building, forced entry into the building, or a medical emergency at the building. In cases where automated door lock systems are not integrated with an alarm system, an alarm system may enter an alarm state in response to a condition, such as detected fire, and notify authorities. However, once first responder personnel such as firefighters, arrive at the building, the firefighters may be compelled to force entry into the building because automated door locks remain engaged to lock doors in a closed position. This may cause unnecessary damage to doors or other building components. On the other hand, integrated door lock and alarm systems may cause door locks to automatically disengage to unlock and allow doors to be opened in response to a detected fire, e.g., so that people inside the building can exit. However, this unlocking of doors can allow others to enter the building during the detected fire, including unwitting persons who normally are authorized to enter the building but may be exposed to the fire or other dangerous conditions, or thieves who intentionally defeat the door lock system by causing detection of a fire condition and gaining entry when the doors are automatically unlocked. Aspects of the invention provide for a first responder code which may be used by first responder personnel to cause one or more locked doors to be unlocked by an automated door lock in case of a detected emergency condition that causes an alarm system to indicate an alarm state. Thus, doors may remain locked during an emergency condition until first responder personnel arrive, and then may be unlocked in response to a first responder code.

In one embodiment, an alarm system includes a door lock associated with a door of a building where the door lock is arranged to engage to lock the door in the closed position and to disengage to unlock the door and permit movement of the door from the closed position to an open position. The door lock may be arranged to be operated remotely, e.g., to operate to lock or unlock a door in response to electronic signals from a user provided via a user device (such as a smartphone) or other electronic device. For example, a user may be able to cause the door lock to engage and/or disengage to lock and unlock an associated door from any location, whether at the building or miles away. The alarm system may also include a base station configured and arranged to enter an armed state in which the base station indicates an alarm state in response to an emergency condition including detection of smoke or fire at the building, detection of forced entry into the building, or detection of a medical emergency at the building. (The term base station is used to refer to any single component or set of components, including a distributed system of components that operate to monitor conditions at a building and enter an alarm state based on detected conditions. More information is provided below.) The door lock may be configured to disengage to unlock a door and permit movement of the door from the closed to the open position in response to a first responder code received only after the base station indicates the alarm state. This may allow the door lock, if locked when the base station enters an alarm state, to allow first responders using the first responder code to gain access to the building by unlocking the associated door.

However, the door lock may be configured to remain engaged to lock the door in the closed position in response to the first responder code if the base station is not in an alarm state.

That is, a person using a first responder code in an attempt to cause the door lock to disengage to unlock the door will not be successful unless the base station is in the alarm state. The door lock and base station may communicate with each other, either in one way or two way fashion, so that the door lock is enabled to allow use of the first responder code to cause the door lock to disengage only in response to the base station indicating the alarm state. First responder personnel may provide the code to the door lock in a variety of different ways. For example, the first responder code may provided to the door lock via a keypad at the building, e.g., a person may type the code into the keypad, or the first responder code may be communicated electronically from a first responder communication device to the door lock, e.g., via a wireless communications system. First responders may receive the code in response to the alarm system indicating the alarm state, e.g., the alarm system or lock server may generate a first responder code when the alarm state regarding an emergency condition is indicated, and send the first responder code to first responder personnel and to the door lock via electronic communications. Thus, the first responder code may be unique and generated at the time an alarm state is indicated, which can help reduce the chance that a first responder code can be used to gain unwanted or unauthorized access to the building. In other embodiments, first responder personnel may have a first responder code in their possession prior to the alarm system indicating the alarm state indicative of an emergency condition, and the first responder code may be usable to unlock a door at the building only when the alarm system indicates the alarm state. For example, first responder personnel may carry a keyfob, key card or other device that can communicate a first responder code to the door lock via electronic communications (e.g., wired or wireless). Alternately, first responder personnel may carry a physical card or other article that bears a human readable version of the code, which may be typed or spoken to the door lock to provide the code to the door lock, or first responder personnel may recall the code from personal memory. A first responder code may be reusable for multiple different alarm states indicated by an alarm system, or may be usable only a single time for one alarm state. The first responder code may be usable only while the alarm state is indicated, or for a limited period of time after the alarm state is indicated.

The alarm system can detect the fire or smoke condition, forced entry condition, or medical emergency condition in different ways. For example, a base station may detect a medical emergency in response to information from a sensor arranged to detect a person’s vital signs. One or more people at the building may be monitored by one or more sensors that can detect respiration rate, pulse, blood pressure, etc. and provide the detected information to the base station. If the base station detects a condition that indicates a medical emergency, such as a person with low or no pulse, an alarm state indicative of an emergency condition may be indicated. In other embodiments, the base station may detect a medical emergency in response to a signal from a user device that is activated by a person. For example, the user device may include a panic button and the signal indicating the medical emergency is sent from the user device to the base station in response to the person pressing the panic button. Other sensors may be used to detect other conditions, such as fire or smoke conditions or forced entry conditions, and the base station may indicate an alarm state based on received sensor information. As an example, forced entry conditions may be detected by a door sensor detecting a door moving from a closed position to an open position while an associated door lock is engaged in the locked position, or by a glass break sensor detecting breakage of window or door glass at the building, or by detecting movement in the building while the alarm system is in an away mode. In addition to indicating an alarm state in response to fire or smoke conditions or forced entry conditions at the building, or a medical emergency at the building, the alarm system may indicate an alarm state in response to other detected conditions. For example, the base station may be configured and arranged to enter an armed state in which the base station indicates an alarm state in response to one or more of the following: detection of movement within the building, detection of opening of a window of the building, detection of opening of a door of the building, detection of sound within the building, detection of breakage of glass at the building, detection of people in or around the building, and detection of a low temperature or water at the building. Such conditions may be indicative of non-emergency conditions, and in such cases a first responder code may not be usable to gain access to the building. One or more sensors may be used to generate a signal representing conditions, e.g., detection of movement within the building, detection of opening of a window of the building, detection of sound within the building, detection of breakage of glass at the building, detection of fire or smoke in the building, detection of people in or around the building, and detection of a low temperature or water at the building, and the base station may be arranged, when in an armed state, to indicate an alarm state based on a signal from the one or more sensors. The base station may include one or more components and may be arranged to operate within the building and/or at a remote location. The base station may be arranged to communicate with a monitoring server that is remote from the building, and the base station may be arranged to send a signal representing the alarm state to the monitoring server. The monitoring server may provide functions for the alarm system, such as notifying authorities of an alarm state, managing the creation and/or sending of a first responder code to first responder personnel and/or the door lock, storing sensor information, notifying a user of an alarm state and/or sensed conditions at the building (e.g., by sending signals to a user device and displaying information on the user device), and so on. Other advantages and novel features of the invention will become apparent from the following detailed description of various non-limiting embodiments when considered in conjunction with the accompanying figures and claims.

BRIEF DESCRIPTION OF THE DRAWINGS

Aspects of the invention are described with reference to the following drawings in which numerals reference like elements, and wherein:

FIG. 1 is a schematic block diagram of components in an alarm system including a door lock in an illustrative configuration; and

FIG. 2 is a schematic block diagram illustrating various sensors and other components for use with a building alarm system in the FIG. 1 embodiment.

DETAIFED DESCRIPTION

Aspects of the invention are described below by way of one or more illustrative embodiments. It should be understood that the illustrative embodiments described are not intended to limit the aspects of the invention, but rather to help show how one or more aspects of the invention may be implemented in a particular example. Also, aspects of the invention may be implemented alone and/or in combination with other aspects of the invention. For example, an arrangement is described below in which an alarm system can enter an armed state in response to failure of a door lock to engage to lock an associated door. The system is also described as capable of entering an armed state in response to press of a single button by a user and/or in response to use of a particular access code to gain access to a building. In addition, a door lock may be able to unlock and allow access to first responders in response to a first responder code during fire/smoke, forced entry or medical emergency conditions. These features may be combined into a single system as described, or may be employed separately, e.g., an alarm system which can enter an armed state in response to a door lock’s failure to engage need not necessarily be configured to enter an armed state in response to use of a particular access code and/or press of a single button by a user.

FIG. 1 shows an illustrative arrangement including an alarm system that incorporates one or more aspects of the invention. In this embodiment, a building 3 includes one or more doors 31 which may be used by persons to enter and/or exit the building 3 or to move between rooms or other spaces in the building 3. As used herein, the term“building” refers to any suitable structure that may be entered and/or exited by a person, such as a single family home, a single apartment in a multi-apartment complex, a warehouse or other industrial facility, one or more rooms or other spaces of a larger structure, and so on. The building 3 is equipped with an alarm system that may be used to monitor the building 3 for various conditions, such as use of doors 31 to enter/exit the building 3, noise at the building 3, fire and/or smoke conditions at the building 3, movement of people or objects at the building 3, abnormally high/low temperatures and/or water at the building 3, etc. (As used herein, conditions“at” a building refers to the condition being within and/or near the building, e.g., movement of persons“at” a building refers to movement of persons within and/or near the building.) As is understood in the art, the alarm system may be employed to monitor conditions at the building as well as taking particular actions in response to sensed conditions, such as notifying authorities (e.g., police, fire, building management, etc.) of particular conditions, notifying a user of particular conditions, displaying an alarm (e.g., emitting siren noises and emergency lighting at the building, etc.), recording video and/or audio conditions at the building, and so on. Thus, although the system is referred to herein as an“alarm” system, the alarm system need not necessarily display alarm sounds or lights at the building, but instead may be employed only for monitoring conditions at the building and optionally reporting on monitored conditions.

In this embodiment, the alarm system includes a base station 1 located at the building 3 which coordinates communications between the building 3 and remote devices and that can communicate with other devices located at the building 3. The base station 1 is shown as a single element, but may include two or more components, which may be located separately at the building 3 and/or remotely from the building 3. Thus, while in this embodiment the base station 1 is located at the building 3, the base station 1 may be located remotely from the building 3 at least in part, e.g., the base station 1 may be implemented at least in part at one or more computers or other data processing devices that are remote from the building 3. While the base station 1 may be configured and arranged to communicate with any number and/or type of remote devices using any suitable communications channel (e.g., wireless, wired, Internet, cellular telephone, satellite, etc.), in this embodiment the base station 1 is arranged to communicate with one or more monitoring servers 8 as well as authorities communication devices 9. The monitoring server(s) 8 may receive information and commands from the base station 1, such as alarm and other conditions sensed at the building 3, and take suitable action including sending information and commands to the base station 1, authorities devices 9, and others. For example, the base station 1 may send to the monitoring server(s) 8 information indicating an alarm condition related to unauthorized entry into the building 3, and in response the monitoring server(s) 8 may notify authorities (e.g., fire, police, etc. via the authorities communication devices 9) of the alarm condition along with other information such as the suspected point of entry into the building 3, etc. The monitoring server(s) 8 may also notify a user of sensed conditions by communicating with a user device 5, such as a smartphone, computer or other communication device. As with other communications in the alarm system, the monitoring server(s) 8 may communicate with other devices via any suitable communications network or other channel, such as wired or wireless networks, Internet, cellular telephone, satellite, etc. The monitoring server(s) 8 may provide other functions as are known in the art. For example, the monitoring server(s) 8 may relay video and/or audio information received from a camera at the building 3 to the user device 5, which may display the video and/or audio information to the user. This may, for example, allow the user to observe and communicate with a visitor at the building 3 who is seeking entry to the building 3. The user 5 may also provide commands to the monitoring server(s) 8, such as instructions to cancel an alarm state at the building 3, and the monitoring sever(s) 8 may provide suitable commands to the base station 1 accordingly. Although in this embodiment the user device 5 communicates with the base station 1 and other devices at the building 3 (such as cameras, microphones, etc.) via the monitoring server(s) 8, the user device 5 may communicate more directly with the base station 1 and/or other devices at the building 3. As an example, the user device 5 may communicate directly with an audio/video recording and display device (e.g., a camera, speaker and microphone that is part of a doorbell at the building 3) to receive audio/video data recorded from the building 3, as well as provide audio/video data for display at the building 3. Similarly, the base station 1 may communicate more directly with authorities devices 9 and/or other devices rather than via the monitoring server(s) 8. This may, for example, allow the base station 1 to relay alarm state messages to the authorities devices 9 even if communication with the monitoring server(s) 8 is interrupted.

In this embodiment, the building 3 is equipped with one or more door locks 2 that are arranged to engage to lock an associated door 31 in a closed position, and to disengage to unlock the door 31. The door lock 2 may be configured to receive commands or other information, such as a command to move a bolt, latch or other mechanism to lock or unlock the associated door 31 in a closed position. In this embodiment, the door lock 2 may communicate with a lock server 51 to send and receive commands and other information.

The lock server 51 may manage operation of the door lock 2 as well as communications with the user device 5 via which the user may provide instructions for lock operation and/or receive information from the door lock 2, such as whether the door lock 2 is engaged to lock a door 31 or not. While in some embodiments the functions of the lock server 51 may be performed by the monitoring server(s) 8, in this embodiment the door lock 2 is capable of operating and being operated independently of the alarm system although the door lock 2 can coordinate at least some of its functions with the base station 1 as described more below. Thus, a user, e.g., interacting with an application running on the user device 5, may provide instructions to the lock server 5 to lock or unlock the door 31 and/or receive information regarding door lock 2 status and other conditions, and the lock server 51 may provide suitable information or commands to the door lock 2. The door lock 2 may communicate with the base station 1, either directly via a local network (e.g., Wi-Fi) or other communications channel, or more indirectly via the lock server 51 which may communicate with the monitoring server(s) 8 via the Internet or any other suitable communications network(s) or channels. Thus, the base station 1 may receive information from the door lock 2, such as whether the door lock 2 is engaged or not to lock the door 31 in a closed position. As noted above, the alarm system may include sensors to detect various conditions at the building 3, and FIG. 1 shows one such sensor, i.e., a door sensor 12 that can detect whether the door 31 is in an open or closed position. The door sensor 12 may be part of the door lock 2, or may be independent of the door lock 2, e.g., part of the alarm system such that the door sensor 12 communicates to the base station 1 whether an associated door is open or closed. Therefore, the base station 1 may receive information regarding whether the door 31 is in an open or closed position as well as whether the door lock 2 is engaged or not to lock the door 31 in a closed position.

In accordance with an aspect of the invention, the base station may be configured and arranged to enter an armed state in response to a signal from the door lock indicating that the door lock is unable to engage to lock the door in the closed position. This may occur, for example, when a user sends a command to the door lock 2, e.g., via the user device 5 and the lock server 51, to engage to lock the door 31 associated with the door lock 2, but the door lock 2 is unable to engage to lock the door. Normally, when the door lock 2 receives a command to engage to lock an associated door 31, the door lock 2 will properly engage. However, in some cases the door lock 2 may not be able to engage to lock the door, e.g., because the door 31 is closed but not positioned properly so that a lock bolt, latch or other mechanism can move to lock the door 31. This can occur with almost any type of door, but potentially more often with older doors which can be closed but still not properly positioned to allow a door lock mechanism to engage. In some embodiments, the door lock 2 may request assistance from the user to properly position the door 31 so the lock 2 can engage or otherwise notify the user of the failure to engage, e.g., by sending a message to the user device 5. In other cases, for example, the door lock 2 may have insufficient electrical power to engage a bolt, latch or other lock mechanism, or there may be other causes for why the door lock 2 cannot properly engage to lock an associated door. In such cases, the user may believe the door was locked even though the door lock 2 could never properly engage. By having the base station 1 enter an armed state when a door 31 is closed but a door lock 2 fails to engage as commanded, the base station 1 can monitor movement of the door 31 and indicate an alarm state if the door 31 moves from the closed to the open position. In this way, opening of the unlocked door 31 can cause the alarm system to enter an alarm state in which an alarm condition may be signaled, e.g., by sounding a siren, notifying authorities, notifying a user, etc.

The armed state that the base station 1 enters in response to a signal indicating that a door lock cannot engage to lock a door may be configured in a variety of different ways. In one embodiment, the armed state is one in which the base station indicates an alarm state upon detection by a door sensor of the door (which could not be locked by the door lock) moving from the closed position to the open position. The alarm state of the base station can cause different actions or combinations of actions to occur. For example, the base station 1 may send a signal to the monitoring server(s) 8 that the door 31 has been opened, and in response the monitoring server(s) 8 may notify the user device 51 of the opened door 31, notify authorities via the authorities devices 9, etc. The base station 1 alternately or in addition may indicate an audible or visual alarm at the building 3, may activate an automatic door closer which urges the door toward a closed position, may display an audible request to close the opened door 31, may begin recording video and/or audio information from an area around the opened door 31, etc. The base station 1 may receive information regarding movement of the door 31 from the closed position to an open position in different ways, such as by a signal from a door sensor 12, from the door lock 2, by detecting movement of the door 31 via a movement sensor in a room of the building near the door 31, etc.

The armed state into which the base station 1 enters in response to failure of a door lock to engage to lock a door may also be arranged to cause the base station to indicate an alarm state in response to other sensed conditions in addition to movement of the unlocked door from the closed to the open position. For example, the armed state may be an“away” mode in which the base station generates an alarm state upon detection of the unlocked door moving from the closed position to an open position as well as upon one or more of the following: detection of movement within the building, detection of opening of a window of the building, detection of sound within the building, detection of breakage of glass at the building, detection of smoke and/or fire at the building, detection of people in or around the building, and detection of a low temperature or water at the building, and others. Thus, even if a user intended to only lock the door 31 but did not intend to arm the alarm system, if the door lock 2 fails to engage to lock the door 31, the alarm system may enter into an armed state that indicates an alarm state in response to a variety of different conditions in addition to opening of the unlocked door.

While an“away” mode may be effective if the door is to be locked when no people are in the building or intended to be in the building, the“away” mode may not be suitable for all situations. For example, if a user attempts to lock the door using the door lock 2 while a person is in the building, an“away” mode or other alarm mode that indicates an alarm state in response to movement within the building or other activity normally engaged in by authorized persons in the building may cause a false alarm. Therefore, in some embodiments, the base station may enter into a“home” mode in response to failure of a door lock to engage to lock a door. In one embodiment, the“home” mode may be one in which the alarm system generates an alarm state upon detection of the door moving from the closed position to an open position, but does not generate an alarm condition upon detection of movement within the building or other normal conditions when an authorized person is in the building, such as opening and closing of interior doors, opening a window, etc. This may help reduce the occurrence of false alarms. The“home” mode may still indicate an alarm condition for other sensed conditions, e.g., conditions that relate to safety of individuals at the building, such as smoke or fire at the building, low temperatures or water at the building, etc.

In some cases, a user may select to have the alarm system enter an away mode or home mode in response to failure of a door lock to engage. For example, the base station may initially enter a home mode upon indication that a door lock fails to engage to lock a door. However, if the base station fails to detect movement or other activity in the building indicative of the presence of authorized persons at the building for a time period after the indication of the door lock engagement failure (e.g., 15 seconds to 5 minutes or more), the base station may switch to an away mode. Alternately, the base station may initially enter an away mode upon indication of a door lock’s failure to engage to lock a door, and then switch to a home mode if movement or other normal activity is detected within the building within a particular time period.

FIG. 2 shows a close up view of the building of FIG. 1 and additional, optional sensors that may be included with the alarm system in some embodiments. Although other arrangements are possible, the alarm system in FIG. 2 includes one or more keypads 11 that a user may employ to provide information to and/or receive information from the base station 1. For example, the keypad 11 may have a number pad or other arrangement to allow a user to enter an alphanumeric string or other code to the base station 1, e.g., to place the base station 1 in an armed or unarmed state, to configure the alarm system in one or more ways, to silence or initiate an alarm state, to communicate with the monitoring server(s) 8 and/or authorities devices 9, to provide a code to the door lock 2 to unlock an entry door, etc. As an example, if a user enters the building 3 while the alarm system is in an armed state, the user may employ the keypad 11 to enter an entry code or other information to prevent the alarm system from indicating an alarm state, e.g., in which authorities are notified of an alarm condition. One or more keypads 11 may be provided within or outside of the building 3, as desired. In addition, or alternately, a user may interact with the base station 1 via the user device 5, e.g., a keypad 11 may be implemented via a user interface on the user device 5.

In one aspect of the invention, the alarm system may be arranged to enter an armed state and a door lock engaged to lock an associated door in response to a user pressing a single button, e.g., on a keypad 11, and/or in response to use of a specific code, e.g., to gain access to the building 3. As an example, a user may press a single button on a keypad 11 after entering the building 3 so that the base station 1 enters an armed state (e.g., a home mode) and one or more door locks 2 are engaged to lock their associated doors 31 in a closed position. Where door locks 2 are not fully integrated with the alarm system, the base station 1 may send a signal to the door lock(s) 2 at the building instructing the door lock(s) 2 to engage to lock their associated doors 31 in response to button press on the key pad 11. Such a signal may be sent directly from the base station 1 to the door lock(s) 2, or via the monitoring server(s) 8, lock server 51, and/or other devices via any set of suitable

communication channels. Such an arrangement may allow a user to easily and rapidly re-arm an alarm system as well as lock any unlocked doors in a single action.

As another example, a user may enter a particular code into a keypad 11 to gain access to the building 3 (e.g., to place the base station 1 in an unarmed state so doors can be opened without triggering an alarm condition and/or to unlock an entry door) and thereafter the base station 1 may automatically enter an armed state and one or more door locks 2 may automatically engage to lock their respective doors 31. These rearming and lock engagement features may be activated automatically without further action required by the user and may allow for easier and more foolproof arming of an alarm system and locking of doors for particular users. As an example, a child may be associated with a specific code to gain access to a building 3. Thus, the child may use the code, e.g., with a keypad 11, keyfob, or user device 5, to cause the base station 1 to enter an unarmed state and/or to unlock an entry door 31 so the child can enter the building 3 without triggering an alarm condition. Thereafter, the base station 1 may enter an armed state and door locks 2 may engage to lock respective doors 31, e.g., after a period of time has elapsed since the code was used, after a door 31 was opened and closed by the entering child, or other condition that indicates the child has entered the building 3 and the alarm system can be rearmed and doors locked. This may help ensure that an alarm system is armed and doors locked after a child has returned home, thereby avoiding any potential problem that a child may forget to lock doors and rearm the alarm system. Of course, these features may be employed for any user, regardless of the user’s age.

As another example, use of a single button by a user whether on a keypad 11, user device 5 or other user interface with the base station 1 or door lock 2 may allow a user to more simply and reliably both arm an alarm system and lock doors of a building 3. This feature may be particularly useful if door locks 2 at the building 3 are not fully integrated with the alarm system. That is, door locks 2 may be provided separately from an alarm system, and may be operated independently of the alarm system. For example, a user may enjoy regular use of remote activated door locks 2 via a user device 5 and the lock server 51, but may use an alarm system less frequently. Thus, a user may interact with the alarm system less than the door lock system, and the door lock system may have a completely separate interface (whether on the user device 5 or other interface) than the alarm system. By providing the user with a single button to activate to both arm an alarm system and lock building doors, the user may be ensured that both functions are employed. As an example, the user interface on the user device 5 for the door lock 2 (or the alarm system) may include a single button (via touch screen or other interface like a keypad 11) that a user can activate to arm the alarm and lock doors. The user may receive feedback from the base station 1 and the door locks 2 that the alarm system is suitably armed and doors locked, all in response to a single action by the user.

As with other embodiments, the armed state into which the base station 1 enters in response to single button activation and/or specific code use may be arranged in different ways. For example, in the armed state, the base station may indicate an alarm state in response to one or more of the following: detection of movement within the building, detection of opening of a window of the building, detection of opening of a door of the building, detection of sound within the building, detection of breakage of glass at the building, detection of fire in the building, detection of people in or around the building, and detection of a high/low temperature or water at the building and others. As noted above, the armed state may be an“away” mode or“home” mode or other configuration for the alarm system in which different sensed conditions cause the base station to indicate an alarm condition. FIG. 2 shows a variety of different sensors that may be employed by the alarm system to detect conditions at the building 3, such as a door sensor 12 to detect whether a door is in an open or closed position, a window sensor 13 to detect whether a window is opened or closed, a camera 14 which may detect visual and/or audible information at the building 3 such as the presence of persons or noise at the building, a motion sensor 15 which can detect motion of persons or objects but not necessarily detect video information, a microphone 16 or other sound detector which can detect noises such as breaking of glass, loud impacts such as hammering, talking by people, etc., a smoke (including carbon monoxide) and/or fire detector 17, a siren 18 to make audible sounds such as to indicate an alarm condition, a temperature and/or water sensor 19 to detect a temperature and/or the presence of water in abnormal locations, and others. The base station 1 may be in

communication with all of the sensors at the building, and may be arranged to record sensor information, such as video or other data for later review by a user. Those of skill in the art will appreciate the variety of sensors that may be employed with an alarm system, and how the information detected by the sensors may be used, recorded or otherwise handled for use with the alarm system.

In another aspect of the invention, a door lock may be arranged to disengage to permit movement of an associated door from a closed position to an open position in response to a first responder code received only during a period after the base station indicates an alarm state. For example, the alarm system may indicate an alarm state in response to an emergency condition including detection of smoke (including carbon monoxide) or fire at the building, detection of forced entry into the building, or detection of a medical emergency at the building, and during a period after the alarm system indicates the alarm state indicative of an emergency condition, a door lock may disengage from a locked state to an unlocked state in response to receipt of a first responder code. As a result, the door lock may allow first responder personnel, such as fire or medical personnel, access to the building in case of an emergency condition, such as a fire, forced entry and/or injury to a person in the building. During other times, such as when the alarm system is armed but not indicating an alarm state, a first responder code may not cause the door lock to disengage from a locked state. This may give users of the alarm system, including people who dwell in the building, comfort that no person - including police and fire personnel - can gain access to the building by using a first responder code unless the alarm system is indicating an alarm condition. Also, by having the door lock disengage from a locked to an unlocked state in response to a first responder code, rather than simply in response to the alarm system indicating an alarm state, the building can be secured against unauthorized entry, especially conditions created by a person seeking unauthorized entry. For example, some alarm systems may operate to unlock doors to the building in response to an alarm system indicating an alarm state. However, such a system can be exploited, e.g., by a thief introducing smoke into the building, thereby causing the smoke to be detected by the alarm system and doors to be unlocked in response to the alarm condition. In contrast, having a door lock disengage from a locked to an unlocked state in response to a first responder code avoids such problems.

The first responder code can be provided to cause a door lock to disengage in different ways, including ways that reduce or eliminate any time between first responder arrival at the building and unlocking of a door so personnel can gain entry to the building. For example, first responder personnel may be provided with a key fob, access card or similar device that can communicate a first responder code to a door lock. The key fob or other device can provide the first responder code via wired or wireless communication, such as by plugging the key fob into a reader or other communications interface that communicates the first responder code to the door lock. Such systems can be implemented using RFID tags, card readers or similar communications systems. In other embodiments, the first responder code can be typed, spoken or otherwise entered by first responder personnel, e.g., using a key pad or other user input at the building. The first responder code may be provided in encrypted form, e.g., when communicated electronically via wired or wireless communications, to help reduce a chance that unauthorized people can gain access to or otherwise use the first responder code in an unauthorized way. In some embodiments, the first responder code may be provided for single event or alarm condition use such that the first responder code can only be used during a single, associated alarm condition or a single time. For example, upon an alarm system detecting an emergency condition, the alarm system (e.g., a base station 1 or a monitoring server 8 or lock server 51 which receives notice of an alarm condition from the base station 1) may generate and send a unique first responder code to first responder personnel (e.g., directly to first responder personnel communication devices via a wireless network, and/or via the authorities communication devices 9). When first responder personnel arrive at the building, the personnel may provide the first responder code to the alarm system and/or door lock, e.g., via short range RF communications, manually entering the code into a user interface, displaying the code for optical reading by the alarm system or door lock, etc. After the first responder code generated for the alarm condition is used to gain access, the code may expire and not be usable again for another alarm condition. In some embodiments, the first responder code may expire once the alarm condition that prompted sending of the first responder code is cleared. Thus, the code may be used multiple times during a single emergency condition, but once the alarm condition is cleared, the code may be made invalid. In some embodiments, the first responder code may be valid and usable only once or for a period of time, such as 30 minutes, after an alarm condition is indicated by an alarm system, even if the alarm condition is cleared. After the period of time, the code may be invalid.

The alarm system may detect an emergency condition in a variety of different ways. For example, a base station may receive information from one or more sensors arranged to detect a person’s vital signs, and if the information indicates a medical emergency, such as an indication of a pulse rate above or below a particular range, or breathing rate above or below a particular range, or blood pressure above or below a particular range, or other characteristic of a person that indicates a medical emergency, the base station may indicate an alarm condition indicative of a medical emergency. In response, the base station 1 or monitoring server 8 can provide information to authorities communication devices 9, e.g., to summon medical personnel to the building 3, and/or to the lock server 51, which sends a signal to the door lock 2 indicating that a first responder code is usable to gain entry to the building 3. As noted above, a first responder code may be sent to first responder personnel, e.g., from the lock server 51 to the authorities communication devices 9, and/or to the door lock 2 so that the first responder code can be used to cause the door lock 2 to disengage. In other embodiments, an alarm system can detect an emergency condition in response to a signal from a user device that is activated by a person, e.g., the user device may include a panic button and when a user presses the panic button, the user device may send a signal from the user device to the base station indicating an emergency condition. The alarm system may detect an emergency condition in other ways, such as based on information from one or more sensors such as a smoke or fire sensor, and so on. As an example, in the case of a forced entry emergency condition, detection of movement of a locked door from a closed to open position, breakage of door or window glass, movement within the building when the alarm system is in an away or other similar mode, and others, may be used to detect an emergency forced entry condition.

The alarm system may be capable of detecting other alarm conditions in addition to smoke/fire, forced entry and emergency medical conditions, although an alarm state indicated by the alarm system may not enable use of a first responder code to gain access to the building. For example, the alarm system may include one or more sensors to generate a signal representing one or more of the following: detection of movement within the building, detection of opening of a window of the building, detection of sound within the building, detection of breakage of glass at the building, detection of people in or around the building, and/or detection of a low temperature or water at the building. When in an armed state, the base station or other alarm system component may indicate an alarm state based on a signal from the one or more sensors, such as breakage of glass. However, such an alarm state may not enable use of a first responder code to gain access to the building. In some embodiments, a user may set which alarm states can enable use of a first responder code to gain access to a building. For example, certain alarm states may cause the alarm system to notify police or other authorities, such as sensed conditions that indicate a break-in to the building, and for such alarm states, a first responder code may be authorized for use to gain entry to the building. However, other alarm states, such as sensed conditions that indicate water in the building or a low temperature, may not cause the alarm system to notify authorities and so no first responder code is needed. As another example, sensed conditions at the exterior of a building, such as unauthorized movement of people around a building, may cause the alarm system to indicate an alarm state but access to the building interior is not necessary for police or other first responder personnel. In such cases, a first responder code need not be authorized for use.

Each of the components in FIGs. 1 and 2 may be implemented, at least in part, by a suitably programmed computer or other data processor, and may be employed in the form of software modules, ASICs, programmable arrays, or any other suitable arrangement, in addition to hardware components. For example, computer- implemented portions of the base station 2, door lock 2, monitoring server 8, authorities devices 9, lock server 51, etc. may be implemented at least in part as single special purpose integrated circuits (e.g., ASICs), or an array of ASICs, each having a main or central processor section for overall, system-level control and separate sections dedicated to performing various different specific computations, functions and other processes under the control of the central processor section, as a plurality of separate dedicated programmable integrated or other electronic circuits or devices, e.g., hardwired electronic or logic circuits, such as discrete element circuits or programmable logic devices, as a programmed general purpose computer and/or other data processing device along with suitable software or other operating instructions, one or more memories (including non-transient storage media that may store software and/or other operating instructions), and so on. The devices may also include other components, such as an information display device, user input devices (such as a keyboard, user pointing device, touch screen or other user interface), data storage devices, communication devices, a power supply for the control circuitry and/or other system components, temperature and liquid level sensors, pressure sensors, RFID interrogation devices or other machine readable indicia readers (such as those used to read and recognize alphanumeric text, barcodes, security inks, etc.), video recording devices, speakers or other sound emitting devices, input/output interfaces (e.g., such as the user interface to display information to a user and/or receive input from a user),

communication buses or other links, a display, switches, relays, triacs, motors, mechanical linkages and/or actuators, or other components necessary to perform desired input/output or other functions.

While aspects of the invention have been described with reference to various illustrative embodiments, such aspects are not limited to the embodiments described. Thus, it is evident that many alternatives, modifications, and variations of the embodiments described will be apparent to those skilled in the art. Accordingly, embodiments as set forth herein are intended to be illustrative, not limiting. Various changes may be made without departing from the spirit of aspects of the invention.